Bachelor's Degree Program

Molecular Biotechnology

full-time

 

Molecular Biotechnology

This natural sciences degree program provides a broad practical training in medical biotechnology. Molecular biological techniques are used to research causes, diagnosis and treatment of diseases such as cancer. In addition to applications in the medical field, molecular biotechnology is also used in the development of vaccines and active pharmaceutical ingredients. With the help of genetic engineering, cells are manipulated in such a way that they produce therapeutic proteins such as insulin and vaccines. As a graduate, you will be a biotechnological generalist with entrepreneurial skills and as a scientific/technical assistant you will be active in research and development.

Department
Applied Life Sciences
Topic
Technologies

Highlights

  • Focus on medical biotechnology

  • R&D-Projects in cooperation with Universities and Companies: allergy research, cell-based test systems and cellular signaling pathways

     

    Facts

    Final degree

    Bachelor of Science in Natural Sciences (BSc)

    Duration of course
    6 Semesters
    Organisational form
    full-time

    Tuition fee per semester:

    € 363,361

    + ÖH premium + contribution2

    ECTS
    180 ECTS
    Language of instruction
    German

    Application winter semester 2025/26

    01. January 2025 - 16. March 2025

    Study places

    60

    1 Tuition fees for students from third countries € 727,- per semester. Details on tuition fees can be found in the general fee regulations.

    2 for additional study expenses (currently up to € 83,- depending on degree program and year)

    Before the studies

    Your strengths lie in biology, chemistry and mathematics. You are interested in natural sciences, medicine and their related technologies. This includes bioinformatics. With a strong spirit of innovation you question existing applications. You want to develop them further and discover new technologies. You want to apply your manual skills in the laboratory to help people. You are a structured thinker and like to examine things extremely closely and you have the patience to take the many necessary steps to reach your findings. You are aware that alone you can achieve a lot, and in a team you can achieve everything. The fact that English is the language of life sciences awakens your linguistic ambition.

    Why you should study with us

    Study place = lab place

    Sharing is good, however, not your lab space, please. You are guaranteed your own.

    Highly sought-after knowledge

    What you learn here is crucial to solving global problems.

    International network

    Going abroad for an internship or a job: this is the next logical step when studying with us.

    Relevant admission requirement

    You need a general university entrance qualification, proven by

    • Austrian secondary school leaving certificate (AHS, BHS, vocational higher education entrance qualification) or
    • Austrian certificate of a limited higher education entrance qualification for the respective group of studies or
    • equivalent foreign certificate or
    • certificate of completion of at least three years of study with 180 ECTS credits at a recognized domestic or foreign post-secondary educational institution ,

    or a relevant professional qualification with additional examinations.

    Further details

    Limited higher education entrance qualification

    In addition to an essay on a general topic (German), the following compulsory subjects for university degree programs are required for admission according to StudBerG:

    • German and English - level B2 according to the Common European Framework of Reference for Languages (CEFR)
    • biology level 1
    • chemistry level 2
    • mathematics level 2

    Information can be found on the website of the Federal Ministry of Education, Science and Research.

    Limited higher education entrance qualifications for one of the following university degree programs are recognized as admission requirements. This is based on the subject areas and limited higher education entrance qualifications defined by the University of Vienna:

    • natural sciences: biology
    • chemistry
    • nutritional sciences
    • pharmacy
    • subject area biology and environmental studies

    Relevant professional qualification with additional examinations

    • apprenticeship group 1 - chemical laboratory technician: required additional examinations in biology and mathematics
    • apprenticeship group 2 - biology laboratory technician (applies to Germany and Switzerland): required additional examinations in chemistry and mathematics

    Proof of the additional examinations must be provided at the beginning of the semester in which lectures are held that require mastery of the subject matter of the respective additional examination.

    Language requirements for admission

    The required language level according to the Common European Framework of Reference for Languages (CEFR) is at least

    • German - level B2.

    Legalization of foreign documents

    Applicants may require legalization of documents from countries other than Austria in order for them to have the evidential value of domestic public documents. Information on the required legalizations can be found here in PDF format.

    Translation of your documents

    For documents that are neither in German nor English, a translation by a sworn and court-certified interpreter is required. Your original documents should have all the necessary legalization stamps before translation so that the stamps are also translated. The translation must be firmly attached to the original document or a legalized copy.

    Online application - uploading documents

    As part of your online application, upload scans of your original documents including all required legalization stamps. For documents not issued in German or English, scans of the corresponding translations must also be uploaded. The head of the study program decides on the equivalence of international (higher) education qualifications. Therefore, your documents can only be checked as part of the ongoing application process.

    Your path to studying at FH Campus Wien begins with your registration on our application platform. In your online account, you can start your application directly or activate a reminder if the application phase has not yet started.

    There are 60 places available each year on the Bachelor's degree program Molecular Biotechnology. The ratio of study places to applicants is currently approx. 1:4.

    Documents for your online application

    1. Proof of identity
      • passport or
      • identity card or
      • Austrian driving license (proof of citizenship required) or
      • residence permit (proof of citizenship required)
    2. Proof of change of name, if applicable (e.g. marriage certificate)
    3. Proof of fulfillment of the relevant admission requirement
      • Austrian secondary school leaving certificate (AHS, BHS, vocational higher education entrance qualification) or
      • Austrian certificate of a limited higher education entrance qualification for the respective group of studies or
      • equivalent foreign certificate or
      • certificate of completion of at least three years of study with 180 ECTS credits at a recognized domestic or foreign post-secondary educational institution 
      • proof of relevant professional qualification
      • If you do not currently have a certificate, please upload your complete certificate (all pages) from the last completed school level.
    4. Proof of German level B2 according to the Common European Framework of Reference for Languages (CEFR). The following apply as proof:
      • secondary school leaving certificate from a German-language school
      • completion of at least three years of studies in German
      • supplementary examination pre-study course - German B2
      • German certificate (not older than 3 years), e.g.:
        • Austrian German Language Diploma: ÖSD Certificate B2
        • Goethe Institute: Goethe Certificate B2
        • telc: German B2
        • German language test for university admission for foreign applicants: DSH-2
        • German Language Diploma of the Standing Conference of the Ministers of Education and Cultural Affairs of the Länder in the Federal Republic of Germany: DSD II
        • Test of German as a foreign language (Test DaF): Level TDN 4 in all parts
        • Language Center of the University of Vienna: Course and successfully passed exam at level B2
        • Proof of a higher language level is also valid.
    5. Letter of motivation in German (max. 1 page)
    6. Curriculum vitae in tabular form in German
    7. Legalizations and translations, if applicable (see tab “Foreign documents and degrees”)

    After completing your online application, you will receive an email with information on the next steps. This email confirms that your application has been successful and entitles you to take the written entrance test. Please note that you will receive an invitation to the written entrance test after the application deadline at the earliest.

    Important: The application documents will be checked for completeness. Applicants with incomplete applications will not be considered for the admission procedure. We ask for your understanding that during the application phase, email inquiries can only be answered to a limited extent for organizational and time reasons. 

    The admission procedure consists of a written test and an interview with the admission committee.

    • Aim
      The aim is to ensure places are offered to those persons who complete the multi-level admission procedure with the best results. The tests are designed to assess the skills needed for the intended profession.
    • Procedure

      If the application documents are fully provided and meet the admission requirements, you will be invited to participate in the first part of the admission procedure. The first part is a written admission test on the computer on site.

      You will complete a multiple choice test to assess your basic knowledge of (molecular) biology, mathematics and chemistry and test your ability to think logically. Test content: The test covers knowledge based on general secondary school (AHS) text books and general knowledge. Questions will cover the basics of mathematics and chemistry (AHS upper level knowledge) and basic knowledge of cell biology. Botany and zoology are not relevant.

      For the written admission test, which takes place at the main location of the FH Campus Wien, your personal presence in Vienna is required.

      After positive completion of the written admission test, you will be invited to the second part of the admission procedure, which is planned as an online interview.

      An average of 120 applicants are invited to this phase of the admission procedure. The focus is on motivation, performance behavior, problem solving, ability to reflect, understanding of the profession, etc. The interview will be conducted with an online meeting tool.

      The test and the interview are scored and ranked.

    • Criteria
      The criteria for acceptance are based solely on performance. The geographical origin of the applicant or even a re-application has no influence on the admission decision. The admission requirements must be met in all cases. Applicants are evaluated according to the following weighting system:

      • Admission test (60%) and
      • Admission interview (40%)

      The admission committee (which comprises, among others, the head of the academic section and representatives of the teaching staff) awards places to the applicants who score highest in the tests. The process as a whole and all test and assessment results from the admission procedure are documented in a transparent and verifiable manner.

    Participation in the selection process is mandatory and cannot be made up for on a separate date.

    Waiting List
    Based on the number of points achieved in the selection process, you will also be placed on the waiting list. If after the selection process you are put on the waiting list, depending on the number of people who refuse acceptance and the number of places available, it is possible that you will be offered a place in the degree program for the current winter semester. This usually takes place at very short notice and cannot be determined in advance. We ask for your understanding that for organizational reasons no information can be given about your current place on the list and you will be informed immediately if you are offered a place in the degree program.

    Rejection by the Degree Program
    If you receive a rejection after the selection process, you can reapply for the next winter semester as soon as the application window is open. You will have to apply online again, resubmit all the necessary documents and go through the entire selection process again.

    Acceptance
    You will be informed by email about the acceptance for a place in the degree program. You will be sent the education and training contract and various regulations by email. You must sign and return the contract by the specified deadline in order to secure and accept your place in the degree program. The invoice for the tuition fee will be sent to you separately from the accounting department. This may take some time. The timetable is expected to be activated one to two weeks BEFORE the start of the semester. All other study-relevant information will either be sent to you by email or you will be given the information during the starting event at the beginning of the academic year.

    Rejection by Applicants
    If you do not want to or cannot accept your place at the university, we ask you to please inform the office of the degree program as soon as possible via biotechnologie@fh-campuswien.ac.at. Your place will then be assigned to the next in line. Rejection or withdrawal from the education and training contract are only accepted in writing.

    Application winter semester 2025/26: 1st January to 16th March 2025
    Written admission test: expectedly calendar week 14, 2025
    Interviews: expectedly calendar weeks 17/18, 2025

    Semester dates
    Winter semester 2024/25: 4th September 2024 to 31st January 2025
    Summer semester 2025: 10th February to 26th July 2025
    Winter semester 2025/26: starting 4th September 2025

    Perhaps your qualifications exceed our admission requirements, you are interested in the possibility of joining the program at a higher semester or you hold a degree from a university abroad?

    Shortening the Duration of Studies
    For applicants who have a certain amount of knowledge relevant to the course, there is the possibility to start directly in the 3rd semester AFTER passing relevant additional exams.

    Under certain conditions, there is the possibility that graduates of the HTL for Chemistry/Rosensteingasse (biochemistry and molecular biotechnology) as well as the private HTL for food technology can enter the third semester directly by means of additional exams and depending on the availability of places in the degree program in the 3rd semester.

    The timely submission of the application documents and participation in the admission process is mandatory.

    Changing Your Degree Program
    Applicants who want to change or are changing their degree program with their application must submit all report cards and certificates in the course of the application. Any crediting of exams must be checked individually and primarily have no effect on the admission procedure.


    During your Studies

    You will study and conduct research in state-of-the-art lecture rooms and laboratories. In addition, your education and research will benefit from our close partnerships with the University of Vienna and the Medical University of Vienna. We have built a strong international network that offers you the opportunity to complete an internship or to study at prestigious universities such as King's College or Imperial College in London, which are among the top 10 universities in the world. You can undertake an internship in one of our many R&D projects which will give you the opportunity to experience application-oriented research first-hand as well as the chance to make valuable contacts for your future career. Contact to job-related topics is also guaranteed at our Campus Lecture evenings, which are open to all and feature contributions from prominent experts in fields related to the degree program.

    Through your practice-oriented education, you will learn to develop and apply new recombinant active pharmaceutical agents and vaccines as well as stem-cell and gene therapies for the treatment of diseases such as cancer or Alzheimer's disease. Recombinant proteins are produced biotechnologically by inserting foreign DNA into cells so that they then produce the desired proteins. The focus of the degree program is the cell: you will learn the key cell-signaling pathways and processes in detail. Your main interest is the genome.

    You will learn how this important part of the cell, which contains the complete genetic information of an organism, works in both healthy and diseased systems. In this degree program we guarantee you a place in a fully-equipped, state-of-the-art laboratory and the opportunity to participate in an R&D project of the Department of Molecular Biotechnology or a partner institution as part of an extensive internship in research areas such as allergy research, cell-based test systems and signaling pathways of the cell.

    The degree program combines comprehensive expertise in natural sciences and technology with quality and process management. You will enjoy an intensive process-oriented education. Your highly application-oriented education will be rounded out by the fundamentals of economics and law, laboratory courses and seminars.

    • You will study human biology, cell and molecular biology, functional genomics as well as general, analytical and organic chemistry. Mathematics and bioinformatics will complement your methodical skills.
    • You will undertake extensive laboratory courses in small groups. You will apply the methods of scientific working when completing your bachelor’s thesis.
    • You will acquire management skills in the fields of quality management, good laboratory practice (GLP) and clinical testing.
    • You will acquire the fundamentals of marketing and communication.

    Curriculum

    Module Biology Basics
    5 SWS
    8 ECTS
    General Biology | VO

    General Biology | VO

    2 SWS   3 ECTS

    Content

    Starting with the question, "What is life?", chemistry is discussed as the basis for life (biomolecules, energy production, metabolism). Darwinian evolution, forces and mechanisms of evolution, speciation and origin of life follow. Hierarchy of life, relatedness of organisms, sequence comparisons at DNA and protein levels. Structure of prokaryotic and eukaryotic cells, reproduction and inheritance. Milestones in the history of life on our planet. Evolution of man.

    Teaching method

    Presenting method

    Examination

    Final exam: Final written examination

    Literature

    • Sadava, D., Hillis, D.M., Heller, H.C. & Berenbaum, M.R.: Life: The Science of Biology, 10. Sinauer Associates W.H. Freeman & Company
    • Sadava, D., Hillis, D.M., Heller, H.C. & Berenbaum, M.R.: Purves Biologie, Spektrum
    • N.A. Campbell, J.B. Reece: Biologie, Pearson

    Teaching language

    Deutsch-Englisch

    2 SWS
    3 ECTS
    General Cell Biology | VO

    General Cell Biology | VO

    1.5 SWS   2 ECTS

    Content

    Characteristics of cells. Differentiation between Archaea and Bacteria, between prokaryotic and eukaryotic cells. Origin of eukaryotic cells, differences between plant and animal cells. Characteristics of eukaryotic cells using examples from the kingdom of protists, fungi, animals and especially from tissues of seed plants. Basics of plant anatomy. Cell cycle and basics of division of eukaryotic cells by mitosis. Overview of operation and application of various microscopic techniques: Bright field, dark field, polarization, phase contrast, fluorescence, electron microscopy and flow cytometry and sample preparation for these methods.

    Teaching method

    Presenting method

    Examination

    Final exam: Written Exam

    Literature

    • Markl, Jürgen (Hrsg.): Purves Biologie. Spektrum Akad. Verlag
    • Göke, Gerhard: Moderne Methoden der Lichtmikroskopie, Kosmos
    • Braune, Wolfram: Pflanzenanatomisches Praktikum I. Spektrum Akad. Verlag
    • Georg Fuchs (Hrsg.): Allgemeine Mikrobiologie, Thieme
    • Online: Universität Wien: Lichtmikroskopie online – Theorie und Anwendung. Abrufbar unter: www.univie.ac.at/mikroskopie/index.htm (24.01.2022)

    Teaching language

    Deutsch-Englisch

    1.5 SWS
    2 ECTS
    Microscopy Laboratory | UE

    Microscopy Laboratory | UE

    1.5 SWS   3 ECTS

    Content

    Eucaryotic cells from protista, Plantae, Animales, Funghi alive and prepared.
    Procaryotic cells.
    Subcellular structures in light mikroskop.
    Preparationmethods for microskopy, staining methods.
    Dokumentation of microscopic analysis.
    Scanning electron microscopy, transmission electron microscopy.

    Teaching method

    Practical exercise and training with additional demonstrations.

    Examination

    Continuous assessment: Course with inherent examination character. Assessment criteria are the continuous personal participation and engagement during the practical courses as well as the quality of lab reports that have to be done.

    Literature

    Göke G.: Moderne Methoden der Lichtmikroskopie, Kosmos, ISBN3440057658
    Braune W. et al: Pflanzenanatomisches Praktikum I, Spektrum, ISBN382740923
    Wanner G.: Mikroskopisch-Botanisches Praktikum, 2. Aufl., Thieme, Stuttgart 2010

    Teaching language

    Deutsch

    1.5 SWS
    3 ECTS
    Module Chemistry Basics
    9 SWS
    10 ECTS
    General Chemistry | VO

    General Chemistry | VO

    2 SWS   3 ECTS

    Content

    Atomic structure: structure of the atom, elementary particles, elements; isotopes; radioactive decay, (radioactive) displacement theorems, decay series. Atom models: Rutherford model, Bohr model, wave mechanical model. Periodic Table of the Elements: Periods and groups, major group elements and minor group elements, electron configuration of the elements, general connections of the periodic table. Bonds (with special consideration of the resulting spatial structure): Metallic bond, ionic bond, covalent bond, coordinate bond; intermolecular bonding forces; acid-base concept. Conservation laws and consequences: stoichiometry, energy and enthalpy, entropy, spontaneity of chemical reactions, redox reactions. States of matter and their regularities. Chemical equilibrium, law of mass action, acids / bases in detail, pH value.

    Teaching method

    Presenting method

    Examination

    Final exam: Written Exam

    Literature

    • Charles E. Mortimer, Ulrich Müller, Johannes Beck: Chemie: Das Basiswissen der Chemie, Thieme Verlag, Stuttgart.
    • Theodore L. Brown, H. Eugene LeMay, Bruce E. Bursten: Chemie: Studieren kompakt, Verlag: Pearson Studium, London.

    Teaching language

    Deutsch-Englisch

    2 SWS
    3 ECTS
    Analytical Chemistry | VO

    Analytical Chemistry | VO

    1 SWS   1 ECTS

    Content

    In several units the theoretical basics of wet chemical qualitative and quantitative analysis of inorganic and organic samples are taught: The first unit begins with the fundamentals of analysis. Thereafter, preliminary samples as well as individual detections of anions, cations as well as inorganic salts will be discussed, with a special focus on reaction equations and stoichiometry. In addition to the analysis of inorganic samples, the first basics of the wet chemical analysis of organic samples will be worked out. Besides elemental detections and the detection of functional groups, simple extraction and separation techniques based on selected organic compounds will be covered.

    Teaching method

    Presenting method

    Examination

    Final exam: Written Exam

    Literature

    • Jander/Blasius: Anorganische Chemie I – Theoretische Grundlagen und Qualitative Analyse. S. Hirzel Verlag Stuttgart
    • Jander/Blasius: Anorganische Chemie II – Quantitative Analyse und Präparate. S. Hirzel Verlag Stuttgart
    • Ehlers: Chemie I – Allgemeine und Anorganische Chemie. Deutscher Apotheker Verlag, Stuttgart
    • Mortimer/Müller: Chemie - Das Basiswissen der Chemie. Thieme Verlag, Stuttgart, New York

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Analytical Chemistry Lab | UE

    Analytical Chemistry Lab | UE

    6 SWS   6 ECTS

    Content

    The laboratory exercise program is divided into five modules. In the first part, simple laboratory techniques are explained and the preparation of reagent solutions is worked out together. In the second module, the separation and analysis of inorganic mixtures of anions and cations is carried out independently.

    Building on the skills acquired so far, inorganic solids as well as simple organic acids and their salts are prepared and identified in the 3rd module. Furthermore, the rapid identification of selected ions of toxicological interest using different semiquantitative test systems is presented. The 4th module of the laboratory exercise program is devoted to quantitative analysis using various volumetric methods. In the last module, students work on the calculation and preparation of practical buffer systems with the aid of pH meters.

    Type of protocol: Handwritten protocol of the individual experiments.

    Teaching method

    Mainly working out methods: e.g. guided practice tasks in the lab.

    Examination

    Final exam: Immanent examination character

    Literature

    • Jander/Blasius: Anorganische Chemie I – Theoretische Grundlagen und Qualitative Analyse. S. Hirzel Verlag Stuttgart
    • Jander/Blasius: Anorganische Chemie II – Quantitative Analyse und Präparate. S. Hirzel Verlag Stuttgart
    • Ehlers: Chemie I – Allgemeine und Anorganische Chemie. Deutscher Apotheker Verlag, Stuttgart
    • Mortimer/Müller: Chemie - Das Basiswissen der Chemie. Thieme Verlag, Stuttgart, New York

    Teaching language

    Deutsch

    6 SWS
    6 ECTS
    Module Fundamentals of Molecular Biotechnology
    2 SWS
    3 ECTS
    Molecular Biology & Genetics I | VO

    Molecular Biology & Genetics I | VO

    2 SWS   3 ECTS

    Content

    Students learn the basics of genetics and molecular biology. Genetics - Mendel, nucleic acids (DNA, RNA), genome structure, chromatin and nucleosomes, replication of DNA, mutations and repair mechanisms, homologous recombination, sequence-specific recombination, transposition.

    Teaching method

    Presenting method

    Examination

    Final exam: Final written examination

    Literature

    • Watson, J. D., Baker, T., Bell, S., Gann, A., Levine, M. & Losick, R.: Molekularbiologie, 6. Aktualisierte Auflage, Pearson
    • Sadava, D., Hillis, D. M., Heller, H. C. & Berenbaum, M. R.: Life: The Science of Biology, 10. Auflage, Sinauer Associates W.H. Freeman & Company
    • Sadava, D., Hillis, D. M., Heller, H. C. & Berenbaum, M. R.: Purves Biologie, Spektrum
    • N. A. Campbell, J. B. Reece: Biologie, Pearson,
    • Lernprogramm Genetik (Roche Genetics), F. Hoffmann-La Roche AG, Corporate Communications, Basel

    Teaching language

    Deutsch-Englisch

    2 SWS
    3 ECTS
    Module Mathematics/ Statistics
    3 SWS
    3 ECTS
    Mathematics in Biology I | ILV

    Mathematics in Biology I | ILV

    3 SWS   3 ECTS

    Content

    Elementary models of population dynamics: We study the deterministic behaviour of elementary large-ensemble models.

    - Exponential growth and its underlying geometric principle, logistic growth, short discussion of the dynamics of non-linear systems (Cobweb diagram).
    - Matrix models: Levkovich and Leslie models, Eigenvectors and Eigenvalues as tool to determine the asympotic behaviour of linear models.

    Teaching method

    Integrated Online Course

    Examination

    Continuous assessment: Short written exams on a regular basis. Written final report. Possibly additional oral exam to clarify questions.

    Literature

    E.N. Bodine, S. Lenhart, L.J. Gross; Mathemematics for the Life Sciences, Princeton University Press 2014.
    G. Ledder, Mathematics for the Life Sciences, Springer 2013.
    J. Adler, R in a Nutshell, O'Reilly 2009.

    Teaching language

    Deutsch-Englisch

    3 SWS
    3 ECTS
    Module Law and Economics
    3 SWS
    3 ECTS
    Business Economics | VO

    Business Economics | VO

    1 SWS   1 ECTS

    Content

    Starting from the concept of business administration and operations, the economic advantages and disadvantages of the different legal forms of companies are discussed. Regarding the operational organization, we deal with aspects of value creation as well as common key figures. This course revolves around strategic goals and management methods. Based on this, strategic marketing is presented first, followed by operational marketing. Subsequently, fields of action in personnel policy will be presented. The course concludes with the requirements of external accounting.

    Teaching method

    Presenting method

    Examination

    Final exam: Written Exam

    Literature

    • Hutzschenreuther, Thomas: Allgemeine Betriebswirtschaftslehre - Grundlagen mit zahlreichen Praxisbeispielen, Springer Gabler

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Public Law | VO

    Public Law | VO

    2 SWS   2 ECTS

    Content

    • Fundamentals of the constitutional state
    • Overview of the Austrian Federal Constitution
    • Democracy and its institutional expression
    • The administration
    • The rule of law
    • Federalism and the European Union
    • Trade law
    • Reproductive medicine law
    • Genetic engineering law
    • Animal protection law
    • Pharmaceutical law

    The basics of public law taught to students in a general section include, in particular, the basic principles of Austrian constitutional law, the structure of legislation, the types and principles of enforcement and the various possibilities of legal protection. The students learn relevant regulations concerning the commencement, exercise and termination of a commercial activity: classification of trades; prerequisites for exercising a trade (capacity to act under trade law, proof of qualification, etc.); scope of the trade license; exercise of trades (trade license, trade owner, tradeswoman/trader); loss of the trade license. Another focus in this context is the law on business facilities, where first the term "business facility" is defined and finally the licensing requirements for business facilities are discussed. On the basis of the conveyed constitutional and legal provisions of reproductive medicine law, organ transplantation law and the regulations for the protection of life, essential questions on the subject of "biomedicine" are discussed in connection with their ethical background. In the area of animal protection law, questions of animal experimentation law as well as those of animal protection law are dealt with. Within the framework of the presentation of the main features of genetic engineering law, the regulations for work in a contained system and the safety regulations that apply to this, as well as the regulations for the release and placing on the market of GMOs, are taught, among other things.

    Teaching method

    Presenting method

    Examination

    Final exam: Written Exam

    Literature

    • Stelzer, Manfred: Grundzüge des öffentlichen Rechts, LexisNexis Verlag Wien
    • Altenburger/Piska, Gewerbliches Anlagenrecht, in Kolonovits et al (Hrsg), Besonderes Verwaltungsrecht´2
    • Strejcek, Gewerbliches Berufsrecht, in Kolonovits et al (Hrsg), Besonderes Verwaltungsrecht´2
    • Steiner, Gentechnikrecht I: Grüne Gentechnik, in Kolonovits et al (Hrsg), Besonderes Verwaltungsrecht´2
    • Köchle, Gentechnikrecht II: Rote Gentechnik, in Kolonovits et al (Hrsg), Besonderes Verwaltungsrecht´2
    • Zeinhofer, Arzneimittelrecht, in Kolonovits et al (Hrsg), Besonderes Verwaltungsrecht´2
    • Dörflinger, Tierschutzrecht, in Norer (Hrsg), Handbuch des Agrarrechts 

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Module Scientific, Social and Communication Skills
    3 SWS
    3 ECTS
    Biotechnology & Us | ILV

    Biotechnology & Us | ILV

    2 SWS   2 ECTS

    Content

    Main topic: Onboarding, group formation, job profile & career opportunities

    • • Students:
      • get to know their fellow students,
      • get to know their lecturers and the researchers
      • get to know the research focuses of the section
      • understand which career opportunities are open to them
      • are introduced to the future visions of molecular biotechnology
    • • Students become part of a (professional) community

    Teaching method

    Lecture, individual and group work, practical exercises Self-assessment via exercises

    • for self-reflection and individual application
    • practical exercises with feedback and analysis

    Examination

    Continuous assessment: Continuous assessment

    Literature

    Wird in der Lehrveranstaltung anhand von aktueller Literatur übermittelt.

    Will be conveyed in the course using current literature.

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Social Skills I: Presentation & Appearance | ILV

    Social Skills I: Presentation & Appearance | ILV

    1 SWS   1 ECTS

    Content

      

    Teaching method

      

    Examination

    Continuous assessment: Performance and progress are assessed on an ongoing basis. The assessment is based on all written and oral work during the semester. Collaboration is additionally taken into account.

    Literature

    Josef W. Seifert, Visualisation – Presentation – Facilitation, GABAL Verlag

    Teaching language

    Deutsch

    1 SWS
    1 ECTS

    Module Analytical Chemistry
    4 SWS
    4 ECTS
    Quantitative Analytical Chemistry | VO

    Quantitative Analytical Chemistry | VO

    1 SWS   1 ECTS

    Content

    Tasks of quantitative analysis and measuring instruments

    Basic analytical operations (e.g. preparation of solutions, gravimetry, titrations)

    Methods of dimensional analysis (acid-base and redox titrations) incl. content determination

    Instrumental methods (potentiometry, photometry, chromatography)

    Teaching method

    Presenting & Activating methods: The explanation of the theoretical basics is done using selected examples from the fields of general analytics, environmental analytics, food analytics and drug analytics (PowerPoint presentation). The frontal teaching is supplemented by online quizzes.

    Examination

    Final exam: Written Exam

    Literature

    • Ehlers, Eberhard: Analytik II – Kurzlehrbuch: Quantitative und instrumentelle pharmazeutische Analytik. Deutscher Apotheker Verlag, Stuttgart.
    • Mortimer, Charles E.; Müller, Ulrich: Chemie – Das Basiswissen der Chemie, Georg Thieme Verlag
    • Steinhilber, Dominik: Instrumentelle Analytik, Deutscher Apotheker Verlag, Stuttgart
    • R. Kellner, J.M. Mermet, M. Otto, M. Valcárcel, H.M. Widmer: Analytical Chemistry: A Modern Approach to Analytical Science, 2. Aufl., Wiley-VCH Verlag GmbH & Co. KGaA

    Teaching language

    Deutsch-Englisch

    1 SWS
    1 ECTS
    Quantitative Analytical Chemistry Laboratory | UE

    Quantitative Analytical Chemistry Laboratory | UE

    3 SWS   3 ECTS

    Content

    The laboratory exercise includes the detection of covalently bound elements such as nitrogen, sulphur, halogen, etc. Thermal analyses are also carried out. Refractometry is used to determine the refractive index of a pure liquid and the concentration of a sucrose solution. Photometry is used to determine the concentration (recording and interpretation of a UV spectrum/ calibration line) of a compound. In addition, two potentiometric examples for quantitative determination are given. Another important part of the laboratory exercise is dedicated to the detection of functional groups and the identification of drugs (sulfonamides) using thin layer chromatography. Type of protocol: Result protocol to be filled in.

    Teaching method

    Activating method: Development of knowledge on the basis of concrete samples.

    Examination

    Final exam: Verification by evaluation of the results of the analysis

    Literature

    • Ehlers, Eberhard: Analytik II – Kurzlehrbuch: Quantitative und instrumentelle pharmazeutische Analytik. Deutscher Apotheker Verlag, Stuttgart
    • Mortimer, Charles E.; Müller, Ulrich: Chemie – Das Basiswissen der Chemie, Georg Thieme Verlag.
    • Imming Peter: Arzneibuchanalytik. Wissenschaftliche Verlagsgesellschaft mbH Stuttgart
    • Steinhilber, Dominik: Instrumentelle Analytik. Deutscher Apotheker Verlag, Stuttgart
    • Jander, Gerhart; Blasius, Ewald: Lehrbuch der analytischen und präparativen anorganischen Chemie. S. Hirzel Verlag Stuttgart
    • Jander, Gerhart: Maßanalyse: Theorie und Praxis der Titrationen mit chemischen und physikalischen Indikatoren, Walter de Gruyter Berlin-New York
    • Rücker, Gerhart: Instrumentelle pharmazeutische Analytik Wissenschaftliche Verlagsgesellschaft mbH Stuttgart
    • R. Kellner, J.M. Mermet, M. Otto, M. Valcárcel, H.M. Widmer: Analytical Chemistry: A Modern Approach to Analytical Science, Wiley-VCH Verlag GmbH & Co. KGaA

    Teaching language

    Deutsch

    3 SWS
    3 ECTS
    Module Fundamentals of Molecular Biotechnology
    3 SWS
    5 ECTS
    Methods of DNA Analysis | VO

    Methods of DNA Analysis | VO

    1 SWS   2 ECTS

    Content

    Biotechnology, biotechnologically produced products, basics of recombinant DNA technology and DNA cloning. Expression cloning: Prokaryotic cloning vectors, eukaryotic cloning vectors, gene regulation elements, selection markers, genetic markers.

    Teaching method

    Presenting method

    Examination

    Final exam: Written exam

    Literature

    • Gallagher, Sean R. Wiley, Emily A.: Current Protocols in Essential Laboratory Techniques, Wiley
    • Thieman, WJ, Palladino, MA: Biotechnologie, Pearson
    • Wink, Michael: Molekulare Biotechnologie, Wiley-VCH-Verlag

    Teaching language

    Deutsch-Englisch

    1 SWS
    2 ECTS
    Molecular Biology & Genetics II | VO

    Molecular Biology & Genetics II | VO

    2 SWS   3 ECTS

    Content

    • Expression of the genome (mechanism of transcription, splicing of RNA, translation, the genetic code.
    • Regulation of gene expression (transcriptional regulation in prokaryotes, transcriptional regulation in eukaryotes)
    • Regulatory RNAs
    • Gene regulation in development and evolution
    • Basic molecular biology methods (PCR, sequencing etc)
    • Signal transduction
    • Cell death
    • Model organisms of molecular biology

    Teaching method

    Presenting method

    Examination

    Final exam: Final written examination

    Literature

    • Sadava, D., Hillis, D. M., Heller, H.C. & Berenbaum, M. R.: Life: The Science of Biology, Sinauer Associates W.H. Freeman & Company
    • Sadava, D., Hillis, D. M., Heller, H. C. & Berenbaum, M. R.: Purves Biologie, Spektrum
    • N. A. Campbell, J. B. Reece: Biologie Pearson
    • Lernprogramm Genetik (Roche Genetics), F. Hoffmann-La Roche AG, Corporate Communications, Basel

    Teaching language

    Deutsch-Englisch

    2 SWS
    3 ECTS
    Module Mathematics/ Statistics
    5 SWS
    5 ECTS
    Chemical Calculation | ILV

    Chemical Calculation | ILV

    0.5 SWS   0.5 ECTS

    Content

    This course is held in addition to the lecture QACL. The students should master the mathematical basics (general algebra, application of equations with one or two variables, percentages, statistics) in order to be able to apply them to chemical problems. Mathematical quantities and units as well as the mole concept are important here. There will be a strong focus on practical application. The following areas are covered:

    Concentrations, making solutions and calculus of mixtures.

    Reaction equations: Formulation, determination of stoichiometric numbers and conversion calculations

    Stoichiometry in gravimetry: gravimetric factor

    Concentration determination by instrumental methods: external calibration

    Evaluation of measurement results: systematic and random errors, measurement accuracy

    Teaching method

    Presenting & Activating Methods: A part of the ILV is held as frontal teaching by means of Power Point presentation. Complementary activities are built in: math problems, online quizzes, video. Exercises are offered for self-study.

    Examination

    Final exam: Written Exam

    Literature

    • Schwarzbach, Ralf: Chemisches Rechnen und Stöchiometrie, Wissenschaftliche Verlagsgesellschaft
    • Ehlers, Eberhard: Analytik II – Kurzlehrbuch: Quantitative und instrumentelle pharmazeutische Analytik, Deutscher Apotheker Verlag, Stuttgart
    • Mortimer, Charles E.; Müller, Ulrich: Chemie – Das Basiswissen der Chemie, Georg Thieme Verlag

    Teaching language

    Deutsch

    0.5 SWS
    0.5 ECTS
    Mathematics in Biology II | ILV

    Mathematics in Biology II | ILV

    2.5 SWS   2.5 ECTS

    Content

    We discuss various basic mathematical models from population dynamics, population genetics and epidemiology, and develop necessary math skills by exploring these models.

    (a) Simulation of Leslie models of real Populations based on empirical data,

    (b) Population genetics: Hardy--Weinberg equilibrium of large ensemble population and the contrasting genetic drift model of Wright--Fisher.

    Teaching method

    Integrated Online Course

    Examination

    Final exam: Periodic short practice test, an ongoing group project and a written exam at the end of the course. Possibly additional oral exam to clarify questions.

    Literature

    • W.J. Ewens, Mathematical Population Genetics, Part I: Theoretical Introduction, Springer 2004,
      N.F. Britton, Essential Mathematical Biology, Springer 2003.

    Teaching language

    Deutsch-Englisch

    2.5 SWS
    2.5 ECTS
    Statistik in der Biologie I | ILV

    Statistik in der Biologie I | ILV

    2 SWS   2 ECTS

    Content

    Basics in probability theory and statistics with focus on biology.
    (1) Descriptive Statistics:
    Basics of describing and visualisation of empirical data by means of GNU R.
    (2) Probability Theory
    Probability Calculation, Bayes’ Theorem.
    (3) Modells in Probability Theory
    Random variables, basic stochastic processes.
    (4) Inductive Statistics
    Parameter Estimation, Confidence Intervals, Hypothesis Testing
    (5) Reproducible Research
    Basics of producing statistical reports.

    Teaching method

    Integrated Online-Course

    Examination

    Final exam: Periodic short practice test, an ongoing project and a written exam at the end of the course. Oral examination to clarify specific questions concerning the project are possible.

    Literature

    • B. Shahbaba, Biostatistics with R
      L. Papula, Mathematik für Ingenieure und Naturwissenschaftler, Band 3
    • Timischl, W.: Mathematische Methoden in den Biowissenschaften. Eine Einführung mit R. Springer-Spektrum, Berlin-Heidelberg

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Module Organic chemistry and biochemistry
    4.5 SWS
    7 ECTS
    Inorganic Chemistry | VO

    Inorganic Chemistry | VO

    1 SWS   2 ECTS

    Content

    The systematic nomenclature of chemistry. Groups 1,2,13-18 of the periodic table, periodicity, chemical properties of the elements, their extraction and most important meaning, important compounds and their representation and significance. subgroups, some important inner subgroup elements and their connections. Biological and pharmaceutical importance of the individual elements and their most important compounds, minerals and (ultra)trace elements.

    Teaching method

    Presenting method

    Examination

    Final exam: Written Final Exam

    Literature

    • Atkins, Peter Overton, Tina Rourke, Jonathan Weller, Mark Armstrong, Fraser: Inorganic Chemistry: Oxford University Press, Oxford
    • Holleman-Wiberg, Lehrbuch der Anorganischen Chemie. Wilhelm De Gruyter Verlag, Berlin

    Teaching language

    Deutsch

    1 SWS
    2 ECTS
    Biochemistry I: Fundamentals & Building Blocks of Life | VO

    Biochemistry I: Fundamentals & Building Blocks of Life | VO

    1.5 SWS   2 ECTS

    Content

    Students are taught the physical, chemical and cellular fundamentals of the structure and molecular structure of biomacromolecules (proteins, nucleic acids, polysaccharides and lipids). A special focus is on the importance of carbon for the chemistry of living organisms and on the important role of water for the structure and function of biomacromolecules. Afterwards, amino acids and proteins, sugars and polysaccharides, as well as fatty acids and lipids are examined in more detail. The chemistry of the covalently linked monomers (amino acids, monosaccharides, fatty acids) is always considered first and then the structure of the macromolecules and supramolecular complexes is described. Special attention is paid to the following points: 1) that the unique structure of macromolecules determines their function, 2) that non-covalent interactions play a decisive role in the structure and function of macromolecules, and 3) that monomers of polymeric macromolecules have a specific order that provides information on which the ordered state of life depends.

    Teaching method

    Presenting method

    Examination

    Final exam: Written Final Exam (Multiple Choice Teil, Essay Question)

    Literature

    • Nelson, David und Cox, Michael: Lehninger Biochemie. Springer Verlag, Wien
    • Horton, Robert H. et al.: Biochemie, Pearson Studium, München
    • Berg, Jeremy M. et al.: Stryer Biochemie, Springer Verlag, Berlin, Heidelberg

    Teaching language

    Deutsch-Englisch

    1.5 SWS
    2 ECTS
    Organic Chemistry | VO

    Organic Chemistry | VO

    2 SWS   3 ECTS

    Content

    1. atomic orbitals - hybridization of alkanes, alkenes and alkynes 2. bond types: Covalent bond, Π bond, van der Waals bonds, hydrogen bonds 3. mesomers and inductive effects 4. substance classes: Saturated and unsaturated hydrocarbons, aromatic compounds, haloalkanes, alcohols, phenols, ethers, sulphur compounds, aldehydes, ketones, carboxylic acids and derivatives, carbonic acid and derivatives, amines; trivial nomenclature of important alcohols, phenols, aldehydes, ketones, carboxylic acids, amines, etc. 5. Oxidations, reductions 6. stereoisomerism - mirror image isomerism: constitution, configuration, conformation; chirality, enantiomers, diastereomers, racemic cleavage of acidic or basic compounds; polarimetry, determination of optical purity 7. acid/base strength of organic compounds 8. reaction mechanisms: Nucleophilic substitution reactions on the total carbon atom, electrophilic substitution reactions on aromatics, electrophilic and nucleophilic additions on C,C double bonds, condensations on the carbonyl group: acetals, cyanohydrins, reductions with sodium borohydride and lithium aluminium hydride, Grignard reactions, aldol and Knoevenagel condensations, Wittig and Mannich reactions, addition/elimination reactions on the carboxyl group, eliminations

    Teaching method

    Presenting method

    Examination

    Final exam: Three written sub-exams

    Literature

    • P. Sykes: Wie funktionieren organische Reaktionen?: Reaktionsmechanismen für Einsteiger; Verlag: WILEY VCH.
    • Heinz G.O. Becker: Organikum – Organisch-chemisches Grundpraktikum; Verlag WILEY VCH
    • H. Beyer: Lehrbuch der organischen Chemie; Verlag S. Hirzel Stuttgart

    Teaching language

    Deutsch

    2 SWS
    3 ECTS
    Module Law and Economics
    2 SWS
    2 ECTS
    Civial Law | VO

    Civial Law | VO

    2 SWS   2 ECTS

    Content

    • Main features of private law
    • Labor law
    • Corporate and company law
    • Patent Law

     

    Main features of private law:

    First, the characteristics of private law, its sub-materials and the relationship between private law and public law are discussed in general terms. In a next step, legal entities and their legal capacity to act as well as the formation and effects of obligations (contractual or statutory) are dealt with. The focus is on contract law: types of contracts, conclusion of contracts, interpretation of contracts, errors in the conclusion and performance of contracts (esp. error, warranty, default), representation / power of attorney, general terms and conditions (GTC). In addition, relevant liability law issues are discussed as part of the presentation of tort law, and basic features of property law (e.g. acquisition of property) and consumer law are explained.

    Corporate and Company Law:

    First, a general section explains the basic concepts of business and corporate law (e.g. the term "entrepreneur" according to the Austrian Commercial Code, the company register, the term "company") and the common features of the different types of companies. Subsequently, the most important company forms available in Austria (esp. AG, GmbH, OG, KG, GesbR, Stille Gesellschaft, Genossenschaften) are presented in outline from formation to termination. Students will learn about important questions concerning the formation, the different organs and the rights and duties of the shareholders, the regulation of the internal and external relationship (management and representation, profit distribution, withdrawal rights, etc) as well as the termination (dissolution including regular subsequent liquidation/winding up) of the individual company forms.

    Labor law:

    Within the framework of the presentation of the main features of labor law, the focus is on questions of the establishment and termination of the employment relationship (in particular the prerequisites for the conclusion of employment contracts and the differentiation of the employment contract from other types of contracts [e.g. service contract, contract for work and services]) as well as questions regarding the prohibition of competition. Furthermore, students learn about the rights and obligations of the employee or the employing institution arising from the employment relationship and deal with the provisions of employee protection law.

    Patent Law:

    Introduction to patent law and differentiation from other industrial property rights or copyright law: in this context, the individual requirements for protection and rights of exclusion are explained in detail, as well as the national granting procedure and the enforcement of rights at the national level in overview. Also covered are licensing possibilities and basic features of international patent law.

    Teaching method

    Presenting & Activating Methods: Lecture with interactive character

    Examination

    Final exam: Written Exam

    Literature

    • Weilinger, Arthur: Privatrecht. Eine Einführung, facultas.wuv Universitätsverlag Wien
    • Schummer, Gerhard: Allgemeines Unternehmensrecht, LexisNexis Verlag Wien
    • Schummer, Gerhard: Personengesellschaften, LexisNexis Verlag Wien
    • Mader, Peter: Kapitalgesellschaften, LexisNexis Verlag Wien
    • Knauder, Christian: Prüfungsfragen & Prüfungsfälle zum Gesellschaftsrecht, LexisNexis Verlag Wien
    • Brodil, Wolfgang / Risak, Martin / Wolf, Christoph: Arbeitsrecht in Grundzügen, LexisNexis Verlag Wien

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Module Scientific, Social and Communication Skills
    2 SWS
    3 ECTS
    Ethics in Biotechnology | ILV

    Ethics in Biotechnology | ILV

    1 SWS   2 ECTS

    Content

    ? Basic concepts of ethics ? Ethical issues in relation to the professional field (e.g. scientific integrity) ? Self-responsibility, assessing the consequences of actions (e.g. code of conduct) ? current topics of (bio-)ethics

    Teaching method

    Activating methods

    Examination

    Continuous assessment: Performance and progress are permanently evaluated.

    Literature

    • Wuketits Franz M. :Bioethik: Eine kritische Einführung, C. H. Beck Verlag, München

    Teaching language

    Englisch

    1 SWS
    2 ECTS
    Social Skills II: Self-coaching & Communication | ILV

    Social Skills II: Self-coaching & Communication | ILV

    1 SWS   1 ECTS

    Content

    The basics of self-coaching and techniques of stress management are learned and personal perception and communication patterns are made conscious. Methods of self-motivation, time management and stress reduction are tried out and reflected upon, and the effects of perception on behaviour and communication are analysed. In addition, practical experience in self-management for later professional life is gained through implementation tasks. Main focus: Self coaching and communication >> Self coaching and motivation >> Stress and time management >> Perception and interpretation >> Communication analysis

    Teaching method

    Activating methods

    Examination

    Final exam: Performance and progress are permanently evaluated. The assessment is based on all written and oral work during the semester. Cooperation is also taken into account.

    Literature

    • Josef W. Seifert, Visualisation – Presentation – Facilitation, GABAL Verlag

    Teaching language

    Deutsch

    1 SWS
    1 ECTS
    Module Cell Biology
    3 SWS
    4 ECTS
    Cell Biology of Eukaryotes | VO

    Cell Biology of Eukaryotes | VO

    2 SWS   3 ECTS

    Content

    Structure and function of cellular organelles (nucleus, mitochondria, endoplasmic reticulum, golgi, etc.) and cellular structures (cytoskeleton). Structure, properties and function of biomembranes. Ion channel and transporter mediated transport of small molecules through membranes. Protein transport in organelles and in and from cells (endocytosis, secretion). The cytoskeleton: structure, regulatory proteins and role in intracellular transport/contact/communication between cells via connections; the concept of tissues and extracellular matrix. Complicated processes that integrate some features: Expansion of the action potential along nerve cells; muscle contraction, energy conversion in the mitochondria, photosynthesis.

    Teaching method

    Presenting method

    Examination

    Final exam: Final written examination

    Literature

    • Alberts, Bruce: Lehrbuch der molekularen Zellbiologie, Wiley-VCH Weinheim
    • Alberts, Bruce: Molecular Biology of the Cell, Garland Science New York

    Teaching language

    Deutsch-Englisch

    2 SWS
    3 ECTS
    Cell Culture | VO

    Cell Culture | VO

    1 SWS   1 ECTS

    Content

    1) General principles of cell and tissue culture (legal principles, guidelines for working in laboratories of safety classes 1 and 2 (S1, S2 laboratory), spatial and instrumental equipment, sterile technology, contamination and its prevention) 2) The cell and its environment (culture vessels and their treatment, growth conditions) 3) Routine methods for the general handling of cultivated cells (medium change, subcultivation, Determination of general growth parameters, freezing, storage and shipping of cells) 4) Cell lines versus primary cells (production of primary cells, establishment and characterization of cell lines) 5) Cells as factories (hybridoma technique for the production of monoclonal antibodies, production of recombinant proteins, transfection, mass cell cultures) 6) Methods in cell culture 7) Fundamentals of stem cells and plant cell cultures

    Teaching method

    Presenting method

    Examination

    Final exam: Moodle Quizzes, Written Final Exam

    Literature

    • Lindl, Toni: Zell- und Gewebekultur, Verlag Spektrum Akademischer Verlag
    • R. Ian Freshney, Culture of Animal Cells, WILEY Blackwell

    •  J. M. Davis, Basic Cell Culture, Oxford University Press

    • John R. W. Masters, Animal Cell Culture, Oxford University Press

    Teaching language

    Deutsch-Englisch

    1 SWS
    1 ECTS

    Module Bioinformatics/Statistics
    5 SWS
    5 ECTS
    Bioinformatics | ILV

    Bioinformatics | ILV

    3 SWS   3 ECTS

    Content

    Introduction to the different topics of bioinformatics.

    • Basics of sequence analysis, in particular transcript and genome analysis.
    • Relationship between sequence, structure and function of proteins
    • Metabolic models
    • Phylogenetic studies
    • Metagenome analyses

    Introduction to the most important relevant databases Introduction to programming Practical experience: use of relevant databases, sequence comparisons, gene expression analysis, construction of phylogenetic trees, genome analysis and visualization, pattern search, concepts of programming

    Teaching method

    Presenting & Activating Methods

    Examination

    Final exam: Editing examples, and self-testing with Moodle

    Literature

    • Timischl, Werner: Angewandte Statistik: Eine Einführung für Biologen und Mediziner. Springer
    • Pevsner, Jonathan: Bioinformatics and Functional Genomics, Wiley-Blackwell

    Teaching language

    Deutsch-Englisch

    3 SWS
    3 ECTS
    Statistics in Biology II | ILV

    Statistics in Biology II | ILV

    2 SWS   2 ECTS

    Content

    Poisson Processes
    Fluctuation Test by Luria-Delbrück
    Classic Parameter and Distributionstests
    Linear Regression
    One-Factor-ANOVA

    Teaching method

    Integrated Online Course

    Examination

    Final exam: Short written exams on a regular basis. Written final exam (report). Possibly additional oral exam to clarify questions.

    Literature

    Maly, N. (2020). Statistik - Auf den Spuren Salvador Lurias. Wien.

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Module Biophysical Chemistry
    3.5 SWS
    5 ECTS
    Biochemistry II: Structure Formation, Bio-recognition and Catalysis | VO

    Biochemistry II: Structure Formation, Bio-recognition and Catalysis | VO

    1.5 SWS   2 ECTS

    Content

    Fundamentals of protein folding using folding funnels; role of in vivo chaperones in in vivo protein folding. Intrinsically unfolded proteins as well as protein folding diseases with a focus on Alzheimer's disease. Brief insight into cellular phase separation of biomacromolecules. Protein purification and detection methods. Structure elucidation of proteins using X-ray structure analysis, nuclear magnetic resonance spectroscopy and cryo-electron microscopy. Models of ligand binding (induced fit, lock-and-key) and their quantitative description using binding isotherms. Principles of allostery and cooperative ligand binding using hemoglobin as an example: MWC and KNF model, Hill diagram. Hemoglobinopathies with emphasis on sickle cell anemia. Brief introduction to chemical reaction kinetics. General mode of action of enzymes based on energy profiles, major classes, enzyme kinetics, Lineweaver-Burk diagram, enzymatic activity, types and mode of action of enzymatic inhibitors, role of cofactors, strategies to lower activation energy, reaction mechanisms of selected enzymes.

    Teaching method

    Presenting method

    Examination

    Final exam: Final written exam

    Literature

    • Nelson & Cox, Lehninger: Biochemie, Springer
    • Berg, Tymoczko, Stryer: Biochemie, Springer Spektrum
    • Horton, Moran, Scrimgeour Perry, Rawn: Biochemie, Pearson
    • Pingoud, Alfred Urbanke, Klaus Hoggett, Jim Jeltsch, Albert: Biochemical Methods, Wiley-VCH Verlag GmbH
    • Rehm, Letzel: Der Experimentator, Proteinbiochemie/Proteomics, Springer, Spektrum
    • Lottspeich, Engels (Hrsg.): Bioanalytik, Springer Spektrum

    Teaching language

    Deutsch-Englisch

    1.5 SWS
    2 ECTS
    Physical Chemistry | VO

    Physical Chemistry | VO

    2 SWS   3 ECTS

    Content

    Introduction to the fundamentals of physical chemistry, first and second laws of thermodynamics, enthalpy, entropy, free enthalpy, spontaneous and non-spontaneous processes, driving force of chemical reactions, phase equilibria, phase diagrams, equilibrium reactions, electrochemistry.

    Teaching method

    Presenting method

    Examination

    Final exam: Written Exam

    Literature

    • Atkins, Peter W.: Kurzlehrbuch Physikalische Chemie, Wiley-VCH Weinheim

    Teaching language

    Deutsch

    2 SWS
    3 ECTS
    Module GXP/QM/PM
    2 SWS
    2 ECTS
    Quality and Process Management | VO

    Quality and Process Management | VO

    2 SWS   2 ECTS

    Content

    • Historical development and current tasks of common quality management systems
    • Overview of quality management systems (especially TQM, ISO 900x, ISO 17025)
    • Overview of relevant legal background (especially GLP, GMP, basic GCP, accreditation, notified bodies, EU market surveillance / New Approach)
    • Definition, meaning and content of
      • Quality
      • Quality Management,
      • Quality Management System (QM System),
      • The quality cycle: quality planning, control, assurance, testing, improvement,
      • Quality audit
    • Product quality, process quality
    • Benchmarking
    • Process management: Processes definitions, key figures
    • Processes in the company
      • Core processes (value creation)
      • Management processes
      • Supporting processes
    • Processes and management systems
    • Measuring and controlling processes
    • Processes and change

    Teaching method

    Presenting method

    Examination

    Final exam: Final examination: Written final examination and evaluation of cooperation

    Literature

    • PQM - Prozessorientiertes Qualitätsmanagement, Leitfaden zur Umsetzung der ISO 9001, Karl Werner Wagner, Roman Käfer, Carl Hanser Verlag
    • Training Qualitätsmanagement, Gerhard Linß, Fachbuchverlag Leipzig, Carl Hanser Verlag

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Module Immunology & Pathogenicity
    3 SWS
    5 ECTS
    Basics of Microbiology | VO

    Basics of Microbiology | VO

    1.5 SWS   2 ECTS

    Content

    The lecture includes the following topics:

    (1) Introduction to microbiology (definition of microorganisms; history of microbiology; influence of microorganisms); (2) Microbial evolution and diversity (origin of life; tree of life; methods of determining evolutionary relationships; microbial diversity); (3) structure and function of microbial cells (overview and differences between prokaryotic and eukaryotic cells); (4) microorganisms and their natural environment (nutrients; environmental factors; habitats); (5) microbial metabolism; (6) cultivation and growth of microorganisms; (7) control of microbial growth (in vitro and in vivo applications); (8) Interactions between microbes and humans (beneficial and harmful); and (9) Introduction to medical microbiology (epidemiology; microbial diseases; diagnostic microbiology.

    Teaching method

    The learning content of the lecture is conveyed using a Power Point presentation. During the lecture, current publications and research results on the subject of microbiology are presented, which are then to be discussed.
    At the end of each chapter, the most important core statements of the presented topics are summarized in the form of take home messages and questions related to the topics dealt with in the teaching unit are presented, which are similar to the type of exam questions.

    Examination

    Final exam: At the end of the course there is a written exam (100%) which is made up of open questions.

    Literature

    • Brock Mikrobiologie, 15. Aktualisierte Auflage, Pearson Verlag (Madigan, Bender, Buckley, Sattley, Stahl), 2020
    • Allgemeine Mikrobiologie, 11. Auflage, Thieme Verlag (Fuchs), 2017
    • Medizinische Mikrobiologie, 7. Auflage, Thieme Verlag (Hof, Schlüter), 2019
    • Medizinische Mikrobiologie, 12. Auflage, Thieme Verlag (Kayser), 2010

    Teaching language

    Deutsch-Englisch

    1.5 SWS
    2 ECTS
    Immunology | VO

    Immunology | VO

    1 SWS   2 ECTS

    Content

    First, the innate immune system with its characteristic features is described and compared to the adaptive immune system. In the following, antigen presentation is the most important interface between the innate and adaptive immune system. This is followed by a discussion of the development and function of the adaptive immune system.

    Teaching method

    Presenting method

    Examination

    Final exam: Written final exam

    Literature

    • Abbas, Abul, K., Lichtman, Andrew H. Pillai, Shiv: Cellular and Molecular Immunology, Saunders
    • Murphy, Kenneth and Weaver, Casey: Janeway's Immunobiology,  Garland Science

    Teaching language

    Deutsch-Englisch

    1 SWS
    2 ECTS
    Virology | VO

    Virology | VO

    0.5 SWS   1 ECTS

    Content

    This lecture gives an introduction to the topic of virology. Students are taught the most important characteristics of viruses and are given an understanding of virus classification. In addition, the students get to know important representatives of bacteriophages and important human pathogenic viruses and gain insight into virus-cell interaction and virus-virus interactions. Furthermore, basic principles of virus structure, viral genome organisation, viral replication and gene expression are discussed and the life cycles of some selected viruses are compared. In addition, similarities and differences between viruses and subviral particles will be identified.

    Teaching method

    Presenting method

    Examination

    Final exam: Final written examination (multiple choice questions, essay questions).

    Literature

    • Madigan, Michael T. et al.: Brock Biology of Microorganisms, Pearson Education Limited, Harlow
    • Madigan, Michael T. et al.: Brock Mikrobiologie, Pearson Deutschland GmbH, Hallbergmoos
    • Modrow, Susanne et al.: Molekulare Virologie, Spektrum Akademischer Verlag, Heidelberg
    • Wagner, Edward K. et al.: Basic Virology, Blackwell Publishing, Malden

    Teaching language

    Deutsch-Englisch

    0.5 SWS
    1 ECTS
    Module Methods of Molecular Biology
    8.5 SWS
    10 ECTS
    Introduction to Molecular Biology Laboratory Work | UE

    Introduction to Molecular Biology Laboratory Work | UE

    1 SWS   1 ECTS

    Content

    The following basic methods will be learned in this laboratory practical:

    • Pipetting
    • Restriction digestion
    • Restriction digestion
    • Agarose gel electrophoresis
    • DNA concentration determination by photometer

    The experimental background is plasmid mapping using multiple restriction digests. Type of protocol: abstract, result image including labeling, discussion, mapping, literature, in English.

    Teaching method

    Activating methods

    Examination

    Final exam: Protocol in English language, Written final examination

    Literature

    • Green, M.R. & Sambrook, J.R Sambrook: Molecular Cloning, A Laboratory Manual, Cold Spring Harbor Laboratory Press Cold Spring Harbor, NY
    • Ausubel, Frederick M.: Short Protocols in Molecular Biology, 2 Volume Set, Wiley, Academy Ed.
    • Current Protocols in Essential Laboratory Techniques von Sean R. Gallagher, Emily A. Wiley
    • Molekulare Biotechnologie von Michael Wink, Wiley-VCH-Verlag

    Teaching language

    Deutsch-Englisch

    1 SWS
    1 ECTS
    Genetic Engineering Lab | UE

    Genetic Engineering Lab | UE

    3 SWS   3 ECTS

    Content

    In this practical course, a gene is inserted into a plasmid and it is then checked by various molecular methods (PCR, restriction digestion) whether the recombinant plasmid is stable in E.coli. The students apply methods that were previously developed theoretically in the lecture Methods of DNA Analysis and in the seminar Molecular Biological & Biophysical Methods. Type of protocol: protocol in the form of a scientific publication - abstract, introduction, M&M, results, discussion, literature.

    Teaching method

    Activating methods

    Examination

    Final exam: Protocol, Written final examination

    Literature

    • Green, M.R. & Sambrook, J.R Sambrook: Molecular Cloning, A Laboratory Manual, Cold Spring Harbor Laboratory Press Cold Spring Harbor, NY
    • Ausubel, Frederick M.: Short Protocols in Molecular Biology, 2 Volume Set, Wiley, Academy Ed.
    • Current Protocols in Essential Laboratory Techniques von Sean R. Gallagher, Emily A. Wiley
    • Molekulare Biotechnologie von Michael Wink, Wiley-VCH-Verlag

    Teaching language

    Deutsch-Englisch

    3 SWS
    3 ECTS
    Molecular Biological & Biophysical Methods | SE

    Molecular Biological & Biophysical Methods | SE

    1.5 SWS   3 ECTS

    Content

    In this course, the basic methods for molecular biologists, based on the lecture Methods of DNA analysis (2nd semester), are covered. The students get a theoretical insight into molecular biological methods. The topics are worked out in small groups and presented online to each other in a jigsaw puzzle. Selection of topics: Cultivation of micro-organisms used for cloning (genetic markers of cultivated strains, determination of the growth behaviour of micro-organisms) Isolation and purification of nucleic acids from different organisms (cell disruption methods, Phenol extraction, precipitation of nucleic acids) Detection of nucleic acids (agarose and polyacrylamide gel electrophoresis, spectrophotometric nucleic acid concentration determination) Polymerase chain reaction (PCR) (oligonucleotides vs. Primers, annealing temperature, qPCR, reverse transcriptase PCR)

    Southern and Northern blot (theory of hybridization, nucleic acid probes) Western blot (SDS-polyacrylamide gel, chemoluminescence) Protein expression and protein purification (protein tags z.

    B

    . His-Tag, affinity chromatography, bacterial protein expression systems) antibodies and their use in molecular biology (monoclonal antibodies vs. Polyclonal antibodies, titration of antibodies, ELISA) Centrifugation (differential centrifugation, density gradient centrifugation) Fluorescence in molecular biology (fluorescent dyes, protein fluorophores, FRET, FACS) Microarray (principle, application) Sequencing (Sanger Dideoxy sequencing, shotgun sequencing, fluorescence sequencing, next generation sequencing)

    Teaching method

    Presenting & Activating Methods: Jigsaw Puzzle Presentation via Zoom

    Examination

    Final exam: Cooperation - Jigsaw puzzle, Written final exam

    Literature

    • Green, M.R. & Sambrook, J.R Sambrook: Molecular Cloning, A Laboratory Manual, Cold Spring Harbor Laboratory Press Cold Spring Harbor, NY
    • Ausubel, Frederick M.: Short Protocols in Molecular Biology, 2 Volume Set, Wiley, Academy Ed.
    • Current Protocols in Essential Laboratory Techniques von Sean R. Gallagher, Emily A. Wiley
    • Molekulare Biotechnologie von Michael Wink, Wiley-VCH-Verlag

    Teaching language

    Deutsch-Englisch

    1.5 SWS
    3 ECTS
    Cell Culture Laboratory | UE

    Cell Culture Laboratory | UE

    3 SWS   3 ECTS

    Content

    1. Handling of routine cell cultures (splitting, cryopreservation, live-dead determination).
    2. Growth curve (evaluation of doubling time and influence of changed culture conditions)
    3. Cell cycle/mitotic stages
    4. Cytoskeleton/transfection
    5. Problem based assignment (theoretical)

    Type of protocol: 4 experiments each separately with introduction, M&M, results and discussion, bibliography at the end.

    Teaching method

    Activating methods

    Examination

    Final exam: 1) Ongoing assessment of the practical work (technical ability and cooperation) 2) Final discussion (with examination character) and presentation of the problem-based problem definition

    3) Individual written protocol

    Literature

    • Alberts, Bruce: Lehrbuch der molekularen Zellbiologie, Wiley-VCH Weinheim
    • Alberts, Bruce: Molecular Biology of the Cell, Garland Science New York
    • Lindl, Toni: Zell- und Gewebekultur, Verlag Spektrum Akademischer Verlag

    Teaching language

    Deutsch

    3 SWS
    3 ECTS
    Module Professional/Social Skills and Communication
    3 SWS
    3 ECTS
    English in Science & Career I | ILV

    English in Science & Career I | ILV

    2 SWS   2 ECTS

    Content

    The course is, among other things, a consolidation of what was taught in the module "Scientific, Social & Communication Skills". The focus is on getting students to reach the level required to speak and use the "language of science" in a company or research institute. As in the first two semesters, great value is placed on both social and subject-specific English, but with a focus on English for natural scientists. English is taught using authentic materials: standard operating procedures, lab reports, handbooks, etc., using familiar blended learning tools such as group puzzles, individual and group presentations, or video material. Scientific writing (lab reports, summaries, ...) are taught. Grammar and punctuation are taught if required by the level of students. The following topics are taught: 1. Scientific writing: > Lab reports · vocabulary · content · scientific expression · construction · style · summarizing · referencing 2. Technical manuals: · vocabulary · interpretation · implementation / communication of the content 3. Career: · vocabulary · applications · CVs 4. Knowledge acquisition and communication: · reading and presenting the contents of authentic research articles (Nature/Cell etc.) · summary writing Continuous self-reflection, self-evaluation and evaluation of colleagues.

    Teaching method

    Activating Methods: e.g. presentations, discussions …

    Examination

    Continuous assessment: Performance and progress are permanently assessed. The assessment is based on all written and oral work during the semester. Active participation during the lessons is also taken into account.

    Literature

    -

    Teaching language

    Englisch

    2 SWS
    2 ECTS
    Social Skills III: Team Building & Conflict Resolution | ILV

    Social Skills III: Team Building & Conflict Resolution | ILV

    1 SWS   1 ECTS

    Content

    The content of the course is linked to the module "Scientific, Social & Communication Skills". The focus is on preparing students for cooperation in project teams and possible conflict situations in everyday work. The third semester focuses on team development and conflict resolution. On the basis of practical experience, team processes and factors influencing team productivity are analysed and design options are developed. The causes for the emergence of conflicts and typical behaviour patterns in conflict situations as well as their effects are reflected upon. With case studies and exercises, unconstructive and constructive conflict resolution is tried out. Thematic focus: Team development and conflict resolution " Working group or team " Phases in team development " Roles in the team " Analysis of conflicts " Phases of conflict escalation " Strategies for dealing with conflicts

    Teaching method

    Activating methods

    Examination

    Continuous assessment: Performance and progress are permanently evaluated. The assessment is based on various written and oral assignments during the semester. Cooperation is also taken into account.

    Literature

    • Josef W. Seifert, Visualisation – Presentation – Facilitation, GABAL Verlag

    Teaching language

    Deutsch

    1 SWS
    1 ECTS

    Module Biochemistry
    6.5 SWS
    8 ECTS
    Biochemie III: Bioenergetik und Metabolismus | VO

    Biochemie III: Bioenergetik und Metabolismus | VO

    1.5 SWS   2 ECTS

    Content

    Energy and matter flow through the biosphere, thermodynamics of biochemical processes: Role of ATP, group transfer potential, coupling of reactions and principle of Le Chatelier, open systems, steady state, substrate chain and oxidative phosphorylation, biological redox reactions.

    Basic catabolic (energy-producing) & anabolic (biosynthetic) metabolic pathways: carbohydrate, fatty acid, cholesterol, nitrogen, amino acid, nucleotide metabolism, citrate cycle, regulated protein degradation (proteasome, autophagy). Includes biochemical reactions, enzymes and coenzymes/vitamins (including their mechanism using selected examples), establishing energy balances, and causes of some major metabolic diseases.

    Regulation and integration of metabolism: concept of pacemaker and "committed steps," avoidance of idle cycles, substrate channeling, iso(en)cyms, regulation of enzyme activity, examples of hormonal regulation of metabolic reactions and associated signal transduction mechanisms.

    Methods for elucidating metabolic pathways, metabolomics/metabonomics, metabolic flux, brief overview of metabolic control analysis (MCA).

    Presentation of recent examples on biotechnological and medical issues from original literature.

    Teaching method

    Presenting method

    Examination

    Final exam: Written final Exam (Multiple Choice Teil, Essay Questions)

    Literature

    • Nelson & Cox, Lehninger: Biochemie, Springer
    • Berg, Tymoczko, Stryer: Biochemie, Springer Spektrum
    • Horton, Moran, Scrimgeour Perry, Rawn: Biochemie, Pearson
    • Haynie: Biological Thermodynamics, Cambridge University Press

    Teaching language

    Deutsch

    1.5 SWS
    2 ECTS
    Instrumental Analytics | VO

    Instrumental Analytics | VO

    2 SWS   3 ECTS

    Content

    A) Spectroscopic methods The principle of spectroscopic methods, ultraviolet-visible spectroscopy, infrared spectroscopy, atomic absorption spectroscopy, flame photometry (atomic emission spectroscopy), fluorescence spectroscopy, mass spectrometry, X-ray structure analysis, nuclear magnetic resonance spectroscopy B) Separation methods Chromatographic methods, the principle of chromatographic methods, thin layer chromatography classical column chromatography, HPLC, gas chromatography, evaluation of chromatograms; Electrophoretic methods: General principles, gel electrophoresis (1D, 2D), capillary electrophoresis

    Teaching method

    Presenting method

    Examination

    Final exam: Final written Exam

    Literature

    • Dominik, A., Steinhilber, D.: Instrumentelle Analytik, Deutscher Apotheker Verlag, Stuttgart

    Teaching language

    Deutsch

    2 SWS
    3 ECTS
    Protein- & Enzym-Biochemistry Lab | UE

    Protein- & Enzym-Biochemistry Lab | UE

    3 SWS   3 ECTS

    Content

    Students are taught the theory of basic protein chemical techniques in this course. Preparative purification of proteins will be performed and proteins will be analytically detected, enzyme kinetic methods will be performed, the first steps of a proteomic analysis and the evaluation and interpretation of biochemical experimental data and the presentation of these scientific data will be taught.

     

    The following practical laboratory examples will be performed by the students:

    Enzyme kinetics: photometry, Lambert-Beer's law, Michaelis-Menten kinetics, direct representation of data, Lineweaver-Birk diagram, influence of inhibitors on kinetic constants Km and Vmax, inhibitor types, determination of IC50 values.

    Protein chemical methods for preparative enzyme purification and for the first phase of a proteomic analysis: Preparation of buffers, cell disruption methods (mixer, douncer), cell fractionation, reversible and irreversible precipitation of proteins (ammonium sulfate, heat, acid), centrifugation, dialysis, ion exchange chromatography, direct and indirect enzyme assay, quantitative protein determination (Bradford), electrophoretic techniques (SDS-PAGE for purity control and molecular weight determination of proteins by Rf values; 2D electrophoresis; Coomassie Blue and silver staining).

    Preparation of a purification table.

    Type of protocol: three experiments, one protocol per experiment in the form of a scientific publication - abstract, introduction, M&M, results, discussion, literature.

    Teaching method

    Activating method

    Examination

    Final exam: 30% written examination on the theoretical background at the beginning of the internship.

    40% assessment of oral and practical participation in the laboratory

    30% assessment of the protocol

     

    Literature

    • Kowalski, Waigmann, Oehler, Bachmaier, Skriptum zum Protein- & Enzym-Biochemie Labor jeweils aktuelle Fassung

    Teaching language

    Deutsch

    3 SWS
    3 ECTS
    Module GXP/QM/PM
    6 SWS
    7 ECTS
    GxP | ILV

    GxP | ILV

    4 SWS   5 ECTS

    Content

    National and international guidelines and their implementation using a practical example in pharmaceutical companies in particular: Excerpts from " the German Drug Law, " the German Drug Operating Regulations, " the Good Manufacturing Practice, " the Good Clinical Practice, " the Good Laboratory Practice, " the Good Distribution Practice and basic principles of qualification and validation with special consideration of quality risk management according to ICH Q9 guidelines.

    Teaching method

    Activating methods

    Examination

    Continuous assessment: Evaluation of a specific project work (preparation of an operating licence) and written final examination.

    Literature

    Entsprechende rechtliche Grundlagen und Richtlinien (in der jeweils geltenden Fassung), z.B.

    • Arzneimittelgesetz (AMG)
    • Arzneimittelbetriebsordnung (AMBO) 2009
    • EudraLex - Volume 4 - Good Manufacturing Practice (GMP) guidelines
    • OECD Grundsätze der GLP
    • EG Richtlinien zu GLP-Inspektionen 9/2004 / GLP-Betrieb 10/2004
    • GLP Verordnung 2006
    • EMA Reflection paper for laboratories that perform the analysis or evaluation of clinical trial samples
    • ICH Richtlinien
    • PIC/S Richtlinien
    • WHO Guidelines

    Teaching language

    Deutsch

    4 SWS
    5 ECTS
    Projectmanagement | ILV

    Projectmanagement | ILV

    2 SWS   2 ECTS

    Content

    project management:

    The content spans from general terms and definitions of project management to project development, the planning of projects, the the implementation and control up to the project conclusion.

    • General terms and basics: definition of project and project management, differences project/process, at what point is a task a project, overview of project types, pros/cons of projects, organizational forms and project phase.
    • Project initialization: principles of idea development, from idea to project assignment (project charter), team formation and development, stakeholder analysis, governance
    • Project planning: basics, task planning, sequencing, scheduling, cost and resource planning, risk management
    • Project execution and control: basics of monitoring and control (deadlines, costs, performance, risk), project reporting,
    • Project closure: handover of results, closure analysis, lessons learned, project team dissolution.

    Teaching method

    Activating methods

    Examination

    Continuous assessment: Evaluation of a specific project work (project management for the preparation of an operating licence) and written final examination.

    Literature

    • Patzak Rattay: Projekt Management, Linde Verlag
    • Harald Kerzner: Projekt Management - Systemorientierter Ansatz zur Planung und Steuerung, MITP Verlag
    • Roland Gareis: PM Baseline - freier entnehmbares Dokument aus Internet www.p-m-a.at
    • Jörg Preußnig: Agiles Projektmanagement, Haufe Taschen Guide

    Teaching language

    Deutsch

    2 SWS
    2 ECTS
    Module Microbiology
    4.5 SWS
    5 ECTS
    Applied Microbiology | VO

    Applied Microbiology | VO

    2 SWS   2.5 ECTS

    Content

    Applied microbiology describes the application of microbiological processes to the production of goods and services, typically, but not exclusively at the industrial level and is largely concerned with the generation of substances of commercial interest, specifically chemicals, foods and pharmaceuticals. The term describes the generation of the molecules of interest, i.e. it describes the upstream production.

    This course will focus primarily on the generation of pharmaceutical products, but will also present the relevant downstream steps.

    The purpose of this course is to familiarise the students with typical industrial technologies for the production of biomass and metabolites, highlighting the technological, economic and regulatory challenges. 

    Teaching method

    Lecture

    Examination

    Final exam: Written final exam

    Literature

    • Industrielle Mikrobiologie, H. Sahm, G. Antranikian, K.-P. Stahmann, R. Takors; Springer Spektrum
    • Mikrobiologische Methoden, Eckhard Bast, Springer Spektrum
    • ngewandte Mikrobiologie, Antranikian, Garabed (Hrsg.), Springer

    Teaching language

    Englisch

    2 SWS
    2.5 ECTS
    Microbiological Working Methods Laboratory | UE

    Microbiological Working Methods Laboratory | UE

    2.5 SWS   2.5 ECTS

    Content

    - Introduction to microbiological work (sterile work, disinfection), occupational safety regulations - isolation, cultivation and identification of microorganisms - cell count determination - media preparation - growth kinetics - microscopy and staining methods - morphological and physiological characterization (differentiation methods)

    Teaching method

    Activating method

    Examination

    Continuous assessment: Lab practical and collaboration, intermediate test, final seminar, protocol

    Literature

    • Madigan, Michael T. et al.: Brock Biology of Microorganisms, Pearson Education Limited, Harlow
    • Madigan, Michael T. et al.: Brock Mikrobiologie, Pearson Deutschland GmbH, Hallbergmoos
    • Mikrobiologische Methoden, Eckhard Bast, Springer Spektrum, 

    Teaching language

    Deutsch-Englisch

    2.5 SWS
    2.5 ECTS
    Module Molecular Biology
    5 SWS
    7 ECTS
    Gene Expression | VO

    Gene Expression | VO

    1 SWS   2 ECTS

    Content

    • Structure of prokaryotic chromatin compared to eukaryotic chromatin
    • Bacterial chromatin and transcription
    • rRNA (genes - transcription - processing - RNA polymerase I)
    • RNA dependent RNA polymerases
    • Ribosomal Frameshifting
    • SARS-Cov2
    • Transcriptional and post-transcriptional regulation of HIV-1 gene expression
    • CRISPR system(s)

    Teaching method

    Presenting method

    Examination

    Final exam: Written final exam

    Literature

    • ausgewählte Übersichtsartikel in Fachzeitschriften

    Teaching language

    Deutsch-Englisch

    1 SWS
    2 ECTS
    Genregulation | ILV

    Genregulation | ILV

    1 SWS   2 ECTS

    Content

    The course builds on the module GMBT12. The topics covered there will be deepened and extended. Based on the structure and properties of DNA, genes, chromatin and RNA, replication, DNA repair and mutations are introduced. A major part of the course deals with the regulation and translation of genetic information: the structure and regulation of gene expression of prokaryotic and eukaryotic genes are discussed, epigenetic effects, and as a focus signaling processes. Finally, applications of DNA technology in research and therapy are discussed.

    Teaching method

    Presenting & Activating Methods

    Examination

    Continuous assessment: Verification of knowledge through several written tests.

    Literature

    • Alberts, Bruce; Johnson, Alexander; Lewis, Julian; Morgan, David; Raff, Martin; Roberts, Keith and Walter, Peter: Molecular Biology of the Cell, Taylor & Francis Ltd.

    Teaching language

    Deutsch-Englisch

    1 SWS
    2 ECTS
    Protein Expression & Purification Lab | UE

    Protein Expression & Purification Lab | UE

    3 SWS   3 ECTS

    Content

    In this practical course, the function of genes is worked out by the students using a continuous example in a bacterial system. In addition, the students learn about methods of protein analysis. The expression of a recombinant protein is first studied on a small scale (expression cloning in E. coli). Western blots are used to analyse the time course of protein expression. After upscaling of the culture volume under the previously established conditions, the recombinant protein is purified by affinity chromatography (HIS tag purification) and finally analysed, dialysed and the amount of protein obtained is quantitatively determined. Type of protocol: protocol in the form of a scientific publication - abstract, introduction, M&M, results, discussion, literature and citation.

    Teaching method

    Activating method

    Examination

    Final exam: Final examination: protocol, written final examination, motivation, cooperation, practical skills (results)

    Literature

    • Green, M.R. & Sambrook, J.R Sambrook: Molecular Cloning, A Laboratory Manual, 4. Cold Spring Harbor Laboratory Press Cold Spring Harbor, NY

    Teaching language

    Deutsch-Englisch

    3 SWS
    3 ECTS
    Module Professional/Social Skills and Communication
    3 SWS
    3 ECTS
    English in Science and Career II | ILV

    English in Science and Career II | ILV

    2 SWS   2 ECTS

    Content

    The course is, among other things, a consolidation of what was taught in the module "Scientific, Social & Communication Skills".

    English is taught via “authentic” international documentation: safety data sheets, articles from peer-reviewed life-science journals, Bachelor theses, etc. using well-known blended learning tools such as group puzzles, individual and group presentations, or video material.

    Scientific writing is deepened.

    Grammar and punctuation are taught if required by the level of students.

    The following topics are taught:

    1. Scientific writing:

    • scientific articles
    • vocabulary
    • content
    • scientific expression
    • citations and references
    • construction
    • style
    • summarizing
    • referencing

    2. Safety in the Laboratory:

    • vocabulary
    • abbreviations
    • GHS (Globally Harmonized System of Classification and Labeling)

    3. Career:

    • vocabulary
    • applications
    • accompanying documentation

    3. Knowledge acquisition and communication:

    • Reading, comprehending, summarising and presenting the contents of authentic research articles (Nature/Cell etc.) to a specialist audience as well as to the general public.
    • summary writing

    Continuous self-reflection, self-evaluation and appreciative evaluation/(group)-reflection of colleagues.

    Teaching method

    Activating Methods: e.g. presentations, discussions …

    Examination

    Continuous assessment: Performance and progress are permanently assessed. The assessment is based on all written and oral work during the semester. Active participation during the lessons is also taken into account.

    Literature

    • Keine notwendig. Unterlagen werden, wenn nötig, bereitgestellt.
    • None. If required, literature will be distributed.

    Teaching language

    Englisch

    2 SWS
    2 ECTS
    Social Skills IV: Moderation & Problem Solving | ILV

    Social Skills IV: Moderation & Problem Solving | ILV

    1 SWS   1 ECTS

    Content

    In "Social Skills IV", moderated problem solving is the focus. The planning and implementation of moderation in accordance with the assignment is practiced, different moderation methods are tried out and evaluated according to the task. The perception for rhetorical tricks is sharpened and the handling of disorders is trained. Main topic: Moderation and problem solving " Preparation for moderation " Moderation methods " Rhetorical strategies " Dealing with disturbances

    Teaching method

    Activating methods

    Examination

    Final exam: Performance and progress are assessed on an ongoing basis. The assessment is based on all written and oral work during the semester. Collaboration is additionally taken into account.

    Literature

    • Josef W. Seifert, Visualisation – Presentation – Facilitation, GABAL Verlag
    • Josef W. Seifert, Moderation & Kommunikation, GABAL Verlag

    Teaching language

    Deutsch

    1 SWS
    1 ECTS

    Module Professional Internship
    30 ECTS
    Bachelor Thesis & Scientific Work | SE

    Bachelor Thesis & Scientific Work | SE

    0 SWS   5 ECTS

    Content

    Students receive guidance, support and encouragement in scientific theoretical, research practical and formal questions of their work, scientific theories and methods (topic identification in the field of molecular biotechnology). In the UAS Bachelor's programme Molecular Biotechnology, the Bachelor's thesis in the 5th semester is an extended work protocol of the professional internship in which the internship content is documented and scientifically reflected. The work must be written independently, i.e. in individual work. The topic of the bachelor thesis results from the topic chosen during the professional internship. As a rule, the bachelor thesis includes the work of the entire professional internship. The Bachelor thesis is supervised by the supervisor of the internship. Students receive reflected feedback on their Bachelor thesis.

    Teaching method

    Activating method

    Examination

    Final exam: Evaluation by assessors

    Literature

    • Internationale Kompetenz: Der Weg zu erfolgreichen Berufslaufbahnen im In- und Ausland; Wittman, Bauer & Kloser, SDBB Verlag
    • Mit Erasmus durch Europa: Österreichische Studierende berichten über ihren Auslandsaufenthalt; Gesslbauer, Volz & Burtscher, Schriftenreihe der OeAD, Studien Verlag
    • Academic Vocabulary in Use; McCarthy & O’Dell, Cambridge University Press
    • Writing Scientific English: A Workbook; Skern, Facultas Verlag

    Teaching language

    Deutsch

    5 ECTS
    Professional Internship | PR

    Professional Internship | PR

    0 SWS   25 ECTS

    Content

    The professional internship serves the students as an introduction to independent work. The tasks begin with the search for a suitable internship position and an internship supervisor. Under the supervision of a relevant person, students learn about the professional practice of a biotechnology company/research institute and/or independent scientific work. In the professional internship, the technical, methodological and social skills acquired during the course of studies are put into practice and consolidated in practice in the desired professional field of activity. A further important teaching content is the independent writing of the internship results in the form of a professional internship report as well as the documentation of scientific results, partly according to GMP & GLP guidelines.

    Teaching method

    Activating methods: Practical work

    Examination

    Continuous assessment: Expert opinion of the supervisor incl. grading

    Literature

    • Internationale Kompetenz: Der Weg zu erfolgreichen Berufslaufbahnen im In- und Ausland; Wittman, Bauer & Kloser, SDBB Verlag
    • Mit Erasmus durch Europa: Österreichische Studierende berichten über ihren Auslandsaufenthalt; Gesslbauer, Volz & Burtscher, Schriftenreihe der OeAD, Studien Verlag
    • Academic Vocabulary in Use; McCarthy & O’Dell, Cambridge University Press
    • Writing Scientific English: A Workbook; Skern, Facultas Verlag

    Teaching language

    Deutsch-Englisch

    25 ECTS

    Module Human Biology
    5 SWS
    8 ECTS
    Histology | VO

    Histology | VO

    2 SWS   3 ECTS

    Content

    • Mikroskopie, Präparationstechnik: Grundlagen mikroskopischer Technik - LM: Hellfeld, Phasenkontrast, Fluoreszenz, Auflösung/Vergrößerung, Objektiv, Elektronenmikroskop, Präparationstechnik: Fixierung, Einbettung, Mikrotomie, Färbung, Immunmarkierung
    • Gewebelehre 1: Epithelgewebe; Gewebe: Definition, Einteilung, Zellen / Matrix, Funktionelle Organisation von Geweben; Oberflächenepithel: Einteilung, Bauprinzipien, Zellverbindungen, Polarität, Basallamina; Resorption/Transport, Selektion, Barriere/ "Schutz" (Urothel, Epidermis/Haut); Drüsenepithel: Einteilung, Bauprinzip, Sekretion: Modus, Sekretart, Beispiel: Pankreas; endo-exokrine Sekretion, Regulation, diff. Sekretfunktionen - Verdauung, Schutz, Gleitfunktion
    • Gewebelehre 2: Binde-/Stützgewebe: Einteilung, Zellen-Matrix, Fasertypen, Grundsubstanzmoleküle; Biomechanik verschiedener Bindegewebstypen, Zell-Matrix Interaktion, Metabolismus, Regeneration; Fettgewebe: Bauprinzipien, Typen, Zellen Knorpel: Bauprinzipien, Typen, Zellen, Matrix; Knochen: Bauprinzipien, Typen, Zellen, Matrix; Knochenbildung, Mechanik, Mineralisation, Umbau
    • Gewebelehre 3: Muskelgewebe: Muskulatur: Organisation, allgemeine Bauprinzipien, Gemeinsamkeiten / Unterscheidungsmerkmale (Querstreifung, Sarkomer); Bewegungsprinzipien auf subzellulärer, zellulärer und Organebene, Entwicklung, De- und Regeneration; Glatte Muskulatur Skelettmuskulatur Herzmuskulatur; Organisation, Kontraktion; Weitere kontraktile Zellen: Myofibroblast, Myoepithelzelle zelluläre Grundlagen der Kontraktion – Zytoskelett; Bewegungs- Transportprinzipien im Organismus: Peristaltik, Sekrete, Spermien, Wundheilung
    • Gewebelehre 4: Nervengewebe: Nervengewebe: Bauprinzip, Nervenzellen ↔ Gliazellen, Myelin, Nerv ↔ Nervenfaser; Interaktion von Neuronenketten, Reizleitung, -Übertragung, Gliafunktionen Peripheres NS, Nerv, Synapse; Grundbauprinzip ZNS: Großhirn, Kleinhirn, Rückenmark; Grundprinzipien v. Reflexbogen, neuronale Verschaltung am Beispiel des Kleinhirns
    • Organologie Kreislauf: Blut: Plasma, Serum, Hämatokrit, Blutzellen, Herstellung eines Blutausstriches; Beurteilung eines Blutausstrichs, Eckdaten des Differentialblutbilds, Diagnostik, Steckbrief der Blutzellfunktionen; Blutbildung, Blutbildendes Gewebe – Sternalpunktat; Potenz von Stammzellen, Entwicklungsreihen; Blutgefäße: allgemeines / spezifisches Bauprinzip; Bau - Funktionskorrelation von Blutgefäßen; Verdauung: Mundhöhle, Zunge, Zahn; Speiseröhre, Magen, Dünndarm, Dickdarm; Funktionsbezogenes Bauprinzip → spez. Leistungen; Verdauung, Resorption, Steuerung, Abwehr Leber, Pankreas; Entgiftung, Galleproduktion, Energiespeicherung, Zellabbau Ausscheidung und Reproduktion: Niere: Nephron, Nierenkörperchen, Tubulus-System, Blut-Harn-Schranke, juxtaglomerulärer Apparat, ableitende Harnwege; Primärharnbildung, Rückresorption, Endharnbildung, Autoregulation der Niere; Hoden, Bauprinzip, Spermatogenese; Keimzellbildung, -reifung, Sperma, Fertilität; Nebenhoden, akzessorische Geschlechtsdrüsen; Sperma; Ovar: Urkeimzellen → Eizelle, Follikel, -stadien, -reifung, -sprung, Dominanz, Corpus rubrum, -luteum, albicans, Hormonbildung; Differenzierung der Eizelle, Ovulation, Befruchtung, hormonelle Wechselwirkung - Hypophyse - Ovar – Uterus; Uterus, Bauprinzip, zyklusabhängige Veränderungen; Grundlagen für Einnistung des Keims Vaginalabstrich: Herstellung, Zelldifferenzierung; Diagnostische Bedeutung des Abstrichs; Haut: Bauprinzipien, Typen, Anhangsgebilde- Haare, Schweißdrüsen; Mechanik, Bräunung, Thermoregulation, Immunabwehr; Rezeptoren der Haut; Sensorik: Druck- Tastempfinden; Endokrines System: Schilddrüse, Nebenniere, Hypophyse; Beispiele hormoneller Regelkreise Atmungsorgane: Nasenraum, Luftröhre, Lunge; Lungenreife, Blut-Luftschranke - Gasaustausch Sinnesorgane, exemplarisch Auge: Augapfel: Augenhäuteräume, Organisation der Netzhaut, gelber / blinder Fleck, Kornea, Iris, Linse, Kammerwasser, Sehnerv; Weg des Lichtstrahls, brechende Medien, Akkommodation; Bildentstehung, -Leitung- Verschaltung, Augenfarbe; Lymphatische Organe: Milz, Lymphknoten, Thymus, MALT; Topographische Aspekte der Gewebsregeneration, Progenitorzellen ® „Stammzellnischen“; Schranken – Blut-Gewebe-Schranken (Blut-Hirn-, Blut-Hoden-, Blut-Luft-, Plazenta-Schranke; in Richtung verschiedener. „nanotechnologischer“ Ansätze); Barrieren im Organismus – Epidermis, ableitende Harnwege, Verdauungstrakt, Respirationstrakt

    Teaching method

    Presenting & Activating Methods: Lecture supplemented by "Virtual Microscope

    Examination

    Final exam: Combined written examination: multiple choice questions, free questions and topic development including sketches

    Literature

    • Lüllmann-Rauch, Renate: Taschenlehrbuch Histologie, Thieme
    • Junqueira's Basic Histology, McGraw-Hill

    Teaching language

    Deutsch-Englisch

    2 SWS
    3 ECTS
    Human Physiology | VO

    Human Physiology | VO

    2 SWS   3 ECTS

    Content

    Homeostasis and membrane potential (compartments, transport mechanisms, resting membrane potential, action potential, conduction); heart (structure of the heart, conduction system, pacemaker, ECG, course of normal heart action, coronary perfusion); respiration (lung volumes, respiratory cycle, respiratory restriction, compliance, surfactant, O2 or

    CO2 transport; musculature (electromechanical coupling, contraction, striated, smooth and cardiac muscles, performance diagram); circulation (body & lung circulation, fetal circulation, pressure ratios, oxygen saturation, oxygen demand of important organs, local blood circulation regulation) Blood (transport of nutrients and waste products, storage, coagulation, plasma proteins); defence (cellular & humoral mechanisms, AB0 blood group system, complement system, course of an inflammation); kidney (structure of a nephron, glomerular filtration, secretion, reabsorption, regulation of blood volume & electrolyte composition, renin-angiotensin-aldosterone system); Metabolism/digestion (sections of the gastrointestinal tract and their functions, digestion/absorption of carbohydrates, proteins and fats, tasks of the liver); sensory organs (general sensory physiology, sense of touch, depth sensitivity, photoreceptors organ of balance, ear, sense of smell, sense of taste, perception of pain); Nervous system (vegetative nervous system, transmitter systems, motor function, cognitive functions); endocrinology (main hormone receptor mechanisms, hormones of the pituitary gland, regulation of blood sugar levels, catecholamines, glucocorticoids, thyroid hormone, sex hormones).

    Teaching method

    Presenting method

    Examination

    Final exam: Final written exam

    Literature

    • Bear Mark F., Connors Barry W., Paradiso Michael A., Neuroscience: Exploring the Brain, Wolters Kluwer
    • Carpenter Roger and Reddi Benjamin, Neurophysiology: A Conceptual Approach, Hodder
    • Groos, B., Arbeitsbuch zu Mensch, Körper, Krankheit & Biologie, Anatomie, Physiologie, Urban & Fischer Verlag
    • Silbernagel, Stefan Despopoulos, Agamemnon: Taschenatlas der Physiologie, Thieme Verlag
    • Braun, Thomas Röhler, Anette Weber, Florian: Kurzlehrbuch Physiologie, Elsevier

    Teaching language

    Deutsch-Englisch

    2 SWS
    3 ECTS
    Clinical Aspects of Immunology | VO

    Clinical Aspects of Immunology | VO

    1 SWS   2 ECTS

    Content

    Acute inflammatory diseases The immune system evolved to protect against pathogenic organisms such as viruses, bacteria and other parasites. Both innate and acquired immunity fulfil their purpose in the compound. Topics are the molecular basis and clinical relevance of the misdirected immune system in the context of e.g. infectious diseases. One of the central services of the immune system is the distinction between "self" and "foreign". Autoimmunity and immunodeficiency If the body's own structures are not recognized as "self", the lack of tolerance can lead to the development of autoimmune diseases. If "foreign" is not sufficiently recognized or the immune system is unable to react adequately, the organism may not protect itself sufficiently against intruders, and sometimes serious, life-threatening infections may result. In this course the most important and most frequent autoimmune diseases (clinical presentation, diagnostics, pathogenesis models), as well as the most important congenital and acquired immune defects are presented. Finally, we will briefly point out the clinically relevant coincidence of immunodeficiency and autoimmune phenomena. Allergy Some structures foreign to the body are classified by the immune system as potentially dangerous. In this case an unregulated immune response based on special mechanisms occurs. Here we talk about the symptoms, clinical presentation and different forms of allergies. We also shed light on the molecular background of allergic reactions.

    Teaching method

    Presenting method

    Examination

    Final exam: Final written exam

    Literature

    • Abbas, Abul, K., Lichtman, Andrew H. Pillai, Shiv: Cellular and Molecular Immunology, Saunders.
    • Murphy, Kenneth and Weaver, Casey: Janeway's Immunobiology, Garland Science

    Teaching language

    Deutsch-Englisch

    1 SWS
    2 ECTS
    Module Human Biotechnology
    7 SWS
    11 ECTS
    Developmental Biology and Carcinogenesis | VO

    Developmental Biology and Carcinogenesis | VO

    2 SWS   3 ECTS

    Content

    Principles of development (differentiation, growth, pattern formation, induction, morphogens, cytoplasmic determinants, regulatory development, cell fate, cell migration, differential cell adhesion).

    Phases of development (early cell divisions, gastrulation, neurulation, organ development).

    Development of important model systems (Drosophila, C. elegans, zebrafish, Xenopus, chicken, mouse, and an evolutionary comparison)

    Methods of developmental biology (transplants, gene expression analysis, gain-of-function and loss-of-function methods)

    Axis formation (organizers, anteroposterior axis - Hox genes, dorsoventral axis, left/right axis)

    Blood circulation (angiogenesis, hematopoietic system)

    Regulation of growth

    Germ cells and reproduction (incl. in vitro fertilization, cloning)

    Regeneration (stem cells, regeneration, tissue engineering, aging)

    Special focus: carcinogenesis

    Teaching method

    Presenting method

    Examination

    Final exam: Final written exam

    Literature

    • Werner A. Müller und Monika Hassel: Entwicklungsbiologie und Reproduktionsbiologie von Mensch und Tieren (Springer Lehrbuch) von, Lewis Wolpert und andere: Entwicklungsbiologie. Spektrum Akademischer Verlag, Heidelberg 
    • Slack JMW: Essential Developmental Biology. Blackwell 
    • Scott F. Gilbert: Developmental Biology. Sinauer

    Teaching language

    Deutsch-Englisch

    2 SWS
    3 ECTS
    From Bench to Bedside: Insights into Pharma Research | VO

    From Bench to Bedside: Insights into Pharma Research | VO

    2 SWS   3 ECTS

    Content

    The aim of this course is to show step by step the way from the biological or pathological pathway to the identification of the involved genes (using the methodology of functional genome research) and then the targeted search for specific active substances up to clinical studies. First, an introduction to the medically relevant signalling pathways of the cell is given. Then the methods of genome research are presented, starting with bioinformatics and the use of existing databases. High-throughput methods based on microarrays and proteomics allow the identification of candidate genes that have functions in the desired biological/pathological pathways. A narrowing of these potential targets takes place during the functional characterization of the candidate genes, starting in cell culture systems and finally in the context of the whole organism. The repertoire of methods presented includes both gain-of-function and loss-of-function methods. Finally, the pharmaceutical implementation is carried out by methods of drug selection and optimization up to animal experiments and clinical tests.

    Teaching method

    Presenting method

    Examination

    Final exam: Final written exam

    Literature

    • Latchman, David: Gene Control. Taylor & Francis
    • Wink, Michael: Molekulare Biotechnologie – Konzepte und Methoden. Wiley-VCH Verlag

    Teaching language

    Deutsch-Englisch

    2 SWS
    3 ECTS
    Model Organisms | VO

    Model Organisms | VO

    1 SWS   2 ECTS

    Content

    Presentation of biological models in medicine and basic research (fish, frog, chicken, mouse models, as well as unicellular models, Drosophila and C. elegans as invertebrate models). Criteria for the use of model organisms, especially using genetic methods. Genome research in model organisms, animal models in biomedical research, targeted production of animal models by genetic manipulation, animal experiments in the approval of drugs, model organisms for the development of new active substances (drug screening).

    Teaching method

    Presenting method

    Examination

    Final exam: Final written exam

    Literature

    • Lewis Wolpert und andere: Entwicklungsbiologie. Spektrum Akademischer Verlag,Heidelberg
    • Pamela M. Carroll, Kevin Fitzgerald: Model Organisms in Drug Discovery. John Wiley & Sons, Hoboken, NJ

    Teaching language

    Deutsch-Englisch

    1 SWS
    2 ECTS
    Tissue Engineering | VO

    Tissue Engineering | VO

    2 SWS   3 ECTS

    Content

    Natural regenerative capacity of tissues (comparison of human-animal) and influencing these capacities, application of implants and organ transplants (problem of immune reactions), bone marrow transplantation Introduction to biomaterials - especially to the class of biodegradable materials, properties and function of stem cells (differentiation potential), Extracellular carrier materials for three-dimensional implants (matrix-cell interaction), cell therapy by encapsulation of cells, special process techniques for tissue culture in tissue engineering, use of growth factors in regenerative medicine, problem of immune reactions when therapeutic proteins are administered Production of artificial tissue, status quo of tissue engineering in various tissues. In particular, tissue engineering of skin, cartilage or bone tissue, use or production of autologous and artificial vascular prostheses, regeneration of heart muscle tissue, regeneration of nerve tissue for the treatment of injury to the peripheral and central nervous system and degenerative diseases of the central nervous system. Ethical principles in organ transplantation, in the use of stem cells and the use of artificial tissue produced by tissue engineering The students will get an overview of the preclinical and clinical development of artificial tissue using tissue engineering. The complexity of both the production and the registration of such medicinal products is highlighted. As a result, students also gain an insight into the commercial situation of products manufactured using tissue engineering.

    Teaching method

    Presenting & Activating Methods: e.g. View copies of biomaterials

    Examination

    Final exam: Final written exam

    Literature

    • Erich Wintermantel; Suk-Woo Ha: Medizintechnik. Life Science Engineering. Springer Verlag, Berlin Heidelberg New York
    • Ausgewählte Übersichtsartikel aus wissenschaftlichen Zeitschriften zum Thema Tissue Engineering

    Teaching language

    Deutsch

    2 SWS
    3 ECTS
    Module International Action
    3 SWS
    4 ECTS
    Entrepreneurial Competencies | ILV

    Entrepreneurial Competencies | ILV

    1 SWS   2 ECTS

    Content

    The course presents core topics of everyday business life in biotech companies and deals with aspects that are both new and important in everyday working life, especially for young employees in biotech R&D, operations and management (1.).

    Topics relating to the relationship between employees and superiors or company management are discussed and illustrated using case studies in break-out team sessions (2.).

    Finally, soft skills and personal development are discussed from a practical perspective in context and illustrated using case studies in break-out team sessions (3.).

    1. Everyday business in biotech companies

    1. Founding & Founder(s)
    2. Funding & Investors
    3. Management & company bodies
    4. Startups in the VUCA World – Managing Uncertainty
    5. Dynamic Capabilities
    6. The ‘Lean Startup’ concept
    7. Innovation Management
    8. Agile & Teamwork – Example: Scrum
    9. Company Culture

     

    2. Employee – leadership relationship

    1. Organizational Structures
    2. Goal setting
    3. Performance review
    4. Feedback culture

     

    3. Soft Skills & Personal Development

    1. Personal Development & Objective Agreement
    2. Time Management & Efficiency
    3. Communication
    4. Entrepreneurial mindset
    5. Resilience

    Teaching method

    Performing method (lecture) and case study work in break-out team sessions

    Examination

    Continuous assessment: homework, seminar lectures in group and individual work

    Literature

    • Güttel, W. (2021). Erfolgreich in turbulenten Zeiten. Impulse für Leadership | Change Management | Ambidexterity. 3. Auflage. Nomos Verlagsgesellschaft.
    • Ries, E. (2011). The lean startup: How constant innovation creates radically successful businesses. Portfolio Penguin.
    • Custom documents, templates and examples derived from professional practice.

    Teaching language

    Deutsch-Englisch

    1 SWS
    2 ECTS
    Marketing | ILV

    Marketing | ILV

    1 SWS   1 ECTS

    Content

    • Die Bestandteile des Marketing Mix und einer integrierten Marketingstrategie bezogen auf Produkte, Marken und Unternehmen
    • Instrumente der Marktforschung
    • Marktsegmentierung, Marktpositionierung, Bearbeitung von Zielgruppen
    • Methoden der Entwicklung eines Preis- bzw. Gewinnmodells, Grundlagen der Preiskalkulation und -adjustierungen
    • Regulationsmechanismen für Preisgestaltung in Österreich und auf globaler Ebene
    • Distribution und Logistik
    • Werbung, Verkauf und Kommunikation allgemein, und spezifisch in einem wissenschaftsorientierten Umfeld
    • Die Etappen der Produktentwicklung mit besonderer Berücksichtigung der präklinischen und klinischen Studien vor und nach dem Launch bei Medikamenten
    • Ethische Prinzipien des Marketings
    • Das Produkt-Lebenszyklus Modell
    • Grundlagen der Portfolio-Analyse (Portfoliomatrix nach der Boston Consulting Group)

    Teaching method

    Presentation & Activating Methods

    Examination

    Final exam: Exercises during the lectures (ILV)

    Literature

    • Kotler, P; Armstrong, G: Principles of Marketing. Pearson Prentice Hall
    • Kotler, P. et al: Marketing Management. Pearson Prentice Hall
    • Hill, R.; Rang, H: Drug Discovery and Development. Elsevier
    • Schulz, KF; Grimes, DA: The Lancet Handbook of Essential Concepts in Clinical Research. Elsevier

    Teaching language

    Englisch

    1 SWS
    1 ECTS
    Product Development and Life Cycle Management | ILV

    Product Development and Life Cycle Management | ILV

    1 SWS   1 ECTS

    Content

    - Case studies: Development of selected drugs (biopharmaceuticals and small molecules)

    - Classes of pharmaceuticals

    - Clinical (randomized controlled trials (RCTs)) and epidemiological study designs in the product life cycle

    - Endpoints and inclusion and exclusion criteria

    - Special patient groups

    - Data analysis and interpretation

    - Overview: Ethical aspects, origins and principles of Good Clinical Practice (GCP)

    - International guidelines (EMEA, FDA, ICH)

    - Product life cycle management and selected commercial aspects

    - Interfaces: Marketing, in particular the marketing mix ("4 Ps") and the product life cycle

    Teaching method

    Lectures, group discussions and exercises

    Examination

    Final exam: Final examination, standard (final examination: written final examination, assessment of exercises during the ILV)

    Literature

    > Hill, R.G., and Rang, H.P..: Drug discovery and development: technology in transition (2021, 3rd ed.). Churchill Livingstone/Elsevier

    > Schulz K.; Grimes D.A.: The Lancet Handbook of Essential Concepts in Clinical Research (2019, 2nd ed.). Elsevier

    > Hulley, S. B., Cummings S.R., Browner W.S., Grady D.G., and Newman T.B.: Designing Clinical Research. (2013, 4th ed.). Lippencott, Williams and Wilkins

    > Hackshaw, A.K.: A concise guide to clinical trials (2009). Wiley Blackwell/BMJ Books

    Teaching language

    Englisch

    1 SWS
    1 ECTS
    Module Organic Synthesis
    3 SWS
    3 ECTS
    Organic Chemistry Lab | UE

    Organic Chemistry Lab | UE

    3 SWS   3 ECTS

    Content

    1. carrying out a distillation at normal pressure
    2. Carrying out a distillation under vacuum.

    3. extraction of a carboxylic acid from an aqueous alkaline solution and subsequent purification by recrystallization.

    4. Synthesis of acetoacetic ester ethylene acetal
    5. Synthesis of phenylethanol (via NaBH4 reduction)
    6. Synthesis of acetylsalicylic acid

    7. synthesis of phenytoin

    Method of protocol: handwritten protocol of each experiment.

    Teaching method

    Activating method

    Examination

    Continuous assessment: Immanent examination character; evaluation of synthesis preparations according to quantity and quality.

    Literature

    • Organikum – Organisch-chemisches Grundpraktikum; Verlag WILEY VCH

    Teaching language

    Deutsch

    3 SWS
    3 ECTS
    Module Degree
    2 SWS
    4 ECTS
    Bachelor Exam | AP

    Bachelor Exam | AP

    0 SWS   2 ECTS

    Content

    The Bachelor's examination is the final examination of the Bachelor's programme before an examination senate relevant to the subject. The students present results from their work experience in the form of a lecture. Students are interviewed by the examination senate on their presentation as well as on central theoretical and practical topics of the Bachelor's programme.

    Teaching method

    Activating methods: presentation and oral examination

    Examination

    Final exam: Up to 20 points will be awarded by the examination senate for the presentation. Up to 20 points will also be awarded for the subsequent questioning on the presentation. For answering the questions on central theoretical and practical topics of the Bachelor's program, up to 30 points each are awarded. The sum of these points results in the overall grade for the Bachelor's examination.

    Literature

    -

    Teaching language

    Deutsch

    2 ECTS
    Professional Internship Reflection | SE

    Professional Internship Reflection | SE

    2 SWS   2 ECTS

    Content

    The professional internship reflection is divided into 2 parts:

     

    1. self-reflection: preparation of a written reflection during the professional internship regarding:

    ? Topic, structure (organization, lab) of the professional internship site, supervision, work climate/culture, research, learning content, methods learned.

    ? Lessons learned

     

    2. group reflection: using their self-reflection as a guide and starting point, students in small groups compare and contrast their experiences/opinions/conclusions, etc. during the professional internship. They then select one or more related aspects of their "internship experience" that are of interest to all team members and summarize their group experience and personal development in light of their future careers. The results are presented to their peers as well as to a selected audience in a media format chosen by the group (e.g. video, poster, web page...).

    Teaching method

    Activating method

    Examination

    Continuous assessment: Active participation.

    Literature

    -

    Teaching language

    Deutsch

    2 SWS
    2 ECTS

    Semester dates

    Summer semester 2024: 12th Februar 2024 to 26th July 2024
    Winter semester 2024/25: 4th September 2024 to 31st January 2025

    Number of teaching weeks
    18 per semester

    Times
    Monday to Friday all day; some vocational subjects also held on Saturday

    Electives
    Selection and participation according to available places. There may be separate admission procedures.


    After graduation

    As a graduate of this program, a wide range of occupational fields and career opportunities are open to you. Find out here where your path can take you.

    Your will receive an education for a growth market. Biotechnology is a key technology of the 21st century that is booming internationally as well as in Austria. In recent years Vienna has become a dynamic center for life sciences. Your career will benefit from the excellent professional reputation of your university and from the practical skills and social skills that you will also acquire during your studies. There is a high demand for well-trained experts with a strong scientific background who can immediately contribute to the success of their company. In addition to excellent career opportunities, a wide range of possible activities will be open to you. Immediately after graduation, you can work as a scientific and technical assistant primarily in research departments and laboratories at global pharmaceutical companies, universities or hospitals. With your extensive know-how of Good Laboratory Practice (GLP), you are an ideal candidate to take on responsibility in project management and quality assurance in the production of medications.

    • Biopharmaceutical industry

    • Industrial biotechnology

    • Food industry

    • Environmental technology

      • University, and other research institutions

      • Hospitals

      • Authorities

        Master's degree program

        Master

        Molecular Biotechnology

        full-time


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        Networking with graduates and organizations

        We work closely with numerous biotech companies, universities, such as the University of Vienna, and research institutes and have a strong international network. This guarantees you strong contacts for your internship, a semester abroad, participation in research and development activities and your future employment. You can find information about our cooperation activities and much more at Campusnetzwerk. It’s well worth visiting the site as it may direct you to a new job or interesting event held by our cooperation partners!


        Contact

        Head of Degree Program

        Secretary's office

        Elisabeth Hablas
        Verena Schweitzer

        Favoritenstraße 222, F.3.23
        1100 Vienna
        +43 1 606 68 77-3500
        +43 1 606 68 77-3509
        biotechnologie@fh-campuswien.ac.at

        Map main campus Favoriten (Google Maps)

        Office hours

        Monday – Friday: 09:00 – 12:30
        Monday: 16:00 – 17:00
        Tuesday: 16:00 – 17:00
        Thursday: 16:00 – 17:00

        Information on application and admission
        biotechnologie@fh-campuswien.ac.at

        Teaching staff and research staff


         

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