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topics - entrance examination Biological Chemistry

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Topics - entrance exam - BSc Biological Chemistry

Mathematics

basic secondary school Mathematics, e.g., functions and graphs, equations, series, vectors, systems of equations

Chemistry

basic secondary school Chemistry, including calculations, e.g., basics of nomenclature of inorganic and organic compounds, basic calculations (molarity, molecular weight, …), periodic table and atomic structure, simple inorganic reactions, pH, basics of biochemistry (nucleotides and nucleic acids, aminoacids and proteins, saccharides). 

English language

 

Topics - entrance exam - MSc Biological Chemistry

Biochemistry

basic secondary school Chemistry, including calculations, e.g., basics of nomenclature of inorganic and organic compounds, basic calculations (molarity, molecular weight, …), periodic table and atomic structure, simple inorganic reactions, pH, basics of biochemistry (nucleotides and nucleic acids, aminoacids and proteins, saccharides). 

Biochemistry 1:

1.Introductory to Biochemistry: The origin of life; Mechanisms of molecular interactions, Metabolism.
2.Biomolecules: Amino acids; Peptides; Proteins; Carbohydrates; Lipids; Nucleic acids.
3. Enzyme catalysis I: Principles of catalysts and enzyme activity.
4. Enzyme catalysis II: Enzyme kinetics; Enzyme properties; Enzyme types.
5. Gene expression and proteosynthesis: Mechanisms of DNA replication; Transcription/the synthesis of RNA; Gene regulation in Procaryotes; Gene regulation in Eucaryotes; Translation/the synthesis of proteins; Posttranslational modification.
6. Biological membranes and membrane transport: Composition and structure; fluidity and assymmetry; transport across membranes; Methods in biomembrane research.
7. Introductory metabolism and bioenergetics: Metabolism; Thermodynamics of energetic metabolism; Biological oxidation; Coupled reactions; Experimental approach.
8. Energetic metabolism I: Carbohydrate metabolism; Compartmentation; Regulation.
9. Energetic metabolism II: The Citric acid cycle; Electron transport; Oxidative phosphorylation.
10. Energetic metabolism III: Lipid metabolism; Nitrogen utilization; Compartmentation.
11. Energetic metabolism IV: Photosynthesis and photosynthetic machinery; Photorespiration; the C4 cycle.
12. Biotransformation: Metabolism of xenobiotics; Mechanisms of biotransformation reactions; Enzymes in biotransformation, Compartmentation and physiological features.
13. Integration and regulation of energetic metabolism: Compartmentation of metabolic pathways; Functinal relatioships between pathways; Regulatory actions; Metabolic check points; Experimental approaches in metabolism.

Biochemistry 2:
1.Introductory to Biochemistry: The origin of life; Mechanisms of molecular interactions, Metabolism.
2.Biomolecules: Amino acids; Peptides; Proteins; Carbohydrates; Lipids; Nucleic acids.
3. Enzyme catalysis I: Principles of catalysts and enzyme activity.
4. Enzyme catalysis II: Enzyme kinetics; Enzyme properties; Enzyme types.
5. Gene expression and proteosynthesis: Mechanisms of DNA replication; Transcription/the synthesis of RNA; Gene regulation in Procaryotes; Gene regulation in Eucaryotes; Translation/the synthesis of proteins; Posttranslational modification.
6. Biological membranes and membrane transport: Composition and structure; fluidity and assymmetry; transport across membranes; Methods in biomembrane research.
7. Introductory metabolism and bioenergetics: Metabolism; Thermodynamics of energetic metabolism; Biological oxidation; Coupled reactions; Experimental approach.
8. Energetic metabolism I: Carbohydrate metabolism; Compartmentation; Regulation.
9. Energetic metabolism II: The Citric acid cycle; Electron transport; Oxidative phosphorylation.
10. Energetic metabolism III: Lipid metabolism; Nitrogen utilization; Compartmentation.
11. Energetic metabolism IV: Photosynthesis and photosynthetic machinery; Photorespiration; the C4 cycle.
12. Biotransformation: Metabolism of xenobiotics; Mechanisms of biotransformation reactions; Enzymes in biotransformation, Compartmentation and physiological features.
13. Integration and regulation of energetic metabolism: Compartmentation of metabolic pathways; Functinal relatioships between pathways; Regulatory actions; Metabolic check points; Experimental approaches in metabolism.

Molecular Biology

Introduction to molecular biology: History and application of molecular biology in today's science.
Molecular structure of genes and chromosome: Molecular definition of a gene, chromosomal organization of genes and noncoding DNA, structural organization of chromosomes.
Basic molecular genetic mechanisms, Replication of DNA: Understanding the central dogma of molecular biology and overview of basic molecular genetic mechanisms. Basic features of DNA replication in vivo.
Transcription and RNA processing, Translation and the genetic code: Principles of transcription in Prokaryotes and Eukaryotes, basic regulation of gene expression at transcriptional and postranscriptional level. Principles of translation, genetic code.
Mutation, DNA repair, and recombination: Molecular basis of mutations, induced mutagenesis, overview of repair mechanisms and principles of recombination.
Regulation of gene expression in Prokaryotes, Eukaryotes and the genetic control of development: Operon, molecular control of transcription in Eukaryotes, gene expression and chromosome organization, mechanisms of regulation of gene expression during development.
Molecular analysis of genes and gene products: Use of recombinant DNA technology to identify genes, molecular diagnosis of human diseases.
Recombinant DNA technology, the polymerase chain reaction: Cloning genes, principle of polymerase chain reaction and its applications.
Basic techniques of molecular biology: Overview of molecular biology techniques and their use in modern research.
Overview of molecular biology applications in modern basic and applied science: Summary of the course in context of using molecular biology in modern research.

General, Organic, and Analytical Chemistry

1. Atomic structure and the periodic table of elements
2. Chemical nomenclature, balancing equations
3. States of matter: gases, liquids, solids.
4. Chemical bonds and weak bonds
5. Solutions - chemistry and physical properties (solubility, solutions of acids and bases, buffer solutions)
6. Solutions - colligative properties
7. Chemical kinetics, mechanisms of reactions
8. Thermodynamics
9. Electrochemistry
10. Methods I: Chromatography, Spectrophotometry
11. Methods II: Potentiometry, Electrophoresis

• Atoms, molecules, bonding, polar and nonpolar molecules, intermolecular forces, solubilities, Lewis structures, preliminary ideas of resonance, arrow formalism, acids and bases.
• Introduction to orbitals, molecular orbital description of bonding, hybridization, structure of methane.
• Alkanes- conformational analysis, structural isomerism and nomenclature, alkyl groups.
• Alkenes- structure and bonding, nomenclature, E-Z notation, hydrogenation, relative stabilities. Alkynes- structure and bonding, relative stabilities, double and triple bonds in rings.
• Dienes and the allyl system, conjugation, introduction to the concept of aromaticity. UV spectroscopy.
• Stereochemistry- chirality, enantiomerism, R-S notation, diastereomerism, optical resolution.
• Ring systems- strain, stereochemistry of cyclohexane, conformational analysis of cyclohexane and its substituted derivatives, bicyclic and polycyclic compounds.
• Nuclear Magnetic Resonance (NMR) spectroscopy.
• Infrared (IR) spectroscopy.
• Alkyl halides, substitution reactions of alkyl halides- SN 2 and SN 1 mechanisms. Elimination reactions- E1 and E2 mechanisms.
• Overview of substitution and elimination reactions, oxidation of alcohols, rates and equilibria, syntheses.
• Acids and bases revisited. Additions to alkenes- mechanism of hydrogen halide additions, regiochemistry, resonance effects, carbocation stabilities, addition of other unsymmetrical reagents, hydroboration, dimerization and polymerization of alkenes.
• Carbocation rearrangements, addition of halogens to alkenes, oxymercuration, epoxidation and chemistry of oxiranes, cyclopropanation, carbenes, ozonolysis, alkene oxidations with permanganate and osmium tetroxide, addition reactions of alkynes.

Tools in the analytical laboratory; Fundamentals of precipitation titrations, acid-base titrations, complexometric titrations, redox titrations (including calculations of titration curves, detection of end points, applications); Theory of potentiometry (redox potential, electromotive force, electrodes of the first and second kind, redox electrodes, indicator and reference electrodes), applications of potentiometry (pH electrode, ion-selective electrodes, potentiometric titrations); Amperometric sensors, amperometric titrations; Coulometric Titrations; Conductometric analysis; Introduction to spectoscopy, instrumentation for molecular absorption spectroscpy in the UV-visible range, atomic spectroscopy, fluorescence spectroscopy, IR spectroscopy. Introduction to chromatographic techniques.

 

English language

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Organisation of joint master state exam in Biological Chemistry

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Due to differences in rules at the University of South Bohemia in České Budějovice and Johannes Kepler University in Linz Organisation of joint master state exam in Biological Chemistry had to be adjusted.


The state exam will be located at the institution where the student worked on his/her diploma thesis and will have two parts:

1) Master thesis defence

2) Oral exam consisting of

  • Biochemistry and Molecular Biology (Biology-oriented part of the exam)
  • General Chemistry (Chemistry-oriented part of the exam)
  • Elective subject (subject related to the topic of master thesis)

See below for additional information.

 

Additional information for students working on their theses in Linz:

Students working on their MSc thesis in Linz - you must submit the assignment of the Master's thesis also at USB (not only at JKU), and you must apply for the state exam and defence also at USB (even though you do it at JKU), and you must submit your thesis before the defence also at USB.

 

Constitution of the state exam committee

The state exam committee will consist of at least four members, and at least one will always be from the sister university. The supervisor will be a full member of the state exam committee (according to Linz rules).

For the state exam organised at USB, a committee member from JKU will examine the subject of General Chemistry.

For the state exam organised at JKU, the committee member from USB will examine the subject Biochemistry and Molecular Biology.

Student(s) should contact Dr Štěrba/Prof. Grubhoffer and Prof. Müller regarding the members of the committee in advance.

 

 

The State Final Examination (SFE) is an oral examination with two parts - a knowledge examination from two compulsory areas and one optional area, and a defence of the master's thesis. A committee usually consisting of at least five members verifies the student's knowledge. A representative of the partner university attends each time. Thus, for students who do their thesis at USB, the JKU representative who examines the General Chemistry subject attends the SFE; for students who do their thesis at JKU, the USB representative who examines the Advanced Biology and Biochemistry subject attends the SFE. The teacher of the subject chosen by the student as an Elective subject, or his/her designated representative, is also a member of the SFE committee.
 
The SFE consists of two compulsory and one elective areas.
 
The mandatory areas are:
1. UCH/SN11 Advanced Biology and Biochemistry, which represents the biologically oriented part of SFE, especially the content of the lectures from the courses UCH/020 Gene and Protein Engineering, UCH/013E Principles and Techniques in Biochemistry and Molecular Biology, UCH/060 Computational Chemistry and Molecular Modelling of Biomolecules and UCH/784 Cellular and Molecular Biology 2, supplemented by one selected biological module (according to the student's specialization):
- Biological Elective: Advances in Biological Systems – lectures UCH/045 Glycobiochemistry, KMB/217 Methods of Functional Genomics, KME/723 Immunology, and UCH/052 Xenobiochemistry and Toxicology;
- Biological Elective: Molecular and Developmental Biology – lectures KMB/614 Cell Regulation and Signaling, KPA/604 Molecular Phylogenetics, KMB/759 Genetics the Molecular Approach, and KMB/618 Epigenetics and regulation of gene expression;
- Biological Elective: Structural Biology Techniques – lectures UCH/027 X-Ray Crystallography, UCH/651 Optical Methods in Biochemistry, UFY/EM1 Electron Microscopy I and UFY/EM2 Electron Microscopy II;
2. UCH/SN36 General Chemistry, which represents the chemically oriented part of the SFE. The student chooses one of the chemistry areas according to his/her specialisation, covering either Fundamentals of Chemistry and Technology or one of the chemically oriented modules chosen in Linz. Chemistry Fundamentals subject:
- Fundamentals of Chemistry and Technology for Biological Chemists
- Fundamentals of Chemistry and Technology for Technical Chemists
The reason for the introduction of these two courses is to allow students to transfer between Biological Chemistry and Technical Chemistry at JKU, which are very similar, if students complete some of the required courses (bridge subjects). From the point of view of knowledge, the content of both of these SFE subjects is the same, the two names are given only for formal reasons and cover mainly knowledge from Organic Chemistry III, Advanced Instrumental Analysis, Spectroscopy and Structural Elucidation II.
 
The elective part of the SFE consists of the course UCH/SN12 Biological Chemistry Masters Elective, which is chosen by the students from the courses taken during their master's studies at the university where they worked on their thesis, and which is related to their thesis and thus represents a verification of the students' theoretical knowledge.
 
Furthermore, upon successful completion of the SFE, the student is given credit for the course UCH/786 Master's Examination.

Recommended elective subjects at USB:

Bioenergetics

Gen and Protein Engineering

Enzymology

Protein Chemistry

Electron Microscopy

X-ray Crystalography

Fluorescence spectroscopy

Cell Signaling

Computational Chemistry

Glycobiochemistry

Xenobiochemistry

Immunology

Biopharmacy

Virology

Bioinformatics

Molecular Phylogeny

Číst dál …Organisation of joint master state exam in Biological Chemistry

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information on state exams and defences

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Bachelor state exams and defences

  • state exam - oral examination. Students draw a question (or questions) and then have 30 minutes to talk about it. It usually starts at 8 am. Immediately after the exam, it is announced if the student passed; complete results, including the grades, are usually announced afternoon (depending on the number of students) or the next day in person or by mail. A set of questions for the state exams is available online.
  • defence - 45 minutes are reserved for one student. You need a presentation for a maximum of 12 minutes. The evaluation by the supervisor and the opponent are read after your presentation. Next, you answer the question(s) of the opponent (the answers can be included at the end of the presentation, after the "Thank you" slide). Lastly, you will answer the questions from the commission and the guests. Next, everybody except the commission members (which includes the supervisor) leaves and the commission will discuss the thesis and vote on the grade. The result is announced immediately after the defence.

Master state exams and defences

  • defence is usually the first - 60 minutes reserved for one student. You need a presentation for a maximum of 15 minutes. The evaluation by the supervisor and the opponents are read after your presentation. Next, you answer the opponents' questions (the answers can be included in the presentation after the "Thank you" slide). Lastly, you will answer the questions from the commission and the guests. Next, everybody except the commission members (which includes the supervisor) leaves, and the commission will discuss the thesis and vote on the grade. The result is announced immediately after the defence.
  • state exam - usually after the defence - oral, approximately 15 minutes per subject (3 subjects).

Students working on their MSc thesis in Linz - you must submit the assignment of the Master's thesis also at USB (not only at JKU), and you must apply for the state exam and defence also at USB (even though you do it at JKU), and you must submit your thesis before the defence also at USB.

 

The State Final Examination (SFE) is an oral examination with two parts - a knowledge examination from two compulsory areas and one optional area, and a defence of the master's thesis. A committee usually consisting of at least five members verifies the student's knowledge. A representative of the partner university attends each time. Thus, for students who do their thesis at USB, the JKU representative who examines the General Chemistry subject attends the SFE; for students who do their thesis at JKU, the USB representative who examines the Advanced Biology and Biochemistry subject attends the SFE. The teacher of the subject chosen by the student as an Elective subject, or his/her designated representative, is also a member of the SFE committee.
 
The SFE consists of two compulsory and one elective areas.
 
The mandatory areas are:
1. UCH/SN11 Advanced Biology and Biochemistry, which represents the biologically oriented part of SFE, especially the content of the lectures from the courses UCH/020 Gene and Protein Engineering, UCH/013E Principles and Techniques in Biochemistry and Molecular Biology, UCH/060 Computational Chemistry and Molecular Modelling of Biomolecules and UCH/784 Cellular and Molecular Biology 2, supplemented by one selected biological module (according to the student's specialization):
- Biological Elective: Advances in Biological Systems – lectures UCH/045 Glycobiochemistry, KMB/217 Methods of Functional Genomics, KME/723 Immunology, and UCH/052 Xenobiochemistry and Toxicology;
- Biological Elective: Molecular and Developmental Biology – lectures KMB/614 Cell Regulation and Signaling, KPA/604 Molecular Phylogenetics, KMB/759 Genetics the Molecular Approach, and KMB/618 Epigenetics and regulation of gene expression;
- Biological Elective: Structural Biology Techniques – lectures UCH/027 X-Ray Crystallography, UCH/651 Optical Methods in Biochemistry, UFY/EM1 Electron Microscopy I and UFY/EM2 Electron Microscopy II;
2. UCH/SN36 General Chemistry, which represents the chemically oriented part of the SFE. The student chooses one of the chemistry areas according to his/her specialisation, covering either Fundamentals of Chemistry and Technology or one of the chemically oriented modules chosen in Linz. Chemistry Fundamentals subject:
- Fundamentals of Chemistry and Technology for Biological Chemists
- Fundamentals of Chemistry and Technology for Technical Chemists
The reason for the introduction of these two courses is to allow students to transfer between Biological Chemistry and Technical Chemistry at JKU, which are very similar, if students complete some of the required courses (bridge subjects). From the point of view of knowledge, the content of both of these SFE subjects is the same, the two names are given only for formal reasons and cover mainly knowledge from Organic Chemistry III, Advanced Instrumental Analysis, Spectroscopy and Structural Elucidation II.
 
The elective part of the SFE consists of the course UCH/SN12 Biological Chemistry Masters Elective, which is chosen by the students from the courses taken during their master's studies at the university where they worked on their thesis, and which is related to their thesis and thus represents a verification of the students' theoretical knowledge.
 
Furthermore, upon successful completion of the SFE, the student is given credit for the course UCH/786 Master's Examination.

Číst dál …information on state exams and defences

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E-mailová schránka končících studentů/E-mail account of finishing students

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Informace pro končící studenty.

Dnem úspešného složení státní závěrečné zkoušky (tj. úspěšná obhajoba + složení všech částí státní zkoušky) je ukončeno vaše studium dle zákona. S tím souvisí inaktivace všech vašich univerzitních účtů v následujících dnech.

Vzhledem k tomu, že na univerzitní účet vám stále mohou být zasílány důležité nformace, doporučujee s dostatečným předstihem nastavit přeposílání e-mailů na vaše soukromé e-mailové schránky. Také doporučujeme zálohu všech mailů a dat z vašich účtů - všechna data budou po 6 měsících automaticky smazány (pokud dále nepokračujete ve studiu anebo v zaměstnání na univerzitě).

Pro možnost přeposílání si nastavte a ověřte osobní e-mailovou adresu na adrese idm.jcu.cz.

--

Information for students finishing their studies.

According to the law, your studies are finished on the day of successful passing of the state final exam (i.e. successful defense + passing of all parts of the state exam). Related to this is the inactivation of all your university accounts in the following days.

Since important information may still be sent to your university account, we recommend that you set up email forwarding to your private email boxes in advance. We also recommend a backup of all emails and data from your accounts - all data will be automatically deleted after 6 months (if you do not continue your studies or work at the university).

Set up and verify a personal e-mail address at idm.jcu.cz for forwarding.

Číst dál …E-mailová schránka končících studentů/E-mail account of finishing students

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FAQs Biological Chemistry study programmes

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Frequently asked questions regarding the Biological Chemistry study programmes.

 

  • Sport courses at USB

    You can choose one sport activity in the winter semester and one in the summer semester (only these two activities in your bachelor's or master's study) 

    You can see the list of activities in STAG – course KTS/VTVZS in the winter semester and KTS/VTVLS in the summer semester. 

    You can enrol these courses during electronic enrolment or later, at the time of confirmation of electronic enrolment (this time via reg. List B)  

    If you wish to register for this course later (up to 3 weeks after the start of the teaching period), you have to send an email to the Department of Student Affairs describing which course you would like to enrol, when and pay the fee for late enrolment of this course (according to current price list Deans decision D69).

    After payment, the Department of Student Affairs will enrol you on this course.  

    If you wish to register for any sport course later than three weeks after the beginning of the teaching period, you have to apply via STAG, pay the fee (according to the current price list, Deans's decision D69), and the Vice Dean has to approve your request. 

  • Payments & stipends

    Czech banks use bank account numbers, Specific symbols (SS) and Variable symbols (VS). 

    International payments have a bank account number and reference number – therefore, use the Specific symbol (SS) as a reference number. As a note, mention your name and variable symbol (VS).

    If you receive a stipend (for studies, a special stipend for attending a course or from your supervisor for an excellent bachelor thesis), it can be paid only to a Czech bank account. It can be paid in cash at the rectorate’s cashier's office if you do not have one.

  • Enrolment

    You must enrol courses every semester in our study system STAG  

    1/ choose your courses according to the study plan.

    2/ enrol for courses in your STAG account for the next semester (the deadline is in the academic calendar, about the first two weeks in June for the winter semester and 9-20.1.2023 for the summer semester.  

    If you forget – the process of termination of your study will start. Stopping administrative procedures is not claimable. However, you can ask the vice dean to stop it by sending a request via STAG. (currently without fee, may be subject of change, previously the fee was 200 CZK) Attach the form with the list of courses you wish to add.

    3/ confirmation of enrolment (dates in the academic calendar) If you wish to change a list of selected courses before the start of the semester– send the Registration list B with marked changes to the Dept. of Study Affairs (Mrs Trefna). It can be done by hand, and it's free. 

    If you don't need to change anything - no further action is required.

    4/ if you need to change your list of courses within the first three weeks after the start of the semester (currently without fee, may be subject of change, previously the fee was 80 CZK) and send your request via email to the Department of Student Affairs (jtrefna (at) prf.jcu.cz)

    5/ If you need to enrol or delete any course later than the first three weeks after the start of the semester – you have to apply via STAG and the Vice Dean has to approve it (currently without fee, may be subject of change, previously the fee was 150 CZK). A form must be enclosed to the request and also attach the teacher's consent to the additional enrolment of the student in the selected course.

    6/ You need to enrol course UCH/055 Study placement at USB every semester which you spend at JKU!

    7/ Do not forget to enrol for all the mandatory courses such as the Orientation Seminar (UCH/650), Bachelor (UCH/005A, B,C) and Master Seminars (UCH/008A, B)

  • ERASMUS

    Responsible person for Erasmus – Mrs. Barbora Okosy (bokosy (at) prf.jcu.cz) 

    Department of Study Affairs is not involved in ERASMUS-related topics  

  • Transcript of Records (ToR)

    The Transcript of records at JKU is the same report as Summary of Students data at USB. 

    The Summary of Students Data is sent to JKU automatically after the check of study of previous academic year, 3rd or 4th week of October. 

  • Finishing your studies

    - you must apply for a defence & state exam (can be separate terms) 

    - there are defined terms for the state exams and defences – three times a year for Biological Chemistry students (January/February, May/June, September) - check the Academic Calendar for crossborder studies

    - check info about your university accounts (e-mail, STAG ...) https://www.prf.jcu.cz/cz/fakulta/katedry/katedra-chemie/pro-studenty?view=article&id=1672&catid=66  

    - graduation ceremony is organized twice a year. This is an official ceremony where you will receive your diploma (and possibly awards), and your family is welcome to celebrate your studies end.

    - MSc students: do not enrol for the UCH/072 Master Thesis – this course is automatically credited to you after the successful defence and state exam 

  • Presentations and seminars

    You should present the results of your thesis (at the beginning of your work on the thesis, only the background, aims, planned experiments etc.):

    - during your BSc studies 

    - once in the second year (courses UCH/005A and UCH/005B), once in the last semester before the defence (course UCH/005C) at the seminars organized by the Department of Chemistry 

     

    - during your MSc studies 

    -  if you work on your MSc thesis at USB: once in the first or second year (UCH/008A), once in the last semester (UCH/008B) at the seminars organized by the Department of Chemistry 

    - if you work on your MSc thesis at JKU: once in the first or second year at the seminars organized at JKU – presenting should be confirmed by the responsible person from JKU to J. Štěrba once in the first or second year (UCH/008A), once in the last semester (UCH/008B) 

     

    You must enrol for these courses to get the credits and fulfil this obligation (these are mandatory courses).

     

    Presentations at the Department of Chemistry are mandatory. Your supervisor can ask you to present also at the seminars of her/his department. Do not take this as a complication - the more you present, the better and simpler your defence will be. You can present during the seminars even more times than the required minimum.

  • UCH/072

    You should enrol for the course UCH/072 in the semester of your master studies when you are going to defend. You must get the credits before the defence and state exam. This course is credited if your supervisor is satisfied with the submitted master thesis.

  • E-mailová schránka končících studentů/E-mail account of finishing students

    Read more

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Číst dál …FAQs Biological Chemistry study programmes

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