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|
1 study year
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Winter Semester
|
| Code |
Subject Title |
L/Ex/Lab |
Examination |
Credits |
|
Mandatory Subjects
|
| N143042 |
Statistical Data Analysis
This course is the follow-up to the Applied Statistics lectures. Freely available statistical software R is presented, and students use it to practise common statistical tasks such as, e.g., exploratory data analysis, hypothesis testing, analysis of variance or regression
... more details
|
2/2/0 |
C+Ex |
5 |
| N216032 |
Legal Grounds of Expert Examinations
None
... more details
|
2/0/0 |
Ex |
3 |
| N320032 |
Pathobiochemistry I
The goal of the subject is to acquire basic pathobiochemistry processes in the human body. The course emphasizes a comprehensive explanation of the mechanisms of disease development at the level of tissues, cells and molecular biology,too. Students are also acquainted with effective indication and interpretation of basic biochemical tests. The latest research findings and treatment of diseases with high frequency (lifestyle diseases) are also presented
... more details
|
3/0/0 |
Ex |
5 |
| N320033 |
Specialized Laboratory I
The subject aims to provide skills in methods of biochemistry, molecular biology and other fields to successfully carry out the diploma thesis project at the workplace (laboratory at ICT Prague or at partner institution)
... more details
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0/0/6 |
MC |
5 |
| N320036 |
Advanced Biochemistry: Laboratory
Tha aim of the subject is to expand the basic knowledge of the biochemical course and to adopt new techniques of modern biochemistry and to amend the spectrum of techniques of biochemistry and molecular biology used in research laboratories
... more details
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0/0/5 |
MC |
3 |
| N320051 |
Genetic Engineering
The subject is focused on understanding of principles of manipulation with nucleic acids and their analysis. It covers information about various methods of introducing genes into diverse cell types, determination of gene expression and analysis. The goal is to deliver information about genetic engineering techniques in order to facilitate the choce of the optimal method for a particular application. The lectures cover basic methods of isolation, analysis and modification of nucleic acids and special applications as gene modification for detection or affinity purification of gene product, study of interaction of proteins and nucleic acids, or gene therapies
... more details
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2/0/0 |
Ex |
3 |
| N323047 |
Interpretation of chromatographic and spectrometric data
The subject is focused on the interpretation of chromatographic and mass spectrometric data generated within analysis of various food components. The following topics are discussed: (i) connection of chromatographic and mass-spectrometric techniques; (ii) interpretation of mass spectra; (iii) software for analyte identification and data processing; (iv) non-targeted screening in food analysis; (v) techniques for the quantification of analytes and their confirmation; (vi) statistical methods for the data processing and interpretation (multivariate analysis)
... more details
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2/0/0 |
Ex |
3 |
|
Elective Subjects
(
choose at least 1 subject from this group
)
|
| N323015 |
Reaction Mechanisms in Food Chemistry
The scope of this course is principal chemical reactions of important food components that occur during storage, culinary and technological processing of foods, which lead to changes in nutritional, sensory and health quality
... more details
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2/0/0 |
Ex |
3 |
| N323022 |
Food Toxicology
The objective of this course is to clarify the current strategies in toxicological assessment of health risks associated with dietary exposure to various hazardous chemicals that may occur in food chains such as environmental contaminants, natural toxins and other potentially toxic compounds originated during foods production and processing. In addition to explanation of basic concepts, attention is paid to concrete examples of risks assessment and communication in case of various global crises
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2/1/0 |
C+Ex |
4 |
|
Volitelné předměty
|
Summer Semester
|
| Code |
Subject Title |
L/Ex/Lab |
Examination |
Credits |
|
Mandatory Subjects
|
| N143043 |
Databases in Chemical and Forensic Analysis
Course focused on introduction to forensic databases, with emphasis on chemistry, biochemistry and materials oriented databases
... more details
|
1/1/0 |
C+Ex |
3 |
| N320028 |
Analyte Determination in Medicine
The aim of the subject is to obtain knowledge of the principles and possibilities of measurement of relevant diagnostic metabolites in clinical biochemistry, including the accuracy and quality control of analytical methods. In addition, students will learn to interpret important clinical biochemistry tests
... more details
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2/0/0 |
Ex |
3 |
| N320031 |
Pathobiochemistry II
The goal of the subject is to acquire basic pathobiochemistry processes in the human body. The course emphasizes a comprehensive explanation of the mechanisms of disease development at the level of tissues, cells and molecular biology,too. Students are also acquainted with effective indication and interpretation of basic biochemical tests. ) The latest research findings and treatment of diseases with high frequency (lifestyle diseases) are also presented.
... more details
|
2/0/0 |
Ex |
3 |
| N320037 |
Specialized Laboratory II
The subject aims to provide skills in methods of biochemistry, molecular biology and other fields to successfully carry out the diploma thesis project at the workplace (laboratory at ICT Prague or at partner institution)
... more details
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0/0/6 |
MC |
5 |
| N342010 |
NMR spectroscopy in Natural Compounds
The purpose of the course is to teach students the fundaments of Nuclear magnetic resonance spectroscopy. It is designed for NMR users to be able to choose a proper NMR experiment, to set it up on an NMR spectrometer, process the results and interpret the spectra. The course is divided into three sections, the first one is about physical background of NMR, the second one is devoted to principles of interpretation of NMR spectra and the last one should help students to orient themselves in numerous applications of NMR spectroscopy. Students must work out their own projects to successfully pass the course
... more details
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2/1/0 |
MC |
3 |
| N963020 |
Specialised Practice
None
... more details
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0/0/0 |
C |
3 |
|
Elective Subjects
(
choose at least 1 subject from this group
)
|
| N320039 |
Analyte Determination: Laboratory I
The goal of the subject is to gain practical skills for the determination of basic metabolites in clinical- biochemical laboratory including methods for the diagnosis of inherited metabolic disorders.
In addition to practical exercises, subject also includes a practical demonstration of analytical methods, including automated analyzers. Students will gain information about the complex management of clinical -biochemical laboratories, including quality control and electronic data output
... more details
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0/0/5 |
MC |
3 |
| N323055 |
Chromatography and mass spectrometry: Laboratory
Subject Chromatography and mass spectrometry: Laboratory is designed for students who have completed course Interpretation of chromatographic and mass-spectrometric data. The aim of the course is to practically introduce to students modern techniques for detection of compounds, data handling and interpretation, including statistical data processing (multivariate analysis). Laboratories are designed as single handle activities of students on their own projets
... more details
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0/0/5 |
MC |
3 |
|
Elective Subjects
(
choose at least 2 subject from this group
)
|
| N319011 |
Biochemistry of Secondary Metabolites
A number of secondary metabolites are among important biotech products used in medicine, food and chemical industry and in many other areas of human activity. Although metabolic pathways for the synthesis of these compounds are based on metabolites of the general (primary) metabolism, they are specific to particular groups of organisms and have different regulatory mechanisms. The lectures explain the general relationships between primary and secondary metabolism and evolution of metabolic pathways of secondary metabolism. After a survey of the individual groups of secondary metabolites, closer attention is paid to microbial and plant compounds such as antibiotics, cancerostatics, alkaloids, terpenic oils etc.. In detail are discussed its biosynthetic pathways, physico-chemical properties, biological activity, the mechanisms of interaction with other organisms and resistance to their effects. Part of the seminar is an individual work devoted to a selected group of secondary metabolites
... more details
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2/1/0 |
C+Ex |
4 |
| N322021A |
Food process chemistry
The subject is focused on understanding of advanced level of chemical processes taking place at production and storage of foods. Special importance have undesirable changes, processes and reactions that form basic of food technologies. Understanding the parallel and the consecutive changes of basic food components during unit operations is essential as well as interactions of reactants with food components
... more details
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3/2/0 |
C+Ex |
6 |
| N342009 |
Biologically Active Natural Compounds
The course covers basic structural groups of biologically active natural compounds with its representative sources, namely in the plant kingdom. Selected pharmacologically important products of mushrooms and microorganisms are discussed. Besides pharmacological activities, discussed are also selected groups of sensorial active compounds (non-sugar artificial sweeteners, bitter compounds, olfactory active compounds). Molecular and cellular basis of activity is given for selected activities, structure-activity relationship is discussed
... more details
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3/0/0 |
Ex |
5 |
|
Volitelné předměty
|
2 study year
|
Winter Semester
|
| Code |
Subject Title |
L/Ex/Lab |
Examination |
Credits |
|
Mandatory Subjects
|
| N320027 |
Conception of laboratory diagnostic tests
The aim of the course is to introduce the general concept of laboratory diagnostic tests, especially:
a) indicators of quality of examinations and laboratories as a whole (lectures 1-4)
b) the application of science in the modern laboratory practice
c) other diagnostic methods, such as histological, molecular-genetic, hematologic, etc.
"Classical" clinical-biochemical tests, were covered familiar in the previous subject "Determination of analytes in medicine"
... more details
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2/0/0 |
Ex |
3 |
| N320038 |
Specialized Laboratory III
The subject aims to provide skills in methods of biochemistry, molecular biology and other fields to successfully carry out the diploma thesis project at the workplace (laboratory at ICT Prague or at partner institution)
... more details
|
0/0/15 |
MC |
10 |
| N320093 |
Forensic genetics
This course introduces students to the forensic DNA analysis as the dominant method of determining the origin of biological material. It describes biological principles on which the field is based, application circuits (criminology, kinship analysis, identification analysis, bioarcheology, recreational genetics), principles of analysis from the collection of biological material to final evaluation. It brings an overview of non-ID analysis and includes the basics of forensic statistics in the field of genetic analysis
... more details
|
2/2/0 |
C+Ex |
5 |
| N342012 |
Labelled Compounds
The course covers the potential of application of isotopically (using stable as well as radioactive isotope) labeled compounds in chemistry, biology and medicine with special aspects of this discipline (synthesis in ng to mg scale, nomenclature, radiolysis, isotopic effect, hygiene of ionizing radiation)
... more details
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2/0/0 |
Ex |
3 |
| N402095 |
Criminalistic Footprint as Evidence
The aim of this subject is to learn basic knowledge and skills for profession forensic technician (inspection of crime scene and security criminalistic footprints)and criminalistic expert (laboratory analysis of the criminalistic footprints) by the Police of the Czech Republic. After continuing education and practice the students will be able to enroll in the list of judge advocates.
General section will focus on basics of criminal substantive law and criminal procedural law. The topics will be genesis and basics of forensic science (fields of forensic techniques, tactics and methodics), activity of centers of forensic technique and consultant reports of the CR Police, the basics of judicial reports, forensic identification of persons and things. Special section will be criminological chemistry, toxicology, biology, analysis of microtraces, odorology, fingerprint,mechanoscopy, defectology.
... more details
|
2/1/0 |
C+Ex |
4 |
|
Elective Subjects
(
choose at least 1 subject from this group
)
|
| N320088 |
Molecular mechanisms of bacterial virulence
The course deals with molecular mechanisms of host-pathogen interactions. Upon recapitulation of the basic
mechanisms of mammalian immune system function, the lectures will focus on genetic basis and regulation
mechanisms underlying virulence of bacterial pathogens. Molecular details of action of major virulence factors,
such as adhesins, toxins, complement resistance and immunomodulatory substances will be discussed. Action of
virulence factors will be discussed from the systemic context of the entire host organism down to the level of
biology and physiology of cells of the immune system. Principles of host-pathogen interactions will then be
analyzed using selected examples of major human pathogens and bacterial infections
... more details
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2/0/0 |
Ex |
3 |
| N322022 |
Physical Properties of Foods
The course is focused on the application of knowledge of physical chemistry for characterization of physical properties of food raw materials and products and on the assessment of the factors affecting their stability. Attention is mainly devoted to rheological and colloidal properties determining the sensory quality and the shelf life of food. The course also includes methods of evaluation of these properties and an overview of the physical properties of selected groups of food
... more details
|
2/1/0 |
C+Ex |
4 |
|
Volitelné předměty
|
Summer Semester
|
| Code |
Subject Title |
L/Ex/Lab |
Examination |
Credits |
|
Mandatory Subjects
|
| N963008 |
Diploma Thesis
None
... more details
|
0/0/30 |
C |
30 |
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