Analysis of Bioactive Compounds - AM323016
Anglický název: Analysis of Bioactive Compounds
Zajišťuje: Ústav analýzy potravin a výživy (323)
Fakulta: Fakulta potravinářské a biochemické technologie
Platnost: od 2024
Semestr: letní
Body: letní s.:4
E-Kredity: letní s.:4
Způsob provedení zkoušky: letní s.:
Rozsah, examinace: letní s.:2/1, Z+Zk [HT]
Počet míst: neurčen / neurčen (neurčen)
Minimální obsazenost: neomezen
Stav předmětu: vyučován
Jazyk výuky: angličtina
Způsob výuky: prezenční
Způsob výuky: prezenční
Úroveň:  
Poznámka: předmět je možno zapsat mimo plán
povolen pro zápis po webu
Garant: Dvořáková Darina doc. Ing. Ph.D.
Neslučitelnost : M323016
Je neslučitelnost pro: M323016
Termíny zkoušek   
Pro tento předmět jsou dostupné online materiály
Anotace - angličtina
Within this course, principles and key applications of modern isolation, separation and detection techniques commonly used in the field of studies / characterization of biologically active compounds. Special attention is paid to (i) application of basic and advanced extraction techniques; (ii) effective separation strategy realized by gas / liquid chromatography; (iii) presentation of various instrumental techniques with a special focus on mass spectrometry and its presentation in case studies. In the final phase of course, practical aspects together with problems to be solved in a qualified manner in practice are summarized.
Poslední úprava: Dvořáková Darina (22.10.2021)
Výstupy studia předmětu - angličtina

Students will be able to understand:

  • How to make a qualified choice of suitable sample preparation strategy (i.e. extraction and clean-up technique) for determination of target analytes.

  • Principle and description of chromatographic techniques (gas or liquid chromatography) for the analysis of complex mixtures of biologically active compounds.

  • Characterization of mass spectrometry (ionization techniques, mass analyzers) and its use in conjunction with chromatography for identification and quantification of analytes.

  • Application of non-target screening (metabolomic fingerprinting / profiling) followed by statistical processing of experimental data.
Poslední úprava: Dvořáková Darina (22.10.2021)
Podmínky zakončení předmětu (Další požadavky na studenta) - angličtina

To obtain the credit, it is necessary to prepare a group project (3-4 students) in the form of a presentation, which summarizes several case studies in the analysis of a selected group of biologically active substances. The award of credit is a necessary condition for passing the exam, which consists of a written part and possibly an oral exam.

Poslední úprava: Dvořáková Darina (22.10.2021)
Literatura - angličtina

Stauffer M. (ed.): Calibration and Validation of Analytical Methods, A sampling of Current Approaches (2018), e-source VŠCHT, ISBN: 978-1-78923-085-7; DOI: 10.5772/intechopen.69918

Naushad M. & Khan M.R. (ed): Ultra Performance Liquid Chromatography Mass Spectrometry, Evaluation and Applications in Food Analysis (2014), e-source VŠCHT, ISBN: 9780429073953; https://doi.org/10.1201/b16670

Picó Y. (ed): Advanced Mass Spectrometry for Food Safety and Quality, Comprehensive Analytical Chemistry, Handboook, Volume 68, Pages 3-714 (2015), e-source VŠCHT, ISBN: 978-0-444-63340-8

Kusch P. (ed): Gas Chromatography, Derivatization, Sample Preparation, Application (2019), e-source VŠCHT, ISBN: 978-1-83881-866-1; DOI: 10.5772/intechopen.73339

Mutlu M. (ed): Biosensors in Food Processing, Safety, and Quality Control (2010); e-book: ISBN: 9780429104121; DOI: 10.1201/b10466

Beier R.C. & Stanker L.H. (ed): Immunoassays for Residue Analysis (1996); ISBN13: ‍9780841233799; DOI: 10.1021/bk-1996-0621

Poslední úprava: Dvořáková Darina (09.11.2021)
Požadavky ke zkoušce (Forma způsobu ověření studijních výsledků) - angličtina

Within the extent of the syllabus.

Poslední úprava: Kubová Petra (16.04.2018)
Sylabus - angličtina

1 Introduction to the issue, classification of biologically active substances

2 General characteristics of the analytical procedure, performance characteristics and validation, basic steps in the analysis of biologically active substances of both natural and anthropogenic origin

3 Basic and advanced extraction techniques with a focus on their use in practice

4 Gas chromatography (theory, injection techniques, classification of capillary columns, influence of various parameters on the separation process, optimization of separation, two-dimensional GC, conventional detectors)

5 Liquid chromatography (theory, selection of chromatographic system, columns and classification of stationary phases, conventional detectors, optimization and influence of various parameters on the separation process)

6 Mass spectrometry (introduction and characterization of application potential, ionization techniques, mass analyzers, ion mobility, detection)

7 Analysis of volatile compounds, GC-MS (case studies)

8 Analysis of environmental contaminants by GC-MS (case studies)

9 Analysis of environmental contaminants by LC-MS (case studies)

10 Bioanalytical methods I (biosenzors and portable systems for food analysis)

11 Bioanalytical methods II (principles of biomolecular recognition)

12 Analysis of pesticides and mycotoxins

13 Analysis of vitamins and other important biologically active compounds

14 Presentation of individual students works, discussion, preparation for final test

Poslední úprava: Dvořáková Darina (22.10.2021)
Studijní opory - angličtina

Group at MS teams, where students will complete short tests online to verify their knowledge at the end of each teaching block. After the evaluation of the tests, the results will be discussed with the students and the most common mistakes will be explained.

Technique overview:

http://www.ionsource.com/tutorial/spectut/spec1.htm

http://www.chemguide.co.uk/analysis/masspecmenu.htm

Poslední úprava: Dvořáková Darina (22.10.2021)
Studijní prerekvizity - angličtina

Analytical chemistry, Food chemistry, Analysis of food and natural products

Poslední úprava: Dvořáková Darina (22.10.2021)
Zátěž studenta
Činnost Kredity Hodiny
Obhajoba individuálního projektu 0.5 14
Účast na přednáškách 1 28
Práce na individuálním projektu 1 28
Příprava na zkoušku a její absolvování 1 28
Účast na seminářích 0.5 14
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