Genomics and Proteomics
BASIC DATA
course listing
A - main register
course code
LKG0110
course title in Estonian
Genoomika ja proteoomika
course title in English
Genomics and Proteomics
course volume CP
-
ECTS credits
6.00
to be declared
yes
assessment form
Examination
teaching semester
autumn - spring
language of instruction
Estonian
English
Study programmes that contain the course
code of the study programme version
course compulsory
yes
Structural units teaching the course
LK - Department of Chemistry and Biotechnology
Timetable link
Version:
VERSION SPECIFIC DATA
course aims in Estonian
Tutvumine genoomika ja proteoomika teadusvaldkondade strateegiliste eesmärkide, metoodikatega, tulemustega, andmebaasidega ning erinevate rakendustega.
course aims in English
Getting overview from aims, methods, current results, databases and diversity of applications of genomics and proteomics.
learning outcomes in the course in Est.
Aine läbinud üliõpilane:
- on omandatud põhiteadmised erinevate organismide genoomide ülesehituse printsiipidest;
- tunneb genoomide evolutsiooni mõjutavaid tegureid ja toimemehhanisme;
- teab genoomide kooseisu kuuluvaid elemente ja järjestusi;
- oskab DNA järjestuspõhiliselt opereerida erinevate andmebaasidega;
- on omandatud põhiteadmised proteoomika eesmärkidest, sarnasustest ja erinevustest genoomikaga;
- tunneb proteoomika põhitehnoloogiaid ning nende arenduse ajalugu;
- teab mass-spektroskoopia erinevaid tehnilisi lahendusi ning nende rakendatavust proteiinide ja proteoomi uurimisel;
- oskab kasutada proteoomika serverite võimalusi ja töötada proteoomika andmebaasidega.
- on omandatud põhiteadmised erinevate organismide genoomide ülesehituse printsiipidest;
- tunneb genoomide evolutsiooni mõjutavaid tegureid ja toimemehhanisme;
- teab genoomide kooseisu kuuluvaid elemente ja järjestusi;
- oskab DNA järjestuspõhiliselt opereerida erinevate andmebaasidega;
- on omandatud põhiteadmised proteoomika eesmärkidest, sarnasustest ja erinevustest genoomikaga;
- tunneb proteoomika põhitehnoloogiaid ning nende arenduse ajalugu;
- teab mass-spektroskoopia erinevaid tehnilisi lahendusi ning nende rakendatavust proteiinide ja proteoomi uurimisel;
- oskab kasutada proteoomika serverite võimalusi ja töötada proteoomika andmebaasidega.
learning outcomes in the course in Eng.
After completing this course the student:
- has basic knowledge of the genome structure of different organisms has been acquired;
- knows factors and mechanisms of action that influence the evolution of genomes;
- has obtained understanding about importance of elements and sequences within the genome;
- has obtained knowledge about operation with DNA sequences on various databases;
- has aquired basic knowledge from aims of proteomics and similarities and differences from genomics;
- knows principal methods and their historical development;
- has aquired different technological solutions of mass spectroscopy and their application for studies of proteins and proteome;
- has obtained abilities for analysis of proteins and proteome in proteomics servers and work with proteomics databases.
- has basic knowledge of the genome structure of different organisms has been acquired;
- knows factors and mechanisms of action that influence the evolution of genomes;
- has obtained understanding about importance of elements and sequences within the genome;
- has obtained knowledge about operation with DNA sequences on various databases;
- has aquired basic knowledge from aims of proteomics and similarities and differences from genomics;
- knows principal methods and their historical development;
- has aquired different technological solutions of mass spectroscopy and their application for studies of proteins and proteome;
- has obtained abilities for analysis of proteins and proteome in proteomics servers and work with proteomics databases.
brief description of the course in Estonian
DNA järjestusest geenini ja täieliku genoomini. Võrdlev genoomika ja evolutsioon. Organellide genoomid. Homoloogsed, ortoloogsed ja paraloogsed geenid. Genoomide omadused ja ülesehituse põhimõtted. Genoomi sekveneerimine, juhuslik ja süstemaatiline lähenemine: fragmendid, kontiigid, konstruktsioonid ja täielikud kromosoomid.Struktuurne ja funktsionaalne genoomika. Molekulaarbioloogilised meetodid genoomi analüüsiks. Organismide genoomide võrdlus. Farmakogenoomiks. Molekulaarne fülogenees. Inimese genoom ja tema side teiste organismide genoomidega.
Proteoom - valkude ekspressioon organismi arenguetappidel ja erinevates rakutüüpides. Proteoomi uurimise metoodikad: 2D elektroforees, mass-spektroskoopia, valgukiibid. MALDI ja ESI MS; Q-TOF MS; tandem MS, peptiidide sekveneerimine, LC MS/MS. Valkude identifitseerimine ja kvantifitseerimine, PMF, ICAT, iTRAC, SILAC, AQUA. Funktsionaalse proteoomika andmebaasid. Kaasaegse proteoomika tippmetoodikate kirjeldus. Struktuurse proteoomika mõiste ja valdkonna lühikirjeldus. Struktuurse proteoomika andmebaasid, PDB. Valk - valk interaktsioonid, vastavad uurimismetoodikad, interaktoomika. Proteoomika rakendused farmakoloogias ja ravimite väljatöötamises.
Proteoom - valkude ekspressioon organismi arenguetappidel ja erinevates rakutüüpides. Proteoomi uurimise metoodikad: 2D elektroforees, mass-spektroskoopia, valgukiibid. MALDI ja ESI MS; Q-TOF MS; tandem MS, peptiidide sekveneerimine, LC MS/MS. Valkude identifitseerimine ja kvantifitseerimine, PMF, ICAT, iTRAC, SILAC, AQUA. Funktsionaalse proteoomika andmebaasid. Kaasaegse proteoomika tippmetoodikate kirjeldus. Struktuurse proteoomika mõiste ja valdkonna lühikirjeldus. Struktuurse proteoomika andmebaasid, PDB. Valk - valk interaktsioonid, vastavad uurimismetoodikad, interaktoomika. Proteoomika rakendused farmakoloogias ja ravimite väljatöötamises.
brief description of the course in English
DNA sequences of total genome and genes. Comparable genomics and evolution. Homology, orthologic and paralogic genes. Coding and noncoding DNA. Sequencing of genone, random and systematic approach: fragments, contigs, constructions and complete chromosomes. Structural and functional genomics. Genomic comparision of organisms. Pharmoacogenomics. Human genome.
Proteome - expression of proteins during development in different cell types and tissues. Methods used in proteomics: 2D electrophoresis, mass spectrometry, protein chips, MALDI and ESI MS; Q-TOF MS; tandem MS, peptide sequencing, LC MS/MS. Identification of proteins, PMF, ICAT, iTRAC, SILAC, AQUA. Databases of protein expression analysis. Description of achievements in modern proteomics. Structural proteomics, description of main methods and databases. Protein - protein interactions, interactomics. Proteomics applications in pharmacology and drug design. Genomics and proteomics as complementary approaches.
Proteome - expression of proteins during development in different cell types and tissues. Methods used in proteomics: 2D electrophoresis, mass spectrometry, protein chips, MALDI and ESI MS; Q-TOF MS; tandem MS, peptide sequencing, LC MS/MS. Identification of proteins, PMF, ICAT, iTRAC, SILAC, AQUA. Databases of protein expression analysis. Description of achievements in modern proteomics. Structural proteomics, description of main methods and databases. Protein - protein interactions, interactomics. Proteomics applications in pharmacology and drug design. Genomics and proteomics as complementary approaches.
type of assessment in Estonian
Eksam, millele pääsemise eelduseks on proteoomika praktikumitööde teostamine ning protokollide esitamine.
type of assessment in English
Examination. Prerequisite for examination is performing of practical works and protocols of the laboratory experiments.
independent study in Estonian
Tutvumine täiendava õppematerjaliga, soovitatud teadusartiklitega ja praktikumi tulemuste arvutamine ja vormistamine.
independent study in English
Examination. Prerequisite for examination is performing of practical works and protocols of the laboratory experiments.
study literature
antakse loengus
Soovituslik õpik: Principles of proteomics. 2nd Edition. Richard Twyman, Garland Science, 2013, 260 pp; Handbook of Comparative Genomics.Saccone, C., Pesole, G. Wiley-Liss, 2003. The Evolution of Genome, Gregory, T.R. Elsevier, 2005; Introduction to Genomics. Lesk, A., M. Oxford University Press, 2012.
Soovituslik õpik: Principles of proteomics. 2nd Edition. Richard Twyman, Garland Science, 2013, 260 pp; Handbook of Comparative Genomics.Saccone, C., Pesole, G. Wiley-Liss, 2003. The Evolution of Genome, Gregory, T.R. Elsevier, 2005; Introduction to Genomics. Lesk, A., M. Oxford University Press, 2012.
study forms and load
daytime study: weekly hours
4.0
session-based study work load (in a semester):
lectures
3.5
lectures
-
practices
0.5
practices
-
exercises
0.0
exercises
-
lecturer in charge
-
LECTURER SYLLABUS INFO
semester of studies
teaching lecturer / unit
language of instruction
Extended syllabus
2024/2025 spring
Priit Eek, LK - Department of Chemistry and Biotechnology
Estonian