PřF:Bi4020 Molecular biology - Course Information

Bi4020 Molecular biology

Extent and Intensity

3/0/0. 3 credit(s) (fasci plus compl plus > 4). Type of Completion: zk (examination).

Teacher(s)

prof. RNDr. Jan Šmarda, CSc. (lecturer)
prof. RNDr. Jana Šmardová, CSc. (lecturer)

Guaranteed by

prof. RNDr. Jan Šmarda, CSc.
Department of Experimental Biology – Biology Section – Faculty of Science
Contact Person: prof. RNDr. Jan Šmarda, CSc.
Supplier department: Department of Experimental Biology – Biology Section – Faculty of Science

Timetable

Tue 13:00–15:50 B11/132

Prerequisites

! Bi4010 Essential molecular biology
Basic knowledge of general zoology and botany, microbiology, genetics, physiology, organic chemistry and biochemistry.

Course Enrolment Limitations

The course is also offered to the students of the fields other than those the course is directly associated with.

fields of study / plans the course is directly associated with

there are 32 fields of study the course is directly associated with, display

Course objectives

The aim of the course is to explain the structure of genomes of various organisms, to provide students with information how genetic information is stored and expressed. Students are also familiarized with the processes by which genetic information can be changed and what this means for the phenotype of the cell/organism.

Learning outcomes

Students will be able to understand and explain basic principles of molecular biology and genetics on molecular level and their basic phenomena - the structure, replication, expression and changes of genes.

Syllabus

• 1. History of molecular biology. Nucleic acids (primary, secondary and tertiary structure of DNA and RNA, different conformations of DNA and their significance in biological systems)
• 2. Genetic information and the genetic code.
• . 3. Molecular structure of procaryotic and eucaryotic genome.
• 4. Replication of procaryotic and eucaryotic genome
• 5. Transcription of prokaryotic and euckryotic genome. Posttranscriptional modification and processing of RNA, especially in eukaryotes. Mechanisms of splicing and self-splicing
• 6. Translation of prokaryotic and eukaryotic mRNA. Posttranslational processing
• 7. Regulation of gene expression in prokaryotes and eukaryotes
• 8. Molecular basis of acquired immunity
• 9. Molecular mechanisms of mutagenesis and recombination Molecular basis of cancerogenesis (oncogenes, antioncogenes. Repair mechanisms of damaged DNA
• 10. Mobile genetic elements, Transposons and retrotransposons.
• 11. Basic principles of gene engineering

Literature

recommended literature
• WILSON, John H. and Tim HUNT. Molecular biology of the cell : the problems book / John Wilson and Tim Hunt. Sixth edition. New York: Garland Science, 2014, xvi, 966. ISBN 9780815344537. info
• CLARK, David P. Molecular biology. Amsterdam: Elsevier, 2005, xviii, 784. ISBN 0121755517. info
• ALBERTS, Bruce. Základy buněčné biologie : úvod do molekulární biologie buňky a : Essential cell biology (Orig.). Ústí nad Labem: Espero Publishing, xxvi, 630,. info

not specified
• SNUSTAD, D. Peter and Michael J. SIMMONS. Genetika. Translated by Jiřina Relichová. Druhé, aktualizované vydá. Brno: Masarykova univerzita, 2017, xix, 844. ISBN 9788021086135. info

Teaching methods

Lectures are based on power-point pictures, tables and texts elaborated accordindg to textbooks, monographs and scientific papers which are explained and complemented with teacher comments. All the presentations are available on IS MUNI.

Assessment methods

Visiting of the course is not obligatory. The exam is a written test in which students should answer 50 questions covering main topics of individual lectures. To pass the exam the students should answer 60% of the answers.

Language of instruction

Czech

Follow-Up Courses

• Bi6400 Methods of molecular biology
• Bi7090 Molecular biology of eukaryotes
• Bi7120 Molecular biology of prokaryotes
• Bi7140 Molecular biology of viruses

Further comments (probably available only in Czech)

Study Materials
The course is taught annually.

Listed among pre-requisites of other courses

• Bi0580 Developmetal Genetics
  souhlas || Bi4010 || Bi4020  
• Bi1100 Mechanisms of hormonal regulation
  Bi3030 || Bi6790 && (NOW(Bi4020) || Bi4020) && !Bi1100en  
• Bi3001 Bachelor thesis EMB 1
  Bi4020 || JA001 || JA002 || JA001A && NOW(Bi3330) || NOW(Bi3332) || NOW(Bi3334) || NOW(Bi3336) || NOW(Bi3338)  
• Bi4010 Essential molecular biology
  !Bi4020  
• Bi4010c Essential molecular biology - seminar
  !Bi4020c && (NOW(Bi4010) || NOW(Bi4020) || Bi4010 || Bi4020)  
• Bi4020c Molecular biology - laboratory practice
  (C1600 || C1080 || C1620 || C1650 || C2100 || C2500 || C2740 || C2480 || Bi9410 || souhlas) && (Bi4020 || NOW(Bi4020)) && !NOWANY(Bi4010c,Bi4035) && !Bi4010c && !Bi4035  
• Bi4025en Molecular Biology
  (!Bi4020) && (!Bi4010) && !NOWANY(Bi4010,Bi4020)  
• Bi4030c Molecular biology - practice
  (Bi4020 || NOW(Bi4020)) && (Bi4030 || NOW(Bi4030))  
• Bi5000 Bioinformatics
  Bi4010 || Bi4020  

Zobrazit další předměty

• Bi5420 General virology
  (Bi4020 || NOW(Bi4020)) && (Bi4090 || NOW(Bi4090))  
• Bi5490 Bachelor Thesis LGMD I
  JA001 || JA002 || JA001A || Bi4020  
• Bi5599 Applied Biochemistry and Cell Biology Methods
  Bi4020 && C3580  
• Bi6129 Palaeogenomics and Palaeoproteomics
  Bi3060&&Bi4020&&C3580  
• Bi6270 Cytogenetics and cytogenomics
  Bi3060 && Bi4020 || NOW(Bi4020) || Bi4010  
• Bi6270c Cytogenetics - practice
  Bi3060 && Bi4020 || NOW(Bi4020) && NOW(Bi6270)  
• Bi6336 Biology of germ cells and early embryos
  Bi4020  
• Bi6400 Methods of molecular biology
  souhlas || Ex_3065 || Imp_9115 || B3120 || B4030 || B5740 || B6130 || B7940 || B4020 || Bi4010 || Bi4020  
• Bi6400c Methods of Molecular Biology - practice
  (Ex_3065 || Imp_9115 || B3120 || B4030 || B5740 || B6130 || B7940 || B4020 || Bi4020 || Bi4035) && NOW(Bi6400) && !B6405  
• Bi6700 Taxonomy of prokaryotes
  C3580 && Bi4020 && Bi4090  
• Bi6710 Taxonomy of pathogenic bacteria
  C3580 && (Bi4020 || NOW(Bi4020)) && (Bi4090 || NOW(Bi4090)) && !Bi6700  
• Bi7001 Cell Architecture
  Bi1700 && Bi4020  
• Bi7005 Cell Regulations
  Bi1700 && Bi4020  
• Bi7036 Genetics and Taxonomy of Viruses
  Bi4020 && Bi5420  
• Bi7037 Advanced Molecular Virology
  Bi5710 && Bi4020 || Bi2060 && Bi4010  
• Bi7055 Principles of Antiviral Therapy
  Bi5420 && Bi4020 && Bi4090 && Bi5220  
• Bi7056 Development and production of vaccines and antivirals
  Bi5420 && Bi4020 && Bi4090 && Bi5220  
• Bi7090 Molecular biology of eukaryotes
  (Bi4010 || Bi4020) && (program(N-MBG) || program(N-LGM) || program(N-BI) || program(B-MBB) || souhlas)  
• Bi7120 Molecular biology of prokaryotes
  (Bi4010 || Bi4020) && (program(N-MBG) || program(N-LGM) || program(N-MIK) || program(N-BI) || souhlas)  
• Bi7140 Molecular biology of viruses
  Bi4010 || Bi4020  
• Bi7240 Applied genetics and plant breeding
  Bi3060 && Bi4020  
• Bi7250 Medical genetics and genetic counseling
  (Ex_3162 || Imp_9126 || B1900 || BMB32 || B6730 || B8470 || B3060 || Bi3060) && (Ex_3065 || Imp_9115 || B3120 || B4030 || B5740 || B6130 || B7940 || B4020 || Bi4020) && (Ex_2315 || BMB41 || B6270 || Bi6270 || NOW(Bi6270)) && !B7250  
• Bi7420 Modern methods for genome analysis
  Bi1700 && (Bi4010 || Bi4020) && (Bi4020c || Bi6400)  
• Bi7575 Stem Cell Biology
  Bi3030 && Bi4020  
• Bi7665c Cell and tissue cultures - practical training
  Bi3030 && Bi4020 && Bi2080 && Bi7665  
• Bi8005 Cell Biology of Protists
  Bi1700 && Bi4020  
• Bi8080 Plant molecular physiology
  Bi1060 && Bi4020 && Bi4060  
• Bi8120 Biomedical Applications of Cell Biology
  Bi1700 && (Bi4010 || Bi4020)  
• Bi8240 Plant genetics
  (Ex_3162 || Imp_9126 || B1900 || BMB32 || B6730 || B3060 || Bi3060) && (Ex_3065 || Imp_9115 || B3120 || B4030 || B5740 || B6130 || B7940 || B4020 || Bi4020 || NOW(Bi4020))  
• Bi8280 Animal genetics
  (Ex_3162 || Imp_9126 || B1900 || BMB32 || B6730 || B3060 || Bi3060) && (Ex_3065 || Imp_9115 || B3120 || B4030 || B5740 || B6130 || B7940 || B4020 || Bi4020)  
• Bi8350 Evolutionary genomics
  Bi4020  
• Bi8360 Molecular diagnostics of microorganisms
  (Bi4020 || Bi4010) && (Bi2050 || Bi2060 || Bi4090)  
• Bi8440 Basics of Clinical Oncology
  Bi1700 && Bi4020  
• Bi8790 Regulation of development processes
  (Bi1700 || Bi2080) && Bi3030 && (Bi4010 || Bi4020) && Bi6140  
• Bi9007 Cell Metabolism
  Bi1700 && Bi4020  
• Bi9260 Cellular and molecular neurobiology
  Bi4020  
• Bi9350 Immunogenetics and immunogenomics
  Bi3060 && (Bi4010 || Bi4020) && Bi5220  
• C7187 Experimental oncology
  C4182 || Bi4020 || Bi4010|| LF:BLBC0211p  
• C7875 Gene technology
  Bi4020 && C4182 || C3580  
• C8004 Advanced Plant Cell Biology
  Bi1700 && Bi4020  
• C8545 Developmental biology
  (Bi4010 || Bi4020)  

• Enrolment Statistics (Spring 2023, recent)
  
• Permalink: https://is.muni.cz/course/sci/spring2023/Bi4020