Opinto-opas 2009-2010
Perus

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Opinto-opas 2009-2010

SGN-6237 Techniques in Molecular Biology and Applications to Gene Expression, 3 op

Vastuuhenkilö

Andre Sanches Ribeiro

Toteutuskerrat

  Luentoajat ja -paikat Kohderyhmä, jolle suositellaan
Toteutus 1


Per 4 :
Torstai 14 - 16, TB215

 
Biotekniikan koulutusohjelma
DI-Opiskelijat
International Students
Jatko-opiskelijat
Kandiopiskelijat
Luonnontieteiden ja ympäristötekniikan tiedekunta
Teknis-luonnontieteellinen koulutusohjelma
Ympäristö- ja energiatekniikan koulutusohjelma  


Suoritusvaatimukset

Project work (30% of the final grade), take-home exercises (30% of the final grade) and final assignment(40% of the final grade). To pass the course, the student is required to: a) execute all three requirements. b) Attend and complete at least 50% of the exercises lessons.

Osaamistavoitteet

The student will be introduced to a variety of current experimental techniques in molecular biology. The aim is to provide an understanding of the techniques and how to interpret results. The focus of this course will be manipulation and analysis of gene expression in prokaryotic systems, though eukaryotic tools will be briefly described. Students will become familiar with common wet-lab methods used in various fields in biology, and gain an understanding of the objectives, applicability and limitations underlying each of these methods. After the course, the student will be able to: 1) Identify, list and define common techniques used in genetic engineering and gene expression analysis, 2) Interpret data generated from the techniques discussed, classify strengths and weaknesses of the methodologies, summarize results and methods, infer consequences of results, explain procedures. 3) Apply the acquired knowledge to better interpret degrees of confidence in experimental results. 4) Deconstruct results of gene expression measurements. Compare different methodologies for verifying a hypothesis or measuring a variable. 5) Compare and appraise related methods in gene expression studies, and interpret and comment conclusions in such studies, 6) Create and develop an experimental procedure using the methods learned, that can address simple questions regarding gene expression.

Sisältö

Sisältö Ydinaines Täydentävä tietämys Erityistietämys
1. The structure, design and applicability of the bacterial plasmid vector to clone a gene of interest and express protein. Methods used in subcloning, such as PCR, DNA synthesis and sequencing and the process of DNA transfer will be reviewed.     
2. The introduction of genomic insertion by homologous recombination. Methods used to evaluate proper gene insertion, such as Northern and Southern blots, and introduction of mutations by site directed mutagenesis, will be reviewed.     
3. Studies of bacterial gene expression. A number of methods used to detect and quantify changing RNA levels due to external stress will be reviewed. Students will be given a summary of multi-cell techniques, including real-time PCR, serial analysis of gene expression (SAGE), and microarray analysis.     
4. Studies of variability in bacterial gene expression at the single cell level, with an emphasis on cell-to-cell variation. Techniques which are capable of counting individual mRNAs will be evaluated, including fluorescence in situ hybridization (FISH), real-time measurements and single-cell RT-PCR will be reviewed.     
5. Application and analysis of PCR method. This week will involve a wet laboratory experiment. This component will give students hands-on experience in a common molecular biology technique. Over two days (90 min each), students will set up PCR experiments followed with restriction digestion to amplify and verify, respectively, a select region of the luciferase gene.     
6. The theory and practice of fluorescence microscopy, as used to test for protein expression and localization. The advantages and challenges of this technique will be reviewed, by examining the use of fluorescent tags, such as Green Fluorescent Protein (GFP).     


Oppimateriaali

Tyyppi Nimi Tekijä ISBN URL Painos,saatavuus... Tenttimateriaali Kieli
Kirja   Biology of Microorganisms   Madigan, A. T., Martinko, J.M., Dunlap, P.V. and Clark, D.P.       Page 57-65 and all of Chapter 7. This material gives a review of what is expected to be known for this course.      Englanti  
Kirja   Biology of Microorganisms   Madigan, A.T., Martinko, J.M., Dunlap, P.V. and Clark, D.P.       Chapter 12. This chapter onlines several of the methods introduced in this course.      Englanti  
Lehti   Cloning and mutagenesis, tinkering with the order of things   Smith, C.            Englanti  
Lehti   Gene expression levels assessed by oligonucleotide microarray analysis and quantitative real-time RT-PCR, how well do they correlate?   Beesley, A. H., Hoffmann, K., Terry, P. A., Freitas, J. R. and Boag, J. M            Englanti  
Lehti   Single-molecule approaches to stochastic gene expression   Raj, A and van Oudenaarden, A.,            Englanti  
Lehti   mRNA quantitation techniques: considerations for experimental design and application   Reue, K            Englanti  


Esitietovaatimukset

Opintojakso P/S Selite
SGN-6056 Introduction to Computational Systems Biology Suositeltava    

Tietoa esitietovaatimuksista
Basic knowledge of biology/systems biology/cell biology, e.g. Introduction to Computational Systems Biology (SGN-6056) or equivalent.

Esitietoketju (Vaatii kirjautumisen POPiin)

Vastaavuudet

Opintojakso Vastaa opintojaksoa  Selite 
SGN-6237 Techniques in Molecular Biology and Applications to Gene Expression, 3 op SGN-6266 Techniques in Molecular Biology and Applications to Gene Expression, 3 op  

Lisätiedot

The course is lectured every year. Course webpage:http://www.cs.tut.fi/~sanchesr/SGN-6237/index.htm

Tarkempia tietoja toteutuskerroittain

  Kuvaus Opetusmuodot Toteutustapa
Toteutus 1 The student will be introduced to a variety of current experimental techniques in molecular biology. The aim is to provide an understanding of the techniques and how to interpret results. The focus of this course will be manipulation and analysis of gene expression in prokaryotic systems, though eukaryotic tools will be briefly described. Students will become familiar with common wet-lab methods used in various fields in biology, and gain an understanding of the objectives, applicability and limitations underlying each of these methods.