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Molecular Tools for Studying Genes and Gene Activity

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Presentation on theme: "Molecular Tools for Studying Genes and Gene Activity"— Presentation transcript:

1 Molecular Tools for Studying Genes and Gene Activity
Chapter 5 Molecular Tools for Studying Genes and Gene Activity

2 _ + In neutral pH buffer Friction force

3 logarithmic

4 For the DNAs in the size ranges ~Mb

5 Pre-stained protein markers

6

7

8

9 Labeled Tracers Autoradiography b-emitters: 3H, 14C, 35S, 32P
Radioactive DNA fragments Autoradiography b-emitters: 3H, 14C, 35S, 32P

10

11 Greater linearity than autoradiography
Phosphorimaging Greater linearity than autoradiography Radioactive sample B-ray Molecules (ground state) in Image plate Excited molecules in image plate Energy released from excited molecules by a laser bean from phosphorimager Detected by computerized detector Liquid Scintillation Counting

12 Non-radioactive Tracers

13 Using Nucleic Acid Hybridization
Southern Blots: Identifying Specific DNA Fragments (Edward Southern--the pioneer) Band number > 1 ???

14 DNA Fingerprinting and DNA Typing
Alec Jeffreys (1985): minisatellite (repeated) sequence in a-globin gene also in the whole human genome Minisatellite sequence has no RE site for HaeIII

15 Monozygotic twins Unrelated Caucasians

16 Forensic Uses of DNA Fingerprinting and DNA Typing

17 Northern Blots: Measuring Gene Activity
Poly(A)+ RNA: from rat tissues Probe: G3PDH (glyceraldehyde-3-phosphate dehydrogenase)

18 In situ Hybridization: Locating genes in chromosomes
FISH: Fluorescence in situ hybridization

19 DNA Sequencing 1975 Frederick Sanger Alan Maxam Walter Gilbert
3 billion bases of human genome The Sanger Chain-termination Sequencing Method Using didexoy nucleotides

20 CAAAAAACGG

21 Automated DNA sequencing

22 Maxam-Gilbert Sequencing (Dimethyl sulfate: guanine) (piperidine)

23

24

25

26

27 Protein Engineering of Cloned Genes: Site-directed Mutagenesis
Change of protein function by change of the gene sequence

28 Step 1 T A G G PCR C G C Step 2 PCR C Step 3 G C PCR G C PCR with

29 Mapping and Quantifying Transcripts
Mapping: locating the starting and stopping points of transcripts Quantifying: measuring how much of a transcript exists at a certain time

30 S1 Mapping for 5’-end of a transcript
3’

31 S1 Mapping for 3’-end of a transcript
5’

32

33 Primer Extension: To map the end of a transcript
with one-nucleotide accuracy S1 nuclease tends nibble a bit on the RNA-DNA hybrid, and A-T-rich regions can melt transiently TTCGACTGACAGT

34 Run-off Transcription
To check the efficiency and accuracy of in vitro transcription (can be used to assay the promoter before or after mutation)

35 Run-off Transcription

36 Measuring Transcription Rates In Vivo
Nuclear Run-on Transcription Initiation of new RNA chains in isolated nuclei does not generally occur (using heparin to inhibit free RNA polymerase and prevent re-initiation)

37 Reporter Gene Transcription
CAT: Chloramphenicol (CAM) acetyl transferase CAM: Protein synthesis inhibitor acetylation by CAT Loss inhibitor activity Other reporter enzymes: b-galatosidase luciferase

38 Assaying DNA-Protein Interactions
Filter Binding Nitrocellulose membrane binds proteins and ssDNA but not dsDNA dsDNA-protien complex do bind to NC

39 Gel Mobility Shift Assay (Electrophoresis Mobility Shift Assay, EMSA)

40 DNase Footprinting protein

41 * * DMS Footprinting Methylating agent: Dimethylsulfate
1,4 no protein added

42 Knockouts

43 Brown: dominant

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