Final Journal Club Monday April 27 & Wed April 29 1.New techniques for genome editing & other purposes CRISPR TALEN Zn Finger Cre-Lox 2.New techniques.

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Presentation transcript:

Final Journal Club Monday April 27 & Wed April 29 1.New techniques for genome editing & other purposes CRISPR TALEN Zn Finger Cre-Lox 2.New techniques for DNA sequencing Illumina Ion Torrent Nano-Pore Pac-Bio Mass-Spec Other? 3.Molecular biology for fun and profit

DNA damage DNA gets damaged a lot!

DNA damage DNA gets damaged a lot! >200,000 events/human cell/day

DNA damage Occurs 2 ways 1) spontaneously 2) mutagens : damage DNA

Mutagens harm DNA 3 classes 1) Radiation

Mutagens harm DNA 3 classes 1) Radiation 2) chemicals 3) Biological

Mutagens harm DNA 1) X-rays break DNA

Mutagens harm DNA 1) X-rays break DNA indels & rearrangements

Mutagens harm DNA 1) X-rays break DNA indels & rearrangements 2) UV forms T dimers point mutations

Mutagens harm DNA 1) Radiation 2) chemicals

Mutagens harm DNA 1) Radiation 2) chemicals

Mutagens harm DNA 1) Radiation 2) chemicals

Mutagens harm DNA 1) Radiation 2) chemicals

Mutagens harm DNA 1) Radiation 2) chemicals

Mutagens harm DNA 1) Radiation 2) chemicals

Mutagens harm DNA 1) Radiation 2) chemicals

Mutagens harm DNA 1) Radiation 2) chemicals: most cause point mutations base analogs mispair 5BU bonds A & G

Mutagens harm DNA 2) chemicals: most cause point mutations base analogs mispair 5BU bonds A & G Some deaminate A or C -> mispairs

Mutagens harm DNA Some deaminate A or C -> mispairs alkylators change bases -> mispairs

Mutagens harm DNA Some deaminate A or C -> mispairs alkylators change bases -> mispairs Most common alkylation is 7-methyl-guanine ~100,000/cell/day doesn’t mispair

Mutagens harm DNA Some deaminate A or C -> mispairs alkylators change bases -> mispairs Most common is 7-methyl-guanine, doesn’t mispair 6-methyl-guanine does! 3,000/human cell/day

Mutagens harm DNA alkylators change bases -> mispairs Intercalators cause frameshifts

Mutagens harm DNA intercalators cause frameshifts In S add a base

Mutagens harm DNA intercalators cause frameshifts In S add a base Can also stabilize loopouts resulting in deletions

Mutagens harm DNA 3) Biological Viruses: some accidentally insert DNA or cDNA copies of their genome into host Retroviruses (HIV) put their genes in host DNA on purpose

Mutagens harm DNA Retroviruses (HIV) put their genes in host DNA on purpose Reverse transcriptase makes cDNA copy of RNA genome

Mutagens harm DNA Retroviruses (HIV) put their genes in host DNA on purpose Reverse transcriptase makes cDNA copy of RNA genome Integrase inserts copy at new site Processes cDNA to produce 3’ A

Mutagens harm DNA Retroviruses (HIV) put their genes in host DNA on purpose Reverse transcriptase makes cDNA copy of RNA genome Integrase inserts copy at new site Processes cDNA to produce 3’ As Cuts host DNA and ligates to 3’ As

Mutagens harm DNA Integrase inserts copy at new site Processes cDNA to produce 3’ As Cuts host DNA and ligates to 3’ As

Mutagens harm DNA Integrase inserts copy at new site Processes cDNA to produce 3’ As Cuts host DNA and ligates to 3’ As Host factors fill and Repair the gaps

Mutagens harm DNA Retroviruses (HIV) put their genes in host DNA on purpose Reverse transcriptase makes cDNA copy of RNA genome Integrase inserts copy at new site host makes viral mRNA, assembles into virions

Mutagens harm DNA Retroviruses ( HIV) put their genes in host DNA host makes retroviral mRNA Many retroviruses add oncogenes: give to next host

Mutagens harm DNA Retroviruses ( HIV) put their genes in host DNA host makes retroviral mRNA Many retroviruses add oncogenes: give to next host Also mutate host DNA

Viruses cause >15% of cancers many retroviruses add oncogenes give to next host also mutate host DNA many DNA viruses also cause cancer hepatitis B virus : liver cancer papilloma virus : cervical & penile cancer Epstein-Barr virus : Burkitt's lymphoma

Transposition Transposons : DNA that moves Discovered by Barbara McClintock

Transposition Transposons : DNA that moves Discovered by Barbara McClintock ~ 50% of human genome!

Transposons Discovered by Barbara McClintock ~ 50% of human genome! 2 types 1)Transposable elements use DNA intermediates

Transposons 1)Transposable elements use DNA intermediates: “cut and paste” Transposase cuts host DNA target site to make staggered ends Cuts out transposon leaving blunt ends

Transposons 1)Transposable elements use DNA intermediates: “cut and paste” Transposase cuts host DNA target site to make staggered ends Cuts out transposon leaving blunt ends Ligates in blunt transposon, then host fixes gaps Duplicates target site!

Retrotransposons transcribe RNA copy

Retrotransposons transcribe RNA copy reverse transcriptase makes DNA copy of RNA

Retrotransposons transcribe RNA copy reverse transcriptase makes DNA copy of RNA integrase inserts copy at new site

Retrotransposons transcribe RNA copy reverse transcriptase makes DNA copy of RNA integrase inserts copy at new site Like retroviruses: same genes & life

Retrotransposons Like retroviruses: same genes & life Transposons mutate genes they enter

Retrotransposons Like retroviruses: same genes & life Transposons mutate genes they enter Also break & rearrange DNA

Transposons Transposons mutate genes they enter Also break & rearrange DNA most mutations in corn

Transposons most mutations in corn some human disorders

DNA repair 2 problems:

DNA repair 2 problems: 1.Finding a problem

DNA repair 2 problems: 1.Finding a problem 2.Fixing it

DNA repair 3 Ways to fix it 1.Direct reversal 2.Removal and resynthesis 3.Recombination

DNA repair Direct Reversal UV makes pyrimidine dimers Photolyase finds & uses light energy to cleave dimers

DNA repair Direct Reversal UV makes pyrimidine dimers Photolyase finds & uses light energy to cleave dimers methyl guanine methyl transferase demethylates O 6 -meG “suicide reaction”: inactivates the “enzyme”!

DNA repair 1.Direct reversal 2.Removal and resynthesis Thymine dimers are also fixed by Nucleotide Excision Repair NER also fixes chemical damage that creates bulky adducts that distort DNA

NER NER also fixes chemical damage that creates bulky adducts that distort DNA Two classes 1.global genomic NER (GG-NER) Repairs distorted DNA t/o genome Uses XPC-Rad23B to identify distortion DDB1 & DDB2 recognize UV dimers XPA recognizes other, poorly defined DNA damage

NER 1.global genomic NER (GG-NER) Repairs distorted DNA t/o genome Uses XPC-Rad23B to identify distortion DDB1 & DDB2 recognize UV dimers XPA recognizes other, poorly defined DNA damage 2.transcription coupled NER (TC-NER) Primarily repairs damaged DNA that is being transcribed Uses stalled RNA polymerase to identify damage, CSA & CSB to start the process

NER 1.global genomic NER (GG-NER) 2.Transcription-coupled NER (TC-NER) Once DNA damage is found repair mech is ± identical

Nucleotide excision repair 1)Damage is identified 2) Cut bad strand on each side of lesion, then remove it

Nucleotide excision repair 1)Damage is identified 2) Cut bad strand on each side of lesion, then remove it 3) Fill in gap with DNA Pol  or Pol 

Nucleotide excision repair 1)Damage is identified 2) Cut bad strand on each side of lesion, then remove it 3) Fill in gap with DNA Pol  or Pol  4) Ligase seals it