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04 DNA sequencing.

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Presentation on theme: "04 DNA sequencing."— Presentation transcript:

1 04 DNA sequencing

2 The first generation The Sanger dideoxy method of DNA sequencing

3 The chain termination method
3

4 The Sanger dideoxy method of DNA sequencing

5

6 This method was costly, at around $10 per base pair in 1985, but the development of automated sequencing systems and advancements in technology reduced the price to $1 per base by 1995, and allowed sequencing of up to 100,000 bases per day. The cost dropped further to $0.10 per base in 1998 with the development of the ABI Prism sequencer, which made it possible toundertake larger-scale sequencing projects. In the context of highthroughput shotgun genomic sequencing, Sanger sequencing costs on the order of $0.50 per kilobase.

7 In search of the $1000 genome
National Institutes of Health (NIH), specifically the NIH’s National Human Genome Research Institute (NHGRI), has actively sponsored researchers with $99.5 million of external funding to develop sequencing technologies since the completion of the Human Genome Project. $100,000 initially and then as little as $1000.

8 The second generation: sequencing-by-synthesis
Pyrosequencing ($1.5million, 2008) Illumina ($48,000 ?, 2010) SOLiD

9 pyrosequencing 9

10 control Enzyme mix 5ul Substrare mixture 5ul 100pmol primer 1ul
500fmol template 5ul 10xBuffer ul 水 ul GCAGGATG 間隔2min dNTP 0.2x (1,133,379) (904,103) 969,984 667,372 54,249 (253,798) (244,154) (253,619) (199,549) (236,731) 196,470 (163,395) (58,632) (47,684) S E A G T C (108)

11 Roche/454 FLX Pyrosequencer

12

13

14

15 The third generation: direct measuremeant or synthesis-free
Nanopore

16 Nanopore detector 16

17 17

18 18

19 19

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