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What Is Genomics?. Genomics is the study of how the entire genome of a species functions as a unit and evolves over time. It is the study of life’s blueprint, life’s diversity, and life’s history. Bioinformatics: Analyses the information content of genomes.
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What Is Genomics? Genomics is the study of how the entire genome of a species functions as a unit and evolves over time. It is the study of life’s blueprint, life’s diversity, and life’s history. Bioinformatics:Analyses the information content of genomes. Comparative Genomics: Compares genome sequences with each other to infer evolutionary relationships and mechanisms of evolution. Functional Genomics: Probes how genomes function, as a whole, to give rise to organisms. Ecological Genomics: Understands how genomes, and the organisms they encode, fill specific environmental niches.
>500 complete microbial genomes 730 in progress
Why Sequence Whole Genomes? • To speed characterization of genes mapped by linkage • To obtain a "parts list" for what makes up an organism. • To discover what sets of genes make organisms (and each of us) similar to and different from one another. • To understand our evolutionary heritage. Our genomes are a reflection of our recent and ancient origins.
Dideoxy “chain termination” DNA sequencing- Sanger v1, continued
Dideoxy “chain termination” DNA sequencing- Sanger v2 !! Fred Sanger, SECOND Nobel Prize in 1980 (Chemistry; his first was in 1958 for methods for determining amino acid sequences in proteins). Made easily robotfriendly. High throughput DNA sequencing has allowed the sequencing of whole Genomes. This has driven the Genomics revolution.
The Next Gen Technologies: Pyrosequencing (454, Roche) Oil emulsion: 1 template/bead Sheared and ssDNA Polony: clonal amplification Polony + enzyme beads Picoliter plate First of the ‘parallel’ sequencing platforms.
Sequencing-by-synthesis Pyrosequencing 3’ATCGTTGCACGTCGACGTA 5’TAGCAAC G dGTP PPi ATP sulfurylase ATP Luciferase 400K reads X 400 bases = 16-20 Mb in 4 hrs! So, 125 Mb is only 6 runs for 1X coverage!
The Next Gen Technologies: Illumina (Solexa) Sequence by synthesis – one base at a time Each base has a different color Each base has a reversible terminator
The Next Gen Technologies: Illumina (Solexa) 3’ 5’ G C T A C G T A C T A C C 5’ C C G A T A A A C G T T T A T G G G C 1 2 3 4 5 6 7 8 9 Base calling Image acquisition TGCTACGAT … Sample preparation DNA Cluster growth Single molecule array Sequencing 5 million clusters / channel; 8 channels / flow cell = 40 million reads times ~35 cycles (bases) = 120 billion bases in 3 days (1.2Gb)
First, we've learned that we have a lot to learn Over 35% of genes in ANY organism (including Human) have no deducible function!