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Genomes and Proteomes genome: complete set of genetic information in organism gene sequence contains recipe for making proteins (genotype) proteome: complete.

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Presentation on theme: "Genomes and Proteomes genome: complete set of genetic information in organism gene sequence contains recipe for making proteins (genotype) proteome: complete."— Presentation transcript:

1 Genomes and Proteomes genome: complete set of genetic information in organism gene sequence contains recipe for making proteins (genotype) proteome: complete set of proteins in cell, tissue, organism, etc. much of the information about proteins is not in the genome (phenotype)

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3 Genomics Proteomics identify total # of genes and 'functional annotations' –accuracy of exon/intron structure predictions? –matching proteins to genes expression profiles (mRNA/protein) –cell/tissue specificity –regulation or 'environmental' influences –subcellular compartments one gene more than one protein –alternate splicing –post-translational modifications

4 Initial Identification and Characterization comparison already known (or related) protein and mRNA sequences –prior or currently generated information used to annotate genome databases –30-50% genes unknown –among the known sequences most not completely characterized high throughput mRNA methods –expressed sequence tags (ESTs) –microarrays (gene chips)

5 Protein Identification proteins more difficult to analyze by 'high throughput methods' gel electrophoresis (1-D or 2-D) is predominant technique partial microsequence protein identification –N-terminal or internal peptide sequences –search databases problems with blocked N-termini or with ability to isolate peptides (abundance)

6 Mixed Peptide Sequencing typical microsequencing protocol –gel electrophoresis –transfer to membrane –excise band treat with CNBr (cleaves at Met), etc. –generates 3-5 fragments subject to 6-12 automated Edman cycles use computer program to analyze mixed peptide sequences against databases 0 M M M 1 D G E 2 S Q V 3 D T A 4 A V K 5 D Q R 6 A F D

7 Strategies for Protein Identification ~ pmole sensitivity ~ 0.2 pmole sensitivity

8 Mass Spectrometer 3 principal components –ionization source –mass analyzer –detector several different types depending on types of ionization source and mass analyzer accurately measures masses of components in sample and records a mass spectrum

9 Peptide Mass Fingerprinting

10 Strategies for Protein Identification ~ pmole sensitivity ~ 0.2 pmole sensitivity

11 Tandem Mass Spectrometry selected peptides fragmented in collision chamber resulting spectrum used to deduce the amino acid sequence

12 Limitations of Gel Electrophoresis for Proteomic Analyses works best on relatively abundant soluble proteins in the low-mid MW range rather laborious one protein at a time in complex mixtures difficult to automate

13 High Throughput LC/MS/MS complex protein sample is treated with site- specific protease subjected to liquid chromatography (HPLC) peaks automatically subjected to MS/MS database search with peptide sequences –identification of genes –protein expression profiles (~EST data) restricted proteomes –subcellular fractions –protein-protein interactions –multi-protein complexes

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