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Xenolog: Homologs resulting from horizontal gene transfer.

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Presentation on theme: "Xenolog: Homologs resulting from horizontal gene transfer."— Presentation transcript:

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3 Xenolog: Homologs resulting from horizontal gene transfer

4 Orthologous or paralogous homologs?
Early globin gene Gene Duplication -chain gene ß-chain gene mouse  human  cattle  cattle ß human ß mouse ß Orthologs () Orthologs (ß) Paralogs (cattle) Homologs Orthologs – diverged only after speciation – tend to have similar function Paralogs – diverged after gene duplication – some functional divergence occurs

5 True or False? A1x is the ortholog in species x of A1y? A1x is a paralog of A2x? A1x is a paralog of A2y?

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7 More genome, means more regulation!
~ 98.5% of the human genome is noncoding

8 PROKARYA, ARCHAEA, AND EUKARYA
Now that you know a little more about them. . . Let’s do some comparative analysis this year in M2O! Genome structure and diversity Modes of replication or life cycles Cell structures Gene regulation Metabolic processes Ask yourself this question throughout the year: . . . how do they differ and how are they similar?

9 HOW DO WE DO IT? BIOMOLECULES!! Sequences Genomic sequences
Evolutionary analyses 3D Structures Nucleic acids proteins Function Studies Genetic knockouts Natural mutants In vitro assays Array data

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11 LEARN TO USE THE INFORMATION THAT IS ALREADY OUT THERE!
But enough about sequence alignments! Letsmove on to talking more about evolutionary analyses in the way you probably think of – phylogenetic trees and inferring organism or gene relationships

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