Genome size and Complexity
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Genome size and Complexity (as told by Michael Lynch)
description
Genome size and Complexity. (as told by Michael Lynch). Genome size and complexity varies across the tree of life. Lynch 2007. Some Big Questions. What is the relationship between genomic and organismal size/complexity? Are genome size changes adaptive, or passively acquired? - PowerPoint PPT Presentation
Transcript of Genome size and Complexity
Genome size and Complexity
(as told by Michael Lynch)
Genome size and complexity varies across the tree of life
Lynch 2007
Some Big Questions
• What is the relationship between genomic and organismal size/complexity?
• Are genome size changes adaptive, or passively acquired?
• How do these changes occur mechanistically?
• How do study all this?
Proximal mechanisms of genomic expansion/contraction
• Mobile element proliferation• Segmental duplications• Strand slippage• DS DNA breaks
– Insertion propagation (biased gene conversion)– Microdeletions (nonhomologous end repair)
• Unequal crossing over• Illegitimate recombination• Selection for or against such modifications
Explaining variation in genome size
• Adaptive, neutral, deleterious
• Selfish DNA hypothesis• Bulk DNA hypothesis• Metabolic cost of DNA• Petrov neutral hypothesis• Mutation Hazard Hypothesis
Lynch and Conery 2003: “Mutation Hazard” Hypothesis
1• Body size / complexity increase
2• Reduced Ne
3• Reduced efficacy of selection
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• Non-coding DNA proliferates • duplicate genes retained
Increases in genome size and complexity are a drift-driven consequence of reducing efficacy of selection
Lynch and Conery 2003
Neu scales inversely with genome size
Lynch and Conery 2003
Half life of duplicate genes greater in larger genomes
Intron number and size greater in larger genomes
Lynch and Conery 2003
Threshold effect
TE size/number scales with genome size; threshold effect
Whitney and Garland, 2010
Whitney and Garland, 2010
Whitney and Garland, 2010
Conclusion: no mechanistic connection between Ne and genome complexitySubtext: Adaptive processes account for variations in genome size?
Lynch 2011 rebuttal
• Neu has no shared evolutionary history– Comparative methods inappropriate
• Topology and branch lengths of phylogeny is suspect
• Threshold effect is most important prediction of MH; not addressed in W&G
• OLS is unbiased
Whitney et al. counterpoints
• Significant phylogenetic signal (K) for all traits examined (genome size, etc)
• Life history and other factors underlying Neu can and do have phylogenetic signal
• Consistent results with different phylogenies
• Too few data to conduct threshold tests• OLS clearly biased
![Comparative Genome and Proteome Analysis of Anopheles ...cegg.unige.ch/system/files/149.pdf · genome size [the Anopheles genome is twice the size of that of Drosophila (3–5)].](https://static.fdocuments.us/doc/165x107/5f0a4ff27e708231d42b09b1/comparative-genome-and-proteome-analysis-of-anopheles-ceggunigechsystemfiles149pdf.jpg)
