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Intro

Clonal reproduction is not an evolutionary dead end

Clonal reproduction and modularity very widespread life history

Important terminology- genet vs. ramet (J.F. Harper 1977)

A role for genotypic - clonal diversity, replaces species level diversity in species- poor systems

Yet there are millenia-old clones in corals or seagrasses that dominate entire locations

A long-standing ecological riddle

Substantial somatic genetic variation among ramets of the same genet

What to we mean with a fixed SNP?

Genealogy and tree root can be reconstructed

How do we know that this is really a single clone = Benet?

How do these data compare to recent full genome oak studies?

Evolving microbial culture, orange genotype sweeps to fixation

Unitary vs. modular species

Somatic mutations always enterramets as mosaic genetic variation

Proliferating cell population in plants - apical meristem, their genotype determines entire plant

Seagrass data:pronounced modes in allele frequency distribution

Modes of low frequency variants reflect subfixation in stratified meristematic tissue

Evidence for somatic genetic drift: low-frequency variants to rise to fixation consistent with ramet topology

Quick summary

Perspective: can the somatic genetic variation contribute to adaptation?

Challenge #1: mutations need to be partially dominant to be visible to selection in diploids in

Evolutionary pathways with and without sex

But empirical data show appreciable and often similarly rapid adaptation under sexual vs. asexual propagation

What is the evidence that somatic mutations may confer phenotypic variation?

What is the evidence that somatic genetic variation may confer phenotypic variation?

challenge #3: causal polymorphisms difficult to detect since genetic hitchhiking is pervasive (-entire genome linkage group)

Cancer evolutionary biology is facing the same analogous issue what are the casual driver mutations?

Some methods from detecting adaptive dynamics from cancer can be applied to detecting positive selection in modular species

How does the somatically generated variation compare to variation owing to recombination?

Clone members - ramets and concepts of individuality revisited

Description:

Explore the evolutionary potential of clonal reproduction in a comprehensive lecture that challenges the notion of it being an evolutionary dead end. Delve into the widespread occurrence of clonal reproduction and modularity in various life histories, examining important terminology such as genet and ramet. Investigate the role of genotypic and clonal diversity in species-poor systems, and analyze the existence of millennia-old clones in corals and seagrasses. Uncover the substantial somatic genetic variation among ramets of the same genet, and learn how to reconstruct genealogy and tree roots. Compare recent full genome oak studies with evolving microbial cultures, and distinguish between unitary and modular species. Examine seagrass data to understand the modes of low-frequency variants and evidence for somatic genetic drift. Consider the potential for somatic genetic variation to contribute to adaptation, addressing challenges such as partial dominance in diploids and the difficulty in detecting causal polymorphisms. Draw parallels with cancer evolutionary biology and explore methods for detecting positive selection in modular species. Conclude by revisiting concepts of individuality in clone members and ramets. Read more

Clonal Reproduction Is Not an Evolutionary Dead End

EvoEcoSeminars

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#Science #Biology #Evolutionary Biology #Genetics #Genetic Diversity #Cancer Biology #Somatic Mutations