The Genomic Landscape of Compensatory Evolution (NDA@SZTAKI, Nemzeti Digitális Adattár, National Digital Data Archive)

The Genomic Landscape of Compensatory Evolution

Metaadatok

Tartalom:	http://real.mtak.hu/64986/
Archívum:	MTA Könyvtár
Gyûjtemény:	Status = Published Type = Article
Cím:	The Genomic Landscape of Compensatory Evolution
Létrehozó:	Szamecz, BÃ©la Boross, GÃ¡bor Kalapis, Dorottya KovÃ¡cs, KÃ¡roly Fekete, Gergely Farkas, ZoltÃ¡n LÃ¡zÃ¡r, ViktÃ³ria Hrtyan, MÃ³nika Papp, BalÃ¡zs PÃ¡l, Csaba
Kiadó:	Public Library of Science (PLoS)
Dátum:	2014
Téma:	QH359-425 Evolution (Biology) / evolÃºciÃ³ QH426 Genetics / genetika, Ã¶rÃ¶klÃ©stan
Tartalmi leírás:	Adaptive evolution is generally assumed to progress through the accumulation of beneficial mutations. However, as deleterious mutations are common in natural populations, they generate a strong selection pressure to mitigate their detrimental effects through compensatory genetic changes. This process can potentially influence directions of adaptive evolution by enabling evolutionary routes that are otherwise inaccessible. Therefore, the extent to which compensatory mutations shape genomic evolution is of central importance. Here, we studied the capacity of the baker's yeast genome to compensate the complete loss of genes during evolution, and explored the long-term consequences of this process. We initiated laboratory evolutionary experiments with over 180 haploid baker's yeast genotypes, all of which initially displayed slow growth owing to the deletion of a single gene. Compensatory evolution following gene loss was rapid and pervasive: 68% of the genotypes reached near wild-type fitness through accumulation of adaptive mutations elsewhere in the genome. As compensatory mutations have associated fitness costs, genotypes with especially low fitnesses were more likely to be subjects of compensatory evolution. Genomic analysis revealed that as compensatory mutations were generally specific to the functional defect incurred, convergent evolution at the molecular level was extremely rare. Moreover, the majority of the gene expression changes due to gene deletion remained unrestored. Accordingly, compensatory evolution promoted genomic divergence of parallel evolving populations. However, these different evolutionary outcomes are not phenotypically equivalent, as they generated diverse growth phenotypes across environments. Taken together, these results indicate that gene loss initiates adaptive genomic changes that rapidly restores fitness, but this process has substantial pleiotropic effects on cellular physiology and evolvability upon environmental change. Our work also implies that gene content variation across species could be partly due to the action of compensatory evolution rather than the passive loss of genes.
Nyelv:	angol
Típus:	Article PeerReviewed info:eu-repo/semantics/article
Formátum:	text
Azonosító:	http://real.mtak.hu/64986/1/SzameczPLoSBiol2014.PDF Szamecz, BÃ©la and Boross, GÃ¡bor and Kalapis, Dorottya and KovÃ¡cs, KÃ¡roly and Fekete, Gergely and Farkas, ZoltÃ¡n and LÃ¡zÃ¡r, ViktÃ³ria and Hrtyan, MÃ³nika and Papp, BalÃ¡zs and PÃ¡l, Csaba (2014) The Genomic Landscape of Compensatory Evolution. PLOS BIOLOGY, 12 (8). pp. 1-16. ISSN 1544-9173
Kapcsolat:	http://real.mtak.hu/64986/ https://doi.org/10.1371/journal.pbio.1001935 MTMT:2752422; doi:10.1371/journal.pbio.1001935