An experimental assay of the interactions of amino acids from orthologous sequences shaping a complex fitness landscape

Victoria O. Pokusaeva; Dinara R. Usmanova; Ekaterina V. Putintseva; Lorena Espinar; Karen S. Sarkisyan; Alexander S. Mishin; Natalya S. Bogatyreva; Dmitry N. Ivankov; Arseniy V. Akopyan; Sergey Ya Avvakumov; Inna S. Povolotskaya; Guillaume J. Filion; Lucas B. Carey; Fyodor A. Kondrashov

doi:10.1371/journal.pgen.1008079

An experimental assay of the interactions of amino acids from orthologous sequences shaping a complex fitness landscape

Victoria O. Pokusaeva, Dinara R. Usmanova, Ekaterina V. Putintseva, Lorena Espinar, Karen S. Sarkisyan, Alexander S. Mishin, Natalya S. Bogatyreva, Dmitry N. Ivankov, Arseniy V. Akopyan, Sergey Ya Avvakumov, Inna S. Povolotskaya, Guillaume J. Filion, Lucas B. Carey, Fyodor A. Kondrashov

Research output: Contribution to journal › Article › peer-review

Abstract

Characterizing the fitness landscape, a representation of fitness for a large set of genotypes, is key to understanding how genetic information is interpreted to create functional organisms. Here we determined the evolutionarily-relevant segment of the fitness landscape of His3, a gene coding for an enzyme in the histidine synthesis pathway, focusing on combinations of amino acid states found at orthologous sites of extant species. Just 15% of amino acids found in yeast His3 orthologues were always neutral while the impact on fitness of the remaining 85% depended on the genetic background. Furthermore, at 67% of sites, amino acid replacements were under sign epistasis, having both strongly positive and negative effect in different genetic backgrounds. 46% of sites were under reciprocal sign epistasis. The fitness impact of amino acid replacements was influenced by only a few genetic backgrounds but involved interaction of multiple sites, shaping a rugged fitness landscape in which many of the shortest paths between highly fit genotypes are inaccessible.

Original language	English
Article number	e1008079
Journal	PLoS Genetics
Volume	15
Issue number	4
DOIs	https://doi.org/10.1371/journal.pgen.1008079
State	Published - Apr 2019
Externally published	Yes

All Science Journal Classification (ASJC) codes

Ecology, Evolution, Behavior and Systematics
Molecular Biology
Genetics
Genetics(clinical)
Cancer Research

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10.1371/journal.pgen.1008079

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Pokusaeva, V. O., Usmanova, D. R., Putintseva, E. V., Espinar, L., Sarkisyan, K. S., Mishin, A. S., Bogatyreva, N. S., Ivankov, D. N., Akopyan, A. V., Avvakumov, S. Y., Povolotskaya, I. S., Filion, G. J., Carey, L. B., & Kondrashov, F. A. (2019). An experimental assay of the interactions of amino acids from orthologous sequences shaping a complex fitness landscape. PLoS Genetics, 15(4), Article e1008079. https://doi.org/10.1371/journal.pgen.1008079

@article{e0dca7b9eea748bc89a65bb1bb985549,

title = "An experimental assay of the interactions of amino acids from orthologous sequences shaping a complex fitness landscape",

abstract = "Characterizing the fitness landscape, a representation of fitness for a large set of genotypes, is key to understanding how genetic information is interpreted to create functional organisms. Here we determined the evolutionarily-relevant segment of the fitness landscape of His3, a gene coding for an enzyme in the histidine synthesis pathway, focusing on combinations of amino acid states found at orthologous sites of extant species. Just 15\% of amino acids found in yeast His3 orthologues were always neutral while the impact on fitness of the remaining 85\% depended on the genetic background. Furthermore, at 67\% of sites, amino acid replacements were under sign epistasis, having both strongly positive and negative effect in different genetic backgrounds. 46\% of sites were under reciprocal sign epistasis. The fitness impact of amino acid replacements was influenced by only a few genetic backgrounds but involved interaction of multiple sites, shaping a rugged fitness landscape in which many of the shortest paths between highly fit genotypes are inaccessible.",

author = "Pokusaeva, \{Victoria O.\} and Usmanova, \{Dinara R.\} and Putintseva, \{Ekaterina V.\} and Lorena Espinar and Sarkisyan, \{Karen S.\} and Mishin, \{Alexander S.\} and Bogatyreva, \{Natalya S.\} and Ivankov, \{Dmitry N.\} and Akopyan, \{Arseniy V.\} and Avvakumov, \{Sergey Ya\} and Povolotskaya, \{Inna S.\} and Filion, \{Guillaume J.\} and Carey, \{Lucas B.\} and Kondrashov, \{Fyodor A.\}",

note = "Publisher Copyright: {\textcopyright} 2019 Pokusaeva et al.",

year = "2019",

month = apr,

doi = "10.1371/journal.pgen.1008079",

language = "الإنجليزيّة",

volume = "15",

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Pokusaeva, VO, Usmanova, DR, Putintseva, EV, Espinar, L, Sarkisyan, KS, Mishin, AS, Bogatyreva, NS, Ivankov, DN, Akopyan, AV, Avvakumov, SY, Povolotskaya, IS, Filion, GJ, Carey, LB & Kondrashov, FA 2019, 'An experimental assay of the interactions of amino acids from orthologous sequences shaping a complex fitness landscape', PLoS Genetics, vol. 15, no. 4, e1008079. https://doi.org/10.1371/journal.pgen.1008079

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T1 - An experimental assay of the interactions of amino acids from orthologous sequences shaping a complex fitness landscape

AU - Pokusaeva, Victoria O.

AU - Usmanova, Dinara R.

AU - Putintseva, Ekaterina V.

AU - Espinar, Lorena

AU - Sarkisyan, Karen S.

AU - Mishin, Alexander S.

AU - Bogatyreva, Natalya S.

AU - Ivankov, Dmitry N.

AU - Akopyan, Arseniy V.

AU - Avvakumov, Sergey Ya

AU - Povolotskaya, Inna S.

AU - Filion, Guillaume J.

AU - Carey, Lucas B.

AU - Kondrashov, Fyodor A.

PY - 2019/4

Y1 - 2019/4

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AB - Characterizing the fitness landscape, a representation of fitness for a large set of genotypes, is key to understanding how genetic information is interpreted to create functional organisms. Here we determined the evolutionarily-relevant segment of the fitness landscape of His3, a gene coding for an enzyme in the histidine synthesis pathway, focusing on combinations of amino acid states found at orthologous sites of extant species. Just 15% of amino acids found in yeast His3 orthologues were always neutral while the impact on fitness of the remaining 85% depended on the genetic background. Furthermore, at 67% of sites, amino acid replacements were under sign epistasis, having both strongly positive and negative effect in different genetic backgrounds. 46% of sites were under reciprocal sign epistasis. The fitness impact of amino acid replacements was influenced by only a few genetic backgrounds but involved interaction of multiple sites, shaping a rugged fitness landscape in which many of the shortest paths between highly fit genotypes are inaccessible.

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JF - PLoS Genetics

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M1 - e1008079

ER -

An experimental assay of the interactions of amino acids from orthologous sequences shaping a complex fitness landscape

Abstract

All Science Journal Classification (ASJC) codes

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