SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2952526297> ?p ?o ?g. }

Showing items 1 to 100 of ±155 with 100 items per page.

W2952526297 endingPage "e149" @default.
W2952526297 startingPage "e149" @default.
W2952526297 abstract "Advances in high throughput sequencing technologies have created a gap between data production and functional data analysis. Indeed, phenotypes result from interactions between numerous genes, but traditional methods treat loci independently, missing important knowledge brought by network-level emerging properties. Therefore, detecting selection acting on multiple genes affecting the evolution of complex traits remains challenging. In this context, gene network analysis provides a powerful framework to study the evolution of adaptive traits and facilitates the interpretation of genome-wide data. We developed a method to analyse gene networks that is suitable to evidence polygenic selection. The general idea is to search biological pathways for subnetworks of genes that directly interact with each other and that present unusual evolutionary features. Subnetwork search is a typical combinatorial optimization problem that we solve using a simulated annealing approach. We have applied our methodology to find signals of adaptation to high-altitude in human populations. We show that this adaptation has a clear polygenic basis and is influenced by many genetic components. Our approach, implemented in the R package signet, improves on gene-level classical tests for selection by identifying both new candidate genes and new biological processes involved in adaptation to altitude." @default.
W2952526297 created "2019-06-27" @default.
W2952526297 creator A5024870825 @default.
W2952526297 creator A5062589025 @default.
W2952526297 creator A5072062609 @default.
W2952526297 date "2017-07-18" @default.
W2952526297 modified "2023-10-13" @default.
W2952526297 title "Detecting gene subnetworks under selection in biological pathways" @default.
W2952526297 cites W1525285200 @default.
W2952526297 cites W1629867331 @default.
W2952526297 cites W1870614750 @default.
W2952526297 cites W1932538605 @default.
W2952526297 cites W1964525882 @default.
W2952526297 cites W1981234696 @default.
W2952526297 cites W1989277387 @default.
W2952526297 cites W1990442358 @default.
W2952526297 cites W1999623479 @default.
W2952526297 cites W2024060531 @default.
W2952526297 cites W2044201540 @default.
W2952526297 cites W2044689550 @default.
W2952526297 cites W2047422346 @default.
W2952526297 cites W2055802174 @default.
W2952526297 cites W2058171715 @default.
W2952526297 cites W2062818316 @default.
W2952526297 cites W2078074521 @default.
W2952526297 cites W2086256956 @default.
W2952526297 cites W2086799994 @default.
W2952526297 cites W2088044493 @default.
W2952526297 cites W2091718543 @default.
W2952526297 cites W2092321314 @default.
W2952526297 cites W2092574926 @default.
W2952526297 cites W2096766502 @default.
W2952526297 cites W2099610622 @default.
W2952526297 cites W2101887201 @default.
W2952526297 cites W2105823819 @default.
W2952526297 cites W2106248311 @default.
W2952526297 cites W2109099152 @default.
W2952526297 cites W2109912704 @default.
W2952526297 cites W2112811019 @default.
W2952526297 cites W2116360795 @default.
W2952526297 cites W2117869125 @default.
W2952526297 cites W2122775679 @default.
W2952526297 cites W2123707618 @default.
W2952526297 cites W2127298691 @default.
W2952526297 cites W2127449417 @default.
W2952526297 cites W2130410032 @default.
W2952526297 cites W2134275486 @default.
W2952526297 cites W2139852278 @default.
W2952526297 cites W2142003314 @default.
W2952526297 cites W2142183730 @default.
W2952526297 cites W2142232012 @default.
W2952526297 cites W2146526204 @default.
W2952526297 cites W2153110439 @default.
W2952526297 cites W2155142785 @default.
W2952526297 cites W2155670634 @default.
W2952526297 cites W2156643192 @default.
W2952526297 cites W2159675211 @default.
W2952526297 cites W2159885948 @default.
W2952526297 cites W2160975634 @default.
W2952526297 cites W2163980692 @default.
W2952526297 cites W2164371921 @default.
W2952526297 cites W2171662214 @default.
W2952526297 cites W2171932688 @default.
W2952526297 cites W2217809488 @default.
W2952526297 cites W2308089635 @default.
W2952526297 cites W2419512033 @default.
W2952526297 cites W2475513413 @default.
W2952526297 cites W2477659880 @default.
W2952526297 cites W2531014594 @default.
W2952526297 cites W2537623931 @default.
W2952526297 cites W2559588208 @default.
W2952526297 cites W2584469054 @default.
W2952526297 cites W2915536738 @default.
W2952526297 cites W2950033762 @default.
W2952526297 cites W4237335579 @default.
W2952526297 cites W4251304755 @default.
W2952526297 doi "https://doi.org/10.1093/nar/gkx626" @default.
W2952526297 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5766194" @default.
W2952526297 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28934485" @default.
W2952526297 hasPublicationYear "2017" @default.
W2952526297 type Work @default.
W2952526297 sameAs 2952526297 @default.
W2952526297 citedByCount "47" @default.
W2952526297 countsByYear W29525262972017 @default.
W2952526297 countsByYear W29525262972018 @default.
W2952526297 countsByYear W29525262972019 @default.
W2952526297 countsByYear W29525262972020 @default.
W2952526297 countsByYear W29525262972021 @default.
W2952526297 countsByYear W29525262972022 @default.
W2952526297 countsByYear W29525262972023 @default.
W2952526297 crossrefType "journal-article" @default.
W2952526297 hasAuthorship W2952526297A5024870825 @default.
W2952526297 hasAuthorship W2952526297A5062589025 @default.
W2952526297 hasAuthorship W2952526297A5072062609 @default.
W2952526297 hasBestOaLocation W29525262971 @default.
W2952526297 hasConcept C104317684 @default.
W2952526297 hasConcept C119857082 @default.
W2952526297 hasConcept C139807058 @default.