SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2164539751> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W2164539751 endingPage "2407" @default.
W2164539751 startingPage "2391" @default.
W2164539751 abstract "PII-disintegrins, cysteine-rich polypeptides broadly distributed in the venoms of geographically diverse species of vipers and rattlesnakes, antagonize the adhesive functions of β1 and β3 integrin receptors. PII-disintegrins evolved in Viperidae by neofunctionalization of disintegrin-like domains of duplicated PIII-snake venom hemorrhagic metalloproteinase (SVMP) genes recruited into the venom proteome before the radiation of the advanced snakes. Minimization of the gene (loss of introns and coding regions) and the protein structures (successive loss of disulfide bonds) underpins the postduplication divergence of disintegrins. However, little is known about the underlying genetic mechanisms that have generated the structural and functional diversity among disintegrins. Phylogenetic inference and maximum likelihood–based codon substitution approaches were used to analyze the evolution of the disintegrin family. The topology of the phylogenetic tree does not parallel that of the species tree. This incongruence is consistent with that expected for a multigene family undergoing a birth-and-death process in which the appearance and disappearance of loci are being driven by selection. Cysteine and buried residues appear to be under strong purifying selection due to their role in maintaining the active conformation of disintegrins. Divergence of disintegrins is strongly influenced by positive Darwinian selection causing accelerated rate of substitution in a substantial proportion of surface-exposed disintegrin residues. Global and lineage-specific sites evolving under diversifying selection were identified. Several sites are located within the integrin-binding loop and the C-terminal tail, two regions that form a conformational functional epitope. Arginine-glycine-aspartic acid (RGD) was inferred to represent the ancestral integrin-recognition motif, which emerged from the subgroup of PIII-SVMPs bearing the RDECD sequence. The most parsimonious nucleotide substitution model required for the emergence of all known disintegrin's integrin inhibitory motifs from an ancestral RGD sequence involves a minimum of three mutations. The adaptive advantage of the emergence of motifs targeting β1 integrins and the role of positively selected sites located within nonfunctional disintegrin regions appear to be difficult to rationalize in the context of a predator–prey arms race. Perhaps, this represents a consequence of the neofunctionalization potential of the disintegrin domain, a feature that may underlie its recruitment into the venom proteome followed by its successful transformation into a toxin." @default.
W2164539751 created "2016-06-24" @default.
W2164539751 creator A5025878842 @default.
W2164539751 creator A5032349935 @default.
W2164539751 creator A5072542589 @default.
W2164539751 creator A5077807874 @default.
W2164539751 date "2008-08-21" @default.
W2164539751 modified "2023-10-16" @default.
W2164539751 title "Evolution of Snake Venom Disintegrins by Positive Darwinian Selection" @default.
W2164539751 cites W1480389476 @default.
W2164539751 cites W1571377358 @default.
W2164539751 cites W1607041879 @default.
W2164539751 cites W1965892650 @default.
W2164539751 cites W1967868924 @default.
W2164539751 cites W1970745550 @default.
W2164539751 cites W1971968167 @default.
W2164539751 cites W1974815782 @default.
W2164539751 cites W1978595176 @default.
W2164539751 cites W1981733318 @default.
W2164539751 cites W1983519005 @default.
W2164539751 cites W1986063082 @default.
W2164539751 cites W1988001328 @default.
W2164539751 cites W1993351732 @default.
W2164539751 cites W1996116819 @default.
W2164539751 cites W1996518529 @default.
W2164539751 cites W1997134951 @default.
W2164539751 cites W1998974693 @default.
W2164539751 cites W2000001290 @default.
W2164539751 cites W2002075122 @default.
W2164539751 cites W2003557975 @default.
W2164539751 cites W2008075053 @default.
W2164539751 cites W2012942237 @default.
W2164539751 cites W2020921331 @default.
W2164539751 cites W2024102985 @default.
W2164539751 cites W2029136951 @default.
W2164539751 cites W2031628190 @default.
W2164539751 cites W2035733413 @default.
W2164539751 cites W2042612610 @default.
W2164539751 cites W2045166945 @default.
W2164539751 cites W2046756494 @default.
W2164539751 cites W2048912867 @default.
W2164539751 cites W2049547470 @default.
W2164539751 cites W2051043694 @default.
W2164539751 cites W2057456873 @default.
W2164539751 cites W2063873479 @default.
W2164539751 cites W2066729191 @default.
W2164539751 cites W2066833306 @default.
W2164539751 cites W2067411049 @default.
W2164539751 cites W2070134886 @default.
W2164539751 cites W2073555092 @default.
W2164539751 cites W2076313199 @default.
W2164539751 cites W2080866550 @default.
W2164539751 cites W2081489602 @default.
W2164539751 cites W2090117493 @default.
W2164539751 cites W2092414509 @default.
W2164539751 cites W2094469836 @default.
W2164539751 cites W2097977090 @default.
W2164539751 cites W2099939438 @default.
W2164539751 cites W2103546861 @default.
W2164539751 cites W2106882534 @default.
W2164539751 cites W2115759361 @default.
W2164539751 cites W2118903044 @default.
W2164539751 cites W2119632499 @default.
W2164539751 cites W2120309759 @default.
W2164539751 cites W2125778420 @default.
W2164539751 cites W2128296317 @default.
W2164539751 cites W2132785801 @default.
W2164539751 cites W2137137210 @default.
W2164539751 cites W2140718009 @default.
W2164539751 cites W2146058063 @default.
W2164539751 cites W2146213764 @default.
W2164539751 cites W2150789905 @default.
W2164539751 cites W2159509794 @default.
W2164539751 cites W2160364329 @default.
W2164539751 cites W2166647530 @default.
W2164539751 cites W2170565120 @default.
W2164539751 cites W2413554459 @default.
W2164539751 cites W4234333579 @default.
W2164539751 cites W4238990083 @default.
W2164539751 cites W4376453254 @default.
W2164539751 doi "https://doi.org/10.1093/molbev/msn179" @default.
W2164539751 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18701431" @default.
W2164539751 hasPublicationYear "2008" @default.
W2164539751 type Work @default.
W2164539751 sameAs 2164539751 @default.
W2164539751 citedByCount "132" @default.
W2164539751 countsByYear W21645397512012 @default.
W2164539751 countsByYear W21645397512013 @default.
W2164539751 countsByYear W21645397512014 @default.
W2164539751 countsByYear W21645397512015 @default.
W2164539751 countsByYear W21645397512016 @default.
W2164539751 countsByYear W21645397512017 @default.
W2164539751 countsByYear W21645397512018 @default.
W2164539751 countsByYear W21645397512019 @default.
W2164539751 countsByYear W21645397512020 @default.
W2164539751 countsByYear W21645397512021 @default.
W2164539751 countsByYear W21645397512022 @default.
W2164539751 countsByYear W21645397512023 @default.