about
Helical antifreeze proteins have independently evolved in fishes on four occasionsGenealogical correspondence of a forebrain centre implies an executive brain in the protostome-deuterostome bilaterian ancestor.Evolution of protein indels in plants, animals and fungi.Origin of spliceosomal introns and alternative splicingPopulation-genetic analysis of HvABCG31 promoter sequence in wild barley (Hordeum vulgare ssp. spontaneum)Tibet as a potential domestication center of cultivated barley of ChinaUnique evolutionary trajectories in repeated adaptation to hydrogen sulphide-toxic habitats of a neotropical fish (Poecilia mexicana).A paneukaryotic genomic analysis of the small GTPase RABL2 underscores the significance of recurrent gene loss in eukaryote evolution.Reinforcing the egg-timer: recruitment of novel lophotrochozoa homeobox genes to early and late development in the pacific oyster.Quantification provides a conceptual basis for convergent evolution.Genomic and Transcriptomic Analysis Reveals Spliced Leader Trans-Splicing in Cryptomonads.Extensive conservation of ancient microsynteny across metazoans due to cis-regulatory constraints.Another biomineralising protostome with an msp130 gene and conservation of msp130 gene structure across Bilateria.The medaka mutation tintachina sheds light on the evolution of V-ATPase B subunits in vertebrates.Domestication of self-splicing introns during eukaryogenesis: the rise of the complex spliceosomal machinery.Never Ending Analysis of a Century Old Evolutionary Debate: “Unringing” the Urmetazoon BellThe Repeated Evolution of Behavior
P2860
Q21132411-FF5CC417-30B2-4069-A2E8-2E93611EA305Q28603830-09D63CCF-1622-484C-AF07-A5D6DB03CDFFQ30351880-6DAF5723-022E-4346-ADC8-4D634242495AQ33653714-6F960782-BB39-4825-8674-4E2D227A0651Q34420349-7AC64F7E-EF6B-43D3-A7AF-22C096F751C2Q34712719-A1C6E580-93D8-46BE-BEE6-EDF364103C06Q35787623-0EDC943F-DDC5-4703-8A3B-1416B88CB1C8Q36529854-8E794866-9DB5-480A-A09E-5FD5751B73E8Q37661340-02BF9B73-B766-4853-888E-DA4D19CBA2C9Q38757205-715F45A2-A406-43EE-B2D3-D9042A918318Q38846080-A862C9B3-6B0F-43FD-BF51-90B56C932AC8Q39327128-60122B92-453F-48C5-8C42-63E5FA9DBFB9Q40951067-28C47054-45AE-47A8-9E14-760E6D4C1D5EQ42095371-EE9978E8-A86D-464D-AC6D-E0C9D0BB80BDQ47158866-97710EBA-D93F-4A64-9988-EE28B7605BD2Q55932456-FDF0131F-E706-45AE-BA97-3571683FCAE3Q57899038-AAD52BC0-C13A-4405-B1EC-BE5F73274F47
P2860
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Widespread recurrent evolution of genomic features.
@ast
Widespread recurrent evolution of genomic features.
@en
type
label
Widespread recurrent evolution of genomic features.
@ast
Widespread recurrent evolution of genomic features.
@en
prefLabel
Widespread recurrent evolution of genomic features.
@ast
Widespread recurrent evolution of genomic features.
@en
P2860
P356
P1476
Widespread recurrent evolution of genomic features.
@en
P2093
Scott William Roy
P2860
P304
P356
10.1093/GBE/EVS022
P577
2012-03-13T00:00:00Z