ライフサイエンスコーパス: evolutionary history

1 Little is known about its evolutionary history.

2 yotic complex phototrophs exhibit a colorful evolutionary history.

3 t selection pressures in P. fuscatus' recent evolutionary history.

4 s at HOXB13 and other loci, reflecting their evolutionary history.

5 ism is an ancient pathway with a complicated evolutionary history.

6 in this cancer record its phylogeography and evolutionary history.

7 ateral ovarian cancer (SBOC) to evaluate the evolutionary history.

8 summarize Cenozoic North American mammalian evolutionary history.

9 ungi have faced relatively recently in their evolutionary history.

10 m pathogenic bacteria, suggesting a distinct evolutionary history.

11 e subpopulations in a sample and infer their evolutionary history.

12 s extensive interchromosomal exchange during evolutionary history.

13 have played a key role in shaping mysticete evolutionary history.

14 it near-stationary growth over much of their evolutionary history.

15 on modes and hunting strategies during their evolutionary history.

16 among Sphagnum species is a result of shared evolutionary history.

17 e understanding of both plastid function and evolutionary history.

18 ssible to reconstruct the underlying somatic evolutionary history.

19 the hadrosaurid diversification in its early evolutionary history.

20 tion fluctuations and local extinctions over evolutionary history.

21 ineage-specific polyploidy events during its evolutionary history.

22 mor data to study clonal selection and infer evolutionary history.

23 butes to our understanding of its origin and evolutionary history.

24 genetic and developmental underpinnings, and evolutionary history.

25 ogical development of a species reflects its evolutionary history.

26 the impact of phylogenetics in revealing its evolutionary history.

27 s, uncover this signal, and accurately infer evolutionary history.

28 ll shapes evolved repeatedly throughout bird evolutionary history.

29 ed and diversified subsequently during their evolutionary history.

30 breakthroughs in our understanding of human evolutionary history.

31 ection as the primary force throughout their evolutionary history.

32 ly evolved parasitic lifestyles during their evolutionary history.

33 ent acquisitions of acrodonty early in their evolutionary history.

34 axa, as demonstrated by their physiology and evolutionary history.

35 artifact than true reflection of the group's evolutionary history.

36 structure, genetic diversity, gene flow, and evolutionary history.

37 tor, it validates our understanding of HIV-1 evolutionary history.

38 ped between host species many times over its evolutionary history.

39 INs have remained largely unchanged in their evolutionary history.

40 ght is ecologically important and has a long evolutionary history.

41 been documented, but little is known of its evolutionary history.

42 re common fingerprints, independent of their evolutionary history.

43 egeneration may have occurred throughout our evolutionary history.

44 ial economic context more typical of humans' evolutionary history.

45 mes depending on their local environment and evolutionary history.

46 change have been frequent during vertebrate evolutionary history.

47 140,000 alignments from a broad sampling of evolutionary histories.

48 pecies as well as their functional roles and evolutionary histories.

49 derived alleles (NDAs) due to their distinct evolutionary histories.

50 species, owing to their unique biologies and evolutionary histories(5).

51 onstrain plasticity allowed inference of the evolutionary history across the plasmid lineages.

52 Here, we reconstructed their evolutionary history across the speciation continuum.

53 f diurnal gene expression and elucidates its evolutionary history among different photosynthetic euka

54 ic database of orthology relationships, gene evolutionary histories and functional annotations.

55 ss Animalia provokes questions regarding the evolutionary history and adaptability of HA as a transmi

56 r intervals, thus biases the view of hominin evolutionary history and behaviour, and places the homin

57 al durations retain a strong imprint of deep evolutionary history and body size differences among spe

58 , tradeoffs depend on genetic background and evolutionary history and can themselves evolve.

59 lent HIV-1 in several features including its evolutionary history and certain aspects of viral replic

60 A comprehensive view of the evolutionary history and dynamics of FMD viruses is esse

61 Preserving the evolutionary history and ecological functions that diffe

62 To address the role of shared evolutionary history and ecological niches in driving va

63 ytes affect plant hosts: habitat adaptation, evolutionary history and functional traits.

64 parative genomic analysis to investigate the evolutionary history and genetic basis for adaptations a

65 We verified their common evolutionary history and identified the timing of the du

66 We investigated the evolutionary history and intercontinental gene flow base

67 ation trees and extends it by inferring full evolutionary history and mutability landscape of a tumor

68 ltiple retro-transpositional bursts in mouse evolutionary history and only one in human.

69 We explore the evolutionary history and systematics of this novel virus

70 ed light on archaeal histone paralogs, their evolutionary history, and capacity to generate combinato

71 on-generic populations was common in wolves' evolutionary history, and could have facilitated their a

72 n this study, we investigated the timescale, evolutionary history, and population genetics of the HIV

73 ads) has evolved multiple times during their evolutionary history, and relies on the same mechanism-t

74 mic groups, indicating a strong influence of evolutionary history, and taxonomic groupings were more

75 he assembly pathway of a complex mirrors its evolutionary history, and that both can be derived from

76 s is that not all shared genes have the same evolutionary history, and thus the choice of loci can ha

77 ence in the tree of life; yet the diversity, evolutionary history, and timing of the origin of fungal

78 zation, including ecological networks and co-evolutionary history; and (c) address the notable gap in

79 forming fungi, large-scale patterns of their evolutionary history are poorly known, in part due to th

80 on of the early hominin atlas, and thus, its evolutionary history, are poorly documented because of a

81 nct, H3K9me3 and H3K27me3 may share a common evolutionary history as well as a common ancestral role

82 we tested for the roles of host and parasite evolutionary history as well as environmental variables

83 r individual gut symbionts can have parallel evolutionary histories, as represented by their congruen

84 While obviously revealing evolutionary histories at different scales, data converg

85 ill diversity expanded early in extant avian evolutionary history, before transitioning to a phase do

86 taxa present with lesser influence from the evolutionary history between finch species.

87 es are highly distinct, indicating a dynamic evolutionary history, but detailed evaluation is hindere

88 Cells in an organism share a common evolutionary history, called cell lineage tree.

89 Evolutionary histories can change from one part of the g

90 ionary processes and shows how signatures of evolutionary history can be harnessed for antibody disco

91 Their evolutionary history can be traced back to the Late Carb

92 Broadly, this analysis illustrates how co-evolutionary history can have a strong influence on the

93 Understanding how environmental and evolutionary history constrain community resilience is c

94 and altered interactions, its effects on the evolutionary history contained within sets of coexisting

95 The compound evolutionary history creating such a pattern of diversit

96 Floral symmetry and evolutionary history determined HP load size across plan

97 n adaptive radiation with well-characterized evolutionary history, dietary preferences, and biogeogra

98 that present morphological, karyotypic, and evolutionary history differences and are capable of gene

99 es when investigating species boundaries and evolutionary history, even in cases with well-supported

100 Caribbean, with the aims to reconstruct its evolutionary history, examine its biogeographic history

101 We also test how this evolutionary history fits island biogeography theory.

102 s have introgressed throughout much of their evolutionary history, following the direction of the ACC

103 ods infer large solution spaces of plausible evolutionary histories from the same sequencing data, ob

104 In view of their evolutionary history from a secondary endosymbiosis, int

105 ution of genetic instability and infer tumor evolutionary history from experimental data.

106 Until now, sloth evolutionary history has mainly been reconstructed from

107 ffects play out among species with no shared evolutionary history, important topics for invasion biol

108 might generate new insights into the role of evolutionary history in biological invasions.

109 her analyzed the role of floral symmetry and evolutionary history in mediating patterns of HP receipt

110 es are hotspots of both processes, yet their evolutionary history in songbirds remains unclear.

111 er since they were described as documents of evolutionary history in the 1960s.

112 a have made it possible to reconstruct human evolutionary history in unprecedented detail.

113 g biological activity since it draws upon an evolutionary history in which residues important for bot

114 rial genomes can contain traces of a complex evolutionary history, including extensive homologous rec

115 Here, we investigated the evolutionary history, intercontinental gene flow, and an

116 eographically separated the populations over evolutionary history is challenging, particularly in mig

117 The inferred evolutionary history is compatible with MDR- and XDR-TB

118 % of rapid eye-shape change during mammalian evolutionary history is directly explained by distinct s

119 Our findings suggest that shared evolutionary history is not a necessary process for the

120 genome is currently lacking, and the group's evolutionary history is not fully resolved.

121 new species, but how that happens throughout evolutionary history is not known.

122 oarchaean using geological evidence, but its evolutionary history is poorly understood.

123 Its evolutionary history is similar to that of bread wheat,

124 s encode complex metabolic capabilities with evolutionary histories largely independent of cellular l

125 Such selection acting over human evolutionary history may explain why we cooperate readil

126 of their high level of diversity and complex evolutionary histories, most studies on plant receptor-l

127 Thus, RAs and their distinct evolutionary histories must be considered when evaluatin

128 on success is positively associated with its evolutionary history, native range size, and economic us

129 lant traits and is robust to controlling for evolutionary history, nitrogen fixation ability, deciduo

130 ate sixteen pipelines for reconstructing the evolutionary histories of 293 localized prostate cancers

131 We here reconstruct the evolutionary histories of 56 pediatric primary tumors, i

132 thods by altering the relative weight of the evolutionary histories of each individual species.

133 it needs to account for the correlations of evolutionary histories of even distant loci.

134 n important technique for reconstructing the evolutionary histories of hosts and parasites, genes and

135 phenotypic impact of genetic variation, the evolutionary histories of most variants are largely unex

136 el is a widely-used method for analyzing the evolutionary histories of pairs of entities such as host

137 life, bacteria and archaea, and tracing the evolutionary histories of some key virus genes, we attem

138 Here, we investigated the evolutionary history of a common polymorphism resulting

139 The evolutionary history of a gene helps predict its functio

140 ilt an integrated pipeline for inferring the evolutionary history of a given gene family; this pipeli

141 dent on the specific genetic, ecological and evolutionary history of a given population.

142 ively, our results shed light on the complex evolutionary history of a major class of viruses reveali

143 dentify the precise genetic architecture and evolutionary history of a sex-linked colour polymorphism

144 adaptation is critical for understanding the evolutionary history of a species, providing the premise

145 Here, we uncover 20-40 Ma of evolutionary history of a supergene associated with poly

146 Understanding the clonal architecture and evolutionary history of a tumour poses one of the key ch

147 e review what is known about the origins and evolutionary history of all human-infective Plasmodium s

148 te evolution and polyploidy that affects the evolutionary history of all plant lineages, very few stu

149 The evolutionary history of and interactions between pathoge

150 The evolutionary history of ANP32 proteins impacts how influ

151 t has also been crucial in restructuring the evolutionary history of apicomplexans.

152 The evolutionary history of arthropods is illuminated by a r

153 Despite the long, separate evolutionary history of birds and mammals, both lineages

154 The evolutionary history of C. typus lineages is complex, in

155 ent a comprehensive literature review on the evolutionary history of Cannabis and Humulus, including

156 the propensity of polyploidy throughout the evolutionary history of Caryophyllales.

157 ith a single ancient polyploidy event in the evolutionary history of Ceratopteris based on both genom

158 eductions of labyrinth size, paralleling the evolutionary history of cetaceans [7].

159 the use of phylogenetic methods to infer the evolutionary history of cis-regulatory sequence features

160 Population genomic analyses reveal the evolutionary history of Citrullus, suggesting independen

161 ridization has been pervasive throughout the evolutionary history of clades.

162 across all major lineages, reconstructed the evolutionary history of cranial hyperossification across

163 ntially clarify the functional diversity and evolutionary history of CRISPR-Cas.

164 historical genomes to understand the complex evolutionary history of crop adaptation to new environme

165 nd fills a key phylogenetic gap in the early evolutionary history of crown birds(10,11).

166 ehaviour, we can more fruitfully examine the evolutionary history of diverse sexual strategies.

167 ylids shed new light on the early origin and evolutionary history of elytra reduction and its diverse

168 the potential of palaeogenomics to study the evolutionary history of extinct species.

169 This mixed evolutionary history of Fe/S-related proteins and pathwa

170 This group appears pivotal to the subsequent evolutionary history of forests due to possession of mul

171 se a revised classification that is based on evolutionary history of FXYDs and that is consistent acr

172 The evolutionary history of gene families can be complex due

173 e valuable information for understanding the evolutionary history of genes and genomes, and ultimatel

174 Considering the evolutionary history of GPCRs allows the identification

175 insights to this long-branch problem or the evolutionary history of hagfish in general, because uneq

176 es improves our understanding of the complex evolutionary history of highly migratory philopatric spe

177 To examine the evolutionary history of Homotherium, we generated a ~7x

178 hus leading to more accurate recovery of the evolutionary history of human cancers.

179 ther hand, Saccharomyces species have a long evolutionary history of hybridization, which has phenoty

180 ineages, are needed to better understand the evolutionary history of ICA's diverse biotas.

181 tly advanced myxomycete systematics, but the evolutionary history of individual lineages and their ec

182 The complex evolutionary history of L. capensis sensu lato, which po

183 that hybridization had played a role in the evolutionary history of many extant taxa, particularly p

184 ecular mechanism, adaptive consequences, and evolutionary history of memory.

185 Reconstructing the evolutionary history of metastases is critical for under

186 Thermoplasmata and provide insight into the evolutionary history of methanogenesis within the Ca.

187 dings provide evidence that knowledge of the evolutionary history of MM has relevance for predicting

188 past, as well as to describe and explore the evolutionary history of modern human populations.

189 The joint inference of the evolutionary history of mutations and their functional i

190 ning unique neuronal identities reflects the evolutionary history of neuronal cell-type specification

191 Understanding the evolutionary history of NLRs can shed light on both the

192 ure our ability to accurately infer the deep evolutionary history of oaks.

193 useful markers for the reconstruction of the evolutionary history of organisms.

194 We investigated the evolutionary history of P. dactylifera and its wild rela

195 This evolutionary history of P. xylostella provides insights

196 recursor lesions have begun to elucidate the evolutionary history of pancreatic tumorigenesis and to

197 Here we examined the evolutionary history of parasites of the Leishmania braz

198 The evolutionary history of pathogenic and endophytic popula

199 We reconstructed the evolutionary history of plasmid gene content of an entir

200 ontain vast amounts of information about the evolutionary history of populations, much of it in the a

201 Our understanding of the evolutionary history of primates is undergoing continual

202 onstruction algorithms produce models of the evolutionary history of proteins or species.

203 A complete account of the evolutionary history of rationalization must include ant

204 Here we analyse the evolutionary history of reef fishes that are endemic to

205 ctivation may be similar irrespective of the evolutionary history of retroviruses.

206 839 both in vivo and in vitro We tracked the evolutionary history of RNA m(4)C methyltransferases and

207 eds new light onto a major phenomenon in the evolutionary history of rodents, which is the earliest d

208 gests chromosomal or segmental losses in the evolutionary history of S. caninervis.

209 Local gene genealogies represent the evolutionary history of sampled haplotypes and contain t

210 e ancestor of humans and chimpanzees and the evolutionary history of selection on body size in primat

211 rging land plants and resolve details of the evolutionary history of several phytohormone and structu

212 e is little fossil evidence illuminating the evolutionary history of short elytra in lymexylids.

213 pGL simplifies phylogenetic inference of the evolutionary history of short genomic sequence features

214 Our results uncover the dynamic evolutionary history of songbird sex chromosomes and pro

215 The evolutionary history of species is a dynamic process as

216 d through the populations as captured in the evolutionary history of strains.

217 We present a comprehensive study of the evolutionary history of TBP and its interaction partners

218 le so far discovered, pushing back the known evolutionary history of termitophily by approximately 80

219 Aspects of the evolutionary history of tetanurans remain contested, inc

220 olving multiple species pairs has shaped the evolutionary history of the AFC since its diversificatio

221 onitic reef-building scleractinians, but the evolutionary history of the Anthozoa suggests other grou

222 e analyses enabled the reconstruction of the evolutionary history of the Asterids, further establishi

223 We review evidence suggesting that the evolutionary history of the behavioral immune system, an

224 Here, we infer the evolutionary history of the Cape hare, Lepus capensis se

225 The early evolutionary history of the chloroplast lineage remains

226 Here, we examined the evolutionary history of the computationally designed (re

227 We discuss both the evolutionary history of the genus Saccharomyces and the

228 hey were acquired relatively recently in the evolutionary history of the genus.

229 ial synapomorphy of the clade and key in the evolutionary history of the group.

230 the reconstruction of critical stages of the evolutionary history of the head, such as the origin of

231 of the facial skeleton, here we evaluate the evolutionary history of the modern human face in the con

232 The evolutionary history of the old, diverse freshwater shri

233 vaccine design are unique and tied to the co-evolutionary history of the pathogen and humans, but the

234 Finally, we gained insight into the evolutionary history of the phenazine biosynthetic opero

235 e-investigated the mutational background and evolutionary history of the RBMY1 copy number distributi

236 mic and non-endemic regions to delineate the evolutionary history of the recently emergent fluoroquin

237 The interaction between the evolutionary history of the sugarcane borer, Diatraea sa

238 nfers a phylogenetic tree that describes the evolutionary history of the tumor.

239 s reveal two major duplication events in the evolutionary history of the wintersweet genome, with an

240 tructure of ecological networks reflects the evolutionary history of their biotic components, and the

241 rreplaceable both for the uniqueness and the evolutionary history of their flora, and because they ar

242 In this study, we investigated the evolutionary history of these channels to add an evoluti

243 is will require careful investigation of the evolutionary history of these incompatibilities, a recko

244 The evolutionary history of these mating compatibility syste

245 ta, we reconstruct the structure and complex evolutionary history of these polymorphisms and show tha

246 lies were responsible for speciation and the evolutionary history of these species.

247 f the wing may be a molecular remnant of the evolutionary history of this appendage, in which cells o

248 This study explored the distribution and evolutionary history of this gene cluster in the genus P

249 morphologies develop repeatedly through the evolutionary history of this group [2, 4-9].

250 provides insights into the ecology and long evolutionary history of this important group of viruses

251 in our understanding of the ecology and the evolutionary history of this important group of viruses.

252 of its ancestor components, and unveiled the evolutionary history of this key signaling pathway from

253 However, the biochemical basis and evolutionary history of this loss remain unknown, as doe

254 l plant Arabidopsis, demonstrating a dynamic evolutionary history of this pathway.

255 We investigated the evolutionary history of this potential trade-off using a

256 is work provides a baseline for studying the evolutionary history of ticks: we indeed found an unexpe

257 Our study shows how reconstructing the evolutionary history of traits that influence the respon

258 biogeographic history of this group and the evolutionary history of tree and shrub form.

259 architecture is essential to understand the evolutionary history of tumor development and its associ

260 l of inferring the subclonal composition and evolutionary history of tumors from tumor biopsy sequenc

261 In plants, the evolutionary history of two carbon concentrating mechani

262 These findings provide insights into the evolutionary history of wintersweet and the relationship

263 This new taxon highlights the complex evolutionary history of xiphosurids and the importance o

264 n and dispersal events throughout a species' evolutionary history often remains elusive.

265 lleled opportunity to disentangle effects of evolutionary history on host microbiome from other facto

266 her macaques' risk preferences reflect their evolutionary history or derive from the less naturalisti

267 perlid stoneflies may reflect differences in evolutionary history or ecological roles as herbivores a

268 ium and the United States to elucidate their evolutionary history, origins and paths of dispersal.

269 hese results suggest that intrinsic factors (evolutionary history) play more important roles than ext

270 or of body nutrient content, indicating that evolutionary history plays a crucial role in determining

271 nstruction of the phylogeny representing the evolutionary history presents some peculiar aspects that

272 r strong selective pressure, but their macro-evolutionary history remains poorly characterised.

273 e species (e.g., vaquita and finless), their evolutionary history remains understudied.

274 n phylogenetic conservation of rRNAs through evolutionary history, rRNAs can be altered readily when

275 Evolutionary history shapes the interspecific relatednes

276 capable of capturing the key feedback loop: evolutionary history shapes tradeoff strength, which, in

277 ead size and available frequencies, although evolutionary history should also be taken into considera

278 ences in chromosome organization, phenotype, evolutionary history, sperm morphology and genetic, whic

279 Reticulate evolutionary histories, such as those arising in the pre

280 f soil microorganisms are influenced more by evolutionary history than by climate, even across a broa

281 nd Pacific harbor porpoises suggest a richer evolutionary history than previously suspected.

282 rived pliosaurids and reveals a more complex evolutionary history than their iconic representation as

283 hood (MPL), a method to infer selection from evolutionary histories that resolves genetic linkage.

284 dencies of RNA and protein reflect a long co-evolutionary history that began with rudimentary, mutual

285 isoetalean lycophytes, has a 400-million-yr evolutionary history that involves considerably broader

286 Furthermore, we reconstructed the evolutionary history that likely led to this genomic sta

287 Over the Earth's evolutionary history, the style of plate subduction has

288 andscapes contain 230 million fewer years of evolutionary history; this loss was strongly associated

289 in their natural habitats are constrained by evolutionary history to a greater degree than environmen

290 e determine the relative importance of plant evolutionary history, traits, and environmental factors

291 or the strong interplay between a parasite's evolutionary history, transmission mode, and environment

292 y has considerable economic value today, the evolutionary history underlying the emergence of the mod

293 e recovered strong evidence of a reticulated evolutionary history using a network approach that incor

294 d K. hermaphroditus had remarkably different evolutionary histories when colonising the same mangrove

295 cryptic environmental variation from that of evolutionary history; whereas the unique life history of

296 During their long evolutionary history, which spanned the Jurassic and the

297 that LECA's kinetochore proteins share deep evolutionary histories with proteins involved in a few p

298 )-is a poorly understood phase in our shared evolutionary history with other primates.

299 crobes were more beneficial when they shared evolutionary history with their host.

300 ange for 14 endemic groups over their entire evolutionary histories without the need for fossil data,