ライフサイエンスコーパス: genetic structure

1 luding genetic diversity loss and changes in genetic structure.

2 injury characteristics as well as population genetic structure.

3 l and gene flow continue to shape population genetic structure.

4 ntify a tripartite, ancient, Khoesan-related genetic structure.

5 igration and post-glacial range expansion on genetic structure.

6 ction on codon use, and only weak geographic genetic structure.

7 analyze the spatio-temporal evolution of its genetic structure.

8 e data to adult mating system and population genetic structure.

9 ure, or positive selection contribute to its genetic structure.

10 rical aspects of biogeography and population genetic structure.

11 ort a similar regional pattern of population genetic structure.

12 ute to population demography and patterns of genetic structure.

13 common approach for understanding population genetic structure.

14 adaptation were responsible for the observed genetic structure.

15 general understanding of the factors driving genetic structure.

16 eward post-glacial shift revealed in current genetic structure.

17 istance (IBD) primarily explained population genetic structure.

18 on microbial population structures and their genetic structures.

19 ructures or nonrandom mating usually lead to genetic structures.

20 of a large random mating population without genetic structures.

21 mmarizing differences between the population genetic structures.

22 ructing phylogenies, and studying population genetic structures.

23 sites, generating high levels of population genetic structure; (4) amenable to controlled crossings

24 Here we illustrate fine-scale genetic structure across Ireland that follows geographic

25 for leveraging the variability in the local genetic structure across populations.

26 We found significant spatial genetic structure across Rum in both mtDNA haplotypes an

27 tigated the degree of congruence between the genetic structures across Europe of two evolutionary and

28 the four lineages, PPRV-IV showed pronounced genetic structuring across the region; however, haplotyp

29 d by a dramatic temporal shift in population genetic structure after the onset of European settlement

30 We detected strong genetic structure along the Mediterranean for I. fascicu

31 rgely unexplained, the punctual detection of genetic structure also raises questions regarding the ex

32 Significant spatial genetic structure among adult trees, seedlings, and juve

33 Weak spatial genetic structure among adults suggests high historical

34 Temporal genetic structure among age classes varied highly betwee

35 lotype networks indicate varying patterns of genetic structure among ecologically similar sympatric s

36 We hypothesize that the increased genetic structure among populations in the north is rela

37 netic differentiation and fine-scale spatial genetic structure among recruits in fragments compared w

38 oplast loci, we found significant population genetic structure among seven subpopulations from two ge

39 H(e)=0.229 and 0.183, respectively) and high genetic structure among their populations (F(ST)=0.45 an

40 Moreover, we show that the genetic structure among these Native North American popu

41 ee mouse populations of increasingly complex genetic structure: an F2 intercross, a heterogeneous sto

42 Population genetic structure, analysed using DNA from dormant eggs

43 g the various hominin lineages, we performed genetic structure analyses to provide a comparison of ge

44 Genetic structure analysis (UPGMA) and various measures

45 A genome-wide genetic structure analysis of southern African populatio

46 However, little is known about the genetic structure and changes of prehistoric populations

47 o understand how these factors have affected genetic structure and connectivity of Siberian roe deer,

48 ossing) have divergent effects on population genetic structure and could thereby broadly influence tr

49 s of current drainages can act as drivers of genetic structure and demographic processes in riverine

50 Nn is a measure of within-population spatial genetic structure and depends strongly on the dispersal

51 ags (RAD tags) reveals previously unresolved genetic structure and direction of evolution in the pitc

52 l/biogeographic processes driving population genetic structure and divergence.

53 Our results argue that surveys of eelgrass genetic structure and diversity at decadal scales can pr

54 individual multilocus genotypes to infer the genetic structure and diversity of the British pig breed

55 ical analysis was performed to interpret the genetic structure and diversity of the population groups

56 The genetic structure and diversity of these foundation spec

57 otyping while providing information on their genetic structure and diversity.

58 obal distribution, high degree of population genetic structure and ease of sampling.

59 The genetic structure and functional organization of a Bacte

60 We investigated the genetic structure and gene flow of E. serotinus across t

61 Here, we examine the genetic structure and genomic diversification of natural

62 Information about genetic structure and historical demography of natural p

63 However, the reproductive mode, genetic structure and host adaptation of phylloxera in v

64 lu variation for studies of human population genetic structure and inference of individual geographic

65 flow by the quantification of regional-scale genetic structure and isolation by distance among 18 pop

66 tugal) were chosen to examine the population genetic structure and phylogeographic history of the cos

67 known to reduce genetic diversity, increase genetic structure and potentially put populations at gre

68 nnectivity simulations) to assess population genetic structure and self-recruitment in a broadcast-sp

69 is sufficient to explain the high levels of genetic structure and self-recruitment.

70 Finally, given their high genetic structure and that individual populations harbor

71 Further, we find a large overlap in genetic structure and the distribution of variants betwe

72 tandem repeat markers to explore fine-scale genetic structure and to examine the extent of linkage d

73 The data were analyzed to resolve the genetic structure and to interpret the evolutionary rela

74 responded to: (a) a strong signal of spatial genetic structure and, (b) a cryptic signal of host diff

75 me being used in this setting to study other genetic structures and functions to answer fundamental q

76 elationship they share fundamentally similar genetic structures and molecular processes.

77 We suggest that the fine-scale spatial genetic structuring and sex-biased dispersal have import

78 eographic distribution, analyzed the spatial genetic structure, and assessed the relationship between

79 ur understanding of the population dynamics, genetic structure, and biogeography of many coastal spec

80 n they incorporate information on population genetic structure, and concomitantly, local adaptation.

81 that populations of C. ciliata have obvious genetic structure, and genetic differentiation is not ca

82 study of changing distributions, population genetic structure, and levels of pathogen infection in b

83 ce and extent of multiple paternity, spatial genetic structure, and sporophytic inbreeding depression

84 y the pollen flow and dispersal, the spatial genetic structure, and the effective size of a populatio

85 High levels of genetic structure are apparent among all populations, pa

86 es, indica and japonica, but finer levels of genetic structure are suggested by the breeding history.

87 le character cannot serve as proxies for the genetic structure as a whole.

88 proach for investigating population-specific genetic structure as well as functionally mapping region

89 We found fine-scale spatial genetic structure at distances less than approximately 2

90 In addition, genetic structure at neutral loci reflected extensive ge

91 ed, the congruence between host and pathogen genetic structures at the within-species level has recei

92 analyses show strong and highly significant genetic structure between all putative populations, exce

93 Our results demonstrate that genetic structure between populations is not just highly

94 Genetic data showed contrasting patterns of genetic structure between the two lineages, different de

95 exes, which could occur if sex structure and genetic structure both occur within populations.

96 n conclusion, the high diversity and lack of genetic structure can be explained by a historically lar

97 adaptive walks on a fitness landscape, whose genetic structure can be probed by experiments.

98 -based approaches that account for ancestral genetic structure, complex haplotypes, gene-gene interac

99 Our study aims to establish (1) the genetic structure, connectivity and signs of bottlenecks

100 Significant genetic structure (correlating with geography) was detec

101 terranean coastal region contained a complex genetic structure corresponding to major river valleys,

102 ocal recruitment created substantial spatial genetic structure despite initial long-distance, human d

103 lite and a mitochondrial markers to evaluate genetic structure, estimate effective population size an

104 Population genetic structure estimated by analysis of molecular var

105 mechanisms that underpin the varied spatial genetic structures exhibited by free-living marine micro

106 ltural activity in Brazil shaped its spatial genetic structure, facilitating ecological divergence an

107 even microsatellite loci to characterize the genetic structure for 24 populations of Cirsium pitcheri

108 We found moderate levels of genetic structure for both lineages and a significant pa

109 GRASS summarizes the genetic structure for each gene as eigenSNPs and uses a

110 urther analysis showed that departure of the genetic structure from the linguistic classification was

111 We found moderate genetic structure (Fst=0.14), and a north-south pattern

112 We examined the population genetic structure, genetic diversity and demographic his

113 Understanding human genetic structure has fundamental implications for under

114 ion and their integration with intraspecific genetic structure have been underexplored in phylogeogra

115 fluence of ancient trading networks on their genetic structure have remained elusive.

116 Population genetic structures illustrate evolutionary trajectories

117 sults should help to identify and understand genetic structures implicated in cell-cell interactions

118 ty trajectories, showing that the population genetic structure imposed by partial selfing affected th

119 By characterizing genetic structure in a freshwater fish species (Hollandi

120 e bacterial genomes, was used to examine the genetic structure in a large collection of Medicago-nodu

121 We investigated phylogeography and spatial genetic structure in an introduced island population of

122 investigate genetic diversity and population genetic structure in autotetraploid species.

123 other cetaceans, we found a complete lack of genetic structure in both maternally and biparentally in

124 ary environments have all shaped patterns of genetic structure in E. henryi, and, in fact, changes in

125 Our results identified regional genetic structure in E. verrucosa partitioned between po

126 on, and quantified within-population spatial genetic structure in four populations.

127 enturies is sufficient to produce detectable genetic structure in human populations.

128 lankton may generate and maintain population genetic structure in marine microbes despite global-scal

129 provides both a valuable tool for predicting genetic structure in marine populations and a means of e

130 ng rates in four populations and the spatial genetic structure in six populations.

131 ere to assess spatial and temporal scales of genetic structure in Spartina hybrid populations within

132 Despite significant spatial genetic structure in the population, suggesting frequent

133 To investigate the genetic structure in the species, six North American urb

134 ndirect effects of eutrophication proxies on genetic structure in these lake populations and demonstr

135 We examined genetic structure in this diverse crop in Africa.

136 al adaptive genetic variation and erosion of genetic structure in wild populations.

137 Natural processes have led to genetic structuring in wild populations.

138 hylogeographic structure, and the population genetic structure (in our AFLP dataset) was partly expla

139 within less than 250,000 years, we show that genetic structuring including the segregation of potenti

140 epths of tens of meters exhibits significant genetic structure, indicative of low population connecti

141 We estimated genetic diversity, spatial genetic structure, indirect contemporary pollen flow and

142 This genetic structure introduced a risk of inbreeding, but o

143 factors contribute to genetic divergence and genetic structure is a central question in ecology and e

144 ng its complex and nonequilibrium population genetic structure is an important challenge that must be

145 Subsequent genetic structure is attributed to Pleistocene climatic

146 5); however, multivariate analyses show that genetic structure is highly correlated with anthropogeni

147 henotype, spurious associations can arise if genetic structure is not properly accounted for.

148 he influence of fat-tailed LDD on population genetic structure is reported in this article.

149 mating patterns, which can affect population genetic structure, is important for correctly modeling p

150 d fragmentation, and that fine-scale spatial genetic structure may be a particularly useful indicator

151 This complex genetic structure may be the result of multiple evolutio

152 Fine-scale genetic structure may more strongly develop when local r

153 ns in the short term, whereas inbreeding and genetic structure may respond more strongly.

154 alysis indicated some evidence of fine-scale genetic structuring, most likely due to limited seed dis

155 For both species, no evidence of genetic structuring, nor significant variation in geneti

156 w that the multispecies coalescent diagnoses genetic structure, not species, and that it does not sta

157 nce to the nearest village best explains the genetic structure observed.

158 We conclude that fine-scale genetic structure occurs in the winter flocks of birds a

159 loci to characterize and compare the colony genetic structure of 18 colonies of two basal termite su

160 s and the characterization of the population genetic structure of a forensically important insect spe

161 Understanding the genetic structure of a population is essential to its co

162 t this tradition is reflected in the current genetic structure of a sample of 153 Bedouin males from

163 In conclusion, we define the genetic structure of a uniquely admixed population that

164 suggests an evolutionary model in which the genetic structure of AIV is shaped by a combination of o

165 esearch, providing both an indication of the genetic structure of an organism and a mechanism for ide

166 the evidence for evolutionary changes in the genetic structure of anatomically modern humans in recen

167 Critically, the population genetic structure of bacterial hosts was chararacterized

168 contradictory empirical observations of the genetic structure of bacterial populations and point to

169 Despite this numerical dominance, the genetic structure of bacteriophage populations is poorly

170 y processes contributes to understanding the genetic structure of continuously distributed marine spe

171 ectivity than elsewhere, agreeing with known genetic structure of coral reef organisms.

172 s and gives more complete information on the genetic structure of D. pini, D. sibiricus, and D. super

173 daptation in invaded regions, we studied the genetic structure of D. suzukii collected across Italy,

174 data and highlight important features of the genetic structure of diverse populations.

175 c data offer a powerful tool to evaluate the genetic structure of domestic farm animal breeds.

176 ite markers provide valuable information for genetic structure of E.(M.) onukii in Chinese tea planta

177 Population genetic structure of E.(M.) onukii was detected using St

178 Due to the drastically different genetic structure of F2s and the HMDP, the best way to c

179 The genetic structure of four populations of the malarial ve

180 Here we examined the range-wide genetic structure of historic and modern populations usi

181 loped microsatellite markers to describe the genetic structure of host populations and assess the rel

182 Antibody genetic structure of hp-B6.1, the original hybridoma clo

183 Understanding the genetic structure of human populations is of fundamental

184 o urbanization are assumed to be eroding the genetic structure of human populations.

185 ture, and caste endogamy have influenced the genetic structure of Indian populations.

186 er, little is known about the phenotypic and genetic structure of internalizing psychopathology in ch

187 Thus, patterns of genetic structure of L. auriculata can result from both

188 We provided a genetic structure of lnc18q22.2 showing an extended exon

189 Studies of the genetic structure of LOX-1 have also uncovered various g

190 Understanding the genetic structure of malaria parasites is essential to p

191 rios of forest dynamics through time and the genetic structure of mammal species cooccurring in the c

192 ial out-of-Africa expansion have altered the genetic structure of most of the world's human populatio

193 Little is known regarding the genetic structure of N. tenuis and the effect of histori

194 Greenberg also represents the genetic structure of Native North American populations.

195 loci that can be exploited to understand the genetic structure of natural populations.

196 eBURST analysis to determine the population genetic structure of nonpathogenic bacteria recovered fr

197 ap of Eurasia: we demonstrated complexity of genetic structure of Northern Eurasians, existence of Ea

198 play the primary role in shaping the spatial genetic structure of O. sinensis.

199 typing-by-sequencing approach to examine the genetic structure of one abundant caterpillar species, E

200 host-associated speciation, we examined the genetic structure of P. coloradensis using mitochondrial

201 t isolation by distance does not explain the genetic structure of P. sativum subsp. elatius in its we

202 number of studies to investigate changes in genetic structure of parasite populations undergoing tre

203 We examined reproductive mode and genetic structure of phylloxera by analyzing microsatell

204 Analyses of the spatial and genetic structure of plant pathogens offer valuable insi

205 Pollen dispersal shapes the local genetic structure of plant populations and determines th

206 n drivers for the contemporary diversity and genetic structure of plants in the Himalaya-Hengduan Mou

207 iation study datasets that aimed to find the genetic structure of platelet function and body mass ind

208 uences of shifting geographic ranges for the genetic structure of populations and to find efficient a

209 The genetic structure of populations of an arctic-montane he

210 rm evolution, having profound impacts on the genetic structure of populations.

211 idence supports 21 ancestries that delineate genetic structure of present-day human populations.

212 asets can provide detailed insights into the genetic structure of prokaryotic genomes.

213 We exploited the genetic structure of recombinant congenic mouse strains

214 rge plant mapping populations to dissect the genetic structure of resistance.

215 We assessed the spatial genetic structure of S. amara within the 50-ha Forest Dy

216 The relatively weak genetic structure of S. amara, in comparison to other re

217 The extent to which the population genetic structure of S. epidermidis distinguishes commen

218 Comparison of the genetic structure of Siberian ethnicities and the geogra

219 gation was undertaken to assess the paternal genetic structure of the abovementioned Caribbean island

220 Here, we analyzed the clonal and genetic structure of the cyclical parthenogenetic rotife

221 The broad-scale genetic structure of the European badger (Meles meles) i

222 is paper, we reconstruct both the population genetic structure of the extinct wild progenitor of dome

223 c sites of integration and characterized the genetic structure of the gag region in each provirus.

224 s of drug-resistance mutations depend on the genetic structure of the HBV genome.

225 The genetic structure of the indigenous hunter-gatherer peop

226 This is the first study characterising the genetic structure of the invasive species D. suzukii in

227 construct changes in the temporal population genetic structure of the keystone zooplankton grazer, Da

228 y-generation hybrids is likely to impact the genetic structure of the natural hybrid zone on Mount Et

229 e diseases characterized by mutations in the genetic structure of the photoreceptors that leads to th

230 robable origin of this invasive species, the genetic structure of the population was compared against

231 sex can have different consequences for the genetic structure of the population.

232 ations were identified within the phenotypic/genetic structure of the Pseudomonas population, and bet

233 umina OvineSNP50 array and characterised the genetic structure of these breeds.

234 nrecognized interspecific differences in the genetic structure of these cryptic keystone species.

235 re at best an imperfect approximation to the genetic structure of these populations.

236 refugia played distinct roles in shaping the genetic structure of these wasps.

237 population genetic diversity and population genetic structure of this pest in China, microsatellite

238 ution of the Microviridae and to examine the genetic structure of this single family of bacteriophage

239 landscape characteristics that influence the genetic structure of this species across a spatially and

240 n approach, and apply it to characterize the genetic structure of thousands of strains from more than

241 We demonstrate that the observed population genetic structure of three important human pathogens, St

242 e and uniqueness of phenotypic diversity and genetic structure of traditional chicken breeds for fine

243 We found that the underlying genetic structure of Varanus niloticus across Sahelian A

244 It is thought that diversity and genetic structure of viral populations determine the rap

245 by the inability to accurately describe the genetic structure of virus populations.

246 such as movement and isolation influence the genetic structure of widely distributed vagile species s

247 ssive winters, we studied the demography and genetic structure of winter flocks in a small passerine,

248 pecially among birds, but the demography and genetic structure of winter flocks is poorly understood,

249 he match between observed demography and the genetic structure of winter flocks, and to investigate t

250 to achieve deep understanding of the complex genetic structures of disease, and offer powerful tools

251 recombinant inbred (RI) lines share similar genetic structures of F(2) individuals but with up to ei

252 minary evidence for different phenotypic and genetic structures of internalizing disorder symptoms in

253 Such efforts will require exploiting the genetic structures of recently evolved halophytes, the g

254 equencing provides a novel approach to study genetic structures of viral populations.

255 habitats has the potential to impact on the genetic structuring of remnant populations at multiple s

256 merged: (a) an indirect approach, using the 'genetic structure' of the pollen received by different m

257 is indicates migratory culture may influence genetic structure on feeding grounds.

258 lear microsatellites did not show population genetic structure or genomewide departures from neutrali

259 nd population analyses indicated significant genetic structure (Phi(ST)=0.3452, F(ST)=0.2478), largel

260 ina and found a marked difference in spatial genetic structure, population demography, and genetic di

261 s because the resulting bottlenecks increase genetic structuring (relatedness) promoting kin selectio

262 atellites to study within-population spatial genetic structure (SGS) and historical gene dispersal in

263 Fine-scale spatial genetic structure (SGS) in natural tree populations is l

264 Insights into the within-population spatial-genetic structure (SGS) of forest tree species, where li

265 Identification and quantification of spatial genetic structure (SGS) within populations remains a cen

266 of North America have had their contemporary genetic structure shaped by vicariant events, especially

267 More population genetic structure studies involving various C. parvum su

268 c parameters that are relevant to population genetics structure, such as effective population size an

269 ongruent with empirical estimates of spatial genetic structure, suggesting that the pattern of disper

270 first, P. angustifolia has stronger neutral genetic structure than many forest trees (simple sequenc

271 re host-specific and show greater population genetic structure than wing lice.

272 ispanic/Latino populations possess a complex genetic structure that reflects recent admixture among a

273 hiatric disorders have a coherent underlying genetic structure that reflects two major dimensions: in

274 ions of the Arabian Peninsula have a complex genetic structure that reflects waves of migrations incl

275 Furthermore, a remarkable result was the genetic structure that was seen for the Mesoamerican acc

276 o determine genetic diversity and population genetic structure throughout its range.

277 ecular variance did not show any significant genetic structure, thus implying that the sampled swarms

278 These findings suggest that hMPV may vary in genetic structure, to allow for a seasonal shift in pred

279 ower for detecting increasingly finer-scaled genetic structure under the multispecies coalescent.

280 We also found significant genetic structure using maximum-likelihood clustering me

281 Analyses of genetic structure using microsatellite variation reveals

282 AFLP loci was close to zero, and genomewide genetic structure was associated neither with species ab

283 Although the genetic structure was detected at all geographic scales,

284 A significant spatial genetic structure was detected for the adult plants (up

285 plants, and significant small-scale spatial genetic structure was detected within populations.

286 Additionally, although significant spatial genetic structure was found in all populations, biparent

287 Greater genetic structuring was found in England compared with c

288 al Islamic populations in Qatar's population genetic structure, we obtained and genotyped with Affyme

289 into the two male lineages, other aspects of genetic structure were in accord with tradition.

290 We found that community characteristics and genetic structure were influenced by a combination of co

291 pattern of occurrence, and displayed little genetic structure, while rare species were mainly charac

292 We correlated genetic structure with ecological differentiation, diver

293 indicated a good concordance of present-day genetic structure with the reported history of clam tran

294 Toxoplasma gondii has a clonal population genetic structure with three (I, II, and III) lineages t

295 vidual infections showed complex patterns of genetic structure, with variation not only in the number

296 C1966) to investigate the characteristics of genetic structure within a population and subsequently d

297 hypothesis by the analysis of gene flow and genetic structure within and among populations of the eu

298 es and the wild Przewalski's horse and found genetic structure within Eurasia in the Late Pleistocene

299 here should be clear geographically coherent genetic structuring within one of the world's highest al

300 in the Sahel, with the expectation that the genetic structure would correspond to riverine drainage