ライフサイエンスコーパス: X-linked gene

1 ta4) is a 43-amino acid factor encoded by an X-linked gene.

2 ion of X-linked male-biased genes than other X-linked genes.

3 o male-to-male transmission for mutations in X-linked genes.

4 combinant LIF caused reactivation of some of X-linked genes.

5 ing the expression of numerous autosomal and X-linked genes.

6 dosage parity between males and females for X-linked genes.

7 cumulation of female-beneficial mutations in X-linked genes.

8 acements and loss of expression, compared to X-linked genes.

9 ked traits revealed modest associations with X-linked genes.

10 ssion of RNAP II across the bodies of active X-linked genes.

11 ns are especially important for the study of X-linked genes.

12 the expression of hundreds of autosomal and X-linked genes.

13 omponent of the DCC, reduces expression from X-linked genes.

14 ing of male-specific lethal (MSL) complex to X-linked genes.

15 allelic expression pattern for a majority of X-linked genes.

16 ixture of cells expressing different sets of X-linked genes.

17 s-expressed autosomal retroposed variants of X-linked genes.

18 expressing either their mother's or father's X-linked genes.

19 non-expressed mutations among p53-associated X-linked genes.

20 al location and not to any other property of X-linked genes.

21 ains biased tissue of expression profiles of X-linked genes.

22 nsated for by gene-specific up-regulation of X-linked genes.

23 mosome where X-inactivation dictates RMAE of X-linked genes.

24 f DNA methylation levels at these AE-related X-linked genes.

25 n PolII-S5p and in expression of a subset of X-linked genes.

26 inked transcripts are lacking for 10%-30% of X-linked genes [10-12].

27 The majority of X-linked genes (152 of 176 genes with trackable SNP vari

28 hat the chance of this being due to a single X-linked gene abnormality is significantly less than wou

29 es significant overexpression of hundreds of X-linked genes across multiple tissues.

30 esis of triacylglycerol; however, two of the X-linked genes act as acyl-CoA wax alcohol acyltransfera

31 ility, which is caused by a silencing of the X-linked gene AFF2, display a number of ASD-like phenoty

32 tory sexual selection is known to occur, and X-linked genes affect female ventral sperm receptacle si

33 The behavior of X-linked genes also deviates from expected models.

34 ugh reverse transcription of an mRNA from an X-linked gene and integration of the resulting cDNA into

35 sis in the mouse of three Y-linked genes, 11 X-linked genes and 22 autosomal genes, all previously sh

36 ism, we present a theory of conflict between X-linked genes and autosomal genes.

37 pported by expression analyses of individual X-linked genes and by microarray-based transcriptome ana

38 of the male-specific lethal (MSL) complex to X-linked genes and modification of chromatin to increase

39 n of this complex decrease the expression of X-linked genes and reduce male survival.

40 vidence of transcription of Y-linked, and of X-linked, genes and of an enhanced metabolic rate in XY

41 h have one X chromosome and a single dose of X-linked genes, and females, which have two X's and two

42 First, a small number of X-linked genes are apparently expressed differently in m

43 Second, numerous X-linked genes are associated with p53, including vital

44 nked in outgroup species, whereas Drosophila X-linked genes are autosomal.

45 These findings imply X-linked genes are essential for binding somatic respons

46 but in addition, approximately 18% of mouse X-linked genes are expressed in postmeiotic cells.

47 X-linked genes are highly expressed in brain tissues, co

48 Remarkably, X-linked genes are not overexpressed in female Stc1(-/-)

49 Unlike autosomal genes, the majority of X-linked genes are subject to dosage compensation.

50 ved on chicken autosomes, and newly acquired X-linked genes are upregulated by similar mechanisms but

51 enetics (Ellis et al, 2005 [3]) showing that X-linked genes are upregulated in the various deleted ge

52 milies, representing approximately 273 mouse X-linked genes, are expressed in the testis and that thi

53 own and 77 novel AR-ID (candidate) genes, 21 X-linked genes, as well as 9 genes previously implicated

54 Interestingly, several other X-linked genes associated with glycosylation are not sil

55 stent pattern was seen for the expression of X-linked genes between in vitro and in vivo systems.

56 omosome inactivation ensures equal dosage of X-linked genes between male and female mammals.

57 rmination, failure to equalize expression of X-linked genes between the sexes is typically lethal.

58 mpensate for the difference in the dosage of X-linked genes between the sexes, depends on the MSL com

59 f Drosophila males to equalize expression of X-linked genes between the sexes.

60 Drosophila roX2 RNA occupies male X-linked gene bodies with increasing tendency toward the

61 s normal processes that control silencing of X-linked genes, but not tissue specific gene expression.

62 propose that the MSL complex recognizes most X-linked genes, but only in the context of chromatin fac

63 Our study demonstrates how newly acquired X-linked genes can rapidly evolve new and essential func

64 Males inheriting a mutation in a vital X-linked gene cannot survive unless there is a wild-type

65 sues is negatively correlated with the other X-linked genes chromosome-wide, which is consistent with

66 tein evolution is predicted to be faster for X-linked genes compared to autosomal genes (the "faster-

67 ined by stronger locally acting selection on X-linked genes compared with autosomal genes, combined w

68 f X(DeltaTsix)Y cells to efficiently silence X-linked genes compared with X(DeltaTsix)X cells, despit

69 d no XIST RNAs and a global up-regulation of X-linked genes confirmed that the deletion of XIST react

70 We identified a cluster of X-linked genes containing at least three genes that show

71 report that B cell-specific deletion of the X-linked gene, Cosmc, and the consequent decrease of pro

72 ecause alterations in dosage compensation of X-linked genes could impair somatic cell function, we pr

73 Both ancestral X-linked genes, defined as those conserved on chicken au

74 mpensation refers to the equal expression of X-linked genes despite the difference in copy number bet

75 stmeiotic reactivation of germ-cell-specific X-linked genes did not correlate with proximity to the X

76 ferentiated sex chromosomes: compensation of X-linked gene dosage and modulation of heterochromatin.

77 g X-chromosome inactivation, which equalizes X-linked gene dosage between male and female mammals.

78 female X chromosomes is silenced to equalize X-linked gene dosage between XX and XY individuals.

79 Mammals balance X-linked gene dosage by silencing one X chromosome in fe

80 es is transcriptionally silenced to equalize X-linked gene dosage relative to XY males, a process ter

81 ment, a process that is required to equalise X-linked gene dosage relative to XY males.

82 their two X chromosomes in order to balance X-linked gene dosage with their male counterparts.

83 n one of their two X chromosomes to equalize X-linked gene dosage with XY males in a process referred

84 s active and inactive chromosomes to balance X-linked gene dosages between males and females.

85 Mammals compensate for unequal X-linked gene dosages between the sexes by inactivating

86 echanism by which XX and XY mammals equalize X-linked gene dosages.

87 o form Xist clouds and silence at least some X-linked genes during random XCI.

88 (EDMD1) is caused by mutations in either the X-linked gene emerin (EMD) or the autosomal lamin A/C (L

89 TSPYL2 is an X-linked gene encoding a nucleosome assembly protein.

90 Mutations in the X-linked gene encoding IKKgamma can interfere with NF-ka

91 KCNE5 is an X-linked gene encoding KCNE5, an ancillary subunit to vo

92 The X-linked gene encoding MECP2 is involved in two severe a

93 tion mutations or abnormal expression of the X-linked gene encoding methyl CpG binding protein 2 (MeC

94 RTT is associated with mutations in the X-linked gene encoding methyl-CpG binding protein 2 (MeC

95 spectrum disorder caused by mutations in the X-linked gene encoding methyl-CpG binding protein 2 (MeC

96 RTT is caused by mutations in the X-linked gene encoding methyl-CpG binding protein 2 (MeC

97 Loss of function of the X-linked gene encoding methyl-CpG binding protein 2 (MeC

98 ostly females, is caused by mutations in the X-linked gene encoding methyl-CpG-binding protein 2 (MeC

99 Mutations in the X-linked gene encoding methyl-CpG-binding protein 2 (MeC

100 llagen genes, or hemizygous mutations in the X-linked gene encoding the alpha 5 chain of type IV coll

101 MECP2, an X-linked gene encoding the epigenetic factor methyl-CpG-

102 ease (LND) is the result of mutations in the X-linked gene encoding the purine metabolic enzyme, hypo

103 De novo mutations in the X-linked gene encoding the transcription factor methyl-C

104 A significant number of X-linked genes escape from X chromosome inactivation and

105 In total, about 15% of X-linked genes escape inactivation to some degree, and t

106 Unlike all other X-linked genes examined, Rsx was differentially methylat

107 Most autosomal copies originating from X-linked genes exhibited testis-biased expression.

108 X-linked genes exhibiting AE in SLE had an extensive ove

109 Ampliconic X-linked genes expressed in other cell types showed a di

110 opossum did not show an association between X-linked gene expression and promoter DNA methylation, w

111 rimordial germ cells (hPGCs) display reduced X-linked gene expression before entering meiosis.

112 lencing of one X chromosome to achieve equal X-linked gene expression between males and females.

113 Dosage compensation (DC) equalizes X-linked gene expression between sexes.

114 This essential process equalizes X-linked gene expression between the sexes (XO males and

115 To balance the dosage of X-linked gene expression between the sexes, one of the X

116 Dosage compensation equalizes X-linked gene expression between the sexes.

117 To compensate for the resulting disparity in X-linked gene expression between the two sexes, most gen

118 s, X-chromosome inactivation (XCI) equalizes X-linked gene expression between XY males and XX females

119 n the Drosophila male X chromosome, and make X-linked gene expression equal in males and females.

120 s (XX) compensates for the reduced dosage of X-linked gene expression in males (XY).

121 experimental evidence for the suppression of X-linked gene expression in the Drosophila male germline

122 Analyses of chromatin and X-linked gene expression indicate that a single X, unlik

123 rs in X inactivation, the mechanism by which X-linked gene expression is equalized between XX females

124 e significant changes in Xist, H3K27me3, and X-linked gene expression occur, suggesting the potential

125 articular DCC subunits and causes changes in X-linked gene expression similar to those caused by dele

126 mine neurons, suggesting tight regulation of X-linked gene expression to ensure sexual congruency.

127 K20me1 enrichment in somatic cells, elevates X-linked gene expression, reduces X chromosome compactio

128 Proper regulation of X-linked gene expression, termed dosage compensation, is

129 es to achieve differential 2-fold changes in X-linked gene expression.

130 aracterized regulatory system that increases X-linked gene expression.

131 nificant changes in XIST RNA localization or X-linked gene expression.

132 ale X chromosome, equalizing male and female X-linked gene expression.

133 ocalization of chromosomes as they relate to X-linked gene expression.

134 for a persistent XCI deficiency to regulate X-linked gene expression.

135 ens were members of the Bex (Brain expressed X-linked) gene family, rat Bex1 (Rex3), and a novel gene

136 The X-linked gene filamin A (Flna) encodes a widely expresse

137 repeat in the 5' untranslated region of the X-linked gene FMR1.

138 4 DNA insulator is sufficient to protect an X-linked gene from repression during development but not

139 plantation monkey blastocysts also expressed X-linked genes from both alleles suggesting that, unlike

140 issues comprise cells exclusively expressing X-linked genes from one or other parent.

141 athies, caused by inherited mutations of the X-linked gene G6PD.

142 ed a paternal, parent-of-origin effect for a X-linked gene (Gct4) that strongly supports granulosa ce

143 ously identified a rare microdeletion of the X-linked gene GLRA2, encoding the GlyR alpha2 subunit, i

144 Imprinting of X-linked genes has also been implicated in the male prev

145 Also as expected, X-linked genes have a lesser degree of increase in gene

146 e almost complete Y Chromosome degeneration, X-linked genes have become twofold up-regulated, restori

147 Mutations in 102 X-linked genes have been associated with 81 of these XLI

148 More than 80 human X-linked genes have been associated with mental retardat

149 Thus, some X-linked genes have minimal epigenetic memory in the inn

150 We demonstrate that X-linked genes have significantly higher codon bias comp

151 utations have been found in approximately 90 X-linked genes; however, molecular and biological functi

152 glucosamine (O-GlcNAc) transferase (OGT), an X-linked gene important in regulating proteins involved

153 ve been hindered by the requirement for this X-linked gene in embryonic stem cell viability, necessit

154 og of parent-of-origin expression status for X-linked genes in a marsupial and sheds light on the reg

155 ganization of chromosome X and corresponding X-linked genes in a variety of healthy human and disease

156 ay monoallelic expression and methylation of X-linked genes in agreement with non-random XCI.

157 th a prior twofold increase in expression of X-linked genes in both sexes ("Ohno's hypothesis").

158 a mechanism that ensures equal expression of X-linked genes in both sexes.

159 ome on cognitive behaviors and expression of X-linked genes in brain.

160 lication of having only one allele of active X-linked genes in cancer pathogenesis, i.e. somatic sing

161 (lncRNA) is thought to catalyze silencing of X-linked genes in cis during X-chromosome inactivation,

162 s to modify underlying chromatin and silence X-linked genes in cis Recent years have seen significant

163 we searched for locus-specific imprinting of X-linked genes in developing brain.

164 old enhancement of the transcription of most X-linked genes in Drosophila males, which is the basis o

165 sential mechanism for dosage compensation of X-linked genes in female cells.

166 The selective marking of X-linked genes in female ES cells in a way that distingu

167 hat evolved to equalize expression levels of X-linked genes in females (2X) and males (1X), with a pr

168 tion mechanism to equalize the expression of X-linked genes in females and males.

169 d then serve to avoid hyper-transcription of X-linked genes in females by silencing one X chromosome.

170 e level of transcription of the two doses of X-linked genes in females relative to males, or by incre

171 ay (XCA) to survey the expression profile of X-linked genes in lymphoblasts of XLMR males.

172 based on synonymous evolutionary distances, X-linked genes in M. musculus fall into the same strata

173 the X chromosome to upregulate expression of X-linked genes in male flies.

174 ctivation, increasing level of expression of X-linked genes in male testes, and/or sexual antagonism

175 hromosomes [6]; e.g., Drosophila overexpress X-linked genes in males [7], while mammals shut down one

176 one 4 lysine 16 acetylation to the bodies of X-linked genes in males, with a bias towards 3' ends.

177 f Y-linked genes and haplo-insufficiency for X-linked genes in males.

178 level of transcription of the single dose of X-linked genes in males.

179 ng component cause increases specifically of X-linked genes in males.

180 We found that the majority of the X-linked genes in metafemales exhibit dosage compensatio

181 sex chromosomes is coordinated regulation of X-linked genes in one sex.

182 ggest that XCD evolved in humans to regulate X-linked genes in pre-implantation embryos and PGCs.

183 e here the expression of DGAT2 and the three X-linked genes in Saccharomyces cerevisiae strains virtu

184 These findings show that the expression of X-linked genes in the Drosophila testes reflects a balan

185 ysis, loss of MES-4 leads to derepression of X-linked genes in the germ line.

186 acterize this transcriptional suppression of X-linked genes in the male germline and its evolutionary

187 , we discovered widespread overexpression of X-linked genes in the testes of sterile but not fertile

188 will greatly facilitate functional assays of X-linked genes in vivo, and provides a model for functio

189 In contrast, the number of identified X-linked genes in which de novo mutations specifically c

190 riptional and chromatin features of inactive X-linked genes in WT and Eed (-/-) TSCs suggests that PR

191 omosome inactivation equalizes the dosage of X-linked genes in XX females with that in XY males.

192 This contrasts with X-linked genes, in which only 1.3% of genes contained st

193 st has crucial functions in the silencing of X-linked genes, including Rnf12 encoding the ubiquitin l

194 hromosome in male fruit flies, expression of X-linked genes increases twofold.

195 ene fold ratios greater than 1.5 for several X-linked genes indicating overexpression in females amon

196 lies that haploinsufficiency for one or more X-linked genes influences amygdala development irrespect

197 In eutherian mammals, dosage compensation of X-linked genes is achieved by X chromosome inactivation.

198 ent work has shown that the transcription of X-linked genes is also upregulated in males prior to gas

199 d Xist RNA, only a subset of the inactivated X-linked genes is derepressed in Eed (-/-) TSCs.

200 s predicted, the maximal expression of human X-linked genes is much lower than that of genes on autos

201 t a long-sought specific DNA sequence within X-linked genes is not obligatory for MSL binding.

202 ies have indicated that transcription of all X-linked genes is repressed by meiotic sex chromosome in

203 pected to be dosage-sensitive--expression of X-linked genes is similar to that of autosomal genes wit

204 e inner cell mass (ICM), and reactivation of X-linked genes is thought to follow loss of Xist RNA coa

205 CXCR3, an X-linked gene, is subject to X chromosome inactivation (

206 If such X-linked genes lacked a homologue on the Y-chromosome th

207 es; papaya shows an unprecedented pattern of X-linked genes < autosomal genes < Y-linked genes.

208 how the expected pattern of Y-linked genes < X-linked genes < autosomal genes; papaya shows an unprec

209 , H4K16 was necessary for expression of male X-linked genes, male viability, and maintenance of ovari

210 ifferences in expression of many of the 1100 X-linked genes may contribute to sex differences in the

211 About 25% of X-linked genes may escape inactivation at least to some

212 Loss- and gain-of-function mutations of the X-linked gene MECP2 (methyl-CpG binding protein 2) lead

213 ological disorder caused by mutations in the X-linked gene MECP2 (methyl-CpG-binding protein 2).

214 caused by loss of function mutations in the X-linked gene MECP2 and is characterized by loss of acqu

215 opmental disorder caused by mutations in the X-linked gene MECP2.

216 syndrome (RTT) is caused by mutations in the X-linked gene MECP2.

217 l disorder that arises from mutations in the X-linked gene methyl-CpG binding protein 2 (MeCP2).

218 Loss-of-function mutations in the X-linked gene Methyl-CpG-binding protein 2 (MECP2) cause

219 Mutations in the X-linked gene, methyl-CpG binding protein 2 (Mecp2), und

220 Germline mutations in the X-linked gene, methyl-CpG-binding protein 2 (MECP2), und

221 Alternatively, X-linked genes might experience stronger natural selecti

222 transpositions, we show that most endogenous X-linked genes, not just testis-specific ones, are trans

223 ATRX is an X-linked gene of the SWI/SNF family, mutations in which

224 evidence for relatively specific effects of X-linked genes on social-cognition and emotional regulat

225 plex (DCC) to downregulate the expression of X-linked genes only in hermaphroditic worms.

226 Secondly, many human X-linked genes outside the X-Y pairing pseudoautosomal r

227 orthologs of the three C. elegans autosomal/X-linked gene pairs also display functional differences

228 RNAi results for highly conserved autosomal/X-linked gene pairs suggest that other duplicated genes

229 O-GlcNAc transferase (OGT) is an X-linked gene product that is essential for normal devel

230 pensation refers to the equalization of most X-linked gene products between males, which have one X c

231 Dosage compensation equalizes X-linked gene products between the sexes.

232 dosage compensation-the equalization of most X-linked gene products between XY males and XX females-i

233 y mechanism that insures the equalization of X-linked gene products in males and females.

234 t sites and a well-positioned +1 nucleosome, X-linked gene promoters on average exhibit higher nucleo

235 Mutations in the X-linked gene Protocadherin-19 (Pcdh19) cause female-lim

236 hese results implicate failure to compensate X-linked genes, rather than inappropriate upregulation o

237 No X-linked gene reactivation is seen after Firre knockdown

238 All 15 X-linked genes, regardless of activity, position on the

239 To conclude, we highlight other aspects of X-linked gene regulation that make it a suitable model f

240 In the spermatid, 87% of X-linked genes remain suppressed postmeiotically, while

241 Point mutations in 31 autosomal and 2 X-linked genes representing diverse gene ontogeny have b

242 ogeny of female heterozygotes bearing mutant X-linked genes required during embryogenesis.

243 tion process may impact on the expression of X-linked genes resulting in an overall similar gender ex

244 The X-linked gene Rnf12 encodes the ubiquitin ligase really

245 requires a functional maternal allele of the X-linked gene Rnf12, which encodes the ubiquitin ligase

246 n HCCS, COX7B, and other as-yet-unidentified X-linked gene(s) cause selective loss of cells in which

247 he fitness effect of mutations is recessive, X-linked genes should evolve more rapidly than autosomal

248 An additional 10% of X-linked genes show variable patterns of inactivation an

249 Nine X-linked genes showed overexpression in females in at le

250 at ectopic Xist RNA induction and subsequent X-linked gene silencing is sex specific in embryos and i

251 To test the impact of Xist RNA on X-linked gene silencing, we ectopically induced endogeno

252 ctivates Xist and, separately, helps trigger X-linked gene silencing.

253 X-linked genes, SlX1, DD44X, SlX4, and a new X-linked gene SlssX, which encodes spermidine synthase.

254 o report a genetic map for four S. latifolia X-linked genes, SlX1, DD44X, SlX4, and a new X-linked ge

255 The X-linked gene STS encodes the steroid hormone-modulating

256 Those belonging to the random class include X-linked genes subject to X inactivation, as well as a n

257 Previously studies using X-linked genes such as glucose-6-phosphate dehydrogenase

258 In mice that lacked this X-linked gene, T reg cell generation in the thymus was i

259 tis may be harder to achieve for single-copy X-linked genes than for autosomal genes, because they ar

260 rrelated with AE profiles more positively at X-linked genes than the genome-wide background.

261 Somatic mutations in the X-linked gene that encodes core 1 beta1,3-galactosyltran

262 ng spermatogenesis have failed to reveal any X-linked gene that escapes the silencing effects of MSCI

263 her the spread of a recessive mutation in an X-linked gene that is beneficial to males or a partially

264 ember of the small GTPase superfamily, is an X-linked gene that is expressed in brain, lymphocytes, a

265 s based on polymorphic variation in a single X-linked gene that produces, by random X inactivation, a

266 es and also occur at higher densities around X-linked genes that are subject to X inactivation compar

267 d an inability to shield against deregulated X-linked genes that engage in p53 networks.

268 ressed during spermatogenesis and found that X-linked genes that escape meiotic sex chromosome inacti

269 genes, including a significant proportion of X-linked genes that escape sex chromosome inactivation i

270 ikely to be dosage compensated, and parental X-linked genes that gave rise to an autosomal male-biase

271 Additionally, X-linked genes that have newly acquired male-biased expr

272 s study have revealed a strong expression of X-linked genes that include members of the brain-express

273 revealed the overexpression of a cluster of X-linked genes that included Tlr7.

274 In dpy-21 mutants, expression of several X-linked genes that promote dauer bypass is elevated, in

275 ensation enhances dauer arrest by repressing X-linked genes that promote reproductive development thr

276 expressed from a family of "brain expressed X-linked genes" that are closely linked on the X-chromos

277 ions of this type that occur in autosomal or X-linked genes, the average proportion of beneficial mut

278 at pachytene and expression studies of a few X-linked genes, the X and Y chromosomes seem to undergo

279 counteracts the potential overexpression of X-linked genes to achieve the proper twofold up-regulati

280 osage compensation modifies the chromatin of X-linked genes to assure equivalent expression in sexes

281 the hypothesis of upregulation of expressed X-linked genes to balance expression of the genome.

282 e compensation refers to the equalization of X-linked gene transcription among heterogametic and homo

283 r, our observations suggest that in the ICM, X-linked gene transcription and Xist coating are uncoupl

284 female reset cells, appearance of biallelic X-linked gene transcription indicates reactivation of th

285 ensation mechanisms have evolved to equalize X-linked gene transcription.

286 llelic autosomal expression, by upregulating X-linked genes twofold (termed 'Ohno's hypothesis').

287 s designed for mammalian imprinting in which X-linked genes typically undergo random X-inactivation a

288 II recruitment to promoters of hermaphrodite X-linked genes using a chromosome-restructuring condensi

289 ed that a mutation of neuroligin-3 (NL3), an X-linked gene, was found in siblings with autistic spect

290 y similarly, but the ratio distributions for X-linked genes were distinct in both sexes, illustrating

291 However, XIST and other X-linked genes were expressed from both chromosomes in i

292 The overall levels of expression of X-linked genes were indistinguishable in females and mal

293 RNA is recruited to the body of transcribed X-linked genes where it modifies chromatin to increase e

294 nerable to mutations in their single copy of X-linked genes, whereas females are often mosaic, having

295 Additionally, X-linked genes, which have reduced effective population

296 168 have been explained by mutations in 113 X-linked genes, which in many cases were characterized w

297 monstrate sex-specific requirements for this X-linked gene while suggesting a role for UTY during dev

298 in male-specific tissues, but autosomal and X-linked genes with expression in female-specific tissue

299 es is inactivated to ensure an equal dose of X-linked genes with males (XY).

300 Finally, the expression of the X-linked gene yellow in the pupae exactly foreshadows th