ライフサイエンスコーパス: allelic exclusion

1 and the cessation of TCRbeta rearrangements (allelic exclusion).

2 es VH-DJH rearrangement at the other allele (allelic exclusion).

3 egments (spatial segregation-based model for allelic exclusion).

4 ells, where Trbv recombination is squelched (allelic exclusion).

5 synchronous rearrangements and essential for allelic exclusion.

6 lele is expressed, a phenomenon known as Igh allelic exclusion.

7 alterations in chromatin are a key factor in allelic exclusion.

8 eripheral IgH rearrangements occurred beyond allelic exclusion.

9 en receptor, a restriction contributed to by allelic exclusion.

10 to suppress aberrant V beta cleavages during allelic exclusion.

11 th a unique specificity via a process termed allelic exclusion.

12 This phenomenon is referred to as allelic exclusion.

13 ttranslational regulation of the alpha-chain allelic exclusion.

14 ombination, a phenomenon also referred to as allelic exclusion.

15 ansgenic model of immunoglobulin heavy-chain allelic exclusion.

16 d TCR up-regulation leads to this phenotypic allelic exclusion.

17 -region genes is regulated in the context of allelic exclusion.

18 ng, drives a "winner-takes-all" mechanism of allelic exclusion.

19 l expansion, RAG downregulation, and TCRbeta allelic exclusion.

20 s that had normal immunoglobulin heavy-chain allelic exclusion.

21 ry elements are required for mediating Vbeta allelic exclusion.

22 d at a different frequency and is subject to allelic exclusion.

23 ve selection, was shown to lead to effective allelic exclusion.

24 eceptor gene rearrangement in lymphocytes on allelic exclusion.

25 However, the same Raf signal did not mediate allelic exclusion.

26 ive selection, is shown to lead to effective allelic exclusion.

27 hain or TCRbeta chain loci, thereby ensuring allelic exclusion.

28 gh protective activity escape TCR-beta chain allelic exclusion.

29 three hypersensitive sites in the control of allelic exclusion.

30 e alternate allele, a process referred to as allelic exclusion.

31 ion, are involved in the control of TCR-beta allelic exclusion.

32 regions genes is regulated in the context of allelic exclusion.

33 unrearranged Trbvs, which may contribute to allelic exclusion.

34 ible locus associated with the occurrence of allelic exclusion.

35 ll cycle is not essential for enforcement of allelic exclusion.

36 enable normal B cell development, including allelic exclusion.

37 ogous chromosomes is critical for Ig and TCR allelic exclusion.

38 nous TCR chains is then less likely owing to allelic exclusion.

39 -to-Jkappa rearrangements to enforce Igkappa allelic exclusion.

40 er Igkappa rearrangements to control Igkappa allelic exclusion.

41 Zealand White F1 mice exhibit nearly perfect allelic exclusion.

42 lineage specific, ordered rearrangement and allelic exclusion.

43 ient for the establishment or maintenance of allelic exclusion.

44 tent to which Ig and TCR loci are subject to allelic exclusion.

45 sly normal thymocyte development and TCRbeta allelic exclusion.

46 ombination events and the phenomenon of Tcrb allelic exclusion.

47 receptor loci is thought to be important for allelic exclusion.

48 Such interactions may be essential for Tcrb allelic exclusion.

49 lted in fewer such interactions and impaired allelic exclusion.

50 hromatin to the initiation or maintenance of allelic exclusion.

51 eta14 accessibility per se is not subject to allelic exclusion.

52 asis for T cell antigen receptor-beta (Tcrb) allelic exclusion.

53 arising B cells and a second checkpoint for allelic exclusion.

54 complex and functions in the control of VSG allelic exclusion.

55 tulated to provide an instructive signal for allelic exclusion.

56 ore V-DJ recombination, a process subject to allelic exclusion.

57 recombination, is not sufficient to instruct allelic exclusion.

58 romatin correlates with the establishment of allelic exclusion.

59 ; this process has been proposed to underlie allelic exclusion.

60 of IL-7R/STAT5 signaling is not required for allelic exclusion.

61 ificity, intra- and interlocus ordering, and allelic exclusion.

62 ion of IL-7R signaling should interfere with allelic exclusion.

63 e allele is critical to the establishment of allelic exclusion, a key question is whether or not germ

64 fects in mechanisms that control Ag receptor allelic exclusion and a reappraisal of the physiologic r

65 mmature B cell stages, resulting in impaired allelic exclusion and accumulation of a B cell subset co

66 g rescuing cells from programmed cell death, allelic exclusion and alphabeta versus gammadelta T-cell

67 ustaining variant surface glycoprotein (VSG) allelic exclusion and antigenic variation in Trypanosoma

68 (pre-TCR) regulates survival, proliferation, allelic exclusion and differentiation of thymocytes.

69 mature thymocytes (TCRhigh) show phenotypic allelic exclusion and express only a single alpha-chain.

70 but exhibited a partial defect in beta-chain allelic exclusion and increased apoptosis.

71 ry cooperate to help enforce IgH and TCRbeta allelic exclusion and indicate that control of V-to-DJ r

72 to the small pre-BII cell stage, and induce allelic exclusion and L chain gene rearrangement.

73 he ability of these domains to signal B cell allelic exclusion and maturation in transgenic mice.

74 ion are part of the mechanism of kappa locus allelic exclusion and may be a general mechanism contrib

75 o samples lacking immunoglobulin heavy-chain allelic exclusion and most likely reflect genetic polymo

76 s VbetaDJbetaCbeta genes can enforce TCRbeta allelic exclusion and reveal another mechanism that cont

77 imeric IgM/G receptors triggered heavy chain allelic exclusion and supported development of mature CD

78 MDC1 is required for ATM to enforce Igkappa allelic exclusion and suppress Igkappa rearrangements.

79 Thus, the lack of allelic exclusion and TCR alpha secondary rearrangement

80 onsible for the developmental transition and allelic exclusion and thus allows for separate examinati

81 of component parts for V(D)J recombination, allelic exclusion, and receptor editing.

82 We demonstrate that ATM enforces Igkappa allelic exclusion, and that RAG DSBs induced during Igka

83 Mammalian X inactivation, imprinting, and allelic exclusion are classic examples of monoallelic ge

84 iferation and survival, differentiation, and allelic exclusion are differently sensitive to subtle mu

85 The signaling processes underlying allelic exclusion are not clearly understood.

86 We now provide evidence that the breach in allelic exclusion associated with Emu deletion results f

87 hromatin is diminished as thymocytes undergo allelic exclusion at the CD4(-)CD8(-) (double-negative)

88 tromeric recruitment to the establishment of allelic exclusion at the Igh locus.

89 cus-specific recombinase activity results in allelic exclusion at the immunoglobulin heavy chain locu

90 Under most circumstances, allelic exclusion at the T cell receptor (TCR)beta locus

91 Phenotypic allelic exclusion at the TCRalpha locus is developmental

92 tential requires either a naive phenotype or allelic exclusion at the TCRalpha locus.

93 tribute to the initiation and maintenance of allelic exclusion at the Tcrb locus.

94 investigate the role of the pTalpha chain in allelic exclusion at the TCRbeta locus, a functionally r

95 epresents an exception to the rule of strict allelic exclusion at the TCRbeta locus.

96 thymocytes and that SLP-76 is essential for allelic exclusion at the TCRbeta locus.

97 at pTalpha may not be required for signaling allelic exclusion at the TCRbeta locus.

98 Before allelic exclusion both alleles are transcribed.

99 the surrogate L chain complex that promotes allelic exclusion but not other aspects of pre-B cell de

100 ole for TCR signaling in causing alpha-chain allelic exclusion, but differential ubiquitination by c-

101 t gene families in eukaryotes are subject to allelic exclusion, but mechanisms underpinning single al

102 Ag receptor loci are regulated to promote allelic exclusion, but the mechanisms are not well under

103 ounterparts and appeared to be responsive to allelic exclusion, but were differentially sensitive to

104 ates with the V1 and V2 RSSs to help enforce allelic exclusion by facilitating competition between al

105 ATM-mediated DNA damage signals enforce Igk allelic exclusion by orchestrating transient repression

106 -mediated DNA damage signals enforce Igkappa allelic exclusion by orchestrating transient repression

107 development may be important for permitting allelic exclusion by ordering rearrangement of the two a

108 n signal through the TCR leads to phenotypic allelic exclusion by specifically maintaining cell surfa

109 2 help establish TCRbeta gene repertoire and allelic exclusion by stochastically limiting initiation

110 To achieve allelic exclusion by such means, only one allele can ini

111 site near the TCR-beta enhancer (E beta) in allelic exclusion by targeted mutagenesis.

112 mice was not preferential for cells escaping allelic exclusion by the TCR transgene, but was suppress

113 This family is subject to allelic exclusion by which particular genes are expresse

114 a TCRbeta transgene, suggesting that TCRbeta allelic exclusion can also be achieved by blocking the t

115 e inserted Vbeta segment was no longer under allelic exclusion control as it recombined at a similar

116 oallelic recruitment during establishment of allelic exclusion correlates with transcriptional silenc

117 Allelic exclusion describes the essential immunological

118 on and that in CD4+ CD8+ thymocytes TCR beta allelic exclusion does not result from inaccessibility o

119 CR mediates signals resulting in heavy chain allelic exclusion, down-regulation of the recombination

120 Allelic exclusion ensures monoallelic expression of Ig g

121 The process of allelic exclusion ensures that each B cell expresses a B

122 Allelic exclusion ensures that individual B lymphocytes

123 The mechanism of allelic exclusion ensures the expression of a single bet

124 TCR allelic exclusion greatly reduced the pool of T-cells fr

125 ition and impairs immunoglobulin heavy chain allelic exclusion, hallmarks of defective pre-BCR signal

126 However, the molecular mechanism of this allelic exclusion has been an enigma.

127 Genetic allelic exclusion has been shown to be leaky for the bet

128 x, activates signaling pathways that enforce allelic exclusion in double-positive thymocytes.

129 ly the four most proximal V(H) genes escaped allelic exclusion in immature mu-transgenic B lymphocyte

130 The establishment of allelic exclusion in immunoglobulin genes requires diffe

131 of V(D)J recombination enforces Ag receptor allelic exclusion in mammalian lymphocytes.

132 ent signals may be responsible for enforcing allelic exclusion in other V(H) gene families.

133 /-) mice, exhibited impaired IgL isotype and allelic exclusion in splenic B cells.

134 To elucidate mechanisms that enforce TCRbeta allelic exclusion in such cells, we analyzed Vbeta expre

135 and exploration of new biological models for allelic exclusion in the human genome.

136 of autoreactive T-cells in NOD mice through allelic exclusion induced by transgenic expression of an

137 BCR, which are thought to be responsible for allelic exclusion, induced L chain gene rearrangement, a

138 Allelic exclusion is achieved by asynchronous initiation

139 AgR allelic exclusion is achieved by sequential initiation o

140 Allelic exclusion is achieved through asynchronous Vbeta

141 T cell receptor (TCR) allelic exclusion is believed to be primarily mediated b

142 espite the block in developmental signaling, allelic exclusion is complete.

143 ve normal peripheral B cell populations, and allelic exclusion is efficient.

144 Thus, TCRbeta allelic exclusion is enforced genetically by the low qua

145 Allelic exclusion is enforced through the ability of ant

146 In double-positive thymocytes allelic exclusion is enforced, in part, by changes in Vb

147 Allelic exclusion is established in development through

148 Allelic exclusion is inefficient at the TCRalpha locus,

149 Allelic exclusion is maintained by a different mechanism

150 We propose that TCRbeta allelic exclusion is mediated by effector pathways downs

151 istoric immunological conundrum for how Tcrb allelic exclusion is mediated.

152 In this study, we report that allelic exclusion is not regulated by competition betwee

153 Here, we describe a system in which TCRbeta allelic exclusion is overcome as a result of V(D)J recom

154 ide evidence to support the proposition that allelic exclusion is the consequence of terminating sign

155 Allelic exclusion is the process wherein lymphocytes exp

156 Ag receptor allelic exclusion is thought to occur through monoalleli

157 rearrangements on both H chain alleles, yet allelic exclusion is tightly maintained in mature 56R B

158 ntigen can induce receptor editing, in which allelic exclusion is transiently prevented or reversed t

159 differentiation is moderately disrupted, and allelic exclusion is unaffected.

160 The mechanism underlying allelic exclusion is unknown.

161 This "functional allelic exclusion" is apparently due to control of the T

162 sion of antigen receptor (AgR) genes, called allelic exclusion, is fundamental for highly specific im

163 Although the promoter is dispensable for allelic exclusion, it appears to suppress aberrant V bet

164 continue, which raises the question: how is allelic exclusion maintained, if at all, in the face of

165 The Tcrb locus is also regulated by allelic exclusion mechanisms, which restrict functional

166 with DbetaJbeta targets in DP cells revises allelic exclusion models from their current conformation

167 Thus, after the establishment of IgH allelic exclusion, monoallelic recruitment to heterochro

168 Neither allelic exclusion nor transgenic mu expression is reduce

169 ergoing rearrangement, thereby bypassing the allelic exclusion normally associated with expression of

170 T cell receptor (TCR) beta chain allelic exclusion occurs at the thymocyte CD4- 8- (doubl

171 indicate the likely functional importance of allelic exclusion of genes disrupted by chromosomal tran

172 Allelic exclusion of Ig gene expression is necessary to

173 Allelic exclusion of immune receptor genes (and molecule

174 Allelic exclusion of immunoglobulin genes ensures the ex

175 n structure appear sufficient to account for allelic exclusion of many Vbeta segments.

176 to, but not by themselves fully account for, allelic exclusion of others.

177 is also required for feedback regulation and allelic exclusion of proximal V(H)-to-DJ(H) recombinatio

178 We have previously shown that phenotypic allelic exclusion of TCR alpha-chain is functional only

179 a direct linkage between beta selection and allelic exclusion of TCR beta.

180 vival, proliferation, lineage commitment and allelic exclusion of TCR genes.

181 nd humans express two TCRs due to incomplete allelic exclusion of TCRalpha, and we hypothesized they

182 ge responses to help establish diversity and allelic exclusion of TCRbeta genes.

183 by calmodulin are dramatically defective in allelic exclusion of the IgH locus.

184 Allelic exclusion of the Igkappa locus thus occurs at th

185 Previous studies have shown that allelic exclusion of the mouse Igkappa locus occurs by t

186 Allelic exclusion of the murine Tcrb locus is imposed at

187 model in which the developmentally regulated allelic exclusion of the TCR alpha-chain is caused by co

188 d by accelerated cellular proliferation upon allelic exclusion of the unrearranged copy of that gene.

189 This provides a molecular mechanism for allelic exclusion of these genes.

190 Allelic exclusion of V(beta)-to-DJ(beta) recombination d

191 Allelic exclusion of variant surface glycoprotein (VSG)

192 ce for distinct control of the frequency and allelic exclusion of Vbeta gene rearrangement.

193 genous TCR Vbeta expression, consistent with allelic exclusion of Vbeta-encoding loci.

194 Hence, allelic exclusion of VSG genes may entail control of nuc

195 on polycistronic transcription and maintain allelic exclusion of VSG genes.

196 The monoallelic expression (allelic exclusion) of diverse lymphocyte Ag receptor gen

197 e effects of both the JJAZ1/SUZ12 fusion and allelic exclusion on functions related to cell growth, w

198 ating that an additional level of control of allelic exclusion operates during the maturation of peri

199 Allelic exclusion operates in B and T lymphocytes to ens

200 In addition, the evolution often follows an allelic exclusion pattern, where only 1 of 2 rearranged

201 These cells are not the result of failure in allelic exclusion per se, but arise through receptor edi

202 erentiation, in which it plays a key role in allelic exclusion, positive selection, receptor editing,

203 transgenic T cells produced in vivo undergo allelic exclusion, preventing co-expression of an endoge

204 The HEL transgene enforces allelic exclusion, preventing rearrangement of endogenou

205 Allelic exclusion prevents pre-B cells from generating m

206 reactive B cells can persist by compromising allelic exclusion receptor dilution.

207 a new model for the mechanisms that regulate allelic exclusion, receptor editing and tolerance.

208 pates in the monoallelic silencing aspect of allelic exclusion regulation.

209 n DSB repair versus signaling to enforce AgR allelic exclusion remain undetermined.

210 pite some progress, the precise mechanism of allelic exclusion remains an enigma.

211 hat maturation of lymphocyte progenitors and allelic exclusion require distinct signals.

212 ons regarding a role of IgHR in establishing allelic exclusion requires further exploration.

213 Allelic exclusion requires that the two alleles at antig

214 We previously described a checkpoint for allelic exclusion that occurs at the pre-B cell to immat

215 mature B cell transition strongly influences allelic exclusion, the breadth of the mature BCR reperto

216 Since the identification of Ag receptor allelic exclusion, the importance of this process and th

217 ed gene rearrangement is thought to underlie allelic exclusion, the observation that an individual B

218 resses V(D)J recombination also helps impose allelic exclusion through undetermined mechanisms.

219 e-strand break (DSB) response, helps enforce allelic exclusion through undetermined mechanisms.

220 this stage, aB T cell lineage commitment and allelic exclusion to restrict one B-chain per cell take

221 Rather, the striking breakdown in allelic exclusion took place at the pre-B to immature B

222 Allelic exclusion underpins antigenic variation and immu

223 r ordered, and its ability to be silenced by allelic exclusion was lost.

224 2 rearrangement was stimulated and V(beta)12 allelic exclusion was partially subverted.

225 Interestingly, Igalpha/Igbeta-mediated allelic exclusion was restricted to the B cell lineage a

226 gous for the E mu-deficient allele, however, allelic exclusion was severely compromised.

227 omatin control of TCR beta rearrangement and allelic exclusion, we analyzed TCR beta chromatin struct

228 e putative chromatin changes associated with allelic exclusion, we assayed for DNase I hypersensitivi

229 promote DP differentiation in the absence of allelic exclusion, we characterized the properties of Vb

230 n regulating variable gene rearrangement and allelic exclusion, we constructed mutant mice in which a

231 e effects of constitutively active STAT5b on allelic exclusion, we crossed STAT5b-CA mice (which expr

232 -beta (CD79b) is required for immunoglobulin allelic exclusion, we examined the CD79b expressed by fo

233 n vivo, as well as in B cell development and allelic exclusion, we have created transgenic mice in wh

234 en IGH@ proto-oncogene translocation and IGH allelic exclusion, we perform long-read whole-genome and

235 TCR-beta gene recombination and allelic exclusion were normal in both mutant mice, negat