ライフサイエンスコーパス: illegitimate

1 ted within appropriate boundaries to prevent illegitimate activation of non-target genes.

2 These findings suggest that illegitimate activation of origins may be prevented thro

3 ve immortalization in large part through the illegitimate activation of telomerase expression.

4 igated the effects of restriction enzymes on illegitimate and homologous DNA integration in mammalian

5 Effects of restriction enzymes on illegitimate and homologous integration were also studie

6 h diversity is generated by a combination of illegitimate and homologous recombination and mutational

7 within the palindromic repeat occur both by illegitimate and homologous, reciprocal recombination.

8 unctions as a DSB escort that guards against illegitimate and potentially tumorigenic recombination.

9 sm that allows rapid disruption of unstable (illegitimate) and stabilization of stable (legitimate) D

10 c.*22C>A mutation in the GFPT1 gene leads to illegitimate binding of microRNA resulting in reduced pr

11 rs, suggesting that they arose from multiple illegitimate break repairs at the same sites or from com

12 44 and multiple PLK1-target sites suppresses illegitimate centromeric DNA unwinding.

13 ur study underscores DNA-PKcs in suppressing illegitimate chromosome rearrangement while also contrib

14 and cooperative interactions, which restrict illegitimate complex formation and direct limiting helic

15 F, structural loops fail to form, leading to illegitimate contacts between cis-regulatory elements (C

16 d Southern blotting to detect legitimate and illegitimate CSR events in tumor samples of the activate

17 The patterns include illegitimate DNA end joining, T-DNA truncations, T-DNA r

18 are consistent with functions of LIG4 in an illegitimate DNA end-joining pathway and ensuring effici

19 Rather, we found that, whereas illegitimate DNA rearrangement did not play a major role

20 sites (cryptic loxP sites) that can promote illegitimate DNA recombination and damage when cells exp

21 -function variants, we show that suppressing illegitimate DNA recombination requires the Dmc1 filamen

22 ciated AML is characterized by site-specific illegitimate DNA recombination, we studied whether etopo

23 ate S phase through mitosis, thus preventing illegitimate DNA replication during that period of the c

24 gy and implicated nucleolytic degradation in illegitimate DSB repair in T4.

25 Together, these results suggest that illegitimate DSB repair may provide a means by which int

26 Our data are consistent with the illegitimate elongation model of repeat gain and loss an

27 terminus with the core of N (NCORE) prevents illegitimate encapsidation of cellular RNA, the interact

28 as etoposide, providing the opportunity for illegitimate end joining and translocation.

29 recircularization of linearized plasmids by illegitimate end-joining after transformation.

30 ian cells repair DNA double-strand breaks by illegitimate end-joining or by homologous recombination.

31 tion are often linked to increased, normally illegitimate enhancer-promoter contacts.

32 jority of the insertions are the products of illegitimate events in the vicinity of the target DNA, a

33 Illegitimate events often take the form of an asymmetric

34 y, the complete absence of one exon produced illegitimate events on the side of heterology.

35 r 10 to 14 days, the significant majority of illegitimate events were MLL tandem duplications, and se

36 romosomal translocation is the most frequent illegitimate gene recombination in paediatric cancer, oc

37 us seems characterized by a preponderance of illegitimate genetic rearrangements in the context of ne

38 tion of this parasite through homologous and illegitimate genomic integration has provided many of th

39 The most notable change was an increase in 'illegitimate' genomic deletions mediated by V(D)J recomb

40 here was no evidence of either legitimate or illegitimate IgH rearrangements by Southern blot assay (

41 blot assay was used to detect legitimate and illegitimate IgH switch rearrangements.

42 enzymes BamHI, BglII and EcoRI increased the illegitimate integration efficiency of transforming DNA

43 fers G418 resistance, was used to select for illegitimate integration events in CHO wild-type and xrc

44 of the gene of interest, without undesirable illegitimate integration events.

45 omosomal sequences are also suggestive of an illegitimate integration mechanism.

46 integrase function most likely required the illegitimate integration of HIV-1 into host chromosomes

47 he mechanisms of recombination governing the illegitimate integration of transfected DNA into a mamma

48 copies of viral DNA genomes in the nucleus, illegitimate integration of viral DNA into host chromoso

49 Hot spot sequences [(G/C)(A/T)T] for illegitimate integration target sites accounted for the

50 The frequency of illegitimate integration was 6- to 12-fold increased in

51 tasia mutated (ATM) kinase, which suppresses illegitimate joining of DSBs and activates cell-cycle ch

52 hways (DNA-PK-dependent and -independent) of illegitimate mammalian DNA DSB repair and two distinct r

53 rget genes either destroyed or created novel illegitimate microRNA target sites; of them, 78 SNPs exp

54 s S-phase telomeric DNA synthesis to prevent illegitimate mitotic DNA recombination and chromatin rea

55 ar how AID activity is extinguished to avoid illegitimate mutations.

56 iency in this 18q-syndrome patient arose via illegitimate (non-homologous) recombination.

57 ose are involved in aligning RNA strands for illegitimate (nonhomologous) RNA recombination during mi

58 We screened 52 thyroid cancer cell lines for illegitimate nuclear YAP localization by immunofluoresce

59 ts increases the rate of noncomplementary or illegitimate nucleotide incorporation into the palindrom

60 ges to federal and private efforts to combat illegitimate online pharmacies, and outlines strategies

61 e of the recombination pathways to eliminate illegitimate or aberrantly paired DNA joint molecules.

62 gested that it protected the chromosome from illegitimate or end-to-end fusion, thus functioning to p

63 This accelerates G1/S transition, triggering illegitimate origin firing and DNA damage.

64 oes not serve as a phenotypic filter against illegitimate pollinators-red and orange bird-pollinated

65 e primary function of p53 is in controlling "illegitimate" proliferation and tumor development and no

66 g Tcra/Myc translocations that resulted from illegitimate RAG recombination events and resembled onco

67 erted in between breakpoints, pointing to an illegitimate RAG recombination-driven activity.

68 abilized so that they cannot undergo further illegitimate rearrangements, and they also exhibit reduc

69 J recombination that protect the genome from illegitimate rearrangements.

70 This suggests that random DNA breaks attract illegitimate recombination (IR) events that compete with

71 gh unequal homologous recombination (UR) and illegitimate recombination (IR) is proposed to be the ma

72 r direct DNA delivery methods occurs through illegitimate recombination (IR).

73 The mechanism, short-patch double illegitimate recombination (SPDIR), facilitates short si

74 s for RecQ members in DNA metabolism and the illegitimate recombination and cancer-prone phenotypes a

75 le-strand breaks, is closely associated with illegitimate recombination and chromosomal rearrangement

76 nd uncontrolled, BRCA1 HRR activity promotes illegitimate recombination and genome disorder.

77 pansion in plants, while DNA removal through illegitimate recombination and intrastrand homologous re

78 tween DNA double-strand break repair (DSBR), illegitimate recombination and plasmid DNA integration.

79 ity through their unique ability to suppress illegitimate recombination and resolve recombination int

80 small insertion/deletions, thereby limiting illegitimate recombination and spontaneous mutation.

81 s of magnitude, driven by mechanisms such as illegitimate recombination and transposable element prol

82 ound evidence for important contributions of illegitimate recombination and transposable elements to

83 Duplications and deletions caused by illegitimate recombination and unequal crossing over wer

84 combinant T-DNA molecules were indicative of illegitimate recombination and were similar to left-bord

85 te that unequal homologous recombination and illegitimate recombination are primarily responsible for

86 sms of DNA replication, gene correction, and illegitimate recombination at the Ori of PCV1, and it ma

87 diated double-strand breaks in meiosis cause illegitimate recombination between 11q23 and 22q11 resul

88 The deletions can be explained by illegitimate recombination between short (4- to 15-bp) e

89 is an inversion of chromosome 10 mediated by illegitimate recombination between the RET and the H4 ge

90 es can mediate DNA recombination and promote illegitimate recombination by catalyzing the ligation of

91 DNA end joining is a type of illegitimate recombination characterized by the joining

92 is genomic instability typified by elevated illegitimate recombination events and accelerated loss o

93 Moreover, illegitimate recombination events appear to be an import

94 the tip of the putative hairpin, leading to illegitimate recombination events between similar AT-ric

95 marker system to screen for intrachromosomal illegitimate recombination events in order to assess the

96 We propose that illegitimate recombination events leading to inverted du

97 and HR, shifting the cellular milieu toward illegitimate recombination events such as iHR and CN-LOH

98 is of the relative numbers of homologous and illegitimate recombination events suggests that C. glabr

99 eplication, chimeric gene formation, and the illegitimate recombination events that lead to stoichiom

100 e find that YKU80 plays an essential role in illegitimate recombination events that result in the acc

101 de and replace genomic DNA through two joint illegitimate recombination events.

102 This motif was shown to be a target for illegitimate recombination events.

103 homologous recombination and high levels of illegitimate recombination found in the tubercle bacillu

104 Illegitimate recombination fused normally distant chromo

105 through unequal homologous recombination and illegitimate recombination have attenuated the growth of

106 ylation and their removal from the genome by illegitimate recombination have been well documented, th

107 ared boundary sequences of module junctions, illegitimate recombination in a non-sequence-directed pr

108 provides compelling evidence for the role of illegitimate recombination in horizontal genetic exchang

109 ions or other target DNA sites implicated in illegitimate recombination in mammalian cells.

110 However, large-scale evaluation of illegitimate recombination in plant genomes has not been

111 appears to be involved in the suppression of illegitimate recombination in plant mitochondria.

112 Our data strongly suggest that illegitimate recombination in plants is mediated by a DN

113 ontributions of homologous recombination and illegitimate recombination in the repair process.

114 verexpression of the topoisomerase I gene on illegitimate recombination in the yeast Saccharomyces ce

115 ence and structure-specific requirements for illegitimate recombination in tobacco.

116 hows that these activities together suppress illegitimate recombination in vivo, whereas unregulated

117 We designed substrates representing illegitimate recombination intermediates formed when a d

118 omosomal homology, the plasmid integrated by illegitimate recombination into random sites in the geno

119 edominantly reflected microhomology mediated illegitimate recombination involving short complementary

120 n events near the IS1236 elements arise from illegitimate recombination involving transposase-mediate

121 that removal of retrotransposon sequences by illegitimate recombination is also operating more slowly

122 These results suggest that illegitimate recombination is an important competing pat

123 Sequence analysis suggested that illegitimate recombination is nonrandom at the single-ge

124 Our results indicate that illegitimate recombination is the driving force behind g

125 Illegitimate recombination is the prevailing molecular m

126 onverts theobromine into caffeine through an illegitimate recombination mechanism.

127 Nested insertions and illegitimate recombination occurred extensively between

128 erted repeat correction (or conversion), and illegitimate recombination of any circular DNA molecule

129 Illegitimate recombination of fragments that encode prot

130 A model is proposed in which the illegitimate recombination of the cps island into the ga

131 he frequency of transformation due to random illegitimate recombination of transfected DNA into the g

132 operon and could have moved there either by illegitimate recombination or more plausibly via integra

133 induce a genome-wide microhomology-mediated illegitimate recombination pathway that facilitates inte

134 or two distinct and evolutionarily conserved illegitimate recombination pathways.

135 ependent events both mediated by independent illegitimate recombination processes.

136 In 12 illegitimate recombination products analysed, we found t

137 ated by its slow growth and its high rate of illegitimate recombination relative to homologous DNA ex

138 rtant implications in terms of mechanisms of illegitimate recombination that can result in chromosoma

139 years, the two chromosomes have experienced illegitimate recombination that has been temporally rest

140 these small fragments provided evidence that illegitimate recombination was most likely mediated by a

141 ogous recombination about 100-fold; however, illegitimate recombination was stimulated more than 1,00

142 equal homologous recombination compared with illegitimate recombination were highly variable between

143 ITRs in the helper plasmid were involved in illegitimate recombination with AAV ITRs, deletions of w

144 Illegitimate recombination within direct pentameric DNA

145 DNA double-strand breaks can be repaired by illegitimate recombination without extended sequence hom

146 both the frequency of homologous as well as illegitimate recombination, and that RAD18 contributes t

147 ude that hPot1 protects chromosome ends from illegitimate recombination, catastrophic chromosome inst

148 We propose that illegitimate recombination, not positive selection, has

149 ought to stimulate homologous recombination, illegitimate recombination, or both in mammalian cells.

150 quired from the host bacterial chromosome by illegitimate recombination, providing further evidence t

151 evolutionary innovations depend much more on illegitimate recombination, which makes novel genes by g

152 me gene, but too much tolerance will lead to illegitimate recombination.

153 hort homology (microhomology), a hallmark of illegitimate recombination.

154 sms that control not only transposition, but illegitimate recombination.

155 hich may have contributed to DNA breakage or illegitimate recombination.

156 ementary ends can be joined by mechanisms of illegitimate recombination.

157 ntermediates in ERCC1- cells are repaired by illegitimate recombination.

158 ir of double-strand breaks by homologous and illegitimate recombination.

159 A and ligates nonhomologous ends, leading to illegitimate recombination.

160 causing chromosome aberrations by mediating illegitimate recombination.

161 econdary structure formation, and suppresses illegitimate recombination.

162 eats, a unique signature of intrachromosomal illegitimate recombination.

163 amplicon boundaries in 19 mutants reflected illegitimate recombination.

164 duplicated blocks may have been affected by illegitimate recombination.

165 us recombination events and a single case of illegitimate recombination.

166 protect chromosome ends against fusions and illegitimate recombination.

167 letions post-polyploidization, and increased illegitimate recombination.

168 oval by unequal homologous recombination and illegitimate recombination.

169 te homologous recombination while preventing illegitimate recombination.

170 ansgene and genomic fragments recombined via illegitimate recombination.

171 DNA incorporated into the transgene loci via illegitimate recombination; 50 of the 82 delivered DNA f

172 3)] were isolated as the apparent result of "illegitimate" recombination events on intrahelical pseud

173 outcomes, and to suppress inappropriate or 'illegitimate' recombination.

174 tern generated after chromosome breakage and illegitimate rejoining.

175 Illegitimate repair events after minimal repair included

176 12 telomeric repeats is sufficient to impede illegitimate repair in a highly directional manner at ne

177 raversal and show that the likely product of illegitimate repair of damage from a single alpha-partic

178 Distinction between legitimate and illegitimate repair processes is thought to be achieved

179 ed during DHBV infection initiates cycles of illegitimate replication by generating mutants with alte

180 utants carry out a mixture of legitimate and illegitimate replication that can contribute to elevated

181 and these hepatocytes proceeded to carry out illegitimate replication.

182 inear DNA intermediates, a process we called illegitimate replication.

183 RT-PCR was used to amplify illegitimate RP1 transcripts from lymphoblasts.

184 where Rad51-double-stranded DNA may inhibit illegitimate second-end capture to ensure the error-free

185 binds the viral nucleoprotein to prevent its illegitimate self-assembly.

186 xpression in higher eukaryotes is to prevent illegitimate signal-independent activation by imposing r

187 We conclude that etoposide can induce the illegitimate site-specific action of V(D)J recombinase o

188 gnals from the metanephric mesenchyme to the illegitimate sites on the WD.

189 Illegitimate switch recombination fragments (defined as

190 uent (karyotypic 14q32 translocations and/or illegitimate switch recombination fragments are present

191 es or tumor samples analyzed further, cloned illegitimate switch recombination fragments were confirm

192 d frequent deletions within Sgamma and other illegitimate switch recombinations.

193 ) mutations, while the VDJ assay identifies "illegitimate" T-cell receptor Vgamma-Jbeta interlocus re

194 ngs complement our FLT3-ITD data, suggesting illegitimate TdT activity contributes to around one-half

195 nation of IG/TCR genes, here we propose that illegitimate TdT activity makes a significant contributi

196 e transcription polymerase chain reaction of illegitimate transcripts from peripheral white blood cel

197 d by nuclear exosome-mediated degradation of illegitimate transcripts.

198 rget sites revealed that for the majority of illegitimate transformants there was no microhomology wi

199 comprehensive legal framework to prevent the illegitimate use of toxins and infectious agents.

200 at the translocation had been mediated by an illegitimate V(D)J recombination event that disrupted th

201 L) and are generally believed to result from illegitimate V(D)J recombination events.

202 Illegitimate V(D)J recombination, class switch recombina

203 p32 involving SIL/SCL, are cited examples of illegitimate V(D)J recombination.

204 Although increased numbers of illegitimate VDJ recombination events do not directly po

205 tes only identify a minority of cancers with illegitimate YAP activation.