ライフサイエンスコーパス: mammalian genome

1 ategic searches with small seeds (~14 nt for mammalian genomes).

2 well to many genomes of large size (such as mammalian genomes).

3 , including the largest miRNA cluster in the mammalian genome.

4 has evolved an essential function(s) in the mammalian genome.

5 been considered limiting for translating the mammalian genome.

6 higher coverage than has been reported in a mammalian genome.

7 ly suggests evolutionary conservation in the mammalian genome.

8 but also in distal regulatory regions in the mammalian genome.

9 ethylation process occurs extensively in the mammalian genome.

10 sex chromosomes impacts the evolution of the mammalian genome.

11 deoxyribonucleic acid (DNA) damage from the mammalian genome.

12 s), comprising a substantial fraction of the mammalian genome.

13 regulation of transcriptional networks in a mammalian genome.

14 ing the function of all genes encoded by the mammalian genome.

15 otransposons compose a staggering 40% of the mammalian genome.

16 s (PRCs) to spread over broad regions of the mammalian genome.

17 Transposable elements make up half of the mammalian genome.

18 coding DNA occurs pervasively throughout the mammalian genome.

19 ranscriptionally silent genes throughout the mammalian genome.

20 ation is the most common modification in the mammalian genome.

21 s (ERVs), constitute a large fraction of the mammalian genome.

22 ability, but current methods do not scale to mammalian genomes.

23 rt their workflows, which is intractable for mammalian genomes.

24 ion ( approximately 20%) of total lncRNAs in mammalian genomes.

25 inducible enhancers independently in diverse mammalian genomes.

26 osine is the only form of DNA methylation in mammalian genomes.

27 locations where DNA replication initiates in mammalian genomes.

28 s the ability to engineer precise changes in mammalian genomes.

29 gnancy and reproduction from 23 high-quality mammalian genomes.

30 revalent, collectively occupying up to 5% of mammalian genomes.

31 identifying functional noncoding elements in mammalian genomes.

32 re rare in yeasts but highly likely in large mammalian genomes.

33 of 9900 proteins conserved in all sequenced mammalian genomes.

34 t of the epigenetic regulation repertoire in mammalian genomes.

35 cating the application of such approaches to mammalian genomes.

36 l to maintain homeostatic gene expression in mammalian genomes.

37 or insert transgenes at precise locations in mammalian genomes.

38 gBGC) has a major impact on the evolution of mammalian genomes.

39 ransposable elements comprise roughly 40% of mammalian genomes.

40 ution of enhancers is a universal feature of mammalian genomes.

41 i-C to create kilobase-resolution 3D maps of mammalian genomes.

42 n and higher-order chromatin organization of mammalian genomes.

43 l fraction of endogenous Dicer substrates in mammalian genomes.

44 LINE retrotransposons actively shape mammalian genomes.

45 eramide synthase, both beta-transferases, in mammalian genomes.

46 ded to minimize off-target cleavage in large mammalian genomes.

47 grading enzymes, which are largely absent in mammalian genomes.

48 ed, largely due to its low abundance in most mammalian genomes.

49 transposable elements (TEs) are abundant in mammalian genomes.

50 frequent CHR-based regulation is utilized in mammalian genomes.

51 tionships with multiple other SR proteins in mammalian genomes.

52 e analysis of all CpG island sequences in 10 mammalian genomes.

53 in a PWM, based on a multiple alignment of 5 mammalian genomes.

54 gene expression and are abundant throughout mammalian genomes.

55 of TLS and HDR across defined DNA lesions in mammalian genomes.

56 egulation of the transcriptional products of mammalian genomes.

57 lexity from simple microbial species through mammalian genomes.

58 to correctly reconstruct the phylogeny of 10 mammalian genomes.

59 plified gene families in the mouse and other mammalian genomes.

60 the extent of structural divergence between mammalian genomes.

61 y distributed, autonomous retrotransposon in mammalian genomes.

62 to their suitability for analysis of hmC in mammalian genomes.

63 ological domains are an inherent property of mammalian genomes.

64 gene regulatory regions in large and complex mammalian genomes.

65 lomeric, promoter and transcribed regions of mammalian genomes.

66 c finger proteins (KRAB-ZFPs) are encoded in mammalian genomes.

67 s, each of which has a conserved ortholog in mammalian genomes.

68 e primary driver of non-random gene order in mammalian genomes.

69 ements, constitute a substantial fraction of mammalian genomes.

70 s of ten or more genes are extremely rare in mammalian genomes.

71 aspect of the evolution of functional DNA in mammalian genomes.

72 city for guanine, a highly prevalent base in mammalian genomes.

73 d the structural and functional units of the mammalian genomes.

74 ve enabled the creation of highly contiguous mammalian genomes.

75 for understanding complex events that shape mammalian genomes.

76 peats (MIRs) are retrotransposed elements of mammalian genomes.

77 nd member of the MIF cytokine superfamily in mammalian genomes.

78 ighborhoods represent functional regulons in mammalian genomes.

79 omous non-LTR retroelement that is active in mammalian genomes.

80 RNA) elements ubiquitously spread throughout mammalian genomes.

81 mostly unmethylated within highly methylated mammalian genomes.

82 ion in the Csf1r locus in reptile, avian and mammalian genomes.

83 portant factors influencing the evolution of mammalian genomes.

84 approaches, with a focus on the analysis of mammalian genomes.

85 cles describing different approaches to edit mammalian genomes; 330 articles describing CRISPR-Cas9-m

86 nce in Man, the Functional Annotation of the Mammalian genome 5, the Genotype-Tissue Expression and t

87 mC) as a prominent DNA modification found in mammalian genomes, an emergent question has been what ro

88 constituting at least 10% of the orthologous mammalian genome and encompassing many hundreds of human

89 the annotation of functional elements in the mammalian genome and for the study of mechanisms regulat

90 n surveying the Functional Annotation of the Mammalian Genome and Gene Expression Omnibus Profiles da

91 insights into DSB resection and repair in a mammalian genome and offers a tantalizing glimpse of how

92 veals a new example of the complexity of the mammalian genome and provides novel insights into the fu

93 s as one of the major states for 5hmC in the mammalian genome and suggest that they could function in

94 EARCH-D algorithm for identifying D genes in mammalian genomes and applied it to the recently complet

95 cRNAs) are derived from thousands of loci in mammalian genomes and are frequently enriched in transpo

96 -derived sequence dominates the landscape of mammalian genomes and can modulate gene function by dysr

97 dogenous retroviruses (ERVs) are abundant in mammalian genomes and contain sequences modulating trans

98 DSBs rapidly at defined endogenous sites in mammalian genomes and enables direct assessment of repai

99 the large amount of repetitive sequences in mammalian genomes and have been linked to species-specif

100 n between promoters and enhancers in complex mammalian genomes and indicate that studying the evoluti

101 Structural variation is widespread in mammalian genomes and is an important cause of disease,

102 s) are transcribed from thousands of loci in mammalian genomes and might play widespread roles in gen

103 how the bacterial Cas9 protein interrogates mammalian genomes and navigates eukaryotic chromatin str

104 he two major DNA epigenetic modifications in mammalian genomes and play crucial roles in development

105 osable elements (TEs) compose nearly half of mammalian genomes and provide building blocks for cis-re

106 e define the group of CHR-regulated genes in mammalian genomes and provide evidence that the CHR is t

107 ed, hotspots occurs at thousands of genes in mammalian genomes and represents an important and dynami

108 transposons are still actively shaping some mammalian genomes and reveals an unprecedented opportuni

109 Transposable elements (TEs) make up half of mammalian genomes and shape genome regulation by harbori

110 oding RNAs (ncRNAs) has expanded our view on mammalian genomes and transcriptomes, as well as their o

111 in viruses, are being identified within the mammalian genome, and that these may provide new insight

112 has not been rigorously measured across the mammalian genome, and until now little has been known ab

113 C17orf99 is only present in mammalian genomes, and it encodes a small ( approximatel

114 eage, a double loss seen in none of 56 other mammalian genomes, and suggests a hitherto unappreciated

115 onstitute the majority of transcripts in the mammalian genomes, and yet, their functions remain large

116 Recently, it was shown that enhancers in the mammalian genome are associated with characteristic hist

117 Our capacities to understand and manipulate mammalian genomes are accelerating at an astounding pace

118 Although mammalian genomes are diploid, previous studies extensiv

119 ites and show that several mammalian and non-mammalian genomes are enriched for strong microRNA tripl

120 Mammalian genomes are extensively transcribed outside th

121 Mammalian genomes are extensively transcribed, which pro

122 Mammalian genomes are folded into a hierarchy of compart

123 Mammalian genomes are folded into tens of thousands of l

124 Mammalian genomes are folded into topologically associat

125 Mammalian genomes are folded into unique topological str

126 est scoring and the largest neighborhoods in mammalian genomes are formed by tandem gene duplication.

127 ate catalogs of structural variants (SVs) in mammalian genomes are necessary to elucidate the potenti

128 Mammalian genomes are organized into megabase-scale topo

129 Mammalian genomes are partitioned into domains that repl

130 omosome conformation capture have shown that mammalian genomes are partitioned into topologically ass

131 Mammalian genomes are pervasively transcribed to produce

132 Mammalian genomes are pervasively transcribed, yielding

133 Mammalian genomes are populated with thousands of transc

134 Mammalian genomes are replete with interspersed repeats

135 Mammalian genomes are replete with retrotransposable ele

136 Mammalian genomes are spatially organized into compartme

137 Large parts of mammalian genomes are transcriptionally inactive and enr

138 re theory." Instead, our findings depict the mammalian genome as a tapestry of mostly short homogeneo

139 Here we monitored translation of the mammalian genome as cells become specified and organize

140 s a path forward for the routine assembly of mammalian genomes at a level approaching that of the cur

141 ation is not encountered when reconstructing mammalian genomes at the synteny-block level, although t

142 d and maintained, how the 3D architecture of mammalian genomes both facilitates and constrains enhanc

143 firms widespread distribution of 5hmC in the mammalian genome but also reveals sequence bias and stra

144 ci of genetic and epigenetic lability in the mammalian genome but argue against a direct role for spe

145 (TFs) bind to thousands of DNA sequences in mammalian genomes, but most of these binding events appe

146 oding RNAs (lincRNAs) are generated from the mammalian genome by RNA polymerase II (Pol II) transcrip

147 bly the most abundant base lesion induced in mammalian genomes by reactive oxygen species, is repaire

148 Adjacent CpG sites in mammalian genomes can be co-methylated owing to the proc

149 Remodeling DNA methylation in mammalian genomes can be global, as seen in preimplantat

150 In the mammalian genome, certain genomic loci/regions pose grea

151 All hitherto analyzed mammalian genomes code for two mARC genes (also referred

152 Only a small fraction of the mammalian genome codes for messenger RNAs destined to be

153 th iteration of the Functional Annotation of Mammalian Genomes collaborative project, FANTOM5, we gat

154 protein (HMGCLL1) has been annotated in the Mammalian Genome Collection as a previously unidentified

155 Approximately half of the mammalian genome consists of repetitive elements, includ

156 However, because of their complexity mammalian genomes contain millions of randomly occurring

157 Mammalian genomes contain thousands of loci that transcr

158 Most mammalian genomes contain two copies of miR-1, and in mi

159 Mammalian genomes contain two Sec23 paralogs, Sec23A and

160 The mammalian genome contains hundreds of p53-binding sites.

161 The mammalian genome contains on the order of a million enha

162 Finally, while the mammalian genome contains two orthologous Gcm genes, the

163 al mutagens that substantially contribute to mammalian genome content.

164 In the mammalian genome, cytosines (C) were long known to exist

165 r the former enzyme, GTK/KAT I, is listed in mammalian genome data banks as CCBL1 (cysteine conjugate

166 ltaneous editing of several sites within the mammalian genome, demonstrating easy programmability and

167 suggest that, though relatively rare in the mammalian genome, divergence in higher order chromatin s

168 In the mammalian genome, DNA methylation is an epigenetic mecha

169 Within the vertebrates, the mammalian genomes do not contain the second dCK, while b

170 Retrotransposons are highly prevalent in mammalian genomes due to their ability to amplify in plu

171 lation (APA) generate diverse transcripts in mammalian genomes during development and differentiation

172 B (DNMT3B) is the major DNMT that methylates mammalian genomes during early development.

173 ruses has been "horizontally transferred" to mammalian genomes during evolution, but the impact of th

174 marize CRISPR-based technologies that enable mammalian genome editing and their various applications.

175 (Pyl)CUA pair (and its derivatives) into the mammalian genome enables efficient, homogeneous incorpor

176 Mammalian genomes encode 2 DUOX isoenzymes (DUOX1/DUOXA1

177 Mammalian genomes encode 20 canonical RGS and 16 Galpha

178 Mammalian genomes encode 4 PCBPs, including the minimall

179 Vast parts of mammalian genomes encode for transcripts that are not fu

180 Mammalian genomes encode four complexins that are compos

181 Mammalian genomes encode genetic information in their li

182 Intriguingly, mammalian genomes encode many poorly characterized SR-li

183 Mammalian genomes encode multiple homologs of the Polyco

184 Mammalian genomes encode numerous cis-natural antisense

185 Mammalian genomes encode seven catalytic proteasome subu

186 relatively recently has it become clear that mammalian genomes encode tens of thousands of long non-c

187 Mammalian genomes encode tens of thousands of noncoding

188 More recently, it has become clear that mammalian genomes encode thousands more lncRNAs.

189 Mammalian genomes encode two provitamin A-converting enz

190 The mammalian genome encodes multiple Wnt proteins and recep

191 The mammalian genome encodes two A-type cyclins, which are c

192 To facilitate mammalian genome engineering applications, we provide a

193 and its subsequent adaptation as a tool for mammalian genome engineering has opened up new avenues f

194 93 cells and represents a promising tool for mammalian genome engineering.

195 genomic locations is a significant driver of mammalian genome evolution, but these mutagenic events c

196 Mammalian genomes exhibit complex patterns of gene expre

197 ifth edition of the Functional Annotation of Mammalian Genome (FANTOM5) project, we created an integr

198 d data from the Functional Annotation of the Mammalian Genome (FANTOM5) project.

199 chanism and function of DNA demethylation in mammalian genomes, focusing particularly on how developm

200 nsidered to be functionally important in the mammalian genome for transcriptional regulation, DNA rep

201 are enabling the systematic interrogation of mammalian genome function.

202 All annotated mammalian genomes harbor two MARC genes, MARC1 and MARC2

203 The mammalian genome harbors up to one million regulatory el

204 The mammalian genome has hundreds of nuclear-encoded tRNAs,

205 A mammalian genome has more than 50 clustered protocadheri

206 eletions, insertions and replacements in the mammalian genome has revolutionized the field of genome

207 The vast majority of the mammalian genome has the potential to express noncoding

208 While the number of annotated lncRNAs in mammalian genomes has greatly expanded, studying lncRNA

209 Although more than thirty mammalian genomes have been sequenced to draft quality,

210 However, plant and mammalian genomes have evolved to contain repetitive ele

211 Lastly, inspection of many mammalian genomes identified conservation of the NEIL3 P

212 e chromosome damage at specific sites of the mammalian genome in living cells.

213 Mammalian genomes include a considerable number of endog

214 4000 host genes that harbour an iCGI in the mammalian genome, including both previously annotated an

215 The organisation of mammalian genomes into loops and topologically associati

216 Folding of mammalian genomes into spatial domains is critical for g

217 nd cohesin play critical roles in organizing mammalian genomes into topologically associating domains

218 DSB repair in complex mammalian genomes involves a fast phase (2-6 h) in which

219 Because a large portion of the mammalian genome is associated with the nuclear lamina (

220 Almost half of the mammalian genome is composed of endogenous retroviruses

221 The typical mammalian genome is dominated by two types of transposab

222 The mammalian genome is extensively transcribed, a large fra

223 The mammalian genome is extensively transcribed, giving rise

224 t, suggesting that a large proportion of the mammalian genome is functional.

225 The 3D organization of the mammalian genome is intimately linked to its function an

226 More than 98% of the mammalian genome is noncoding, and interspersed transpos

227 ecent studies show that transcription of the mammalian genome is not only pervasive but also enormous

228 A large fraction of the mammalian genome is organized into inactive chromosomal

229 Transcription of the mammalian genome is pervasive, but productive transcript

230 replisome) at telomeres or elsewhere in the mammalian genome is poorly understood.

231 The number of imprinted genes in the mammalian genome is predicted to be small, yet we show h

232 The mammalian genome is punctuated by CpG islands (CGIs), wh

233 , and claims that almost the entirety of the mammalian genome is transcribed into functional noncodin

234 Much of the mammalian genome is transcribed, generating long non-cod

235 Targeted gene addition to mammalian genomes is central to biotechnology, basic res

236 mount of regulatory information contained in mammalian genomes is organized in precise 3D chromatin s

237 he functional role of repetitive elements in mammalian genomes is still largely unexplored.

238 ymethylcytosine (hmC), the sixth base of the mammalian genome, is increasingly recognized as an epige

239 ished role of L1 retrotransposons in shaping mammalian genomes, it becomes an important task to track

240 The avian genomes lack TLR9, whereas mammalian genomes lack TLR21.

241 RNAs (lincRNAs) have been identified in the mammalian genome, many of which have important roles in

242 Reprogramming of mammalian genome methylation is critically important but

243 t PRMT5-mediated H4R3me2s uniquely marks the mammalian genome, mostly at G + C-rich regions, and inde

244 collagen (I) gene transcripts from available mammalian genomes or mass spectrometrically derived sequ

245 stering of co-regulated genes, a function of mammalian genome organisation.

246 undamental insights into the rules governing mammalian genome organization.

247 t cohesin-dependent loop extrusion organizes mammalian genomes over multiple scales from the one-cell

248 In mammalian genomes, particularly brain, the CpG and CpA d

249 illion rNMPs transiently incorporated in the mammalian genome per cell cycle.

250 ecades the compositional organization of the mammalian genome posed a formidable challenge to molecul

251 rong heterogeneity of SCU induced by gBGC in mammalian genomes precludes any optimization of the tRNA

252 he recent discovery that the human and other mammalian genomes produce thousands of long non-coding R

253 (5hmC) is a recently discovered base in the mammalian genome, produced upon oxidation of 5-methylcyt

254 With the progress of mammalian genome projects, information on the MIC, ULBP,

255 s, in combination with the wealth of TSSs in mammalian genomes, provide a framework with which evolut

256 thousands of replication origins throughout mammalian genomes, providing an unprecedented opportunit

257 anscription at multiple enhancers within the mammalian genome raises critical questions regarding whe

258 d by, genetic drift or positive selection in mammalian genomes remain poorly defined.

259 e robust detection of structural variants in mammalian genomes remains a challenge.

260 cation of functional regulatory sequences in mammalian genomes remains a major challenge.

261 Methylation of cytosines in the mammalian genome represents a key epigenetic modificatio

262 Duplication of mammalian genomes requires replisomes to overcome numero

263 Replication of mammalian genomes starts at sites termed replication ori

264 Modified DNA bases in mammalian genomes, such as 5-methylcytosine ((5m)C) and

265 discovery of N(6)-methyladenine (N(6)-mA) in mammalian genomes suggests that it may serve as an epige

266 Our findings establish RNase H2 as a key mammalian genome surveillance enzyme required for ribonu

267 -dC (cadC) are newly discovered bases in the mammalian genome that are supposed to be substrates for

268 lly important epigenetic modification of the mammalian genome that has widespread influences on gene

269 ped for isolation of a desirable region from mammalian genomes that are enriched in autonomously repl

270 priority genomes, especially human and other mammalian genomes that are rich in noncoding sequences.

271 ytosine (5fC) is an epigenetic nucleobase of mammalian genomes that occurs as intermediate of active

272 we identify endogenous retroviral fossils in mammalian genomes that share a unique recombinant struct

273 In the mammalian genome, the clustered protocadherin (cPCDH) lo

274 sociated long non-coding RNAs encoded by the mammalian genome, the Uph-Hand2 regulatory partnership o

275 Although the HNMT-like gene is absent in mammalian genomes, the activity of carnosine N-methyltra

276 In mammalian genomes, the central E-box CpG has the potenti

277 Unlike the two ligands encoded by mammalian genomes, the zebrafish genome contains three g

278 Although thousands of NATs are encoded by mammalian genomes, their functions in innate immunity ar

279 is revealed cryptic nonamers in RSSs of many mammalian genomes, thus demonstrating that the V(DD)J re

280 essential to remove ribonucleotides from the mammalian genome to prevent DNA damage.

281 ccessively oxidize 5-methylcytosine (5mC) in mammalian genomes to 5-hydroxymethylcytosine (5hmC), 5-f

282 Mammalian genomes typically contain hundreds of thousand

283 Mammalian genomes undergo epigenetic modifications, incl

284 some association are highly conserved across mammalian genomes, underscoring their possible biologica

285 Here we calculate 3D structures of entire mammalian genomes using data from a new chromosome confo

286 ecificity of long-range chromatin looping in mammalian genomes, using protocadherin (Pcdh) and beta-g

287 in replicating single-stranded templates in mammalian genomes, warranting prereplicative repair of t

288 -length Golem, found as a few copies in many mammalian genomes, was found abundantly in horse.

289 omparison to the eight mglurs present in the mammalian genome, we identified 13 different mglur genes

290 and enable editing of repetitive elements of mammalian genomes, we made use of a set of dead-Cas9 bas

291 testing a human model on the nine different mammalian genomes, we provide the first evidence that k-

292 nce conservation have been appreciated since mammalian genomes were first sequenced, but the function

293 hat GeoCas9 is an effective tool for editing mammalian genomes when delivered as a ribonucleoprotein

294 among bacteria and phage and is detected in mammalian genomes, where its function is largely unexplo

295 st genes are single copy and syntenic across mammalian genomes, whereas most genes are multicopy and/

296 strategy to detect complete loss of CNEs in mammalian genomes while strictly controlling for artifac

297 roteins that compose approximately 4% of the mammalian genome whose members share a common membrane t

298 een limited to fungal systems due to lack of mammalian genome-wide deletion collections.

299 reby establishing the feasibility of in vivo mammalian genome-wide investigations to dissect tissue d

300 e in suppressing retrotransposon activity in mammalian genomes, yet there are stages of mammalian dev