ライフサイエンスコーパス: genetic material

1 ch hinders the detection of small amounts of genetic material.

2 e pairs with overlapping or near-overlapping genetic material.

3 ammals relies on the accumulation of foreign genetic material.

4 hree segregated groups that did not exchange genetic material.

5 he precise spatio-temporal expression of its genetic material.

6 or capsid, that protects and surrounds their genetic material.

7 is essential for precise segregation of the genetic material.

8 ental signals without modification of native genetic material.

9 sults in conservative inheritance of the new genetic material.

10 he most significant source of new functional genetic material.

11 dispersal of allelic effects across diverse genetic material.

12 g sample recovery on femtogram quantities of genetic material.

13 ng perturbation of the genome with exogenous genetic material.

14 aithful replication and segregation of their genetic material.

15 ns) to recognize and cleave incoming foreign genetic material.

16 evolutionary advantages for using DNA as the genetic material.

17 l RNAs that guide the destruction of foreign genetic material.

18 be inhibited to ensure equal partitioning of genetic material.

19 ome such that each progeny inherits the same genetic material.

20 ar messengers carrying lipids, proteins, and genetic material.

21 on in order to ensure proper division of the genetic material.

22 coating and further replication of the viral genetic material.

23 g method based on the presence or absence of genetic material.

24 male and female components of the recovered genetic material.

25 tegrated system for lateral transfer of polB genetic material.

26 es in cytoskeletal structure to divide their genetic material.

27 ave been regarded as a major source of novel genetic material.

28 nary innovation, tinkering, and expansion of genetic material.

29 nding and removes knots and tangles from the genetic material.

30 go and became a stable part of the inherited genetic material.

31 two daughter somatic cells inherit identical genetic material.

32 ng that the two nuclear genomes may exchange genetic material.

33 cies level is difficult because VGS exchange genetic material.

34 evolution by providing a reservoir of mobile genetic material.

35 y represent large, non-recombining blocks of genetic material.

36 me, reflecting a recent massive expansion of genetic material.

37 that contain small molecules, proteins, and genetic material.

38 gation is required for proper inheritance of genetic material.

39 hts of parties in disputes involving donated genetic material.

40 tion and overcome it through the exchange of genetic material.

41 sequences, supporting horizontal transfer of genetic material.

42 ions that culminate in delivery of the viral genetic material.

43 sport processes that include the exchange of genetic material.

44 block the extraction of information from the genetic material.

45 process that requires precise duplication of genetic material.

46 oviding unprecedented control over a plant's genetic material.

47 titative biases in amplification and loss of genetic material.

48 nonically known to assist the segregation of genetic materials.

49 dard for the detection and quantification of genetic materials.

50 if conducted on widely distributed reference genetic materials.

51 tion and cross-hybridization with the host's genetic materials.

52 ential hazards of laboratory manipulation of genetic material, a decision by Stanford University and

53 nuclear versus cytoplasmic accommodation of genetic material accounts for the distinct eukaryotic an

54 rs to act primarily as a silencer of AT-rich genetic material acquired by horizontal gene transfer.

55 le, concludes with the delivery of the viral genetic material across host membranes.

56 ontal gene transfer (HGT) is the transfer of genetic material across species boundaries and has been

57 transfer (HGT) describes the transmission of genetic material across species boundaries and is an imp

58 (HGT) involves the nonsexual transmission of genetic material across species boundaries.

59 he billions of years that followed, the same genetic material also morphed into a wide spectrum of vi

60 Nearly all of the genetic material among cells within an organism is ident

61 s, which are used for exchanging protein and genetic material among cells.

62 iofilm formation and facilitates exchange of genetic material among competent strains.

63 The frequent exchange of genetic material among prokaryotes means that extracting

64 This is a baseline study that represents the genetic material and agronomic technology available for

65 ytes lack centrosomes, sperm contribute both genetic material and centriole(s) to the zygote.

66 rallel studies, we investigated both loss of genetic material and chromosomal rearrangement as possib

67 enome, and most of the released virions lack genetic material and do not produce a spreading infectio

68 This protein interacts with viral genetic material and envelope proteins while binding to

69 urvival are not dependent on the exchange of genetic material and formation of recombinant (mosaic) g

70 ugh an RNA world, in which RNA acted as both genetic material and functional molecules.

71 huffling, enables ciliates to generate novel genetic material and gene products using different combi

72 accuracy of transcription and replication of genetic material and plays a substantial role in cancer

73 step necessary for the release of the viral genetic material and replication of new virions.

74 ns are more likely to acquire both divergent genetic material and resistance determinants.

75 vation that they transfer tumor cell derived genetic material and signaling proteins, resulting in e.

76 rs due to their inherent ability to condense genetic material and successfully affect its transfectio

77 groundwater) can be prepared if the correct genetic material and techniques are employed.

78 s rely on DNA polymerases to duplicate their genetic material and to repair or bypass DNA lesions.

79 se genome stability by inactivating invasive genetic material and transposable elements.

80 functional angiogenesis without introducing genetic material and with a limited and controllable dur

81 an populations contain a small proportion of genetic material ( approximately 2%) that introgressed a

82 Acquisition and loss of genetic material are essential forces in bacterial micro

83 Following mitosis, cytoplasm, organelles and genetic material are partitioned into daughter cells thr

84 ing genotype to phenotype and protecting the genetic material, are solved elegantly in biological sys

85 rised of viral structural proteins devoid of genetic material, are tunable nanoparticles that can be

86 Thus, it is possible to consider this genetic material as a good ingredient for the production

87 usly evolving, accumulating changes in their genetic material as they infect new patients.

88 nes consistent with the presence of 50% more genetic material as well as changes in non-HSA21 genes t

89 uses unabashedly test recombination with any genetic material at hand.

90 cal progresses allow for the manipulation of genetic material at the whole genome level.

91 deletion bias (i.e., the rate of deletion of genetic material being slightly greater than the rate of

92 ce factors into eukaryotic cells, distribute genetic material between bacteria and have shown potenti

93 The exchange of genetic material between cellular organelles through int

94 pic changes by allowing a direct exchange of genetic material between coinfecting strains.

95 ring cell division, ensure equal division of genetic material between daughter cells.

96 osons supports the idea that the exchange of genetic material between hosts and parasites influences

97 may also contribute to limiting exchanges of genetic material between individuals of the same species

98 Horizontal transfer (HT), or the passage of genetic material between non-mating species, is increasi

99 whereas horizontal gene transfer (HGT) moves genetic material between or among lineages.

100 s a process that facilitates the transfer of genetic material between organisms that are not directly

101 zontal gene transfer (HGT) is the sharing of genetic material between organisms that are not in a par

102 rate crossovers, the reciprocal exchanges of genetic material between parental chromosomes.

103 and promotes genetic diversity by shuffling genetic material between parental chromosomes.

104 mbination enables the reciprocal exchange of genetic material between parental homologous chromosomes

105 global importance that frequently transfers genetic material between strains and on occasion across

106 some CoVs to readily circulate and exchange genetic material between strains found in bats and other

107 ansplants and that the subsequent sharing of genetic material between the fusion partners affects cel

108 ied to disputes regarding the disposition of genetic material between the oncofertility patient and d

109 in both domains suggest that the exchange of genetic material between them can further promote evolut

110 eceded in the evolution of life by a simpler genetic material, but it is not known if such systems ca

111 better sensitivity for minute quantities of genetic material, but the typical format of this assay d

112 ht into why TNA was ultimately not used as a genetic material by biological systems.

113 The majority of bacteriophages protect their genetic material by packaging the nucleic acid in concen

114 sults suggest that loss, as well as gain, of genetic material can account for heterogeneous virulence

115 This high-energy form of the genetic material can engender sequence-dependent structu

116 cate exclusively in the cytoplasm, and their genetic material cannot recombine with cellular DNA.

117 To ensure the accurate transmission of genetic material, chromosome segregation must occur with

118 mples were stored in tubes normally used for genetic material collection at room temperature, -20 deg

119 00-bp intergron as its core, with additional genetic material conferring additional antibiotic resist

120 The stable inheritance of genetic material depends on accurate DNA partition.

121 The faithful duplication of genetic material depends on essential DNA replication in

122 iched in genes, implying selection to remove genetic material derived from Neanderthals.

123 for chromatin untangling and packing during genetic material duplication, is defective in cancer cel

124 Failure to accurately partition genetic material during cell division causes aneuploidy

125 es that mediate the accurate distribution of genetic material during meiotic and mitotic cell divisio

126 uch vectors has relied on the co-delivery of genetic material encoding the gene-inserting transposase

127 s observed that differences in the amount of genetic material favored the detection of the most abund

128 an acyclic repeating unit, as an alternative genetic material for assembling nucleic acid nanostructu

129 organization, expression, and inheritance of genetic material for eukaryotic cells.

130 wide variety of mammalian cells and deliver genetic material for foreign gene expression.

131 with the host cell membrane and transfer of genetic material for replication.

132 that would generate to be able to sense the genetic material for the detection of future diseases.

133 ) is recently becoming an exciting source of genetic material for therapeutic purposes due to its exc

134 n provides an organism with a rich source of genetic material for tinkering by selection during evolu

135 whole genome duplication (WGD) provides raw genetic materials for sequence and expression evolution

136 Metagenomics, or sequencing of the genetic material from a complete microbial community, is

137 n this process is the bias in amplifying the genetic material from a single cell, a procedure known a

138 seed produced within the catchment includes genetic material from a wide geographic area.

139 oup from the Philippines) have all inherited genetic material from Denisovans, but mainland East Asia

140 Although DNA binding proteins shield the genetic material from diffusible reactive oxygen species

141 viruses with cellular life, or the escape of genetic material from host genomes.

142 microvesicle-mediated horizontal transfer of genetic material from host stromal cells to cancer cells

143 rica and when their descendants incorporated genetic material from Neanderthals, Denisovans and possi

144 ntal gene transfer (HGT), the acquisition of genetic material from non-parental lineages, is known to

145 During bacterial conjugation, genetic material from one cell is transferred to another

146 wly reconstructed oocytes consist of nuclear genetic material from one female and cytoplasmic compone

147 s introgression, which is the integration of genetic material from one species into the genome of an

148 to several mechanisms, including transfer of genetic material from organellar to nuclear genomes, de

149 Bacteria can exchange and acquire new genetic material from other organisms directly and via t

150 The rare capture of genetic material from other species may allow androgenet

151 North Western Europe involved the influx of genetic material from outside of West Eurasia, which we

152 Advances in detection of genetic material from species in aquatic ecosystems, inc

153 n transmission is through the acquisition of genetic material from the A/H1N1 or A/H3N2 subtypes alre

154 yotes, by definition, do not segregate their genetic material from the cytoplasm.

155 ossibly enhancing the release of the trapped genetic material from the endosome.

156 nelles involved the massive translocation of genetic material from the organellar genomes to the nucl

157 isolated from plasma and represents combined genetic material from the primary tumor and metastases.

158 by thermal fluctuations without the loss of genetic material from the protocell.

159 le-membraned envelope that separates nuclear genetic material from the rest of the cell frequently in

160 The translocation of genetic material from the viral capsid to the cell is an

161 y are more certain than offspring inheriting genetic material from their parents, but not all genes a

162 half, and identify the regions not carrying genetic material from these migrations.

163 Duplicate genes act as a source of genetic material from which new functions arise.

164 Introgression lines (ILs), in which genetic material from wild tomato species is introgresse

165 ften requires extraction and purification of genetic materials from cells, and sophisticated instrume

166 cles (MPs) containing bioactive proteins and genetic materials from their parental cells that may be

167 nucleotides are structural components of the genetic material, function as phosphate donors, particip

168 found interesting variations in the rates of genetic material gain and loss, which strongly correlate

169 Apparent horizontal transfer of genetic material has led to the existence of highly vari

170 heory deals with the dynamics of how sampled genetic material has spread through a population from a

171 In gene delivery the genetic material has to escape from the cellular compart

172 To date, the paucity of pertinent genetic materials has precluded thorough analysis of the

173 a as an adaptive immune response to invading genetic material, has been explored as a sequence-specif

174 st, as errors in the form of loss or gain of genetic material have catastrophic effects on viability.

175 For more than 50 years, those engineering genetic material have pursued increasingly challenging t

176 albumin-expressing cells also carried mouse genetic material, hence were the product of cell fusion.

177 encing of positive samples suggests that the genetic material identified in An. gambiae belongs to a

178 oth a means to accommodate a large amount of genetic material in a small space and a means to package

179 small space and a means to package the same genetic material in different chromatin states.

180 Genetic material in eukaryotes is tightly packaged in a

181 rmation from DNA to proteins, as the primary genetic material in many viruses, as catalysts (ribozyme

182 ip tangentially discusses the disposition of genetic material in regards to pediatric patients, this

183 qRT-PCR), a sensitive method to detect viral genetic material in the acute phase of the disease.

184 ieved to be a pathway for the replication of genetic material in the earliest cells.

185 the non-mosaic controlled expression of new genetic material in the injected embryo and compares fav

186 data demonstrating no detectable Ebola virus genetic material in the spent RRT effluent waste.

187 s a unique organelle that contains essential genetic materials in chromosome territories.

188 aize transformation with a large fragment of genetic material including a herbicide resistance marker

189 lp selectively silence horizontally acquired genetic material, including pathogenicity and antibiotic

190 ism for the lateral propagation of microbial genetic material, including the spread of antibiotic res

191 EVs, depending on the proteins and genetic material incorporated in them, play a significan

192 ective for every life form is to deliver its genetic material, intact and unchanged, to the next gene

193 can occur following the transfer of foreign genetic material into a genome.

194 may eventually facilitate reintroduction of genetic material into breeding populations.

195 nd bacteriophages infect by delivering their genetic material into cells, a task mediated by a DNA ch

196 ylenimine (PEI), have the ability to deliver genetic material into cells.

197 design of nanotechnologies that can deliver genetic material into cells.

198 d as the treatment of disease by transfer of genetic material into cells.

199 The faithful segregation of duplicated genetic material into daughter cells is critical to all

200 e short noncontractile tails to inject their genetic material into Gram-negative bacteria.

201 known that numerous viruses integrate their genetic material into host cell chromosomes.

202 ighly effective vehicles for the delivery of genetic material into susceptible host cells.

203 with little potential for integration of its genetic material into the host genome, the mechanisms un

204 The transfer of mitochondrial genetic material into the nuclear genomes of eukaryotes

205 orts to combine replicating compartments and genetic materials into a full protocell model have moved

206 ht to be relatively rare in animals, the raw genetic material introduced via introgression may play a

207 Complete, accurate duplication of the genetic material is a prerequisite for successful cell d

208 Damage to our genetic material is an ongoing threat to both our abilit

209 Horizontal transfer (HT) of genetic material is central to the architecture and evol

210 e formation of pores through which the viral genetic material is delivered to the cell.

211 During sexual reproduction, one-half of the genetic material is deposited in gametes, and a complete

212 ds to thousands of nanoliter wells and their genetic material is simultaneously amplified for shotgun

213 egulated nucleoprotein complex through which genetic material is structured and maneuvered to elicit

214 Horizontal gene transfer, in which genetic material is transferred from the genome of one o

215 The integrity of our genetic material is under constant attack from numerous

216 have been characterized, no self-replicating genetic material is yet available.

217 Although genetic material itself provides a natural data storage

218 Changes in the quantity of genetic material, known as somatic copy number alteratio

219 the main process by which bacteria exchange genetic material, notably antibiotic resistance genes.

220 enanthroline-acid (DCP), were produced using genetic material obtained from the spleen cells of rabbi

221 founding factors introduced by contaminating genetic materials obtained from other strains.

222 Segregation of genetic material occurs when chromosomes move to opposit

223 icrobial communities, provides access to the genetic material of a huge array of uncultivated organis

224 In vertical descent, the genetic material of a particular evolutionary unit is pr

225 In what we call introgressive descent, the genetic material of a particular evolutionary unit propa

226 Double-stranded (ds) RNA is the genetic material of a variety of viruses and has been re

227 Replication, the process by which the genetic material of a virus is copied to generate multip

228 accessory proteins, has evolved to house the genetic material of all eukaryotic cells.

229 Nucleic acids, which constitute the genetic material of all organisms, are continuously expo

230 hought to be a characteristic feature of the genetic material of an organism-notably, its DNA.

231 3'-NP-DNA has the potential to serve as the genetic material of artificial biological systems.

232 the potential to generate cross-links in the genetic material of living cells.

233 t biological entities that interact with the genetic material of most cells on the planet, including

234 oduced by introducing 'foreign' DNA into the genetic material of pre-implantation embryos.

235 re the integration of the viral DNA into the genetic material of the host cells, such as entry inhibi

236 However, accumulation of aberrant genetic materials often causes the cell cycle to go awry

237 etic abnormalities, specifically the loss of genetic material on chromosomes 1p and 16q, provide addi

238 epresent the largest reservoir of unexplored genetic material on Earth with literature estimates, ext

239 Viruses are the largest reservoir of genetic material on the planet, yet little is known abou

240 een species, serves as a key source of novel genetic material on which natural selection can act.

241 ngerous because they can lead to deletion of genetic material or chromosome translocation.

242 iomolecules in solutions but also to deliver genetic material or potentially screen for the presence

243 of reference standards - well-characterized genetic materials or synthetic spike-in controls that he

244 reveals a cosmopolitan distribution of phage genetic material (or genotypes).

245 importance of germ cells for transmission of genetic material, our understanding of the molecular pro

246 T = 21 dextro) despite the difference in the genetic material packaged and the lack of significant se

247 lar vesicles, exosomes, packed with catalase genetic material, pDNA and mRNA, active catalase, and NF

248 Self-replicating genetic material presumably provided the architecture ne

249 egregation ensures the stable inheritance of genetic material prior to cell division.

250 f the cell cycle allows for timely repair of genetic material prior to replication.

251 f various microparticle components including genetic material, proteins and lipids and how they influ

252 intercellular communication by transporting genetic material, proteins and lipids to cells in their

253 Amplification of bacterial genetic materials requires a tedious process but is asso

254 rokaryotic evolution, along with the loss of genetic material resulting in genome contraction.

255 damage is manifested as the relative loss of genetic material spreading outward from the replication

256 In addition, DDR also recognizes exogenous genetic material, such as the viral DNA genome entering

257 er, the balance between the gain and loss of genetic material suggests that S. islandicus genomes acq

258 ngly constrained by a combination of limited genetic material suitable for new functions and a restri

259 e therapies, with injected growth factors or genetic materials, target these processes in the disk an

260 hic particles containing variable amounts of genetic material that correlate with virion diameter by

261 Plastids carry their own genetic material that encodes a variable set of genes th

262 (EML4) gene and ALK lead to an inversion of genetic material that forms the non-natural gene fusion

263 esults provide compelling evidence for HT of genetic material that has transformed vertebrate genomes

264 y dependent on efficient generation of clean genetic material that is free from host DNA contaminatio

265 allowing an organized mixing and matching of genetic material that leverages lower throughput with in

266 ucleic acid (TNA) is a potential alternative genetic material that may have played a role in the earl

267 The oocyte is the sole source of the female genetic material that will be fertilized by sperm to for

268 es the silencing of extensive regions of the genetic material, thereby providing a coherent framework

269 s plasticity allows them to reorganize their genetic material through reduction division to produce s

270 rvation that holobiont genomes acquire novel genetic material through various means, including gene d

271 iruses.IMPORTANCE In order to transmit their genetic material to a new host, nonenveloped viruses mus

272 es released and acquired vesicles containing genetic material to a variable degree, and the transfer

273 For the viral genetic material to be delivered into the cytoplasm, the

274 of the mitotic spindle is important for the genetic material to be distributed evenly in dividing ce

275 e is thought to be sufficient for this extra genetic material to be eliminated by selection.

276 The delivery of genetic material to cells offers the potential to treat

277 of DNA is essential for the transmission of genetic material to cells.

278 lication, ensuring proper segregation of the genetic material to daughter cells during mitosis and me

279 Faithful transmission of genetic material to daughter cells involves a characteri

280 gous chromosomes, accompanied by exchange of genetic material to generate crossovers.

281 pulations that have not contributed maternal genetic material to modern domestic stocks.

282 mobilize in cells that will contribute their genetic material to subsequent generations.

283 data suggest that it contributed 4-6% of its genetic material to the genomes of present-day Melanesia

284 ell division, eukaryotic cells pass on their genetic material to the next generation by undergoing mi

285 cy environments and the possible exchange of genetic material to the oceans.

286 lusion, we were able to specifically deliver genetic material to the selected skeletal muscles and ov

287 y is demonstrated with patterned delivery of genetic materials to mammalian cells for phenotypic scre

288 Even in the absence of genetic material, various prion strains can be propagate

289 We conclude that rescue of PB1 genetic material via introduction into donor cytoplasm m

290 Hence, S. aureus strains frequently exchange genetic material via phage-mediated horizontal gene tran

291 fficiently deliver - sometimes via aerosol - genetic material, viral proteins, and other factors to a

292 Collection of genetic material was added one third of the way into a l

293 Genetic material was available from 318 patients.

294 A total of 61.9 Mb of genetic material was sequenced from sediments at horizon

295 DNA from Anatolian Neolithic farmers, whose genetic material we obtained by extracting from petrous

296 redicts gene rearrangements in tumor-derived genetic material, we identified and characterized a nove

297 cent cytidine analogues for the detection of genetic material, we synthesized para-substituted phenyl

298 Telomeres ensure the complete replication of genetic material while simultaneously distinguishing the

299 or fitness in the human gut, do not exchange genetic material with their environmental counterparts,

300 o determine directly the whole collection of genetic material within an environmental sample (i.e. th