ライフサイエンスコーパス: developmental process

1 in order to identify key genes in a complex developmental process.

2 erent LRP cells is pivotal to mediating this developmental process.

3 nction of that protein actually influences a developmental process.

4 t MCTPs additively regulate a specific plant developmental process.

5 es in DNA methylation are part of the normal developmental process.

6 ll levels of network organization to control developmental process.

7 no significant effect was found in artichoke developmental process.

8 antable human tissue progenitors and uncover developmental processes.

9 tant to sustain TCR signals during these key developmental processes.

10 complex trait encompassing physiological and developmental processes.

11 plant hormones that promote a wide range of developmental processes.

12 l, spatial, and regulatory reconstruction of developmental processes.

13 mline evolution and the emergence of complex developmental processes.

14 criptome during embryogenesis and subsequent developmental processes.

15 r cyanobacterium as a model for the study of developmental processes.

16 ound in transcription factors regulating key developmental processes.

17 nd is consistent with biologically plausible developmental processes.

18 1 (Robo1), which is involved in a number of developmental processes.

19 of xenobiotics and during physiological and developmental processes.

20 epigenetic regulation fine-tuning pre-natal developmental processes.

21 egulation of cell growth and survival during developmental processes.

22 e strongly associated with Wnt signaling and developmental processes.

23 teins called morphogens is required for many developmental processes.

24 ain, are sufficient to mediate both of these developmental processes.

25 m critical regulatory functions that control developmental processes.

26 rtitioning is an essential component of many developmental processes.

27 nt hormone auxin triggers complex growth and developmental processes.

28 go and have adopted several modifications of developmental processes.

29 or bi-directional fate decisions in critical developmental processes.

30 iation that fuels the evolution of mammalian developmental processes.

31 rity (PCP) signaling may also occur in other developmental processes.

32 ryos in vivo provides a useful tool to study developmental processes.

33 veraged computation to explore mechanisms of developmental processes.

34 is (OA) is thought to be a recapitulation of developmental processes.

35 lant hormones involved in various growth and developmental processes.

36 ay important regulatory roles in a number of developmental processes.

37 ammals, and likely to contribute to critical developmental processes.

38 n interact to regulate many plant growth and developmental processes.

39 -catenin response pathway is central to many developmental processes.

40 an excellent model for studying more complex developmental processes.

41 of anthocyanin and PA accumulation linked to developmental processes.

42 cell adhesion, signaling, immune defense and developmental processes.

43 el roles for individual genes in fundamental developmental processes.

44 associated with historical lifestyle affects developmental processes.

45 eloping and sharing custom visualizations of developmental processes.

46 dynamics of endogenous RNAs during zebrafish developmental processes.

47 regulator that is essential for myriad plant developmental processes.

48 ylases and emerges as an important player in developmental processes.

49 a wide range of cellular, physiological, and developmental processes.

50 ling the transcriptional networks underlying developmental processes.

51 ce for further investigations of fundamental developmental processes.

52 the retromer complex is involved in specific developmental processes.

53 he cell cycle, to circadian oscillations and developmental processes.

54 lcium signaling mechanisms involved in early developmental processes.

55 s in humans and are particularly involved in developmental processes.

56 ger proteins is an important mediator during developmental processes.

57 methylation in genes involved in fundamental developmental processes.

58 ute kidney injury (AKI), often recapitulates developmental processes.

59 ranscriptional network and physiological and developmental processes.

60 and gene products mediate most cellular and developmental processes.

61 invaluable asset to biologists investigating developmental processes.

62 ing consequences by interfering with crucial developmental processes.

63 ys a poorly understood role in diverse plant developmental processes.

64 is a critical component of many cellular and developmental processes.

65 RNAs, which are known to function in diverse developmental processes.

66 underlying strawberry's unique reproductive developmental processes.

67 y of cues from somatic tissues that instruct developmental processes.

68 sponses to environmental stimuli and various developmental processes.

69 scuss how metabolism influences cellular and developmental processes.

70 providing a possible link between these two developmental processes.

71 to uncover the molecular programs that drive developmental processes.

72 in stress response, signal transduction, and developmental processes.

73 be involved in a broader array of mammalian developmental processes.

74 pathways essential for diverse cellular and developmental processes.

75 s (lncRNAs) have been implicated in numerous developmental processes.

76 lengthening of the cell cycle and subsequent developmental processes.

77 or controlling expression of genes linked to developmental processes.

78 ce healing of enthesis injuries by mimicking developmental processes.

79 ng transcription factors involved in various developmental processes.

80 tially methylated genes that are involved in developmental processes.

81 ncover dynamic, active roles for BMs in many developmental processes.

82 g pathway plays fundamental roles in diverse developmental processes.

83 ernal-to-zygotic transition (MZT) to promote developmental processing.

84 simply an unavoidable outcome of biological developmental processes?

85 Although these symbionts disrupt a range of developmental processes [8-10], the underlying cellular

86 We find that for nearly all Wingless-driven developmental processes, a three- to fourfold increase i

87 can be applied to the understanding of other developmental processes across organisms.

88 l-mesenchymal transition (EMT) in cells is a developmental process adopted during tumorigenesis that

89 hermore, we show that genes that shape early developmental processes also contribute to senescence, d

90 totic caspases also are utilized in critical developmental processes, although it is not known how ce

91 provide new perspectives for comparisons of developmental processes among molluscs.

92 cis RET signaling could function in the same developmental process and that the availability of both

93 To elucidate and characterize the developmental process and the potential health benefits

94 Ethylene is essential for many developmental processes and a key mediator of biotic and

95 Steroid hormones control important developmental processes and are linked to many diseases.

96 ine kinase HIPK2 functions as a regulator of developmental processes and as a signal integrator of a

97 mmune receptor subtypes are also involved in developmental processes and become activated in macropha

98 Here we will discuss the intricate developmental processes and cell types that are required

99 re critically important in many cellular and developmental processes and defects in their expression

100 can mislead readers about the true nature of developmental processes and delay the acceptance of vali

101 DES provides an important tool for examining developmental processes and developing mechanistic hypot

102 unctional impact that TEs exert on mammalian developmental processes and discuss how the somatic acti

103 stem cells (hiPSCs) are invaluable to study developmental processes and disease mechanisms particula

104 signaling pathway is a crucial regulator of developmental processes and disease.

105 in a complex tissue that recapitulates early developmental processes and exhibits a liver bud-like ph

106 Our results show that assessing the developmental processes and functional constraints remai

107 sults demonstrate strong conservation in the developmental processes and gene networks regulated by L

108 oteins have been shown to play roles in many developmental processes and have become paradigms for cl

109 iption factors involved in the regulation of developmental processes and hormone responses.

110 lthough FXR1P has been implicated in various developmental processes and neuropsychiatric diseases, i

111 Auxin controls a myriad of plant developmental processes and plant response to environmen

112 cycle as a result of behavioural adaptation, developmental processes and plastic responses to the env

113 in female reproductive tissues that controls developmental processes and proliferation and differenti

114 is that such signaling is intrinsic to many developmental processes and responses to the environment

115 ance of NO in cell-cell communication during developmental processes and sexual reproduction, namely

116 phology of neurons offers many insights into developmental processes and signal processing.

117 on due to their critical roles in regulating developmental processes and signaling for defenses in pl

118 Ethylene gas is essential for many developmental processes and stress responses in plants.

119 Ethylene gas is essential for developmental processes and stress responses in plants.

120 Ethylene is a major plant hormone mediating developmental processes and stress responses to stimuli

121 Polyamines are involved in key developmental processes and stress responses.

122 abscisic acid signaling to regulate diverse developmental processes and stress responses.

123 mplementary mRNA targets, thereby regulating developmental processes and stress responses.

124 g the importance of fine-grained analyses of developmental processes and the factors that influence t

125 ined is crucial to understanding both normal developmental processes and the growth of many cancers.

126 e first miRNA, the role of noncoding RNAs in developmental processes and the mechanisms behind their

127 ul 3D model system for investigating corneal developmental processes and their disruptions in disease

128 Despite the importance of these late developmental processes and their relation to neonatal r

129 he Notch pathway is integrated into numerous developmental processes and therefore is fine-tuned on m

130 g new cell types and providing insights into developmental processes and transcriptional stochasticit

131 Ds are required for normal physiological and developmental processes and when disrupted are associate

132 ssary for cell-cell interactions during late developmental processes and/or in ontogeny.

133 ion, apoptotic process, biological adhesion, developmental process, and locomotion that are critical

134 rylates a range of proteins to control broad developmental processes, and BIN2 is degraded through un

135 vidence of patient and family involvement in developmental processes, and little is known about the e

136 ing light on the relationship between genes, developmental processes, and the evolving phenotype.

137 ying the genetic underpinning of this unique developmental process answers long-standing questions ab

138 Among critical signals regulating this developmental process are bacterial Nod Factors (NFs) an

139 d in herbivory-induced defense responses and developmental process are both likely to be a result of

140 however molecular signatures triggering this developmental process are entirely unknown.

141 ed expression that orchestrates this complex developmental process are poorly understood.

142 Anomalies in this developmental process are seen in individuals with autis

143 iological differences between cell types and developmental processes are characterised by differences

144 Developmental processes are highly context-specific, but

145 Developmental processes are highly dependent on transcri

146 The target article argues that developmental processes are key to understanding the mir

147 Instead, other ecological and developmental processes are needed to adequately explain

148 ical differences, some fundamental embryonic-developmental processes are still controlled by ancient

149 biology, including the cell-fate decision in developmental processes as well as the genesis and progr

150 Auxin participates in a multitude of developmental processes, as well as responses to environ

151 model systems detailed analysis of numerous developmental processes at cellular level is severely ha

152 le of imaging neural signaling, anatomy, and developmental processes at ever-larger scales.

153 hool readiness are the product of integrated developmental processes at the biological and behavioral

154 lay a crucial role in many physiological and developmental processes at the levels of individual plan

155 known for roles in affecting prenatally late developmental processes at the synapse.

156 fication is the consequence of a coordinated developmental process based on mesenchymal-epithelial in

157 A prominent example of the developmental processes based on differential cell growt

158 in vivo are not solely due to disruption of developmental processes, because inducing OGT knock-out

159 ch as Wnt signaling, that not only regulates developmental processes but also contributes to disease

160 h factors are capable of regulating numerous developmental processes, but how they accomplish this is

161 cle, and cell fate are tightly associated in developmental processes, but in vivo studies at single-c

162 in gradients underlie essential cellular and developmental processes, but the mechanisms by which the

163 ovel mechanism by which Polycomb directs the developmental process by activating a group of lineage-s

164 We investigated this developmental process by tracing the origins of the infl

165 asmic RNA-binding protein UNR influences key developmental processes by controlling mRNA turnover and

166 ongly suggest SFPS modulates light-regulated developmental processes by controlling pre-mRNA splicing

167 se signaling; in adult plants, CPK28 confers developmental processes by the tissue-specific balance o

168 VD, MNs reverse their cellular polarity in a developmental process called respecification.

169 hepatocellular) receptor tyrosine kinases in developmental processes, cell motility, cell trafficking

170 l isomerase (PPIase) Pin1 plays key roles in developmental processes, cell proliferation, and neurona

171 Genomic imprinting is a critical developmental process characteristic of parent of origin

172 p1 haploinsufficiency may uncover pathologic developmental processes common among distinct brain diso

173 determinant Six1/2 and its co-factor Eya, a developmental process conserved across vertebrates.

174 The developmental process consisted of an initial reporting

175 To define the gene networks and developmental processes controlled by LEC1, genes regula

176 regulatory mechanisms and outline important developmental processes controlled by TAZ and YAP.

177 developmental genetic studies focused on key developmental processes could be linked within a compara

178 regulatory changes associated with conserved developmental processes during corticogenesis, providing

179 Notch is a key player in various developmental processes during the embryonic stage as we

180 nd abiotic stress responses, as well as many developmental processes, even though their repertoire is

181 Molting is a critical developmental process for crustaceans, yet the underlyin

182 al and intermediate phalangeal precursors, a developmental process for which a gene and signaling net

183 It is required for numerous developmental processes for the form and function of man

184 hereby influencing a variety of cellular and developmental processes, for example cell adhesion, migr

185 During this developmental process, Foxg1 is expressed in the optic n

186 ross eight time points throughout the sexual developmental process from pairing to maturation.

187 osphatase that plays vital roles in multiple developmental processes from Drosophila to humans.

188 1 has been implicated in numerous growth and developmental processes from seed filling and maturation

189 n, the regulatory pathways that control this developmental process have only been partially character

190 al genome-wide changes of gene regulation in developmental processes have been fairly limited.

191 ment with alterations in both early and late developmental processes hypothesized to contribute to th

192 ght into the metabolic requirements for this developmental process in Bacillus species.

193 rved during embryogenesis in animals and the developmental process in plants and fungi.

194 energy demands--for example, during certain developmental processes in animals and plants.

195 transcription factor genes that control key developmental processes in embryogenesis.

196 tion is required for a variety of growth and developmental processes in flowering plants.

197 ), responsible for cuticle tanning and other developmental processes in insects.

198 ala-vmPFC connectivity may indicate abnormal developmental processes in key emotion pathways in pedia

199 GNIFICANCE STATEMENT FGFs promote a range of developmental processes in many developing tissues and a

200 t as a receptor-ligand pair to regulate many developmental processes in mice and humans, including de

201 ar analysis that FRS7 and FRS12 affect these developmental processes in part by binding to the promot

202 ssors that mediate diverse physiological and developmental processes in plants [1, 2].

203 en shown to play important roles in distinct developmental processes in plants and animals.

204 modified CLE peptide is involved in several developmental processes in plants, including autoregulat

205 es for cell polarity in various cellular and developmental processes in plants, the broader molecular

206 pathway has been coopted to regulate diverse developmental processes in plants.

207 annabinoid system may profoundly dysregulate developmental processes in some neurotransmitter systems

208 enome-wide approach to show how ETT controls developmental processes in the Arabidopsis shoot through

209 The Snord116 gene cluster is important for developmental processes in the brain as well as the endo

210 level and locally patterns a wide variety of developmental processes in the root.

211 hing that direct in vitro conversion informs developmental processes in vivo.

212 al, limiting their utility in studying rapid developmental processes in vivo.

213 miRNAs regulate a large variety of developmental processes including development of the imm

214 mid-gestation with a failure to complete key developmental processes including neural tube closure, a

215 d epigenetic events that recapitulate normal developmental processes including stem cell self-renewal

216 Wnt signaling controls critical developmental processes including tissue/body patterning

217 understand how transcription factors trigger developmental processes, including cell specification.

218 naling pathway is a prominent player in many developmental processes, including gastrulation, anterio

219 have been shown to be essential for numerous developmental processes, including growth and developmen

220 gehog (Hh) signaling pathway governs complex developmental processes, including proliferation and pat

221 S) play a key role in the regulation of many developmental processes, including senescence, and in pl

222 ng that Dchs1b affects microtubules and some developmental processes independent of its known ligand

223 increasingly evident that several important developmental processes involve mechanical forces in an

224 iven polarization mechanism that operates in developmental processes involving rapid auxin stream red

225 This developmental process is controlled by a complex regulat

226 However, the regulation of RUNX1 during this developmental process is poorly understood.

227 of mRNAs underlying critical tissue-specific developmental processes is largely regulated at the tran

228 hough LEC and BBM proteins regulate the same developmental process, it is not known whether they func

229 Although Ap regulates various developmental processes, its function in the adult brain

230 understanding the role of DNA methylation in developmental processes, its role in crop species evolut

231 Deregulations in those developmental processes lead to medulloblastoma formatio

232 que ability of K36M mutations to alter plant developmental processes leading to severe pleiotropic ph

233 se individuals toward adiposity by affecting developmental processes, little is known about the chemi

234 ing biological regulation, cellular process, developmental process, metabolic process, localization,

235 t the mechanical behavior of enamel with the developmental process of amelogenesis and structural dev

236 Together, these results uncover the developmental process of an important perceptual skill,

237 the Notch signaling system, and the specific developmental process of Drosophila dorsal-ventral bound

238 A growing body of evidence suggests that the developmental process of epithelial-to-mesenchymal trans

239 Adult neurogenesis, a developmental process of generating functionally integra

240 Our work opens the way to study a developmental process of importance to crop improvement

241 vitro by recapitulating some aspects of the developmental process of mesenchymal condensation.

242 Cellular differentiation is part of the developmental process of multicellular organisms.

243 perm development, allowing dissection of two developmental processes of seed formation.

244 Cellular debris created by developmental processes or injury must be cleared by pha

245 diverse roles of the FT/TFL1 gene family in developmental processes other than flowering regulation.

246 ast, directional selection acts to alter the developmental process, possibly undermining the molecula

247 Knowledge of normative developmental processes provides the impetus to design a

248 n is therefore important for a wide range of developmental processes, ranging from germline stem cell

249 olecular regulators of these legume-specific developmental processes remain enigmatic.

250 of the T cell antigen receptor (TCR) in this developmental process remains controversial.

251 How this pathway regulates non-developmental processes remains largely unexplored.

252 differentiation, and migration, all of these developmental processes result in the establishment of a

253 In Arabidopsis thaliana, FIL regulates developmental processes such as axial patterning and gro

254 ne analysis indicated that genes involved in developmental processes such as cell division, cell diff

255 ity of transcriptional networks that control developmental processes such as early haematopoiesis.

256 otL2/actin filaments plays a crucial role in developmental processes such as epithelial geometrical p

257 ave homologs in angiosperms that function in developmental processes such as flowering and shoot bran

258 achinery is known to play important roles in developmental processes such as gametogenesis.

259 romoting abiotic stress tolerance as well as developmental processes such as seed dormancy.

260 al organ identity) as well as stress-related developmental processes, such as abscission, fruit ripen

261 To avoid affecting earlier developmental processes, such as axon guidance, we condi

262 l to CNS development, mediating a variety of developmental processes, such as axonal outgrowth and pa

263 ols the open chromatin landscape to regulate developmental processes, such as human epidermal differe

264 Multiple plant developmental processes, such as lateral root developmen

265 e establishment of segment identity is a key developmental process that allows for divergence along t

266 Formation of a bacterial biofilm is a developmental process that begins when a cell attaches t

267 we will benefit from knowing more about the developmental process that enables embodiment.

268 Spermatogenesis is a dynamic developmental process that includes stem cell proliferat

269 three embryonic germ layers is a fundamental developmental process that initiates differentiation.

270 t transiently silence their genome, an early developmental process that requires Nanos activity.

271 esults provide significant insights into the developmental processes that form unique inner ear cell

272 Key developmental processes that occur on the subcellular an

273 isms involving the reactivation of endocrine developmental processes that result in dramatic beta-lik

274 drift', in which interspecific divergence in developmental processes that underlie homologous charact

275 The root is an excellent model for studying developmental processes that underlie plant anatomy and

276 likely to represent an evolutionary ancient developmental process, the regulatory architecture of nb

277 ) play essential, conserved roles in diverse developmental processes through association with the miR

278 iRNAs) regulate a wide range of cellular and developmental processes through gene expression suppress

279 H7 homolog, UBC-18, plays a critical role in developmental processes through its cooperation with the

280 Collectively, our findings suggest that the developmental processes through which residential contex

281 Auxin regulates a vast array of growth and developmental processes throughout the life cycle of pla

282 Seed maturation is an important developmental process to soybean seed quality and yield.

283 The relation of this developmental process to stria vascularis function is cu

284 dence suggests that cancer mimics or co-opts developmental processes to facilitate tumor initiation a

285 Transcription factors operate in developmental processes to mediate inductive events and

286 Using developmental processes to uncover new pathways contribu

287 ng in plants, make predictions regarding the developmental processes to which wall recycling might co

288 To understand the developmental processes underlying this we need to consi

289 1) and APC/C(CCS52A2) complexes to different developmental processes was studied through analysis of

290 rticular miRNA genetic networks that control developmental process, when disrupted, can result in can

291 to haematopoietic transition (EHT) is a key developmental process where a drastic change of endothel

292 everal recent studies that shed new light on developmental processes, which are involved in establish

293 PNTs revealed their widespread role in lens developmental processes while hundreds of CNTs were foun

294 g a transcription factor regulating multiple developmental processes with a main role in oligodendroc

295 ting downstream mediators that depend on the developmental process, with a requirement in neuronal di

296 tion and microRNA expression in the neuronal developmental process, with potential implications in se

297 overrepresentation of shared associations in developmental processes/WNT signalling between the two t

298 pathways are used reiteratively in different developmental processes yet produce distinct cell fates

299 n for its roles in numerous plant growth and developmental processes, yet it has also been linked to

300 re-mRNAs is an important means of regulating developmental processes, yet the molecular mechanisms go