ライフサイエンスコーパス: developmental stage

1 n biological function, tissue, cell type, or developmental stage.

2 activated in a single tissue and a specific developmental stage.

3 that anthers reach the pistil at the correct developmental stage.

4 al per se but reflect a return to an earlier developmental stage.

5 tolerance versus sensitivity at the seedling developmental stage.

6 onset of these phenotypes occurs at an early developmental stage.

7 nal dynamics, sometimes even within the same developmental stage.

8 he initial social behaviour during postnatal developmental stage.

9 tabolite accumulation was closely related to developmental stage.

10 onset of transcription associated with this developmental stage.

11 signatures, we identified enhancers for each developmental stage.

12 the percentage of parasites in a particular developmental stage.

13 spond to distinct anatomical regions in each developmental stage.

14 icate that arsenic toxicity differs by fetal developmental stage.

15 r of axon growth competence, irrespective of developmental stage.

16 affected according to the vintage and berry developmental stage.

17 of NDCs change dramatically as a function of developmental stage.

18 fluenced by homoeologous 35S rDNA ratios and developmental stage.

19 Adolescence is a critical developmental stage.

20 transcriptional factors associated with each developmental stage.

21 d by additional factors expressed at a given developmental stage.

22 ory-driven behaviors differ according to the developmental stage.

23 ts, and finally in vein tissues at late leaf developmental stages.

24 abundant transcript during plant growth and developmental stages.

25 transcriptional re-activation at subsequent developmental stages.

26 rker associated with the earliest neutrophil developmental stages.

27 e to visual cortical plasticity at different developmental stages.

28 atures in various complex diseases and their developmental stages.

29 ed in the volume and morphology at different developmental stages.

30 latory regions for many mouse cell types and developmental stages.

31 asp isoforms which lack LIM domains at later developmental stages.

32 ng different lineages and possibly different developmental stages.

33 rm cells were gradually repopulated at later developmental stages.

34 33 cells (E3.25-HNCs), corresponding to two developmental stages.

35 xamine their biological functions at defined developmental stages.

36 tor genes with transient function at earlier developmental stages.

37 he fasciculated microtubules appear at later developmental stages.

38 they were expressed in different tissues and developmental stages.

39 es of Brachypodium whole-root system at four developmental stages.

40 etabolites and the metabolic shifting across developmental stages.

41 at the calyx of Held at immature and mature developmental stages.

42 expression analysis was performed across the developmental stages.

43 l and differentiation of B cells at distinct developmental stages.

44 zed their expression patterns during various developmental stages.

45 and two Micrandra spp., as well as two host developmental stages.

46 lation in live zebrafish embryos at distinct developmental stages.

47 portant for normal plant growth in the later developmental stages.

48 ial functions in all of the major life cycle developmental stages.

49 ong with primary myogenic cells from several developmental stages.

50 all stiffness but may intervene at different developmental stages.

51 conditions, such as disease status or tissue developmental stages.

52 g generation of architecture resembling late developmental stages.

53 atula TERPENE SYNTHASE 10 [MtTPS10]) in both developmental stages.

54 ation and survival of mDANs during embryonic developmental stages.

55 transcriptomic profiles of cells at various developmental stages.

56 -80 contribute to brain development at early developmental stages.

57 ect analysis of potential roles during later developmental stages.

58 57 rice anther tissue microarrays across all developmental stages.

59 compartments A/B are highly similar at both developmental stages.

60 atlas covering a broad sample of organs and developmental stages.

61 expression in its major organs at different developmental stages.

62 he gastrointestinal tract, especially during developmental stages.

63 to postnatal week 8 (W8), encompassing major developmental stages.

64 nt in non-heterochromatic regions across all developmental stages.

65 ssue were observed in organoids at different developmental stages.

66 f different tissues or organs from different developmental stages.

67 A and post-translational regulation to these developmental stages.

68 ical processes, cell types, brain areas, and developmental stages.

69 al expression patterns of these genes at key developmental stages.

70 comparing immune cell differentiation across developmental stages.

71 led four subtypes at sequential and stepwise developmental stages.

72 an inherent ability to sense drought at both developmental stages.

73 hysiological properties of ACPs at different developmental stages.

74 , and pre- and mature metacyclic trypanosome developmental stages.

75 s across various cell types, cell cycle, and developmental stages.

76 ng murine cortical cell migration at earlier developmental stages.

77 k, but inhibits synaptic plasticity at later developmental stages.

78 nd Fn1 play essential roles at each of these developmental stages.

79 is highly expressed in the neocortex during developmental stages.

80 y, biomass production, and C/N ratios during developmental stages.

81 level of fidelity and encompasses a range of developmental stages [1].

82 ssion patterns identified correspondences of developmental stages across species, and differences in

83 At later developmental stages, adaptive T lymphocytes are derived

84 Despite their distinct developmental stage, all CD21(low) B cells share a commo

85 ly expressed in a specified structure and/or developmental stage; an enhanced anatomy browser that no

86 Synaptic diversity may be dependent on developmental stage, anatomical locus and the neural cir

87 ling synaptic diversity that is dependent on developmental stage, anatomical region and whether assoc

88 e immune response, we discuss in broad terms developmental stage and context-dependent functions of l

89 ollow a linear path but changes dependent on developmental stage and coreceptors involved.

90 o better understand the relationship between developmental stage and epigenetic age, we utilized the

91 s related to water and nutrient use, whereas developmental stage and taxonomic identity impact morpho

92 process that depends on the cell's fate and developmental stage and that is adjusted for optimal cel

93 that interrupts the tight connection between developmental stage and time, is still poorly understood

94 ) increasing time spent in susceptible early developmental stages and (2) suppressing tadpole immunit

95 neighboring neurons, behavioral states, and developmental stages and altered in many neurological di

96 However, the exact developmental stages and associated molecular networks t

97 pression levels of POLR3G and POLR3GL across developmental stages and between tissues and insufficien

98 ss arises from inner cells during subsequent developmental stages and comprises precursor cells of th

99 c changes in chromatin accessibility between developmental stages and could thereby represent putativ

100 ithine skeletal remains preserved in varying developmental stages and degrees of completeness.

101 ning gel, which is generated during multiple developmental stages and derived from both the accessory

102 VS-535 zygotic embryos collected at distinct developmental stages and displaying contrasting in vitro

103 ell wall sugar characterization at different developmental stages and during postharvest storage.

104 mportance of measuring traits at appropriate developmental stages and environmental conditions when p

105 nents are remarkably similar across species, developmental stages and experimental conditions, sugges

106 ression changes mark the transitions between developmental stages and hub genes in co-expression modu

107 overlapping expression pattern during later developmental stages and in adulthood.

108 ene expression levels, including at specific developmental stages and in specific tissues.

109 DPW3 is ubiquitously expressed in anther developmental stages and its protein is localized to the

110 from a diverse set of cell types in various developmental stages and lineages can provide crucial bi

111 y(A) tail length genome-wide throughout many developmental stages and organisms.

112 However, the role of auxin during the late developmental stages and outgrowth of compound leaves re

113 derpinning flexible behavior differed across developmental stages and reduced flexible behavior in AS

114 results suggest that TADs are dynamic across developmental stages and reflect the interplay between i

115 ted retinal ganglion cells (RGCs) at various developmental stages and RGCs differentiated in vitro fr

116 incorporate data from different approaches, developmental stages and species.

117 ypes populating the embryonic heart at three developmental stages and that maps cell-type-specific ge

118 ps show that TF occupancy is dynamic between developmental stages and that multiple TFs often collabo

119 the most stable reference gene for different developmental stages and tissues.

120 AeHO - AAEL008136) is expressed in different developmental stages and tissues.

121 ct of regulated deficit irrigation, cluster, developmental stages and two seasons (autumn 2015 and sp

122 Hb and IPN neurons require Otx2 at different developmental stages and, in both cases, Otx2 deletion l

123 Specifically, we evaluate how environment, developmental stage, and taxonomy contribute to single-t

124 We find that environment, developmental stage, and taxonomy differentially contrib

125 thiol distribution in leaves from different developmental stages, and between aerial parts and roots

126 uffalobur in different tissues, at different developmental stages, and in response to several stress

127 udinal designs, and careful consideration of developmental stages, and sex and gender, will facilitat

128 heir expression patterns in various tissues, developmental stages, and stress conditions.

129 ia across different anatomical compartments, developmental stages, and types of brain pathology in mi

130 e of P. orientalis female cones at different developmental stages, and will promote the illumination

131 binase exclusively in ameloblasts and showed developmental stage- and cell-specific beta-galactosidas

132 for tissue growth are usually present during developmental stages, angiogenesis, wound healing and ot

133 n and total gene expression as a function of developmental stage are predicted to determine the role

134 We find that all major tissues and developmental stages are represented in this single-cell

135 metal-based drug candidates in clinical and developmental stages are stoichiometric agents, i.e., ea

136 , while it becomes more symmetric at a later developmental stage as reported previously.

137 l gate to block precocious entry to the next developmental stage as well as a temporal trigger to pro

138 s neurogenesis in the left habenula at early developmental stages as well as neurotransmitter phenoty

139 bserve distinct nuclear dynamics at discrete developmental stages, as epithelial morphology changes.

140 We studied the effect of dose, and the developmental stage at the beginning of Se-fortification

141 ion of Cdx2 induces AML in mice, however the developmental stage at which CDX2 exerts its effect is u

142 derived from sexed-sperm were found to reach developmental stages at similar timings as conventional

143 gual sides of the cervical loop during early developmental stages, both at the gross and ultrastructu

144 ivars were not differentiated at the earlier developmental stages but could be differentiated post-ve

145 s are conserved across different species and developmental stages but display dynamic local or global

146 ds were observed to be functional from early developmental stages, but exhibited an impaired ability

147 ptionally inhibits let-7 biogenesis at early developmental stages, but the mechanisms by which LIN-28

148 lready present at E11.5 are followed at each developmental stage by two groups of ovarian pregranulos

149 aracterized the nervous system of both these developmental stages by means of immunohistochemistry an

150 rianth expansion during mid- and late flower developmental stages by promoting cell division in the d

151 vated Dorsal triggers apoptosis during later developmental stages by up-regulating the pro-apoptotic

152 At later developmental stages, CaSR enhances tropomyosin receptor

153 ce shows that alterations occurring at early developmental stages contribute to symptoms manifested i

154 ed these variables in relation to diagnosis, developmental stage, core autism symptomatology, and ass

155 l populations in terms of individual size or developmental stage creates an extra challenge for theor

156 Anoxia tolerance and physiology vary by developmental stage, creating a unique opportunity for c

157 and Slc8a3) expression of which changed in a developmental stage-dependent manner.

158 Thus, developmental stage-dependent modifications of the cell

159 We suggest that, depending on the city's developmental stage, different aspects of the urban form

160 imited to either superficial layers or early developmental stages due to tissue turbidity.

161 ing to the experimental condition evaluated: developmental stages (EF1-alpha, 18S and RPL12), sex (RP

162 ed single-cell RNA sequencing to profile ten developmental stages encompassing the full course of ret

163 ryonic lethality before embryonic day 9.0, a developmental stage equivalent to the first trimester of

164 Prolonged care from the egg to later developmental stages evolves from temporally limited car

165 Across the developmental stages examined, heterochromatin protein 1

166 bers and increased synaptic strength at both developmental stages examined.

167 er different experimental conditions such as developmental stage, exposure of neonate and adults to d

168 e cells in the neurogenic zone is a required developmental stage for circuit integration.

169 filing a diverse panel of mouse tissues at 8 developmental stages from 10.5 days after conception unt

170 hylomes from 12 mouse tissues or organs at 9 developmental stages from embryogenesis to adulthood.

171 to maternal depressive symptoms at different developmental stages from fetal life to preadolescence w

172 Covering all developmental stages, GXD includes data from RNA in situ

173 th sampling methodologies indicate that host developmental stage had a greater influence in community

174 al eukaryote communities (18S rRNA), and (5) developmental stage has an influence on the diversity re

175 ss of microRNAs exclusively expressed during developmental stages; however, their effect on cardiomyo

176 differentially expressed at the same nodule developmental stage, implying a substantial association

177 id-embryogenesis, at about the same time and developmental stage in all the seeds in a fruit.

178 seed maturation, suggesting a role for this developmental stage in determining the translational fat

179 Suberin was deposited at an earlier developmental stage in fine roots of 101-14Mgt (i.e. dro

180 l, our work indicates that regardless of the developmental stage in which HCMV infects, HCMV drives h

181 ral strategies can be obtained for different developmental stages in a generic von-Foerster stage-str

182 Sampling was done at two developmental stages in a water-limited environment with

183 es (up to 28.65mg/g dry matter) in the later developmental stages in both forms, mainly ester-bound i

184 rmation in multiple tissues across different developmental stages in C. elegans.

185 have specific expression patterns at various developmental stages in placenta tissue.

186 We tested eight developmental stages in Strongylocentrotus purpuratus, f

187 er choice, proximal vs. distal location, and developmental stage) in analysis of antimicrobial peptid

188 Cultured embryos underwent key primate developmental stages, including lineage segregation, bil

189 ion in knowledge is important to address, as developmental stage influences cellular estrogenic mecha

190 nsistent approaches across multiple RGDs and developmental stages, involving both the characterizatio

191 bases of rice seed metabolomes at different developmental stages is still limited.

192 uce a hypothesis that DUX4 expression during developmental stages is sufficient to induce FSHD-like p

193 We describe the neurocranium at the earliest developmental stage known for Latimeria, as well as the

194 dels gave r>0.77 confirming that Se dose and developmental stage largely determine the behaviour of t

195 Independent of developmental stage, lifestyle, and adaptations to speci

196 small RNAs in different cell layers of early developmental stage maize anthers that are important for

197 We also identified a distinct axon developmental stage marked by the relocation of axon ini

198 d hiPSC-derived neurons, characterized early developmental stages, measured electrophysiological resp

199 mated sea hares to OW and/or OA across three developmental stages (metamorphic, juvenile, and adult)

200 ful at quantitative phenotyping of different developmental stages, mutants with aberrant leaf color a

201 development remain hypomethylated across all developmental stages observed.

202 Estimating the developmental stage of dinosaur embryos is hindered by t

203 ovides an independent means of assessing the developmental stage of extinct, in-ovo saurians.

204 Our data show that the developmental stage of the embryo is the key determinant

205 ur study illustrates the contribution of the developmental stage of the hematopoietic microenvironmen

206 strocaudal dispersion of CINs depends on the developmental stage of the host brain and is limited by

207 larvae (L1), the most acquisition-efficient developmental stage of the thrips vector.

208 o dissect/identify NPC subtypes and critical developmental stages of alternative lineage specificatio

209 can be observed in morphologically distinct developmental stages of an organism, but it is currently

210 ational effects also varied among traits and developmental stages of ancestors and offspring, but the

211 Different proportions of distinct developmental stages of CD21(low) B cells co-occur in ne

212 Different developmental stages of CD21(low) B cells have been high

213 mes and epigenomes of cells representing key developmental stages of HSC ontogeny in mice.

214 ane-bound BCRs derived from different B cell developmental stages of human peripheral blood.

215 letion of liver Kupffer cells, we traced the developmental stages of monocytes differentiating into K

216 2 and tsp-3 transcripts were detected in all developmental stages of O. viverrini.

217 ion, the regional distributions at different developmental stages of other markers such as calcium bi

218 Developmental stages of Plasmodium falciparum parasites

219 Compound 187 was also active against various developmental stages of Schistosoma mansoni.

220 We then used our atlas to precisely define developmental stages of single cells from three differen

221 RNA-seq to obtain the transcriptome of three developmental stages of the CBB (larva, female and male)

222 whose expression and activity depend on the developmental stages of the cell and its environmental c

223 es, which are generally exerted during early developmental stages of the host: male feminization; par

224 Late developmental stages of the marine copepods in the genus

225 riptomic and proteomic analyses of different developmental stages of the parasite; however, changes m

226 iformly expressed genes across the different developmental stages of the studied myxozoan species.

227 mmunity and/or were temporally restricted to developmental stages of the tick.

228 ver, little is known about the cerebellum in developmental stages of these disorders.

229 S), 28S ribosomal RNA (28S) across different developmental stages of three myxozoan species, Sphaeros

230 bioprinting strategies might pursue earlier developmental stages of tissues and organs.

231 ing was performed on 23 different tissues or developmental stages of two maize inbreds, B73 and Mo17,

232 tail regeneration-competent and -incompetent developmental stages of Xenopus tadpoles.

233 s of RDI treatments applied at various berry developmental stages on canopy, yield, and free and glyc

234 dity, cost-effectiveness, well-characterized developmental stages, optical transparency, and so forth

235 ng of cellular responses specific to tissue, developmental stage or environmental conditions.

236 occurs in the soma, and it may occur at any developmental stage or in adult tissues.

237 s based not only on viability but cell type, developmental stage or other quantifiable traits are con

238 commonly described microglia markers at some developmental stages or pathological conditions, in part

239 an transport defined by subcellular markers, developmental stages, or environmental stimuli.

240 tent, showed differential expression between developmental stages, populations and/or palms with cont

241 A novel crop load x fruit developmental stage protocol for multivariate NIRS-based

242 w rapid processing of intact animals, at any developmental stage, provides precise quantitative asses

243 fferences associated with transition between developmental stages rather than specific adaptations to

244 during CNC migration, and its roles at later developmental stages remain unclear.

245 oronary microvasculature beyond the earliest developmental stages requires new tools.

246 depression on reward processing at different developmental stages revealed a similar pattern: recent

247 mparative transcriptomics across mutants and developmental stages revealed clusters of co-regulated g

248 er-like 3 (dml3) Arabidopsis leaves at three developmental stages revealed hypermethylation during le

249 ng biochemical parameters of grains at three developmental stages revealed that Amb/Temp and Elev/Tem

250 at different polar domains and at different developmental stages, revealing a strong preference for

251 At early developmental stages, rnf-145 in the cis-Golgi network i

252 e transition to a persistent pain state span developmental stages.SIGNIFICANCE STATEMENT Following th

253 igodendrocyte spheroids transitioned through developmental stages similar to primary human oligodendr

254 Using developmental stage-sourced brain ECM in reproducible 3D

255 g retinae, many having features of cell- and developmental stage-specific activity.

256 ional activity of these iCGIs is tissue- and developmental stage-specific and, for the first time, we

257 alysis of zebrafish embryogenesis identified developmental stage-specific ceramide changes based on l

258 , Padi4-specific thymocytes are subject to a developmental stage-specific change in negative selectio

259 Loss of developmental stage-specific constraint in macrometastas

260 e conserved across species, show tissue- and developmental stage-specific expression patterns, and ma

261 ires not only the regulation of lineage- and developmental stage-specific genes but also the coordina

262 fundamental roles in lymphocyte lineage- and developmental stage-specific locus compaction as well as

263 of a MIWI/piRNA/eIF3f/HuR super-complex in a developmental stage-specific manner.

264 enzymes that act in a locus, cell-type, and developmental stage-specific manner.

265 We found distinct organ-specific and developmental stage-specific miRNA expression clusters,

266 Here, we propose the first developmental stage-specific network approach by integra

267 toward alternative promoter switch-mediated developmental stage-specific regulation of SATB1 in thym

268 ent on appropriate expression of lineage and developmental stage-specific transcriptional programs.

269 We constructed developmental stage-specific transcriptional regulatory

270 We identified developmental-stage-specific changes in chromatin compar

271 previous ChIP-seq data to identify cell- and developmental-stage-specific super-enhancers (SEs).

272 At the earliest developmental stages, spontaneous activity synchronizes

273 Developmental stages surrounding gastrulation are very s

274 is system to study neonatal hematopoiesis, a developmental stage that has been difficult to analyze t

275 Moreover, when measured at intermediate developmental stages, the kinetics of fast adaptation va

276 Because the layers form at different developmental stages, the muscle cells are exposed to un

277 ulate protein synthesis during their complex developmental stages, these unicellular microorganisms r

278 ubjected to metabolic regulation, from early developmental stages to adulthood.

279 ormation from a near-spherical form at early developmental stages to an oblate spheroid with a straig

280 ular cambia, and the inclusion of additional developmental stages to the end of the ancestral ontogen

281 Receptor expression is highest in developmental stages transmitted to the tsetse fly vecto

282 y of cells/tissues/organs, during a range of developmental stages, under both physiological and patho

283 transcriptome profiles of Gala fruits at 13 developmental stages unravel ~19% of genes displaying al

284 d neonatal pig pancreas at multiple, crucial developmental stages using modern experimental approache

285 iology, host modulation and diverse parasite developmental stages using reverse genetics and holds gr

286 e of Streptomyces bacteria encompasses three developmental stages: vegetative hyphae, aerial hyphae a

287 In most tissues and developmental stages we observe a relative contribution

288 expression changes of the genes at different developmental stages were analyzed by qRT-PCR.

289 Cryptosporidium parvum at various developmental stages were obtained by infecting HCT-8 ce

290 mapping in mice to uncover adolescence as a developmental stage when frontal top-down neurons projec

291 dietary protein is absorbed during critical developmental stages when the gut is still immature is u

292 cture: of all brain regions, cell types, and developmental stages, where and when are the functional

293 alysis under drought stress at two different developmental stages which can facilitate fastidious dis

294 t to proximal/distal anatomical location and developmental stage, which have not been described previ

295 Some developmental stages will be more prone to hybrid dysfun

296 ing, clearly categorized hiPSCs in different developmental stages with 97.5% accuracy.

297 o exhibit medial-lateral territories at both developmental stages with enrichment of glutamatergic (e

298 ative splicing events in at least one nodule developmental stage, with activation of exon skipping an

299 opment in Aquilegia at four finely dissected developmental stages, with eight biological replicates p

300 rase cluster members were coexpressed across developmental stages, with the highest expression in fru