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1 I, and IV were significantly associated with developmental stage.
2 nt of phosphosite occupancy as a function of developmental stage.
3 ceptibility to MD more typical of an earlier developmental stage.
4 of NDCs change dramatically as a function of developmental stage.
5 ner, sensitive to low temperature during the developmental stage.
6 y provide additional information relevant to developmental stage.
7 tion between GG sialylation degree and brain developmental stage.
8 remarkably like those seen at an early human developmental stage.
9 pression of the expanded CGG RNA at an early developmental stage.
10 y staining of whole Drosophila larvae of any developmental stage.
11 erbilirubinemia-induced neurotoxicity in the developmental stage.
12 ation and survival of mDANs during embryonic developmental stages.
13  compartments A/B are highly similar at both developmental stages.
14 ation changes of some lipids at various cell developmental stages.
15 , after treatment with IAA, and in different developmental stages.
16 s in many developing tissues and at multiple developmental stages.
17 ed, thereby genetically distinguishing these developmental stages.
18 its extent may vary greatly among tissues or developmental stages.
19 adulthood and compared activity at different developmental stages.
20  biomarker in the disease, at four different developmental stages.
21 as expression profiles in fiber at different developmental stages.
22  atlas covering a broad sample of organs and developmental stages.
23 ry stages reacting distinctly from the later developmental stages.
24  expression in its major organs at different developmental stages.
25 ression increased fatty acid content in both developmental stages.
26 ins revealed essential functions at multiple developmental stages.
27 for 456 food entries on insects in different developmental stages.
28 cal oxygen to below baseline levels at early developmental stages.
29 of the different pathways across tissues and developmental stages.
30  in A. dioicus shoots harvested at different developmental stages.
31 he stroma and the luminal compartment at all developmental stages.
32 nly transiently, as cells pass through early developmental stages.
33 regulome profiles corresponding to disparate developmental stages.
34 cation origins across diverse cell types and developmental stages.
35 sues, even in different growth conditions or developmental stages.
36 vary across circuits, behavioral states, and developmental stages.
37  form up to 9.85mg/g dry matter at the early developmental stages.
38 between the berry samples from the different developmental stages.
39 uman and mouse frontal cortices at different developmental stages.
40 of Gata2 levels in hematopoiesis, during all developmental stages.
41 uum of maturation states reflected in normal developmental stages.
42 r embryo, which tended to fluctuate in later developmental stages.
43 revealed that TcSOD2 was present through all developmental stages.
44  of specific SIN3 complexes, during distinct developmental stages.
45 ic acids in the berry samples from different developmental stages.
46  is characterized by at least two sequential developmental stages.
47 representation variation across reproductive developmental stages.
48 e progress of the cells through the relevant developmental stages.
49 like and 14-3-3 genes vary among tissues and developmental stages.
50 are occurring) as compared to all other leaf developmental stages.
51 -80 contribute to brain development at early developmental stages.
52 d transiently or constitutively at different developmental stages.
53 pts in cultured embryonic gonads at multiple developmental stages.
54 tomato fruit across two key tissues and five developmental stages.
55 cularly at low levels and during susceptible developmental stages.
56 em is effective across different tissues and developmental stages.
57 ed with putatively non-resistant form in all developmental stages.
58 iors that are stereotyped within and between developmental stages.
59 ect analysis of potential roles during later developmental stages.
60 57 rice anther tissue microarrays across all developmental stages.
61 stinct roles in other developing tissues and developmental stages.
62 for nutrient supply, especially during early developmental stages.
63  dramatic alterations in the lipidome across developmental stages.
64  these mice occurs normally through distinct developmental stages.
65  We show that plastron development begins at developmental stage 15 when osteochondrogenic mesenchyme
66 shown to cause cardiac toxicity during early developmental stages across fishes.
67 h the overproduction of bilirubin during the developmental stage, acts as a bottleneck to bilirubin e
68 transcriptomes show remarkable similarity in developmental stages, although morphogenesis was greatly
69  overlap of sex-biased genes among the major developmental stages, an indication of dynamic expressio
70           However, in all tissues and at all developmental stages analysed, Shh-ZRS spatial distances
71            We found allelic effects that are developmental stage and cell type specific, that are pre
72 criptional response to light varies with the developmental stage and is still observed in a photorece
73 ental Anatomy Browser; interactive tissue-by-developmental stage and tissue-by-gene matrix views; cap
74 7mg/g dry matter, respectively) in the later developmental stages and are ester-bound in the lignan m
75 m 25-hydroxyvitamin D [25(OH)D] at different developmental stages and bone mass measured at age 20 y.
76 ed in deep categorization of brain areas and developmental stages and brain-specific promoter and enh
77                        Here we defined three developmental stages and checkpoints for the MAIT cell l
78 c changes in chromatin accessibility between developmental stages and could thereby represent putativ
79 sponses to GA vary across cells and tissues, developmental stages and environmental conditions, the s
80 gene regulation, including robustness in the developmental stages and flexibility during the cell cyc
81 icinus lipocalins during feeding at distinct developmental stages and in response to Borrelia afzelii
82 ene expression levels, including at specific developmental stages and in specific tissues.
83  expressed in neuronal growth cones at early developmental stages and its activation engages small GT
84        A RNA-seq time course across all five developmental stages and male and female adults generate
85 n different seed compartments and at various developmental stages and pathways.
86 venile alligator dental laminae at different developmental stages and performed RNA-seq.
87 these transcription factors beyond the early developmental stages and provide mechanistic links betwe
88 al components that might be used at specific developmental stages and respond differentially to cellu
89 y halt germination or heavily affect various developmental stages and select for life history changes
90 ion of full length ESTs from several organs, developmental stages and stress conditions in three Brac
91 hat hypo-enhancers do become active at later developmental stages and that they are physically associ
92 in yield quantity and quality, timing of key developmental stages and tolerance of biotic and abiotic
93 ct of regulated deficit irrigation, cluster, developmental stages and two seasons (autumn 2015 and sp
94 ities of T. ni changed substantially between developmental stages and when exposed to CECs in their d
95 ion intricately reflects anatomical context, developmental stage, and cell type.
96  can be adjusted according to the cell type, developmental stage, and environmental conditions.
97 e shapes influenced by metabolic conditions, developmental stage, and environmental stimuli.
98 n between cell and nuclear size at any given developmental stage, and show that experimental cytoplas
99 ing is strongly associated with tissue type, developmental stage, and stress condition.
100 of cultured hippocampal neurons at different developmental stages, and compared results with those ob
101 s formation using RNA-seq data from multiple developmental stages, and construct a molecular portrait
102 ular functions during both proliferative and developmental stages, and it displays dynamic alteration
103         Keywords related to species, gender, developmental stages, and organs were analyzed from the
104 se is consistent across genetic backgrounds, developmental stages, and parasite types but is not indu
105 n, particularly for genes expressed at early developmental stages, and resulting in high speciation r
106 ion patterns of AqJAG in various tissues and developmental stages, and used RNAi-based methods to gen
107 region (LCR), dynamically interacts with the developmental stage-appropriate beta-type globin genes v
108 aking adolescence a particularly susceptible developmental stage are not well understood.
109      Chromatin accessibility changes between developmental stages are highly reproducible, recapitula
110                                        Early developmental stages are ideal targets for amphibian bac
111                                        These developmental stages are recapitulated in the dentate gy
112 tory model should account for the effects of developmental stage as well as demographic characteristi
113       We studied the effect of dose, and the developmental stage at the beginning of Se-fortification
114 ration of the centriole core, and define the developmental stage at which the transition zone is esta
115 ffer depending on the thymic compartment and developmental stage at which thymocytes are deleted.
116 is of the X. laevis phosphoproteome at seven developmental stages beginning with stage VI oocytes and
117 orsagia circumcincta, which were of the same developmental stage but differed in their location withi
118 that human ESCs can be 'reset' to an earlier developmental stage, but their functional capacity remai
119      Here we show that IKAROS regulates this developmental stage by positive and negative regulation
120 rential control of two closely linked B-cell developmental stages by different members of a single mi
121  how personality disorder relates to age and developmental stage can improve care of all patients.
122 1 expression in the periphery, from an early developmental stage, could provide a mechanism that lead
123 ng in the development of osteoarthritis in a developmental stage-dependent manner.
124                                We observed a developmental stage-dependent pattern with clear differe
125 les of different cell types, organism parts, developmental stages, diseases and other conditions.
126 volved in erythrocyte invasion, an essential developmental stage during which the malaria parasite is
127 ound that beta-catenin stabilization between developmental stages E16.5 and P2 resulted in a reductio
128 s (antennae, head, thorax, and abdomen), and developmental stages (egg, larvae, and pupae), revealing
129  dchs1b mutants show defects in the earliest developmental stage, egg activation, including abnormal
130  on the immunostimulation of different early developmental stages for gaining a more comprehensive pi
131 increase was smaller and restricted to early developmental stages for rats.
132              The transition involves several developmental stages from seed germination to seedling e
133 ssembly of the transcriptome of three flower developmental stages from the three Vitis vinifera flowe
134 ic regulation of mean cell size dependent on developmental stage, genotype and environmental signals.
135                                     At early developmental stages, glutamatergic synapses are sparse,
136 tively assess berry samples at five distinct developmental stages: green, pre-veraison, veraison, pos
137 te transitions can be induced during various developmental stages has not been systemically examined.
138           These two tails appear at a shared developmental stage in Aetheretmon, teleosts and all liv
139 ng endosperm proliferation at a rather early developmental stage in crops.
140 mation of the vertebral column is a critical developmental stage in mammals.
141 lel, we compared gene expression at the same developmental stage in NF-kappaB-deficient embryos and c
142 ent reversible Raf activation at any desired developmental stage in specific cell lineages.
143            By inducing Smarcb1 loss at later developmental stage in the Schwann cell lineage, in addi
144 sor survival and proliferation at particular developmental stages in an MHC class I-dependent manner.
145 es (up to 28.65mg/g dry matter) in the later developmental stages in both forms, mainly ester-bound i
146 he E3 ubiquitin ligase TRIM9 regulates these developmental stages in embryonic and adult-born mouse h
147 implementation of gut microbiota at specific developmental stages in infants at high risk for allergy
148 mooth muscle and compact myocardium at later developmental stages in Lb1-null embryos.
149 olateral amygdala (BLA) at neonatal to adult developmental stages in mice.
150 ce mechanisms and a regulator during diverse developmental stages in plants.
151 naling in individual cell types at different developmental stages in vivo To facilitate studies of cA
152                    However, in the procyclic developmental stage, in which T. brucei is confined to t
153 A-seq data from 23 F1 tissues from different developmental stages, including 19 female tissues allowi
154 y expressed in cotton fiber during different developmental stages, including cotton fiber initiation
155 EC1 controls distinct gene sets at different developmental stages, including those that mediate the t
156              These latent shapes can predict developmental stages independent from species identity a
157 ial and temporal cues, in a cell cycle-, and developmental stage-independent fashion, creating a plat
158 em cells and in the mouse brain at different developmental stages indicates that miR-21 and Sox2 are
159                  These results highlight how developmental stage influences the effects of genetic va
160            Interconversion between these two developmental stages is characterized by expression of g
161 ow that the lacrimal gland from its earliest developmental stages is composed of multiple subpopulati
162  methods in diverse cell lines, tissues, and developmental stages is the availability of validated IP
163 dels gave r>0.77 confirming that Se dose and developmental stage largely determine the behaviour of t
164 ts establish that phenotypes associated with developmental stage may arise from plasticity per se and
165      Here we discover that amongst different developmental stages, mouse embryonic stem cells (mESCs)
166      We hypothesized that plasma of an early developmental stage, namely umbilical cord plasma, provi
167           Three prey types were tested using developmental stages (nauplii, copepodites and adults) o
168                                     In later developmental stages, necrosis spread, covering the enti
169 olved in maintaining brain integrity at post-developmental stages notably in the modulation of neuron
170  gene expression profile of MECs across four developmental stages; nulliparous, mid gestation, lactat
171 treams and in non-carcass streams, while the developmental stage of blow flies was the governing fact
172 t of these tumors, represent a more advanced developmental stage of HCC.
173                  We investigated whether the developmental stage of mouse cardiac fibroblasts (CFs) i
174                            Just prior to the developmental stage of palatal shelf elevation in wild-t
175 tion has divergent effects, depending on the developmental stage of sarcoma.
176 ments in social communication depends on the developmental stage of the assessed trait.
177                                          The developmental stage of the block in haematopoietic speci
178 trogen pools and metabolism dependent on the developmental stage of the mutants.
179  nature of the transforming oncogene and the developmental stage of the oncogenic hit.
180 ting replication and egress depending on the developmental stage of the parasite.
181 , the population dynamics of FLEs-Hd at each developmental stage of ticks and in tissues at different
182             Clinicians should appreciate the developmental stages of adolescents, discuss the most ef
183 o dissect/identify NPC subtypes and critical developmental stages of alternative lineage specificatio
184                CD20 is expressed during most developmental stages of B lymphocytes; thus, CD20 deplet
185 e demonstrated that hTTR is expressed in all developmental stages of Caenorhabditis elegans, enabling
186                          Ensuring consistent developmental stages of cardiomyocytes and supporting no
187 ghput sequencing on the transcriptomes of 13 developmental stages of Chinese amphioxus to gain a comp
188         miRNVL5 and GhCHR express at various developmental stages of cotton.
189 ssion profile of IGF1 and IGF1R on different developmental stages of differentiation.
190 lying links between biological processes and developmental stages of Drosophila melanogaster.
191 erized by their expression patterns over the developmental stages of each species as columns.
192 regeneration follows, on a larger scale, the developmental stages of embryonic patterning and is guid
193 stribution and speciation of Se in the early developmental stages of fish, which provide important in
194             Metabolite analysis of different developmental stages of leaf and fruit suggests tissue-s
195 2 and tsp-3 transcripts were detected in all developmental stages of O. viverrini.
196        Analysis of RNA-seq datasets of three developmental stages of saffron stigma allowed the deter
197 f global gene expression in seven successive developmental stages of seedling establishment in Arabid
198 lications for the understanding of the early developmental stages of self-awareness, self-regulation
199 rges on a smaller number of key pathways and developmental stages of the brain.
200 charides and proteins that varies during the developmental stages of the cell.
201 eneration of L1-80 coincide in time at early developmental stages of the cerebral cortex.
202 , were evaluated during four clearly defined developmental stages of the fruit in two seasons.
203  its expression coincided with the parasitic developmental stages of the nematode.
204                    We surveyed four critical developmental stages of the olfactory system: 3rd instar
205 erent immune mechanisms may target different developmental stages of the parasite.
206 riptomic and proteomic analyses of different developmental stages of the parasite; however, changes m
207 lecular machinery and may thus represent two developmental stages of the same type of synaptic modula
208 the internal concentrations already in early developmental stages of the ZFE.
209 categories (e.g., oil, wet gas, dry gas) and developmental stages of wells.
210 e-responsiveness showed little dependence on developmental stage or origin (primary tissue vs. stem c
211  Environmental conditions experienced across developmental stages or by prior generations can influen
212 rison of elongation speeds between different developmental stages or different cell types, and it all
213  (ER) stress occurs in plants during certain developmental stages or under adverse environmental cond
214 detrimental effects of homozygosity at later developmental stages, our results suggest that gametophy
215 atorPAH), here we exposed a broader range of developmental stages over both short and prolonged durat
216                                     At early developmental stages, physiologically high PI3K-Akt-mTOR
217 parisons among successive leaves at the same developmental stage, plastochron 6, three-fourths of app
218      Coordinated alternative splicing across developmental stages pointed to a role in regulating dif
219 genes showing sex biased expression at major developmental stages (prenatal time, early childhood, pu
220 nt of vision abnormalities during a critical developmental stage, preserving function and quality of
221 ble by a single species and a similar set of developmental stages produces a variety of patterns.
222 e advantages and limitations of marketed and developmental-stage protein delivery strategies, and pro
223 nated the versatile behaviour of trypanosome developmental stages, ranging from solitary motion and n
224 fferences associated with transition between developmental stages rather than specific adaptations to
225 mes of retinorecipient areas of the brain at developmental stages relevant for axon guidance, dendrit
226 ogenous TH locally regulates neurogenesis at developmental stages relevant to circuit assembly by aff
227 ogenous TH locally regulates neurogenesis at developmental stages relevant to circuit assembly by aff
228 roductive effects of exposure within defined developmental stages remains sparse.
229 mparative transcriptomics across mutants and developmental stages revealed clusters of co-regulated g
230            Comparison of iCLIP data from two developmental stages revealed that Hnrnpa1 dissociates f
231 Hydroides genome and transcripts during five developmental stages revealed that MACs induce the regul
232 for experiments involving different tissues, developmental stages, sex, and C. maculate larvae treate
233                              These QTLs were developmental stage specific, as different QTLs were det
234 rmediate phenotypes are typically tissue and developmental stage specific, making relevant phenotypes
235 d tumors, we generated different tissue- and developmental stage-specific conditional knockout mice c
236                               Here we show a developmental stage-specific differential expression pat
237                        Our findings classify developmental stage-specific early, middle and late meio
238 umor suppressor function by enforcing proper developmental stage-specific expression of multiple gene
239 vealed that some miRNAs exhibited tissue- or developmental stage-specific expression patterns.
240 ) between epithelial cells, in a tissue- and developmental stage-specific manner.
241 rons regulates larval crawling behavior in a developmental stage-specific manner.
242 ltiple TAF variants that specify tissue- and developmental stage-specific organization of TFIID or SA
243                                        Using developmental stage-specific promoters to express FCU-GF
244                       Thus, the lineage- and developmental stage-specific regulation of PRC2 subunit
245 globin gene locus is a paradigm of cell- and developmental stage-specific regulation.
246                                         Most developmental stage-specific splicing changes affected b
247 how that developing NK cells undergo unique, developmental stage-specific sustained and transient int
248 rearrangement are governed by cell type- and developmental stage-specific transcription factors.
249 hila wild isolates, identifying thousands of developmental-stage-specific and shared QTL.
250                           MOF is therefore a developmental-stage-specific chromatin regulator found t
251                                We identified developmental-stage-specific super-enhancers and showed
252  difficulties that share, depending on their developmental stage, stronger genetic links with either
253 ence of multiple genotypes and regardless of developmental stage, strongly supporting the notion that
254 pevine gene expression associate with flower developmental stages suggesting a similar biological rol
255 ng RTEs encounter TRAs during a transitional developmental stage that facilitates tolerance induction
256 is system to study neonatal hematopoiesis, a developmental stage that has been difficult to analyze t
257 tor is instead expressed in the epimastigote developmental stage that occurs in the tsetse fly, where
258 of NKG2D on B1a cell development occurs at a developmental stage that precedes the common lymphoid pr
259  the Arabidopsis gynoecium, highlighting the developmental stages that immediately proceed ovule init
260 he row vector specifies for each species the developmental stages that the clustered genes co-regulat
261                    Here we analyzed at later developmental stages the nuclei derived from these areas
262 e evolution, especially for genes from early developmental stages, thereby leading to animal species
263    Compared to mRNAs, lncRNAs display higher developmental stage-, tissue-, and cell-subtype-specific
264 and compare expression data across different developmental stages, tissues and treatments.
265  we generate deep 3'-sequencing data from 23 developmental stages, tissues, and cell lines of D. mela
266 ressed in different cell types, diseases, or developmental stages to execute a wide variety of regula
267 erformed on flaxseeds harvested at different developmental stages to identify and quantify the main p
268  public inbred line were constructed at four developmental stages under both well-watered and drought
269 ecome dormant and progressed through several developmental stages until day 16, after which nearly al
270 egulation of mGluR-mediated LTD at different developmental stages using several different NMDAR block
271 ly(A) sites of 14 different rice tissues and developmental stages using the poly(A) tag sequencing (P
272 acid composition of grape berries at various developmental stages, using small sample volumes and req
273 matic expression analyses across tissues and developmental stages validated two such isoforms, which
274 e of Streptomyces bacteria encompasses three developmental stages: vegetative hyphae, aerial hyphae a
275              The 96-120 h post-fertilization developmental stage was the most appropriate model for d
276                      RNA from several flower developmental stages was used previously to generate Ill
277                          In most tissues and developmental stages we observe a relative contribution
278 ose of 33 adult male orangutans of a similar developmental stage, we found consistent differences bet
279 s associated with functional imaging at this developmental stage, we recorded calcium dynamics in mus
280 fect of FPS down-regulation at postembryonic developmental stages, we generated Arabidopsis condition
281 n. gambiae RNA-Seq datasets representing all developmental stages, we identified a small repertoire o
282 Using the transcriptome signature from these developmental stages, we obtained a coexpression gene ne
283  By mapping replication origins at different developmental stages, we show that the positions and act
284 a such as tissue type, growth conditions and developmental stage were manually curated for each sampl
285                                    Different developmental stages were discriminated by principal com
286  weights and variation in duration of insect developmental stages were observed among entomopathogens
287   The retinoblastoma epigenome mapped to the developmental stage when retinal progenitors switch from
288 A-mediated silencing in embryonic and larval developmental stages, where they act through a multi-fac
289 it DSBs at multiple genomic locations within developmental stages wherein monoallelic Ag receptor loc
290           This study reveals a new postnatal developmental stage, which coincides with full-brain mat
291 ponses specific to individual cues and berry developmental stage, which in the field are commonly ass
292 vealed clustering of gene expression at each developmental stage with more than 5000 genes significan
293 enotype can be rescued by a treatment at the developmental stage with Ras-ERK inhibitors.
294 adolescence is a crucial, but underexplored, developmental stage with respect to the aetiology of soc
295 o exhibit medial-lateral territories at both developmental stages with enrichment of glutamatergic (e
296 two waves of IgLkappa synthesis in different developmental stages with IgLlambda gene rearrangements
297 la-fed infants proceeds according to similar developmental stages with microbiota signatures that inc
298 ing between-sex expression divergence at all developmental stages with the greatest number (4,164 gen
299 redominantly in the white matter regions and developmental stages with the highest probability for co
300           The transition into adulthood is a developmental stage within the life cycle.

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