ライフサイエンスコーパス: growth and development

1 l for embryogenesis and normal postembryonic growth and development.

2 nmental factors to which plants adjust their growth and development.

3 ss tolerance and ABA responses as well as in growth and development.

4 ased lignin content may suppress switchgrass growth and development.

5 ism, leading to pleiotropic effects on plant growth and development.

6 (20-24 nt), playing versatile roles in plant growth and development.

7 uced AMP proliferation and intestinal tissue growth and development.

8 o lifelong and intergenerational deficits in growth and development.

9 s diurnal gene expression that governs plant growth and development.

10 ulating plant responses to stress, and plant growth and development.

11 nutrition during early life is critical for growth and development.

12 les in regulating different aspects of plant growth and development.

13 al support and increased monitoring of fetal growth and development.

14 e controlled in planta and linked to overall growth and development.

15 Ultrasound (US) can influence plant growth and development.

16 le, and without deleterious effects on plant growth and development.

17 ization of genes essential to the parasite's growth and development.

18 Cold stress can greatly affect plant growth and development.

19 loss-of-function leads to severe defects in growth and development.

20 a key environmental factor regulating plant growth and development.

21 infants and young children are important for growth and development.

22 iverse biological processes regulating plant growth and development.

23 maternal PM exposure on conceptus/postnatal growth and development.

24 key roles for nuclear SnRK1 in leaf and root growth and development.

25 (Oryza sativa) plays important roles in root growth and development.

26 ne the role of early microbial succession in growth and development.

27 and waterlogging similarly decreased poplar growth and development.

28 ntity, plant cells alter their trajectory of growth and development.

29 e lignin biosynthesis to improve switchgrass growth and development.

30 ins are plant hormones with crucial roles in growth and development.

31 rucial roles in nearly every aspect of plant growth and development.

32 use affects other processes related to plant growth and development.

33 protease activity and hence fine-tune plant growth and development.

34 in light quality significantly affect plant growth and development.

35 phenomenon of touch-induced changes in plant growth and development.

36 int in the life of plants determining future growth and development.

37 ut may also act as signals to regulate plant growth and development.

38 lycerol (PG), are essential for normal plant growth and development.

39 y play important regulatory roles in soybean growth and development.

40 votal signal integrators in regulating plant growth and development.

41 ce in photosynthesis, is essential for plant growth and development.

42 process in developmental and adult vascular growth and development.

43 photoreceptor in plants, and regulates both growth and development.

44 t receptors with many roles throughout plant growth and development.

45 sms and that can have major impacts on their growth and development.

46 mportant in maintaining cell function during growth and development.

47 Ethylene influences many aspects of plant growth and development.

48 ciated with diffuse disturbances in cortical growth and development.

49 n health, because this is a crucial phase of growth and development.

50 s for plants, and is indispensable for plant growth and development.

51 rovides a key mechanism for controlling root growth and development.

52 ded to tightly control its properties during growth and development.

53 and external cues simultaneously to optimize growth and development.

54 aggression, olfactory recognition as well as growth and development.

55 which is an important measure of children's growth and development.

56 rganisms, microRNAs (miRNAs) are crucial for growth and development.

57 gibberellin (GA) is a key regulator of plant growth and development.

58 actors play essential roles during eukaryote growth and development.

59 ereby affecting auxin distribution and plant growth and development.

60 Auxin is widely involved in plant growth and development.

61 romolar concentrations of calcium for normal growth and development.

62 responses, environmental interactions, plant growth and development.

63 diverse groups of factors to optimize plant growth and development.

64 siRNAs) play vital regulatory roles in plant growth and development.

65 derived compounds, reversibly inhibits root growth and development.

66 key organ that plays a pivotal role in fetal growth and development.

67 also in other processes critical for legume growth and development.

68 nvironmental contaminants that may influence growth and development.

69 a transient organ required for proper fetal growth and development.

70 nts, regulating almost every aspect of their growth and development.

71 iates abiotic stress tolerance and regulates growth and development.

72 o the Golgi and is required for proper plant growth and development.

73 (Fe) is an essential micronutrient for plant growth and development.

74 ility are frequent limiting factors in plant growth and development.

75 n shows a drastic phenotype affecting fungal growth and development.

76 has been linked to genes that regulate brain growth and development.

77 that intact SON might be crucial for normal growth and development.

78 oved processability, but often impairs plant growth and development.

79 miR858a in flavonoid biosynthesis and plant growth and development.

80 with conserved functions in regulating plant growth and development.

81 e nucleocytoplasmic compartment during plant growth and development.

82 a prominent role in determining the form of growth and development.

83 , and dyslipidemia, can further impact tumor growth and development.

84 ncluding brain, which are critical to normal growth and development.

85 Plant morphology and physiology change with growth and development.

86 l meristem (RAM) is critical to primary root growth and development.

87 n transport-based processes underlying plant growth and development.

88 oth overlapped and unique functions in plant growth and development.

89 fundamental process fueling plant vegetative growth and development.

90 cytokinin regulates diverse aspects of plant growth and development.

91 d accurately with a single scan during fruit growth and development.

92 nd mineral nutrients needed to support their growth and development.

93 Fs as signal integrators in regulating plant growth and development.

94 bohydrates in their cell walls during normal growth and development.

95 soil is tightly regulated to ensure optimal growth and development.

96 tal to pregnancy and negatively affect fetal growth and development.

97 zymes and have a direct consequence on plant growth and development.

98 signaling are tightly controlled throughout growth and development.

99 rmone ethylene has numerous effects on plant growth and development.

100 ts the major role of these proteins in plant growth and development.

101 re not needed, thereby conserving energy for growth and development.

102 e UPR complexity has increased to suit their growth and development.

103 NA synthesis and consequently modulate plant growth and development.

104 of large numbers of essential genes to plant growth and development.

105 Auxin is a key signal regulating plant growth and development.

106 a body that is changing dramatically due to growth and development.

107 rovide macromolecules necessary for organism growth and development.

108 Os may function as signals regulating fungal growth and development.

109 Protein degradation is essential in plant growth and development.

110 nsory and hormonal pathways to control plant growth and development.

111 unctions to regulate diverse aspects of rice growth and development.

112 utrition have the potential to improve child growth and development.

113 ptides are involved in many aspects of plant growth and development.

114 ation to flowering, gravity influences plant growth and development.

115 adiposity may have a negative effect on bone growth and development.

116 equired to advance our understanding of root growth and development.

117 ed a potent role in regulating postembryonic growth and development.

118 Small RNAs are key regulators in plant growth and development.

119 chistosomiasis has adverse effects on birth, growth, and development.

120 ale pituitary being related to reproduction, growth, and development.

121 to postdischarge; 20% (55/271) had impaired growth and development; 19% (64/343) had impaired HRQL.

122 ic homeostasis, which negatively impacts the growth and development, a mechanism that may apply for t

123 onmental light conditions and optimize their growth and development accordingly by regulating gene ac

124 Long-term complications include abnormal growth and development, adverse effects on bone and the

125 opper (Cu) is an essential trace element for growth and development and abnormal Cu levels are associ

126 ever, they retard significantly in postnatal growth and development and all die of multi-organ failur

127 7 plants exhibit major defects in vegetative growth and development and are completely sterile.

128 d P available through modifications to their growth and development and engagement with microorganism

129 The dsHDAC1-injected insects showed arrested growth and development and eventually died.

130 nase (PI3K) signaling is critical for normal growth and development and is dysregulated in human diso

131 ing controls multiple processes during plant growth and development and is initiated at the plasma me

132 f bioactive components that safeguard infant growth and development and maintain healthy gut microbio

133 the earliest stages of life are integral to growth and development and may continue to affect health

134 PIF4 positively regulates growth and development and negatively regulates immunity

135 In plants, peroxisomes are essential for growth and development and perform diverse metabolic fun

136 key a priori candidate genes regulating root growth and development and relevant alleles that, upon v

137 a complex process required for normal plant growth and development and requires the coordination of

138 Temperature controls plant growth and development, and climate change has already a

139 which may impair the trajectories of healthy growth and development, and explore their potential as n

140 interference (RNAi) plays a pivotal role in growth and development, and responses to environmental i

141 hese genes is particularly critical to fetal growth and development, and some are expressed in sex-sp

142 se ethylene and ubiquitin systems to control growth and development; and how new gene-editing approac

143 ently, clock-mediated photoperiod-responsive growth and development are completely lost in plants lac

144 cts of reduced chlorophyll contents on plant growth and development are complex and depend on the tra

145 e redox states of proteins involved in plant growth and development are controlled by the NADPH/NADPH

146 Growth and development are dominated by gene-environment

147 id foraging, plants have evolved roots whose growth and development are highly responsive to soil sig

148 In the absence of PDX3, growth and development are impaired and the metabolite p

149 entration (less than 110000 ppm), wild plant growth and development are improved, while an intensive

150 lic contributions of wall recycling to plant growth and development are largely undefined.

151 trajectories in somatic tissues during human growth and development are poorly understood.

152 In plants, MAPKs play key roles in growth and development as well as in immunity/stress res

153 that are involved in almost every aspect of growth and development as well as plant adaptation to my

154 The phytohormone ethylene regulates plant growth and development as well as plant response to envi

155 which cytokinin regulates diverse aspects of growth and development as well as responses to biotic an

156 ting cellular processes that affect organism growth and development as well as stress responses.

157 ult life may occur partly through suboptimal growth and development, as suggested by epidemiological

158 phorus application rate may affect spearmint growth and development, as well as chemical composition

159 Ps) with CEP RECEPTOR1 (CEPR1) controls root growth and development, as well as nitrate uptake, but h

160 al warming has a profound influence on plant growth and development at all stages of the life cycle.

161 In plants, the hormone auxin regulates growth and development at every stage of a plant's life

162 rmones brassinosteroids (BRs) regulate plant growth and development at many different levels.

163 surface and interfacial tension and mediate growth and development at these boundaries.

164 Human lung growth and development begins with preconception exposur

165 abroad present an additional opportunity for growth and development beyond traditional cardiovascular

166 o vital coenzymes that are indispensable for growth and development but their inherent reactive natur

167 ptor (CIM6P/IGF2R), plays important roles in growth and development, but is also extensively expresse

168 oduced by photosynthesis not only fuel plant growth and development, but may also act as signals to r

169 n of cellulose is a defining aspect of plant growth and development, but regulation of this process i

170 onsuming an all-prey diet demonstrate normal growth and development, but suffer a complete loss of fi

171 assinosteroids (BRs) are essential for plant growth and development, but the mechanisms of BR-mediate

172 llyl-GSL or closely related compounds affect growth and development by altering different mechanisms

173 the role of the CRFs in Arabidopsis thaliana growth and development by analyzing lines with decreased

174 Light signals regulate plant growth and development by controlling a plethora of gene

175 all, where they contribute to the control of growth and development by regulating the properties of t

176 function in interfering with plant immunity, growth, and development by affecting auxin homeostasis i

177 that play pivotal roles in modulating plant growth and development, by directly binding to their pro

178 Despite their dispensability for normal growth and development, DCs have important biological ro

179 nt plants do not exhibit significant overall growth and development defects, their root cells display

180 Rationale: Growth and development during adolescence may modify the

181 al because it guarantees energy supplies for growth and development during plant ontogeny and reprodu

182 The placenta is a vital organ for fetal growth and development during pregnancy.

183 d to control cell proliferation during organ growth and development, expanding their proposed range o

184 Hormonal cues regulate many aspects of plant growth and development, facilitating the plant's ability

185 n the distribution of nutrients that promote growth and development for each organism involved.

186 s of all organisms are read throughout their growth and development, generating new copies during cel

187 mpact infant DNA methylation globally and at growth and development genes, we followed a clinical bir

188 Early infant growth and development has attracted worldwide attention

189 nin modification with perturbations in plant growth and development has yet been identified.

190 been well characterized, adaptation of root growth and development have received less attention.

191 ticipate in multiple processes such as plant growth and development, hormone response, response to bi

192 stinguish LCI changes associated with normal growth and development (i.e., healthy children) from the

193 Circadian rhythms modulate growth and development in all organisms through interloc

194 Myosin is a critical component of growth and development in eukaryotes, and we have observ

195 lated proteins that are essential for normal growth and development in humans and other species and p

196 s between these milk constituents and infant growth and development in lower-income countries.

197 Amino acids are essential for proper growth and development in plants.

198 d phenological development to optimize plant growth and development in preparation for a wide range o

199 chromes and phytochromes to coordinate plant growth and development in response to different waveleng

200 l ABA signaling, possibly coordinating plant growth and development in response to environmental cond

201 hanisms that have a profound impact on plant growth and development in response to light.

202 ing hub that pleiotropically regulates plant growth and development in response to multiple signallin

203 ts maximize their fitness by adjusting their growth and development in response to signals such as li

204 ith TOR in Arabidopsis, positively regulates growth and development in rice.

205 pressing transgenic plants may influence the growth and development in switchgrass.

206 The bulk of placental growth and development in the first trimester occurs und

207 he placenta is the main determinant of fetal growth and development in utero.

208 smonoyl-isoleucine regulates plant immunity, growth and development in vascular plants by activating

209 Independent predictors of impaired growth and development included methadone (OR = 2.27; 95

210 oddlerhood is crucial for supporting healthy growth and development, including bone health.

211 ellins (GAs) are central regulators of plant growth and development, including seed development.

212 ule that influences various aspects of plant growth and development, including stress signaling and c

213 states and starch levels, and impaired plant growth and development, indicating a role of oxygen-regu

214 /ds variant in Arabidopsis accelerated plant growth and development, indicating that this enzyme vari

215 Cranial growth and development is a complex process which affect

216 Background Stunted growth and development is a serious global public health

217 Tumor growth and development is determined by both cancer cell

218 The inhibition of primary root growth and development is indeterminate in nature and ca

219 utrient supplements (SQ-LNSs) on early child growth and development is mixed.

220 The genetic basis of growth and development is often studied in constant labo

221 nts merge immune system function with normal growth and development is still poorly understood.

222 A fascinating feature of plant growth and development is that plants initiate organs co

223 d proteins (GPI-APs) are essential for plant growth and development; knockout mutations in enzymes re

224 -6 long-chain PUFAs, which are essential for growth and development; low sulfated neurosteroids, whic

225 pathophysiological processes, including cell growth and development, metabolism, and cancer progressi

226 g has important functions in regulating cell growth and development, misregulation of which has been

227 several individual HMOs were associated with growth and development, mostly among secretors.

228 13% to 38%) content but did not affect plant growth and development nor biomass recalcitrance.

229 ell as conserved roles for type-B RRs in the growth and development of a monocot compared with dicots

230 unit are not functionally redundant in plant growth and development of A. thaliana.

231 Temperature is a key factor in the growth and development of all organisms(1,2).

232 ing nutrient conditions is essential for the growth and development of all organisms.

233 ative and qualitative responses during early growth and development of Arabica and robusta may have a

234 ltered TyrA activity and regulation, impacts growth and development of Arabidopsis.

235 Thus, growth and development of beneficial AM fungi is not onl

236 Vitamin D is necessary for the healthy growth and development of bone and muscle.

237 ctones (AHLs), which are known to affect the growth and development of both flowering plants, includi

238 t that IL-25 plays an inhibitory role in the growth and development of colonic tumors.

239 iated with a risk for recrudescent microbial growth and development of disease.

240 ll polymers which is critical to the overall growth and development of edible and bioenergy crops.

241 In A. flavus, about 578 DEGs coding for growth and development of fungus, aflatoxin biosynthesis

242 as been shown to be of pivotal importance in growth and development of land plants.

243 C model) to examine the impact of low SMN on growth and development of mammalian sex organs.

244 establishing where and when the slow overall growth and development of modern humans appeared.

245 that nicotine alone is capable of disrupting growth and development of murine calvaria.

246 lmark of mammals that is critical for normal growth and development of offspring.

247 in eukaryotic cells, and are critical in the growth and development of pathogenic fungi such as Magna

248 (N) are the primary elements involved in the growth and development of plants.

249 tive molecules, many of which can affect the growth and development of plants.

250 ant hormone that plays a crucial role in the growth and development of plants.

251 rate that OsCAF1B plays an important role in growth and development of rice seedlings at low temperat

252 numerous developmental processes, including growth and development of shoots, leaves, flowers, roots

253 at the CPR5 ortholog is essential for proper growth and development of soybean trichomes, similar to

254 role in the metabolism, homeostasis, somatic growth and development of teleostean fishes.

255 Positive experiences encourage the growth and development of the brain and support enhanced

256 aternal metabolic changes, necessary for the growth and development of the fetus, mediated by reprodu

257 illment and compensation; (3) facilitate the growth and development of the ID workforce to meet emerg

258 e suppresses host defences to facilitate the growth and development of the important rice pathogen Ma

259 and MDS/EVI causes severe retardation in the growth and development of the tadpoles during metamorpho

260 at five separate time points to characterize growth and development of the tumor.

261 these nanostructures is coordinated with the growth and development of the underlying cells.

262 ding the role of gender, have influenced the growth and development of this network, which has expand

263 dual cells, has been widely applied to study growth and development of tissues and tumors.

264 d sophisticated mechanisms to coordinate the growth and development of two distinct systems, the shoo

265 sis, and it is also important for infectious growth and developments of ascospores by the free cell f

266 and Toddler Quality of Life Questionnaire-97 growth and development or Pediatric Quality of Life Inve

267 To identify the appropriate times for growth and development, organisms must sense and process

268 The quality of fetal growth and development predicts the risk for a range of

269 perfusion that is required for normal fetal growth and development, prevent the development of hyper

270 hormone cytokinin affects a diverse array of growth and development processes and responses to the en

271 tabolites are significantly involved in some growth and development processes potentially related to

272 ulate essential biological functions such as growth and development, regulation of stress, energy exp

273 For growth- and development-related traits, it is meaningful

274 C biosynthetic pathway and its role in plant growth and development remain elusive due to lack of a m

275 he effects of IL-15 on human skeletal muscle growth and development remain largely uncharacterised.

276 els and the ratio of S/G lignin, while plant growth and development remained relatively unaffected.

277 e cytokinin influences many aspects of plant growth and development, several of which also involve th

278 riched in functions associated with organism growth and development, suggesting an important role for

279 ised framework highlights the goals of child growth and development, supported by health, nutrition,

280 n to COI1/MYC-independent functions in plant growth and development, supporting the notion that JAZ4-

281 ons to microglia and immune molecules, brain growth and development, synaptic morphology and physiolo

282 The hormone auxin is a key signal for plant growth and development that acts through the AUXIN RESPO

283 e new field data and models for coffee plant growth and development, the coffee/coffee berry borer (C

284 MiR160 plays a pivotal role in Arabidopsis growth and development through repressing expression of

285 Temperature modulates growth and development throughout the entire lifecycle o

286 aticifer cells appear nonessential for plant growth and development, thus pointing toward their impor

287 d consequences, ranging from effects on cell growth and development to autoimmune disorders.

288 s have a remarkable capacity to adjust their growth and development to elevated ambient temperatures.

289 They respond by modulating their growth and development to maximize seed production, whic

290 hyB dark reversion, allowing plants to adapt growth and development to the ambient environment.

291 Genomic imprinting underlying growth and development traits has been recognized, with

292 es perceive red and far-red light to control growth and development, using the linear tetrapyrrole (b

293 The phytohormone auxin controls plant growth and development via TIR1-dependent protein degrad

294 production of VOCs and their impact on plant growth and development were assessed as well.

295 er, drier and more variable; (2) caterpillar growth and development were reduced; and (3) leaves were

296 r retained ability to initiate new cycles of growth and development, which relies on the establishmen

297 TOR (Target of Rapamycin) pathway to balance growth and development with the available energy and nut

298 hourly to monthly timescales, to align their growth and development with the seasons.

299 omote intestinal adaptation while preserving growth and development with the use of parenteral nutrit

300 eptides (SSPs) play critical roles in legume growth and development, yet the annotation of SSP-coding