ライフサイエンスコーパス: understanding how

1 Here, we describe recent advances in understanding how 11-cis-retinal is synthesized via ligh

2 have important implications for studying and understanding how 2D COFs form.

3 Understanding how a bacterial species comes to dominate

4 findings provide a structural framework for understanding how a broad-spectrum irritant receptor is

5 local confidence, and lay the groundwork for understanding how a formation of global self-beliefs may

6 Understanding how a network of interconnected neurons re

7 atively little progress has been made toward understanding how a particular genotype results in a cha

8 cture-dynamics relationship is essential for understanding how a protein works.

9 Understanding how a species utilises its habitat, and th

10 been made over the last several years toward understanding how almost every aspect of the immune syst

11 Understanding how alpine biotas formed in response to hi

12 Understanding how and why sexual dimorphism evolves woul

13 iving cephalopods will likely be critical in understanding how, and how much, information can be shar

14 Understanding how-and how consistently-salmon population

15 Considerable research has focused on understanding how animal groups form and function, inclu

16 y use across these periods is fundamental to understanding how animals survive the changing condition

17 Understanding how ANP32A proteins support the viral poly

18 Understanding how anthropogenic changes in natural areas

19 eraction with this specific mucin.IMPORTANCE Understanding how antibodies are distributed in the muco

20 Understanding how antibodies specifically interact with

21 same and designing animal models depends on understanding how antiviral host responses may become ha

22 ynthetic challenge thought to be crucial for understanding how atmospheric concentrations of CO and C

23 uman population presents a major obstacle in understanding how autoimmune diseases like multiple scle

24 This pathway has important implications for understanding how autophagy contributes to neuronal func

25 Understanding how bacteria colonize surfaces and regulat

26 These findings contribute to understanding how bat viruses can persist despite low pr

27 rointestinal transit that cannot be avoided, understanding how bile resistance mechanisms align with

28 Understanding how biodiversity and interaction networks

29 y, measuring the activity-a prerequisite for understanding how biological systems work-has been limit

30 ostics into personalized treatments requires understanding how biomarkers relate to clinical outcomes

31 ith respect to non-avian dinosaurs is key to understanding how birds achieved their remarkable succes

32 f the bone microenvironment is important for understanding how bones function in health and disease.

33 Understanding how broadly neutralizing antibodies (bnAbs

34 Yet, understanding how cancer cells can escape this immune su

35 lopment also provides an excellent model for understanding how cell division, expansion and different

36 r findings are of fundamental importance for understanding how cell mechanics regulates biochemical s

37 solving GPCR transduction pathways is key to understanding how cell signaling occurs.

38 t macromolecular synthesis in vivo is key to understanding how cells and tissues progress through dev

39 rning germ cell reprogramming is critical to understanding how cells maintain proper gene expression

40 converge upon the microtubule cytoskeleton, understanding how cells utilize tubulin diversity is cru

41 Our structure provides a framework for understanding how Cenp-T links centromeric Cenp-ANuc to

42 wcase the therapeutic potential that lies in understanding how changes in creatine metabolism lead to

43 digms prevent ovulation, special focus is on understanding how changes in dose impact hormonal cyclin

44 Understanding how chromatin is established, maintained o

45 nition by a pioneer TF that is essential for understanding how chromatin is unraveled during cell fat

46 Understanding how chronic stimulation of these cells in

47 has become a powerful experimental model for understanding how circuits in the thalamus are construct

48 l consequences of polarization, but also for understanding how citizens form preferences.

49 Understanding how climate change can lead to shifts in d

50 Understanding how climate change impacts trailing-edge p

51 r temperatures on salmonids is important for understanding how climate warming will impact mountain e

52 nd associated isotopic change is critical to understanding how climate, atmospheric oxygenation, and

53 Understanding how climate-mediated biotic interactions s

54 interventions and may help bridge the gap in understanding how CMV infection and immunity are linked

55 Understanding how community assembly processes jointly a

56 Yet, understanding how complex organ shape emerges during dev

57 Understanding how complex organ systems are assembled fr

58 hese complementary systems is fundamental to understanding how cone-mediated vision is sustained in v

59 Understanding how conspecific density dependence varies

60 cations of our findings for efforts aimed at understanding how continued climate warming will affect

61 ill have broad utility for investigating and understanding how cooperative signaling pathways drive c

62 s of catalytic intermediates broadly and for understanding how copper active sites achieve activation

63 This serves as proof of concept that understanding how CRM1(E571K) affects NES binding provid

64 od, yet this information may be critical for understanding how current and future glacial melt season

65 ental problem in axon growth and guidance is understanding how cytoplasmic signaling modulates the cy

66 However, understanding how development varies across individuals

67 Understanding how developmental cues and environmental s

68 L is a genetically heterogeneous disease and understanding how different co-occurring mutations coope

69 Understanding how different facets of diversity respond

70 erefore, provides a compelling rationale for understanding how different mutations cooperate to drive

71 Our results highlight the importance of understanding how different species respond to fine-scal

72 we provide a novel conceptual framework for understanding how directionally moving prey perceive ris

73 Understanding how disruption of prefrontal cortex (PFC)

74 nce, which should be taken into account when understanding how diverse fungi recover from this unique

75 Such categorization is a first step toward understanding how diversification relates to function.

76 Understanding how DNA damage response inhibitors cause c

77 ture for Pol epsilon holoenzyme, critical to understanding how DNA synthesis is coordinated with unwi

78 Understanding how ecosystems will respond to climate cha

79 Understanding how effectors promote disease and how they

80 These studies have implications for understanding how embryo-uterine communication is key to

81 Understanding how environmental and evolutionary history

82 Understanding how environmental context affects that bal

83 efficient oxygen (O(2)) activation is key to understanding how enzymes maintain efficacy and mitigate

84 evolution among different species is key to understanding how evolution works.

85 By understanding how exercise alters specific species and l

86 en the numerous health benefits of exercise, understanding how exercise capacity is regulated is a qu

87 status of cannabis-related compounds, makes understanding how exogenous cannabinoids affect brain de

88 As a framework for understanding how experiences might produce lasting chan

89 Understanding how extant diversity was generated will re

90 developing lung and provide a framework for understanding how external insults alter immune cell phe

91 These results have implications for understanding how fear spreads across semantically relat

92 The challenge of understanding how flexible meaning emerges in language c

93 Understanding how flies interact with the complex natura

94 Understanding how floral traits affect reproduction is k

95 Understanding how flowers form is an important problem i

96 systems implicated in reward could be key to understanding how food advertising drives food intake.

97 to serve as a tool for, among other things, understanding how function varies across individuals due

98 nderlying space-use patterns is important in understanding how future land-use may impact predator-pr

99 This study has implications for understanding how GBA1 mutations influence PD pathogenes

100 Understanding how gene expression programs are controlle

101 estry and hinder the comparable analysis for understanding how gene regulation is shaped through evol

102 Understanding how genes and experience work in concert t

103 derlying colour variation have been vital in understanding how genes can affect a phenotype.

104 Understanding how genes, drugs and neural circuits influ

105 nificant advances in the genetics of autism, understanding how genetic changes perturb brain developm

106 The research has widespread implications for understanding how genetic diversity impacts disease susc

107 Understanding how genetic variation affects gene express

108 Understanding how genetics influence mammographic featur

109 Understanding how gestation time and parturition are det

110 These studies establish a framework for understanding how glycocalyx layers with different thick

111 Understanding how glycosylation affects immunodominance

112 Understanding how glycosylation is dysregulated in the b

113 Understanding how habitat loss and fragmentation impact

114 Understanding how HCMV controls the microenvironment of

115 The significance of this research is in understanding how HCMV manipulates the host mitochondria

116 nscriptional memory provides a framework for understanding how heterozygous loss-of-function mutation

117 Mapping their distribution is key to understanding how his paintings have changed with time.

118 Understanding how HSF1 regulates gene repression is a cr

119 Understanding how human genetics influence infectious di

120 ies western gorillas may be a key system for understanding how humans have evolved the capacity for e

121 e networks, we pose a testable framework for understanding how hyper- versus hypo-engagement of these

122 Our findings provide a framework for understanding how innate sensory cues are processed to e

123 Understanding how integrins interact with signaling by T

124 D activation, which provides a framework for understanding how inter-subunit rearrangements drive cla

125 Understanding how intestinal microbiome traits influence

126 Our results provide an entry point for understanding how intracellular crowdedness functions as

127 blueprint of SC-niche crosstalk, as well as understanding how it becomes dysregulated, will undoubte

128 Natural gas is a key energy resource, and understanding how it forms is important for predicting w

129 Understanding how learned fear can be reduced is at the

130 Understanding how leukocytes are produced and how they c

131 soft materials, with broad implications for understanding how lipid diversity relates to biomembrane

132 These studies provide a new resource for understanding how macrophages shape their proteome to me

133 properties, which may provide some clues to understanding how melatonin protects against Abeta, and

134 Understanding how microbes metabolically communicate wit

135 culture biotechnological processes hinges on understanding how microbial ecosystems respond to distur

136 Understanding how migratory animals respond to spatial a

137 A framework is presented for understanding how misinformation shapes decision-making,

138 e morphological changes is critical to fully understanding how mitochondrial function contributes to

139 is a promising new tool that is critical for understanding how modulation of the Beclin 1-ATG14L inte

140 However, a gap has remained in understanding how molecular interactions with the nucleo

141 er is a key resource for insect survival and understanding how mosquitoes interact with water to cont

142 tion and cancer has led to rapid advances in understanding how mRNA modifications control gene expres

143 Understanding how mutant or hybrid FHR proteins, Factor

144 Thus, understanding how mutualisms persist remains an essentia

145 tectum has emerged as a prominent model for understanding how neural circuits control visually guide

146 Understanding how neural dynamics explain specific measu

147 CNS waste products, including Abeta, and for understanding how neuronal activity can modulate diurnal

148 As a step towards understanding how neuronal maturation is regulated, we s

149 proaches for tackling this question, and for understanding how new proteins and pathways are born.

150 Understanding how novel bioactive molecules generated wi

151 tabolism in vivo opens new opportunities for understanding how nutrient signals influence cellular an

152 Understanding how nutrients influence the microbiota and

153 Understanding how obesity alters the function of macroph

154 Understanding how obesity impacts early tumor growth and

155 heir extensive recurrence, and of ultimately understanding how odor representations are linked to per

156 Understanding how oncogenic mutations rewire regulatory-

157 n persist, motivating particular interest in understanding how opioid drugs initiate adaptive or mala

158 epidemics, there is an increased demand for understanding how opioid receptors can be allosterically

159 ntists have made considerable strides toward understanding how opioids act.

160 This review highlights recent progress in understanding how Orobanchaceae parasites attack their h

161 Understanding how parasites may evade these responses co

162 t and heterotypic buffering, that are key to understanding how pathological phase transitions relate

163 Consequently, understanding how people perceive trustworthiness from f

164 Understanding how people rate their confidence is critic

165 Specifically, we review progress toward understanding how people uncover the complex webs of rel

166 We describe recent advances in understanding how peptides are generated from non-canoni

167 biogenesis to propose and reframe models for understanding how peroxisomes are formed in cells.

168 Understanding how perturbations in metabolism are relate

169 This study provides a foundation for understanding how pharmacologically diverse and clinical

170 Understanding how phenotypic traits vary among populatio

171 Understanding how PLA2 inhibits lipid oxidation promoted

172 to a scarce plant macronutrient, which helps understanding how plant cells orchestrate root morphogen

173 Understanding how plant communities respond to temporal

174 rning these signaling pathways is crucial to understanding how plants function.

175 Understanding how plants grow and overcome challenges to

176 Thus, understanding how plants regulate nitrate uptake and met

177 signal transduction processes is crucial for understanding how plants sense and respond to environmen

178 Understanding the neural code requires understanding how populations of neurons code informatio

179 ecific motifs, providing a new framework for understanding how PP2A regulation drives cellular signal

180 n prenatal depression.SIGNIFICANCE STATEMENT Understanding how prenatal maternal depression impacts c

181 ajor challenge in synthetic polymers lies in understanding how primary monomer sequence affects mater

182 hological conditions, suggesting that deeper understanding how PRMT1 contributes to the coordinated e

183 Understanding how professional antigen-presenting cells

184 Implications for understanding how PS interacts with a highly heterogeneo

185 in radiographic kidney stone burden requires understanding how radiographic recurrence relates to sym

186 ve function is an important consideration in understanding how reproduction is regulated and necessit

187 Understanding how researcher observation modifies moveme

188 Understanding how RGF1 regulates the development of the

189 I process therefore serves as a paradigm for understanding how RNA-mediated recruitment of various pr

190 ponse to drought and propose a framework for understanding how root exudates influence ecosystem form

191 Understanding how SARS-CoV-2 enters human cells is a hig

192 ng reported here is an important step toward understanding how signal compartmentalization contribute

193 Understanding how signals are generated and how acoustic

194 addition, there has been little progress in understanding how sleep EEG in different brain regions r

195 and computational progress has been made in understanding how small proteins fold, research on large

196 These findings have implications for understanding how social biases filter our perception of

197 s and other soil properties is essential for understanding how soils will respond to land management

198 Understanding how somatic mutations accumulate in cancer

199 und the world, underlining the importance of understanding how species distributions are shaped by th

200 Understanding how species have responded to past climate

201 Understanding how species ranges will respond in a chang

202 Understanding how splicing events are coordinated across

203 he features of this activity are crucial for understanding how spontaneous activity influences circui

204 actively dividing initials, is important for understanding how stem cell divisions are maintained.

205 Understanding how stimulation of different brain areas i

206 These data provide a mechanistic basis for understanding how stress-activated kinases can sense dis

207 queen bees, with important consequences for understanding how stresses impact different types of ind

208 Understanding how stressors combine to affect population

209 w ruthenium complexes provide a platform for understanding how strong trans effect ligands and redox-

210 Understanding how structural connectivity affects the in

211 3D) structure of the genome with the goal of understanding how structures may affect gene regulation

212 Understanding how such complex structures arose is cruci

213 lution structural information is critical to understanding how such designs function.

214 Understanding how such interactions persist in a thermal

215 Understanding how such microscopic structural modificati

216 terns of G x E for multiple populations, and understanding how such patterns arise, can test mechanis

217 of tendons and ligaments form the basis for understanding how such tissues sense and respond to mech

218 Understanding how supervisors regulate autonomy during s

219 Understanding how the brain encodes and processes inform

220 Understanding how the brain engages the periphery at tim

221 Our findings are crucial for understanding how the brain regulates information flow a

222 omparative approach provides new avenues for understanding how the brain suppresses opposing sensory

223 While much work has focused on understanding how the brain's reward circuitry influence

224 There is great interest in understanding how the cancer stem cell population may be

225 ion at the NMJ in ALS.SIGNIFICANCE STATEMENT Understanding how the complex interplay between neurons

226 rise requires detecting patterns in vivo and understanding how the components of an odor, which are n

227 tubules (MTs) are nucleated is essential for understanding how the cytoskeleton assembles.

228 ing 20 years include substantial progress in understanding how the different inflammasomes are activa

229 Understanding how the distinct cell types of the shoot a

230 A and GliR production, which is important in understanding how the duration of Shh signaling regulate

231 innate immunity as a first line of defence, understanding how the epithelium responds to microbial a

232 Recent developments in understanding how the functional phenotype of the innate

233 one of the main targets of oxidative damage, understanding how the genetic changes of different strai

234 ere we propose a comprehensive framework for understanding how the interactions between genes, protei

235 eement that, absent a complete "parts list," understanding how the nervous system processes informati

236 Understanding how the niche performs its functions may g

237 Understanding how the organ of Corti vibrates because of

238 recent years there has been good progress in understanding how the parasites prepare for transmission

239 s modeling and experimental study focused on understanding how the size of a cell determines its abil

240 A key knowledge gap is understanding how the structure and stability of such hy

241 Understanding how the surface structural changes determi

242 Understanding how the timing and nature of such experien

243 hlight the relevance of this ongoing work to understanding how the virus might alter brain function m

244 transcription, with direct implications for understanding how their co-expression deregulates transc

245 field focused on identifying condensates and understanding how their physical properties and regulati

246 Understanding how their synthesis is regulated is crucia

247 originally from wild organisms and therefore understanding how these compounds evolve among different

248 Yet, understanding how these hierarchies arise due to the ope

249 and SL signaling, laying the foundation for understanding how these highly similar pathways evolved

250 However, knowledge gaps remain in understanding how these important types of proteins are

251 from a variety of brain regions, progress in understanding how these inputs contribute to SC-dependen

252 Understanding how these modifications arise will inform

253 Understanding how these normally restorative networks be

254 ulate ILC2 population size will be useful in understanding how these pathways could be targeted to tr

255 Understanding how these unconventional quasiparticles pr

256 Understanding how these viruses evolve in their natural

257 and leukemia re-growth is critical to better understanding how they are regulated.

258 se viral EMPs and discuss recent advances in understanding how they contribute to the epigenetic cont

259 lement motor responses to sensory inputs but understanding how they evolved has been hindered by lack

260 r-converting conformations which are key for understanding how they fold and function.

261 hese maturation-inducing hormones (MIHs) and understanding how they initiate the largely conserved ma

262 Understanding how this atypical chemokine receptor allel

263 s for the biosynthesis of the cell wall, and understanding how this cell wall is integrated into the

264 Understanding how this coordination occurs will shed lig

265 Understanding how this decision is made has major implic

266 Understanding how this histone modification 'senses' ext

267 , they provide a revisionary perspective for understanding how this individual difference may predisp

268 cross the membrane that likely also provides understanding how this is achieved by DsbD as well.

269 NOCAP aglycone in hand, the stage is set for understanding how this PKS and associated tailoring enzy

270 t the influence of immunological memory, and understanding how this process is regulated will be crit

271 Although progress has been made in understanding how this works, little is known about the

272 us (eQTL) analyses have been instrumental in understanding how thousands of single nucleotide variant

273 Understanding how to assess and modulate microglia-neuro

274 uenza virus and may ultimately be useful for understanding how to control a virus that causes signifi

275 catalysis design, and as a step toward this, understanding how to control the charge state of ionizab

276 Our work provides a framework for understanding how to coordinate moving sensors on a movi

277 Understanding how to counter this bottleneck may improve

278 Understanding how to decipher textural details would aff

279 o boost crop production over coming decades, understanding how to efficiently manage recovery of fert

280 Understanding how to manage N inputs to identify the pra

281 This has led to intense interest in understanding how to manage patients with heart failure

282 i-parasite systems provide opportunities for understanding how to mitigate the spread of infectious d

283 Understanding how to optimize it during baking could be

284 study provides a critical starting point for understanding how to optimize the virtual visit experien

285 Understanding how to promote organ and appendage regener

286 Understanding how transcription of these repeats occurs

287 nd these studies offer immense potential for understanding how transcriptional changes within an indi

288 on of birds, and highlight the importance of understanding how transition zone dynamics impact respon

289 ions contribute to invasion is essential for understanding how tumors metastasize.

290 These results provide a framework for understanding how two functional effects, GRK5 activatio

291 provide a particularly tractable system for understanding how uncertainty, driven by environmental v

292 dly, this study highlights the importance of understanding how underlying immune disorders including

293 Understanding how vaccine propensity is affected by soci

294 Thus, understanding how variants of IFI16 and AIM2 contribute

295 In particular, understanding how variation in HLA may affect the course

296 or maximal cytotoxic capacity is critical to understanding how viral clearance might be mediated by m

297 ciceptor sensitization with implications for understanding how viral infections promote pain and can

298 into meaningful episodes is a vital part of understanding how we view and reconstruct the rich detai

299 ns, major strides have recently been made in understanding how, why, and when vertebrate populations

300 Understanding how zebrafish are able to develop normally