ライフサイエンスコーパス: cell biology

1 portant for our mechanistic understanding of cell biology.

2 uman fetal testis and alteration of the germ cell biology.

3 autoinhibitory mechanisms in Zap70 impacts T cell biology.

4 cing our knowledge of membrane materials and cell biology.

5 efines our understanding of AS complexity in cell biology.

6 perspective on IL4I1 as a key regulator of B cell biology.

7 elds such as cancer, developmental, and stem cell biology.

8 disciplines that range from food science to cell biology.

9 pathway remains a central paradigm of modern cell biology.

10 remodeling in fundamental and translational cell biology.

11 involved in amino acid metabolism in immune cell biology.

12 o address questions in both connectomics and cell biology.

13 position their proteins is a key problem in cell biology.

14 nding both viral replication and fundamental cell biology.

15 marker, and peculiarly in the field of stem cell biology.

16 epen our understanding of animal origins and cell biology.

17 rdinated is one of the unsolved mysteries of cell biology.

18 probes is a widely-used method for assessing cell biology.

19 ght on the role of PML in senescence or stem cell biology.

20 differentiation is a challenging question in cell biology.

21 rovide examples of its power when applied to cell biology.

22 nd mechanotransduction events fundamental to cell biology.

23 or CREBBP/EP300 bromodomains in regulatory T cell biology.

24 d for better understanding of Vdelta2((+)) T-cell biology.

25 d that integrins play a decisive role in Tfh cell biology.

26 complexes underlies fundamental processes in cell biology.

27 action could provide new insights into tumor cell biology.

28 function as epigenetic reprogrammers in stem cell biology.

29 ltimately facilitate circadian regulation of cell biology.

30 stems based on cardiac cell culture and stem cell biology.

31 ly unknown or poorly described roles in beta-cell biology.

32 s a critical role in the regulation of islet cell biology.

33 evolution of stochastic mtDNA populations in cell biology.

34 ubiquitin regulates virtually all aspects of cell biology.

35 quences (3D+t) are critical for quantitative cell biology.

36 equirement for SPPL3 protease activity in NK cell biology.

37 mouse strain will assist in studies of iNKT cell biology.

38 miR-24 and miR-27 reveals regulators of Th2 cell biology.

39 eptor proteins rule fundamental processes in cell biology.

40 are poorly understood in the context of the cell biology.

41 ycosyltransferase are thus fundamental for T cell biology.

42 necrosis factor receptor 2 (TNFR2) in T reg cell biology.

43 lantation development to instruct human stem cell biology.

44 mportant role in tissue homeostasis and stem cell biology.

45 modeling of individual molecules to that of cell biology.

46 rch concerning Heart-on-a-chip based on stem cell biology.

47 Light microscopy is a key tool in modern cell biology.

48 tribute to in vitro model systems of cardiac cell biology.

49 the importance of these loci in B cell and T cell biology.

50 eins are needed for the study of prokaryotic cell biology.

51 ntramembrane aspartyl protease, in murine NK cell biology.

52 of the various immunosuppressive drugs on B cell biology.

53 using pathogens to discover disease-related cell biology.

54 ontrol of organ size, regeneration, and stem cell biology.

55 ells (DCs) in regulating organ-specific Treg cell biology.

56 promising alternative tool for studying beta cell biology.

57 cientist Award from the American Society for Cell Biology.

58 om the endosome is a fundamental question in cell biology.

59 nto knowledge of both developmental and stem cell biology.

60 ines as diverse as atmospheric chemistry and cell biology.

61 ogy, pharmacology, cancer diagnosis and stem cell biology.

62 er new insights in endothelial and RhoGTPase cell biology.

63 ocess, and will thus be widely applicable in cell biology.

64 tor, with potential roles in cancer and stem cell biology.

65 this parasite to extend its reach into host cell biology.

66 abetes, drug screening and the study of beta-cell biology.

67 is a testament to its indispensable role in cell biology.

68 cells has revealed fundamental principles of cell biology.

69 ion in fields such as developmental and stem cell biology.

70 ion for gene-repression applications in stem cell biology.

71 rface of tumor cells is essential for cancer cell biology.

72 sform the types of investigation possible in cell biology.

73 ts are diverse, yet with a poorly understood cell biology.

74 ificance for normal PCD and malignant plasma cell biology.

75 roughput sequencing, cell sorting and single cell biology.

76 duced transcription as well as breast cancer cell biology.

77 Hypoxic stress has a strong impact on tumor cell biology.

78 and for Galphai2/3 in multiple aspects of T cell biology.

79 model that recapitulates HLA-E-restricted T cell biology.

80 on their impact on effector vs regulatory T-cell biology.

81 l is an essential, but challenging aspect of cell biology.

82 .B. Wilson Medal of the American Society for Cell Biology.

83 and complex involvement of 531 locus in the cell biology.

84 le in our increasingly deep understanding of cell biology.

85 f cells and change our current perception of cell biology.

86 on from stem cells represent a revolution in cell biology.

87 ellular dynamics add to our understanding of cell biology.

88 processes, playing a role in every aspect of cell biology.

89 ously has only been associated with lymphoid cell biology.

90 zons for structural studies in molecular and cell biology.

91 have provided insights into many aspects of cell biology.

92 analysis positions genes known to affect NK cell biology along the specific stages of NK cell functi

93 The findings must then be translated into cell biology analyses to elucidate the mechanisms throug

94 le in fields as diverse as developmental and cell biology, anatomical science, biophysics and neurosc

95 lies, (2) design rules of such assemblies in cell biology and (3) molecular-level engineering of self

96 f human mast cells for investigation of mast cell biology and a preclinical model of passive cutaneou

97 Pase with reported activities in endothelial cell biology and angiogenesis, metastatic melanoma, and

98 ology of the Cell Ontology based on standard cell biology and biochemistry textbooks and review artic

99 erging field with potential utility in basic cell biology and biological therapeutics.

100 Up to present, SPR application in stem cell biology and biomedical sciences was underused.

101 we anticipate will be of broad importance in cell biology and biomedicine.

102 es to bear in answering exigent questions in cell biology and biomedicine.

103 Here, using integrated cell biology and biophysical approaches, we determined t

104 It is a fundamental question in cell biology and biophysics whether sphingomyelin (SM)-

105 en Sca-1 is implicated in murine cancer stem cell biology and breast cancer models, but the role of i

106 This tool can be readily adopted in cell biology and cancer research to uncover, to our know

107 We also discuss how progress in stem cell biology and cellular reprogramming has enabled exci

108 siological microenvironments in experimental cell biology and clinical studies.

109 transgenic mouse studies took the fields of cell biology and dermatology by storm in providing the f

110 everything from nutrition and metabolism to cell biology and development in eukaryotes, bacterial re

111 disease mutations, can provide a window into cell biology and disease pathogenesis.

112 sizing the significance of smORF peptides in cell biology and disease.

113 Invasion processes are ubiquitous throughout cell biology and ecology.

114 A scientist experienced in molecular cell biology and embryology can reproduce this protocol

115 Advances in stem cell biology and engineering allow for the generation of

116 to facilitate further understanding of stem cell biology and engineering of stem cells for therapeut

117 findings have important implications for Tfr cell biology and for improving vaccine efficacy by formu

118 our understanding of intestinal mesenchymal cell biology and function could lead to new strategies t

119 of long term fingolimod use on Th17 and Treg cell biology and general health in MS patients.

120 eloping a comprehensive understanding of the cell biology and genetics of spermatogenesis is difficul

121 ndocytosis (CME) is a fundamental process in cell biology and has been extensively investigated over

122 r findings offer new insights into mucosal T cell biology and have important implications in vaccine

123 important roles in normal hematopoietic stem cell biology and in the development of both acute and ch

124 ction networks are critical to understanding cell biology and interpreting genomic data, but challeng

125 ns in areas that are relevant to fundamental cell biology and medical research.

126 ukaryotic gene family of growing interest in cell biology and medicine.

127 her functions of complex protein networks in cell biology and medicine.

128 Using cell biology and molecular dynamics simulations, we aime

129 indicator with nanomolar affinity for use in cell biology and neuroscience research.

130 excellent preparations to examine pancreatic cell biology and pathobiology and could help screen for

131 a role for lncRNAs in vascular smooth muscle cell biology and pathology.

132 Circadian rhythms organize many aspects of cell biology and physiology to a daily temporal program

133 Here we report on a combined cell biology and quantitative fluorescence study to inve

134 ons of KLFs in mammalian embryogenesis, stem cell biology and regeneration, as revealed by studies of

135 Rapid advances in stem cell biology and regenerative medicine have opened new o

136 exist in the roles of these genes in kidney cell biology and renal diseases.

137 nsight into the regulation of TXNIP and beta-cell biology and reveal novel links between proinflammat

138 wo recent papers published in The Journal of Cell Biology and Science have begun to shed light on the

139 Because taste organs are dynamic in cell biology and sensory function, homeostasis requires

140 unappreciated aspects of Blimp1's role in T cell biology and shed light on the intricate mechanisms

141 ncluding dynamic control of cell metabolism, cell biology and synthetic gene circuits.

142 triguing implications for understanding stem cell biology and the evolution of pathogen resistance.

143 Improved understanding of human T-cell biology and the influence of innate cytokines on T-

144 We then used biochemistry, cell biology and the model organism Drosophila to provid

145 However, the study of iNKT cell biology and the therapeutic applications of these c

146 f bupivacaine on ovarian and prostate cancer cell biology and the underlying molecular mechanisms.

147 ended to serve as an introduction to adipose cell biology and to familiarize the reader with how thes

148 in areas from human genetics to physiology, cell biology, and biophysics has cast light on the speci

149 applications of DeBias in different areas of cell biology, and demonstrate that the global bias encap

150 , advances in plant development, physiology, cell biology, and genetics have relied heavily on the mo

151 from chemical biology, proteomics, genomics, cell biology, and genetics that have propelled new disco

152 ed our approach to biomedical research, stem cell biology, and human genetics.

153 ant TCR and Ca(2+)-dependent regulators of T cell biology, and in this article we demonstrate a major

154 r developmental biology, retinal physiology, cell biology, and other investigations, has been limited

155 its fundamental importance to biotechnology, cell biology, and pharmaceutics.

156 CD40L plays an important role in malignant B cell biology, and we found increased Erk phosphorylation

157 se mutations using genomic-, bioinformatic-, cell biology-, and physiology-based functional assays.

158 ents to antibodies for various molecular and cell biology applications.

159 ability of the combinatorial platform toward cell-biology applications is demonstrated by screening t

160 lecule fluorescence imaging and quantitative cell biology approaches to reveal the interplay between

161 Using cell biology approaches with primary and THP1-derived ma

162 Using cell biology approaches, we found that calpain-1 was act

163 By combining proteomics, bioinformatics, and cell biology approaches, we found that the E3 ubiquitin

164 point receptors in T cell and natural killer cell biology are just beginning to be uncovered, accumul

165 tributions to epigenetic regulation and stem cell biology are less explored.

166 Although many aspects of Tfr cell biology are still unclear, recent data have begun t

167 lles [4, 5, 12, 14] is an essential goal for cell biology as broad concepts or rules may be establish

168 We illustrate the effect of IL-33 on mast cell biology at the single-cell level by showing that IL

169 orresponding miRNA dysregulation affects the cell biology at the systems level.

170 Using an experimental approach combining cell biology, biochemistry, and mass spectrometry, we sh

171 logy (changes in organ function, morphology, cell biology, biochemistry, immunology, and circulation)

172 icroscopy that helped answer questions about cell biology but also by clever genetic manipulations th

173 Mechanics play a fundamental role in cell biology, but detecting piconewton (pN) forces is ch

174 MHC) restriction is a fundamental tenet of T cell biology, but the underlying mechanisms have remaine

175 These tags have revolutionized cell biology by allowing nearly any protein to be imaged

176 s, FcmuR serves as a critical regulator of B cell biology by constraining the transport and cell-surf

177 are providing a new lexicon of developmental cell biology by revealing heterogeneities in seemingly u

178 th the hope that further breakthroughs in NK cell biology can extend treatments to other cancers.

179 anding of this process and its importance in cell biology, cell death through necrosis has only recen

180 mart algorithms), alongside advances in stem cell biology, cell encapsulation methodologies, and immu

181 experimental spatial proteomics data for the cell biology community.

182 understand how iron exposure influences stem cell biology could be enhanced by establishing platforms

183 hila melanogaster is a widely used model for cell biology, development, disease, and neuroscience.

184 , stock centers, databases and online tools, cell biology, development, hormones, plant immunity, sig

185 The emerging understanding of how SCI cell biology differs across lesion compartments is funda

186 Cell biology differs between traditional cell culture an

187 cellular transport is a central mechanism in cell biology, directed by a limited set of naturally occ

188 KLFs have diverse functions in stem cell biology, embryo patterning, and tissue homoeostasis

189 sights into mammalian developmental and stem cell biology, emphasizing the analytical approaches that

190 lls are one of the most fundamental steps in cell biology experiments, and are typically achieved thr

191 or types based on observer classification of cell biology features including morphology, stemness, an

192 There is a growing interest in modern cell biology for methods enabling force measurements in

193 aphic processes have been widely explored in cell biology for the generation of analytical substrates

194 Cell Symposium to discuss 'Quantitative stem cell biology: from molecules to models'.

195 Understanding cell biology greatly benefits from the development of ad

196 Its cell biology has been studied for many decades and it ha

197 s, a new subdiscipline of computational stem cell biology has emerged that synthesizes the modeling o

198 The field of single-cell biology has morphed from a philosophical digression

199 The role of ROS in stem cell biology has not been fully illustrated and understo

200 Human genetics and stem cell biology have advanced neurobiology for neurodevelop

201 Recent developments in stem cell biology have generated much excitement for beta-cel

202 Recent advancements in the field of stem cell biology have provided a source of human-based model

203 t less is known about these basic aspects of cell biology in early-diverging Apicomplexan parasites,

204 One of the more important surprises in cell biology in the last two decades is the extent to wh

205 ovides a distinct strategy for investigating cell biology in vivo and enables continuous evolution of

206 The number of studies in cell biology in which quantitative models accompany expe

207 pproaches and engineering principles in stem cell biology, including culture systems, preclinical mod

208 many facets of Foxp3(+) regulatory T (Treg) cell biology, including development and function, the ce

209 as important regulators of key processes in cell biology, including development, differentiation, an

210 ble new insight into multiple facets of Treg cell biology, including their stability, homing, and fun

211 ogies for health-related genomics and single-cell biology, inorganic and organic nanoparticles for bi

212 tential for future integration of eukaryotic cell biology into evolutionary and ecological studies.

213 esearch field spanning from biochemistry and cell biology into nutritional sciences, environmental me

214 Cell biology investigations showed that miR-23b regulate

215 A long-standing question in cell biology is how endocytic vesicles and tubules detac

216 An open question in cell biology is how the general intracellular transport

217 An unsolved mystery in cell biology is how unusually large secretory cargoes ar

218 humans, the role of DNA methylation in mast cell biology is not understood.

219 A major goal in cell biology is to bridge the gap in our understanding o

220 A major goal in stem cell biology is to gain a sufficient understanding of ge

221 A current challenge of cell biology is to investigate molecular interactions in

222 One of the major challenges of modern cell biology is to understand how cells are assembled fr

223 A fundamental problem in cell biology is to understand how spatial information is

224 he role of cytokines in normal and malignant cell biology is well established, many of the molecular

225 Reporting recently in Nature Cell Biology, Lu et al. (2015) identify two Eps15-homolo

226 seases, however the vital role GSK3 plays in cell biology makes the clinical use of GSK3 inhibitors p

227 Consistent with our cell biology measurements, we observed a significant red

228 portant ramifications for the study of basic cell biology mechanisms, as well as for the ways in whic

229 uilding on the explosive growth in omics and cell biology methods have facilitated the in-depth analy

230 selected for the great honor of the Women in Cell Biology Mid-Career Award for Excellence in Research

231 and Marburg and the Institute of Anatomy and Cell Biology, Munich, was held in September 2016 in Muni

232 In a recent paper in Nature Cell Biology, Nance and colleagues have discovered an un

233 ral role, advancing our understanding of the cell biology of Alzheimer's disease.

234 RAP1) and ERAP2 is an important event in the cell biology of antigen presentation.

235 hropod vector cells in investigations of the cell biology of arbovirus transmission and entry into ma

236 rt due to large gaps in our knowledge of the cell biology of astrocytes and the mechanisms they use t

237 lator of the cytoskeleton, reveal unexpected cell biology of branch-specific axon plasticity and unde

238 will be useful to probe the biochemistry and cell biology of cAG signaling in diverse bacteria.

239 s in migrating cells and their impact on the cell biology of collective and individual cell migratory

240 We discuss the classic cell biology of MHC-II and various perturbations.

241 We hope to raise awareness that the cell biology of miRNAs holds the key to a full understan

242 We examined the cell biology of MNGC formation and cell death.

243 Here, we have re-investigated the cell biology of PlsX and determined that the enzyme is u

244 sirable in mechanistic investigations of the cell biology of ribosome dynamics.

245 My laboratory is interested in the cell biology of the synapse.

246 toward understanding the basic molecular and cell biology of these neglected pathogens has a high pro

247 A recent study provides new insight into the cell biology of this phenomenon.

248 Recent advances in genetics and stem cell biology offer new prospects for cell-based modeling

249 -endoplasmic reticulum (ER) juxtaposition in cell biology often relied upon the exploitation of Mitof

250 ic manner and function in various aspects of cell biology, often as key regulators of gene expression

251 m cell of biological disciplines." Genetics, cell biology, oncology, immunology, evolutionary mechani

252 A deeper understanding of cancer cell biology, particularly altered cancer cell metabolis

253 y 24 clusters regulate multiple aspects of T cell biology, particularly helper T (Th) 2 immunity.

254 of developmental signaling pathways from the cell biology perspective.

255 bilayers is one of the central processes in cell biology, playing a key role in endocytosis, exocyto

256 Many quantitative cell biology questions require fast yet reliable automat

257 nifying theme in embryonic development, stem cell biology, regeneration, and cell competition.

258 of MR1 Ag presentation and MR1-restricted T cell biology remain unknown, and the ubiquitous expressi

259 gnificance of these distal structures, their cell biology remains poorly characterized, impeding our

260 However, the precise role of ZNF750 in SCC cell biology remains unclear.

261 rginine methyltransferase with roles in stem cell biology, reprograming, cancer and neurogenesis.

262 mbryos, and show how TLS-SPIM can facilitate cell biology research in multicellular specimens by stud

263 lls have long been a staple of molecular and cell biology research.

264 copy has long been an indispensable tool for cell biology research.

265 ally advantageous tool of broad relevance to cell biology researchers within both discovery-based and

266 Reporting in Nature Cell Biology, Saad et al. (2017) identify reversible agg

267 e American Society for Cell Biology Women in Cell Biology Sandra Masur Senior Award recognizes leader

268 17), along with Wang et al. (2017) in Nature Cell Biology, show how PAR protein oligomerization can d

269 eration as an underlying reference model for cell biology studies that investigate dynamic processes

270 tion about different biological processes in cell biology studies.

271 ycle has been shown to be a powerful tool in cell-biology studies.

272 to be a much more broadly used principle in cell biology than previously thought.

273 ontrast to these methods in biochemistry and cell biology that are usually population-averaged and no

274 el molecular link between HIF2alpha and Club cell biology that can be regarded as a new HIF2alpha-dep

275 r improved diagnostic tests, effects on host cell biology that contribute to the pathogenesis of infe

276 However, the neuronal cell biology that underlies axon regeneration is incompl

277 g an in vitro liposome penetration assay and cell biology, that bluetongue virus (BTV), an archetypal

278 tracing for two basic assumptions in Schwann cell biology: that myelin and Remak cells generate the e

279 is review addresses a developing theme in NK cell biology: that NK-activating ligands on cells, and t

280 Yet, despite their importance in cell biology, the physical structure of MTOCs is poorly

281 died AS in a powerful in vivo model for stem cell biology, the planarian Schmidtea mediterranea.

282 In cell biology, the standard method for measuring cell-sca

283 Given its central role in cell biology, there is significant interest in studying

284 g pathway that plays important roles in stem cell biology, tissue homeostasis, and cancer development

285 ere we use affinity proteomics, genetics and cell biology to interrogate cilia: poorly understood org

286 embryonic development and for applying stem cell biology to regenerative medicine and disease modeli

287 study of cancer biology, but more broadly in cell biology, to capture the full range of stochastic va

288 hway is likely to have significant impact in cell biology under both normal and abnormal conditions.

289 the set of "model" species used commonly for cell biology was limited to a small number of well-under

290 mploying molecular dynamics, mutagenesis and cell biology, we identify two distinct allosteric signal

291 s), which function as key regulators of beta-cell biology, we investigated the impact of coxsackievir

292 Using principles from evolutionary cell biology, we reason that the transition to multicell

293 he impact of S1P1 signaling on Th17 and Treg cell biology, we specifically deleted S1P1 in Th17 and T

294 d targets not previously associated with Th2 cell biology which regulated IL-4 production in unbiased

295 Here, we review SCI cell biology, which varies considerably across three dif

296 We review here aspects of plasma cell biology with an emphasis on recent studies and the

297 s are critical for exploring pancreatic beta cell biology with the Cre/LoxP approach.

298 ef introduction to using light microscopy in cell biology, with particular emphasis on factors to be

299 The American Society for Cell Biology Women in Cell Biology Sandra Masur Senior A

300 ese nanoscale forces is a major challenge in cell biology; yet such measurement is essential to the u