ライフサイエンスコーパス: cell biology

1 ism in animal body plan development and stem cell biology.

2 re direction is the noninvasive study of ASD cell biology.

3 key outstanding question of systems and stem cell biology.

4 ng researcher, mentor, and eminent leader of cell biology.

5 o regenerate, as well as innovations in stem cell biology.

6 ed by applying the expanding knowledge of NK cell biology.

7 plications but also broaden our knowledge of cell biology.

8 rately reflect our understanding of memory T cell biology.

9 has become a quintessential imaging tool in cell biology.

10 e process, rather than separate facets of NK cell biology.

11 stigates the role centrosomes play in cancer cell biology.

12 oved properties is essential to chemical and cell biology.

13 age and an important regulator of crypt stem cell biology.

14 o explain the wider role of Ambra1 in cancer cell biology.

15 bution and discuss their impact on microbial cell biology.

16 mary gland development as well as epithelial cell biology.

17 ell-studied and well-understood processes in cell biology.

18 ar network morphology as well as endothelial cell biology.

19 function of Norrin in regulating cancer stem cell biology.

20 lar mechanisms through which LMP2A affects B cell biology.

21 tein antigens may help decipher underlying B cell biology.

22 focus attention on a major new direction in cell biology.

23 h grant and fellowship applications in basic cell biology.

24 s important roles in the field of structural cell biology.

25 ey insights into both viral pathogenesis and cell biology.

26 dients, electrocatalysis, nanotechnology and cell biology.

27 n underexplored compared with other areas of cell biology.

28 sms of action of circRNAs, let alone in stem cell biology.

29 ental model for the study of epithelial stem cell biology.

30 ng implications for developmental and cancer cell biology.

31 he cell nucleus has become a new frontier in cell biology.

32 aintaining mitochondrial plasticity for stem cell biology.

33 signaling molecules is critical in studying cell biology.

34 namely, bacterial proteins that pervert host cell biology.

35 ansformed our ability to elucidate mammalian cell biology.

36 ently lead to novel findings concerning host cell biology.

37 ons and their effects on gene expression and cell biology.

38 a technology that has revolutionised single-cell biology.

39 interactions mediating adaptive gammadelta T cell biology.

40 d-Career Award from the American Society for Cell Biology.

41 ed to enhance systems-level understanding of cell biology.

42 l as their general relevance to the field of cell biology.

43 attracting scientists from multiple areas of cell biology.

44 nism that is fundamentally important to germ cell biology.

45 d support for underrepresented minorities in cell biology.

46 ino acids also regulates critical aspects of cell biology.

47 onths) provides important insights into beta-cell biology.

48 ic diversity and offer future challenges for cell biology.

49 hibition and provides insights into CML stem cell biology.

50 pursue fundamental questions in evolutionary cell biology.

51 analytics critical to progress the field of cell biology.

52 beginnings of mass spectrometry meeting with cell biology.

53 plexity to virtually modulate all aspects of cell biology.

54 families are important regulators of Schwann cell biology.

55 ontributing to an understanding of bacterial cell biology.

56 ultiple levels of interfacing with mammalian cell biology.

57 proteins and the implications for bacterial cell biology.

58 evolutionary biology concerns the link with cell biology.

59 verse biochemical and physical properties in cell biology.

60 ing proteins (RBPs) and RNAs are critical to cell biology.

61 ecting the functions of Fzd subtypes in stem cell biology.

62 ng of the widespread roles of condensates in cell biology.

63 crobiology, immunology, hematology, and stem cell biology.

64 ormal subjects, adding great interest in RPE cell biology.

65 hanisms in many areas of research, including cell biology.

66 ch has greatly advanced our understanding of cell biology.

67 is known about the role of alpha2beta1 in NK cell biology.

68 answer broader questions in evolutionary and cell biology.

69 Thus I was lucky to join the field of T cell biology almost at its beginning, when knowledge abo

70 impacts of cryoET for integrative structural cell biology analyses of viruses.

71 and demonstrations to practical and familiar cell biology analyses to demonstrate that FRM should be

72 biological materials and facilitating novel cell biology analysis.

73 A better understanding of adipose stem cell biology and adipogenesis may lead to novel strategi

74 relate to our current understanding of CAR T cell biology and approaches to enhance the clinical effi

75 is poised to make major new contributions to cell biology and become more fully integrated into our u

76 In this study, using cell biology and biochemical approaches, along with immu

77 nstitute a valuable new tool for research in cell biology and biomedicine.

78 n single-molecule/organelle manipulation and cell biology and can ultimately enable a better understa

79 , yet this dual classification confounds the cell biology and clinical literatures.

80 e CH genes are key regulators of neural stem cell biology and converge in human transcriptional netwo

81 d fluorescence microscopy to explore chytrid cell biology and development during its life cycle.

82 Understanding urothelial stem cell biology and differentiation has been limited by the

83 and validating central findings in different cell biology and disease models of senescence.

84 cuss other implications of these pathways in cell biology and disease.

85 Despite its well characterized role in stem cell biology and during early development, the role of P

86 nclusion will promote growth in the field of cell biology and enable scientists to assess and assume

87 new tool for the study of TRPM2 function in cell biology and enhances our understanding of TRPM2 in

88 nucleotide mutations is critical for probing cell biology and for precise detection of disease.

89 Specifically, our cell biology and gene expression studies have revealed t

90 plays important roles in various aspects of cell biology and homeostasis outside the neural system.

91 dvances in our understanding of Blastocystis cell biology and host-parasite interactions, a genetic m

92 tep toward unraveling important questions in cell biology and human health.

93 ect to be considered in comprehending cancer cell biology and its response to therapeutic interventio

94 Although differences in cell biology and maturation exist between MDS and AML se

95 not only to the understanding of eukaryotic cell biology and metabolism, but also to agricultural ef

96 logists to study the developmental genetics, cell biology and morphogenesis that underlie the incredi

97 tion for new avenues of inquiry into GI stem cell biology and of OSTERIX's therapeutic and diagnostic

98 ntal questions about human development, stem cell biology and organ regeneration.

99 ex vivo Recent advances in the field of stem cell biology and organoid culture systems allow the expa

100 Increased understanding of the leukemic cell biology and pathogenesis, and the ways they evade t

101 thus, helps illuminate the interplay between cell biology and physics in regulating morphogenesis.

102 of reducing FAD2 activity on the metabolism, cell biology and physiology of oilseed crop plants.

103 riment amount to a data revolution in single-cell biology and pose unique data science problems.

104 m by which bacterial effectors modulate host cell biology and provide an invaluable tool for future s

105 e findings address a long-standing enigma in cell biology and provide targets to engineer or select f

106 can be interrogated to understand pancreatic cell biology and provides a crucial reference set for co

107 ew, we present an overview of classical mast cell biology and put these concepts into the context of

108 e a number of potential applications in stem cell biology and regenerative medicine, including precis

109 ogether with important advances in genetics, cell biology and spectroscopy.

110 ce to understand many questions in both germ cell biology and stem cell biology fields.

111 indicate that Yap plays critical roles in T-cell biology and suggest that Yap inhibition improves T-

112 nd single-molecule biophysics, as well as in cell biology and synthetic biology.

113 specification and limb morphogenesis, tendon cell biology and tenogenesis, growth factor signalling,

114 t might have a long-term effect on dendritic cell biology and that genetic tools that specifically ta

115 id both the understanding of molecular-scale cell biology and the design of synthetic machines.

116 oiesis has long served as a paradigm of stem cell biology and tissue homeostasis.

117 Tricladida, are experimental models of stem cell biology and tissue regeneration.

118 ls to study the molecular mechanisms of stem cell biology and tissue regeneration.

119 e use our current understanding of male germ cell biology and TLR function as a starting point to exp

120 cer cycle to highlight recent advances in NK cell biology and to discuss the progress and problems of

121 s and challenges in elucidating this dynamic cell biology and toward delineating the cellular basis o

122 elle motility will aid in dissecting spatial cell biology and transport-related diseases.

123 c cellular and developmental processes, stem cell biology and tumorigenesis.

124 Our prior in vitro work indicated that the cell biology and type IV secretion system (T4SS) depende

125 genetically tractable model for comparative cell biology and understanding the evolution of fungi an

126 Herein, using cell biology and various biochemical approaches, we esta

127 -TBSV activity could be powerful reagents in cell biology and virus-host interaction studies.

128 e findings will advance our knowledge in 293 cell biology and will enrich the understanding of radiat

129 enetics, bioinformatics, structural biology, cell biology, and biochemistry, we have investigated the

130 Progress in our understanding of physiology, cell biology, and biomanufacturing over the past several

131 bining microbial ecology, immunology, cancer cell biology, and computational biology - a systems biol

132 and promotion of proliferation, cancer stem cell biology, and epithelial-to-mesenchymal transition.

133 nts present with an altered unconventional T cell biology, and further investigations will be require

134 here, we used a combination of biochemical, cell biology, and genetics approaches to show that AtVAP

135 In this article, we review the genetics, cell biology, and immunology of pancreatitis with a focu

136 s of microalgae in the context of evolution, cell biology, and metabolic adaptations.

137 iling, molecular and biochemical techniques, cell biology, and reagents from genetically modified mur

138 trate that MLK3 plays an important role in T cell biology, and targeting MLK3 could serve as a potent

139 New cell biology approaches have indicated that damaged DNA

140 Proteomics, bioinformatics, and cell biology approaches were combined with animal models

141 ration sequencing technologies and molecular cell biology approaches will usher in the next generatio

142 hy, and molecular modeling, as well as using cell biology approaches, here we uncovered that the T507

143 orescent sensors, and optogenetics tools for cell biology are advancing.

144 Treg ligands can be used to manipulate Treg cell biology are unknown.

145 The American Society for Cell Biology (ASCB) is a community dedicated to helping

146 honored to receive the American Society for Cell Biology (ASCB) Prize for Excellence in Inclusivity.

147 d learning framework to approximate in vitro cell biology assay experiments while respecting a genera

148 Quantitative biochemistry and cell biology assays revealed that PD-L1:CD80 cis-heterod

149 mistry-based tissue microarrays, and various cell biology assays, we demonstrate that CENPA is highly

150 Here, using assorted lipid-binding and cell biology assays, we demonstrate that exposing P. aer

151 simulations complemented by biophysical- and cell-biology assays, we investigated the interaction bet

152 d to CH, specifically in the context of stem cell biology, based on our current understanding of the

153 phorylation assays, coupled with genetic and cell biology-based analyses, show that actin-depolymeriz

154 Tischer and Gergely review the cell biology behind microtubule poisons and their clinic

155 The convergence of stem cell biology, bioengineering, and gene editing tools hav

156 biomaterial synthesis and fabrication, stem cell biology, bioimaging, microsurgery procedures, and m

157 resolution when addressing questions across cell biology, biomaterials, and regenerative medicine.

158 ipids play important roles in physiology and cell biology, but a systematic examination of their func

159 ts are not only valuable for understanding B cell biology, but also have important implications for u

160 powerful tools for dissecting complexity in cell biology, but there is a lack of instrumentation to

161 uorescent proteins (FPs) have revolutionized cell biology by allowing genetic tagging of specific pro

162 study expands the practical use of MIMS for cell biology by enabling measurements of metabolic funct

163 lished approaches modifying hemodynamics and cell biology by neurohumoral receptor blockade are evolv

164 An even richer understanding of cell biology can be achieved through evaluating function

165 nd propose that new mechanistic insight into cell biology can be revealed using these three-dimension

166 aset, and led to insights on intestinal stem cell biology, cell type-specific organelle features, the

167 g it useful for other applications in single-cell biology, combinatorial chemical synthesis, and drug

168 ssay also provides actionable items that the cell biology community can implement to promote inclusiv

169 generated much excitement and fervor in the cell biology community.

170 t has been a true privilege to work with the cell biology community; I thank them for their collegial

171 R) where new pharmacological, signalling and cell biology concepts have been coined.

172 The American Society for Cell Biology convened a task force to report on the pote

173 Because it bridges structural biology and cell biology, cryo-ET is indispensable for structural ce

174 aralleled heterogeneous training dataset for cell biology deep learning application development.

175 Eukaryotic cell biology depends on cullin-RING E3 ligase (CRL)-cata

176 ing the enormous potential of Paired-seq for cell biology, developmental biology and precision medici

177 uld go on to be among the founders of modern cell biology, developmental biology, and neurobiology.

178 g to our current understanding of PRMT5 in T cell biology, discuss current tools to modify PRMT5 expr

179 e at the interface of structural biology and cell biology, due to its unique ability for imaging cell

180 by a multilevel approach combining genetics, cell biology, electrophysiology, behavioral testing, and

181 Most of the fascinating phenomena studied in cell biology emerge from interactions among highly organ

182 experts in the fields of material sciences, cell biology, engineering, and many other disciplines wi

183 ces made regarding the role of PRMTs in stem cell biology, epigenetics, splicing, immune surveillance

184 urther improve our understanding of basic NK cell biology, especially in the context of SIV infection

185 Our results thus provide direct cell biology evidence supporting an early temperature si

186 stably knocked-down expression and undertook cell biology experiments and RNA-Seq to identify differe

187 We also performed cell biology experiments on isolated SMC-derived cells,

188 Our reverse genetic and cell biology experiments suggest that UBAP2L forms granu

189 ree-dimensional structure/function analyses, cell biology experiments, and reported early effects.

190 Remarkably, many of the cell biology features that underlie the ability of leuko

191 g point to discuss the tremendous variety of cell biology features that underpin the function of thes

192 cent studies from the antigen processing and cell biology fields that provide a starting point for te

193 questions in both germ cell biology and stem cell biology fields.

194 soning evolves from previous biochemical and cell biology findings related to NPC, coupled with the r

195 In this work, using cell biology, flow cytometry, and qPCR analyses, along w

196 As an integral part of modern cell biology, fluorescence microscopy enables quantifica

197 The success of comparative cell biology for determining protein function relies on

198 Although murine NK cell biology has been extensively studied, knowledge abo

199 evailing view of the functions of cohesin in cell biology has undergone a revolutionary transformatio

200 Advances in developmental and stem cell biology have allowed the development of cell-replac

201 n materials, microscale technology, and stem cell biology have enabled the construction of 3D tissues

202 Recent developments in stem cell biology have enabled the study of cell fate decisio

203 as an expanding array of tools to examine T cell biology have provided opportunities to examine majo

204 hies, hematopoiesis, cancer, and neural stem cell biology, highlighting the importance of this knowle

205 inase as a key negative regulator of myeloid cell biology; however, LYN's role in regulating specific

206 oteins at interfaces play important roles in cell biology, immunology, bioengineering, and biomimetic

207 nomously for these early changes in neuronal cell biology in bystander neurons, as were the voltage-g

208 ese dimensions contribute to understanding B cell biology in health or disease.

209 la modulates host physiological pathways and cell biology in order to establish a productive intracel

210 ogram officer for grants and applications in cell biology in the National Institute of General Medica

211 While many aspects of B cell biology in the vasculature and, to an even greater

212 We revealed hierarchical changes in skin cell biology, including activation of an immune response

213 s been used to investigate many processes in cell biology, including morphogenesis, physiology and re

214 , we review our current understanding of Tex cell biology, including the developmental paths, transcr

215 et in SDS and translate insights from single cell biology into a potential therapy.

216 Deeper understanding of T cell biology is crucial for the development of new thera

217 Single cell biology is currently revolutionizing developmental

218 A central question in cell biology is how cells respond to stress signals and

219 Cell biology is increasingly dependent on quantitative m

220 The study of bacterial cell biology is limited by difficulties in visualizing c

221 re expressed in bone, but their role in bone cell biology is not completely understood.

222 ion of computational technologies and single cell biology is now open.

223 One largely unknown question in cell biology is the discrimination between inconsequenti

224 One of the fundamental goals in cell biology is to determine their subcellular locations

225 A major aim of single cell biology is to identify important cell types such as

226 A fundamental goal of developmental and stem cell biology is to map the developmental history (ontoge

227 I am honored to be awarded the 2020 Women in Cell Biology Junior Award for Excellence in Research and

228 platform designed to be accessible for basic cell biology laboratories.

229 conducted pioneering work in the fields of T cell biology, lymphoid tissue anatomy, lymphocyte traffi

230 ntial to deliver new mechanistic insights in cell-biology/medicine.

231 mbination of physicochemical, in silico, and cell biology methods for optimizing a TCR for improved a

232 Experiments using chemical, molecular and cell biology methods have demonstrated that G4s exist in

233 possible by rapidly evolving structural and cell biology methods.

234 om well-established mainstream molecular and cell biology methods.

235 combined a genome-wide linkage analysis with cell biology, microscopy, and molecular biology tools to

236 grateful to have received the 2019 Women in Cell Biology Mid-Career Award from the American Society

237 American Society for Cell Biology's Women in Cell Biology Mid-career Award is incredibly meaningful t

238 Furthermore, incredible advances in cell biology, namely, in pluripotent stem cells, have al

239 yet fundamental insights into its underlying cell biology, notably epicardium formation, lineage hete

240 This review summarizes the cell biology of autophagy, detailing the major pathways

241 itochondrial AOX in processes central to the cell biology of diatoms, revealing that cross-talk betwe

242 However, the cell biology of endocrine tissue ageing remains poorly u

243 to reveal striking similarities between the cell biology of eukaryotes and archaea [10-15].

244 We sought to characterize the cell biology of LRRK2 activation.

245 survey some recent advances in studying the cell biology of marine protists toward understanding the

246 to better understand them, knowledge of the cell biology of most marine protist lineages is sparse.

247 whole tissues, integrated with the detailed cell biology of PCP phenomena, completely changed how th

248 s the model system to study the genetics and cell biology of smut fungi as well as the pathogenic dev

249 tute an important step in reconstructing the cell biology of the last common ancestor of animals.

250 biology, glandular lumen formation, and stem cell biology of the mammary gland.

251 insights in the context of the molecular and cell biology of the nucleolus.

252 ections for an improved understanding of the cell biology of the respiratory system, as well as new t

253 ic archaea [1-5], our ability to explore the cell biology of thermophilic archaea has been limited by

254 ing approaches including genetics, molecular/cell biology, pathogenicity and transcriptomic profiling

255 onvergence of precision microengineering and cell biology, permit systematic studies of complex neuro

256 ract wide interest across areas of molecular cell biology, pharmaceutical sciences, and nanoengineeri

257 is routinely performed to assess mobility in cell biology, pharmacology, and food science.

258 rnative avenues in understanding fundamental cell biology processes and may ultimately provide novel

259 tral eukaryotic lifeforms, general eukaryote cell biology, protein diversification and the evolution

260 Here, using genetics, cell biology, proteomics and cryo-electron tomography, w

261 with expert knowledge in diverse aspects of cell biology, provide meaningful insights into processes

262 manipulation in single live cells to address cell biology questions otherwise intractable and enginee

263 fields, most notably developmental and stem cell biology, regenerative medicine, and cancer biology.

264 g RNAs (lncRNAs) have important functions in cell biology, relatively few have been shown to regulate

265 While many aspects of archaeal cell biology remain relatively unexplored, systems biolo

266 d by the Notch pathway in cardiac progenitor cell biology remains to be elucidated.

267 ce could be widely used for both fundamental cell biology research as well as development of cancer d

268 ompartments have become an important area of cell biology research where new biophysical concepts are

269 of cell death mechanisms are fundamental in cell biology research.

270 rray of techniques and approaches, including cell biology, RT-quantitative PCR, immunoblotting, immun

271 Winning the American Society for Cell Biology's Women in Cell Biology Mid-career Award is

272 are widely used in vascular biology and lung cell biology studies such as pulmonary inflammation, ang

273 Genetic and cell-biology studies revealed that ELMO1 associates with

274 ription, the cell cycle, cell death and stem cell biology, studies of metazoan development have histo

275 work for deeper study and engineering of the cell biology supporting CO(2) assimilation in diverse or

276 A and histones and exert specific effects on cell biology, systemic physiology and pathology.

277 , motivated by tubular organelle networks in cell biology that contain molecules searching for reacti

278 infection, some of the basic ultrastructural cell biology that has been confused for coronavirus infe

279 een incredible advances in the field of stem cell biology that have greatly improved our understandin

280 ese transcription factors and the underlying cell biology that they regulate are poorly understood.

281 valuable insights into CCR5 pharmacology and cell biology that will facilitate the development of new

282 ogy, cryo-ET is indispensable for structural cell biology-the study of the 3-D macromolecular structu

283 l contributions to supporting inclusivity in cell biology, thereby creating a future where diversity,

284 significant advance in the study of myeloid cell biology, thus enabling pathway discovery and drug t

285 e area of research, and a central theme from cell biology to analytical chemistry.

286 irus (HCMV) manipulates many aspects of host cell biology to create an intracellular milieu optimally

287 for diatom molecular research, ranging from cell biology to ecophysiology, due to their rapid growth

288 fective, opening the field of cardiovascular cell biology to laboratories without substantial funding

289 adherent cells has become a serious tool in cell biology to understand how cells respond to their en

290 alized downregulation of genes critical to T cell biology together with an upregulation of Treg-assoc

291 as been widely repurposed as a molecular and cell biology tool for its ability to programmably target

292 An understanding of the cell biology underlying the burgeoning molecular genetic

293 Fueled by recent advances in single cell biology, we are moving away from qualitative and un

294 yosin conformations, sarcomere function, and cell biology, we assessed contractility, relaxation, and

295 y summarizing our current understanding of B cell biology, we present a systematic review of the lite

296 their widespread use as dyes, especially in cell biology where they are most often used to quantitat

297 Our results suggest a novel paradigm in cell biology, wherein clathrin plaques act as platforms

298 ccuracy has been a major challenge in single-cell biology, which is particularly hindered by the limi

299 cular condensates is an important advance in cell biology, with potentially wide-ranging implications

300 gens, which are essential regulators of stem cell biology, yet the structural basis of Wnt signaling