ライフサイエンスコーパス: role for

1 moieties at the 2' position suggest a clear role for 2'-OH in catalysis by providing an indispensabl

2 ion in cells expressing mSTING, suggesting a role for 2C in recruiting STING to RV-A replication orga

3 Our findings uncover a novel role for 4.1N in the axis of hypothalamus-pituitary glan

4 Together our findings demonstrate opposing roles for 5-HT2C receptors in the effects of SSRIs on mo

5 Recent studies have revealed an extensive role for a completely distinct layer of networked activi

6 The findings reveal a regulatory role for a GABAergic signaling machinery in the host-pat

7 ogether, this study unveils an unprecedented role for a transcription sigma factor in spatially coord

8 Here, we show a role for a truncated NTRK2 splice variant, TrkB.T1, in h

9 Our data highlight a role for A3B in resistance to chemotherapy and indicate

10 impaired platelet aggregation, confirming a role for ABCC4 in platelet function.

11 Our results implicate a causal role for accumbal MFN2 on the regulation of anxiety and

12 ococcus conjugative elements, highlighting a role for Acrs in the dissemination of plasmids.

13 Here, we establish a novel role for actin networks in prion maintenance.

14 d in both patients, highlighting a potential role for activation of MAPK signaling in iMCD-TAFRO path

15 Therefore, our results identify a role for AGO1 and AGO4 RNA-silencing pathways in low-oxy

16 Our data support a role for altered neuronal expression and activity of KPN

17 Our data reveal a critical role for angiotensin II in regulating burst occurrence,

18 The present study highlights a role for angiotensin Type 1a receptor expressing neurons

19 optotic degeneration of photoreceptors and a role for apoptosis in secondary degeneration of cones, h

20 Furthermore, we established a causal role for AR in ALD by showing that the genetic deficienc

21 ht loss and weight cycling reveal additional roles for ATMs in systemic metabolism.

22 This study supports an important role for B cells in indirect T cell priming and further

23 Recent work has uncovered a role for B cells in the induction and activation of Treg

24 givalis, indicating functionally specialized roles for bacteria in oncogenic communities.

25 phila melanogaster model to reveal a pivotal role for basement membrane composition in the formation

26 Our results identify an endocrine role for BAT to enhance cardiac function that is mediate

27 there are no studies that identify a direct role for BAT to mediate cardiac function.

28 t the idea that ascribes to PFo an important role for behavioral flexibility.SIGNIFICANCE STATEMENT W

29 Envisioning a future role for Big Data within the digital healthcare context

30 derived endocardial cells identified a novel role for BMP10 in the specification of this lineage from

31 ether, the data herein support a synergistic role for both Abeta and tau in driving neuronal dysfunct

32 to late-pachytene spermatocytes suggesting a role for both in meiotic and post-meiotic germ cell RNA

33 ons have been suggested to play an important role for both mechanisms.

34 In addition, recent work has established a role for both the Kappa Opioid Receptor (KOR) and its en

35 not with calpain-1, suggesting differential roles for both calpain isoforms.

36 Recently, a role for bovine beta-casein A1 has been proposed.

37 There are clear roles for branched architectures in regulating proteasom

38 In contrast, we did find a unique role for calcineurin in SCs after nerve injury.

39 Our data highlight an integral role for CaMKII in neuronal TRPV4-associated Ca(2+) resp

40 ) diffusion theory to propose a novel active role for capillaries that explained the prodigious incre

41 arotenoid accumulation, but also suggested a role for carotenoid degradation in L. japonica's dynamic

42 However, a role for CBFA2T3 in myeloid differentiation of AML has n

43 re and telomere defects suggests a prominent role for CBX2 in heterochromatin homeostasis and the reg

44 tion was established, promoting a functional role for CCR3-dependent eosinophil influx in immune cont

45 These results illuminate a role for CD4 T cells in brain development and a potentia

46 These findings reveal a key role for CD40 and CD70 signaling in cDC1s and have major

47 These data highlight a novel functional role for CD56 in stimulating exocytosis and promoting cy

48 These results suggest a substantial role for CD8(+) lymphocytes in suppressing the latency r

49 l evidence from patients with MS points to a role for CD8+ T cells in disease pathogenesis.

50 These results identify a surprising role for Cds1 in driving DNA damage and disrupted chromo

51 The results reveal a local role for CEPR1 in the maternal reproductive tissue in de

52 ions, spindle-shaped cells, an insignificant role for classic oncogenes in tumor development, the rel

53 However, no role for CLE40/CLV1/ACR4 in constricting the mobility of

54 Together, these data support a role for CLRs in autoimmunity and implicate the MCL/MINC

55 er perceptual uncertainty suggests a unified role for confidence in learning under different types of

56 These findings indicate a novel role for CRT in promoting the secretory trafficking of a

57 poietic stem cells, arguing against a direct role for CSF1R in myeloid lineage commitment.

58 These studies demonstrate a functional role for csMHCII in regulating T cell infiltration and s

59 ances in research have demonstrated critical roles for cytoplasmic sensors and inflammasomes during L

60 alterations in SCZ, these studies support a role for disruption of PI3K/GSK3 signaling as a risk fac

61 Rather, two distinct ecological roles for DMSP likely exist that differ by producer type

62 ive and incentive cues, support an important role for dopamine neurons in the attribution of incentiv

63 Our work identifies a new role for dSarm and glia in suppression of bystander neur

64 clinical manifestations of DS and suggest a role for DTBM in the investigation of other brain disord

65 e (NAD)-capped RNAs in mammalian cells and a role for DXO and the Nudix hydrolase Nudt12 in decapping

66 Given the hypothesized role for early neurodevelopmental processes in these con

67 by chemosensory blends, suggesting different roles for EGCs than analogous interneurons in the MOB.SI

68 nbiased proteomics and discovered a critical role for emc1 in WNT signaling.

69 to summon first responders, and an enhanced role for emergency telecommunicators.

70 e yields, suggesting an important regulatory role for EMP3 in erythropoiesis and control of cell prod

71 The results of our study indicate a role for endoplasmic reticulum calcium signaling via cal

72 e demonstrate a critical vascular protective role for endothelial S1P(1) in the mouse brain.

73 ction, consistent with a prolonged postnatal role for EphA4 in adolescent muscle growth.

74 mmunity and clinical diagnosis may suggest a role for epigenetics in T1D pathogenesis; however, funct

75 n together, these results support a critical role for ER Ca(2+) depletion-activated Ca(2+) current in

76 .Conclusions: These results support a causal role for ER stress and resulting epithelial dysfunction

77 udy their function as transcripts, revealing roles for eRNAs in enhancer-promoter looping, recruiting

78 from M. tuberculosis Our findings support a role for EspE and EspF in virulence that is independent

79 Mechanistically, we show a pivotal role for ESRRB in regulating the activity of ESC-specifi

80 We also reveal a critical, noncatalytic role for Exo1, through noncanonical interaction with pol

81 mputationally derived observations support a role for feedforward parietal-prefrontal information pro

82 light contemporary findings that implicate a role for flavivirus antibodies in mediating protection,

83 Our work points to novel roles for FST, PEPD, and PDGFC in adipose tissue, with c

84 These findings identify a novel role for FSTL-1 in innate lung immunity to bacterial inf

85 Previous studies have implicated a role for gamma-adducin (ADD3), a cytoskeletal protein en

86 We propose a role for Gdf5 in tissue remodelling and repair after inj

87 Our data establish a central role for genes that were previously identified as negati

88 We revealed important roles for genes that express multiple components of the

89 sed on these findings, we envisage a broader role for genetic testing in DCM.

90 This grammar plays only a small role for genomic sequences, as the relative activities o

91 Both basic and clinical evidence reveal dual roles for GJs, in tumor suppression, generally referred

92 Here, we identify a novel nuclear role for Gle1 during transcription termination.

93 Functional validation supported a role for glutamate metabolism and glutamate oxaloacetate

94 ects in an IgE-dependent manner suggesting a role for glycolipid in the effector phase of IgE-mediate

95 ing colonization of the mutant, indicating a role for group 3-like ILCs.

96 n Drosophila melanogaster, we identify a key role for gut-innervating neurons with sex- and reproduct

97 Here, we demonstrate an integral role for H1 linker histones in silencing repetitive elem

98 In vivo recordings revealed a strong role for hAPP/Abeta, but not tau, in the emergence of EC

99 Our work uncovers important roles for HDAC1 in 8-oxoG repair and highlights the ther

100 Our data support roles for heme oxygenase isoforms in modulating recovery

101 These findings establish an important role for Hhex-Tle3 in regulating the transcriptional cir

102 Thus, we identified a potential role for hnRNP H in basal and dynamic mitochondrial func

103 Here, we outline a role for hnRNPs in gene regulatory circuits controlling

104 Our study strongly supports a role for HOPS complex dysfunction in the pathogenesis of

105 Here, we identified a role for host atypical chemokine receptor 4 (ACKR4) in c

106 r normal behavior in this task, but a causal role for human OFC in outcome-guided behavior has not be

107 Here, we identify a nonredundant role for IFN-lambda in immune dysregulation and tissue i

108 ing age-dependent variation and suggesting a role for IgG glycosylation in immunocompetence.

109 drive its tumor suppressive effects-a novel role for IHH in the lung.

110 However, a possible role for ILC2s in the pathophysiology of mastocytosis re

111 ctors of the NF-kappaB family play a crucial role for immune responses by activating the expression o

112 epidemiological evidence supports a critical role for inflammation and adaptive immunity in the onset

113 a German cohort, supporting the concept of a role for inflammation in PRKN/PINK1-linked Parkinson's d

114 These results support the regulatory roles for inherited noncoding variants in the pathogenes

115 in adaptive immunity, indicating a critical role for innate immunity in endometrial control of C. tr

116 The evidence supporting a role for interorgan communication and circulating proger

117 Clostridioides difficile Here we describe a role for intestinal bile acids in directly binding and n

118 These results identify roles for IRE1alpha and BARP in neurotransmitter recepto

119 been recently shown that Wnt plays a priming role for ISC self-renewal by inducing RSPO receptor LGR5

120 recordings revealed a critical and selective role for K(v)1 channel inactivation in synaptic facilita

121 Recent studies evidenced a role for K14-dependent disulfide bonding in the organiza

122 been a growing appreciation for non-mitotic roles for KIF11.

123 A role for L-type Ca(2+) channels (Cav(L)) and anoctamin 1

124 These findings indicate a pivotal role for LDH in modulating cytokine-mediated T cell diff

125 Our results suggest important roles for LRMP and IRAG in the regulation of cellular ex

126 These data are consistent with a role for lung macrophage protrusions in antigen presenta

127 ouse models of infection have demonstrated a role for MAIT cells in antimicrobial defense.

128 tion, additively with 1-NM-PP1, indicating a role for matrix metalloproteases in TrkA activation.

129 c syndrome, the discovery of novel signaling roles for metabolites, and the increasing links between

130 er, these findings demonstrate an unexpected role for metabotropic NMDARs and postsynaptic Panx1 in s

131 In conclusion, our data suggest a role for methylation in the regulation of gene expressio

132 combination, these findings establish a key role for microbiome-dependent circadian GLP-1 secretion

133 rains of naive littermates, suggesting a new role for microglia as homeostatic regulators of perineur

134 r work reveals a neuronal activity-regulated role for microglia in modifying developmental myelin tar

135 erous structural and genome-wide analyses of roles for minimal G4s in transcriptional regulation have

136 lution live-cell microscopy, we identified a role for mitochondria-lysosome contacts in regulating mi

137 Collectively, our results show a novel role for MondoA in the regulation of early vertebrate de

138 ll priming, there is emerging evidence for a role for monocyte-derived APC (MoAPC) in tissue-resident

139 Here, we demonstrate a critical role for morphogen sensing by a gene enhancer, which ult

140 Our results reveal a pro-crossover role for MSH2 in regions of higher sequence diversity in

141 These data point to a role for mSWI/SNF complexes in therapy-related lineage p

142 Collectively, our study reveals a novel role for mTORC2-Akt(S473)-FoxO1-T-bet axis in suppressin

143 This finding suggests a protective role for mucosal antibody-mediated immunity in naturally

144 kine activation, we can delineate biological roles for myeloid cells in different cytokine environmen

145 These findings suggest a previously unknown role for myocardial trabeculae in the function of the ad

146 ings reveal a context-dependent, dichotomous role for NaCl in shaping Th17 cell pathogenicity.

147 cyte development and repair and reveal a new role for Nedd4 in glial biology.

148 relevant for beta cell signaling and plays a role for negative effects of statins on glycemic control

149 cl1 These findings are the first to reveal a role for Neurog2 in hypothalamic development.

150 These data demonstrate a novel role for neuronal HRI that senses and responds to compro

151 in cancer, and found an unexpected essential role for NMT1 at promoting lysosomal metabolic functions

152 OMT gene expression supported physiological roles for NnOMT1 and NnOMT5 in BIA metabolism, occurring

153 Here, we identify a novel role for NO in strengthening inhibitory GABA(A) receptor

154 In summary, we have identified a novel role for Nod2 and demonstrate that Nod2 protects from HF

155 These studies define a new role for Notch3 in manipulating the tumor microenvironme

156 Here we identify a critical role for NOTCH3 signalling in the differentiation of per

157 Our results reveal a unique and early role for NR4A3 in programming CD8(+) T cell differentiat

158 results in similar changes, demonstrating a role for NS4B in modulating sphingolipid pathways.

159 Together, our results identify a novel role for oxidant signaling in the regulation of synaptic

160 our findings elucidate a novel and specific role for P2X5 as a critical mediator of protective immun

161 ighs the evidence that supports a pathogenic role for PAD enzymes in RA as both promoters and targets

162 Here, we investigated a possible role for PADI4 in regulating breast cancer stem cells.

163 Finally, we uncovered a novel role for PAR-6 in organizing non-centrosomal microtubule

164 This work uncovered a novel role for Par3 in controlling the actin-dependent forces

165 Mediation analysis suggested a role for partial cis-epigenetic control of protein expre

166 These results suggest a critical role for PAT1 in BDNF-induced beta-actin mRNA transport

167 phenotypes; and they support a contributory role for PCM1 in some individuals diagnosed with schizop

168 Here, we describe a role for PCS in disease resistance against plant pathoge

169 uo, Kasahara et al. (2020) reveal a critical role for pDCs in antifungal immunity.

170 th mounting evidence supporting an important role for peripheral dysfunction, particularly within ske

171 Our findings reveal a role for PHF19 in controlling the balance between cell p

172 In this article, we define a dual role for Pla in the initial stages of pulmonary infectio

173 r, these data provide additional support for roles for PME-1 and LCMT-1 in regulating sensitivity to

174 More recent ideas emphasize roles for positive emotionality and impulsivity as well.

175 cooperativity, but distinguishes a dominant role for PRC2 in restricting the germline.

176 ctively, these findings establish a critical role for Prdm12 in the anorexigenic neuron identity and

177 these results causally establish dissociable roles for prefrontal theta oscillations and parietal alp

178 sembly, and biological function, and provide roles for previously identified UAF domains that include

179 ves post-replicative gap repair and define a role for PrimPol in HR-mediated DNA damage tolerance.

180 Here, we report a critical role for proline catabolism in non-small cell lung cance

181 SCRT-III-like filaments, suggesting a direct role for pUL51 in promoting membrane scission during vir

182 ns: Here, we demonstrate a unique protective role for pulmonary endothelial HIF-2alpha and how decrea

183 Our results suggest a novel role for RAB23 as an upstream negative regulator of both

184 Recent evidence suggests a co-operative role for RAC1 activity in BRAF(V600E)-driven melanoma pr

185 may regulate ERV function and demonstrate a role for RBM4 in controlling ERV expression.

186 Previous studies have suggested a role for recycling in translational coupling within oper

187 our work supports a previously unappreciated role for retrograde mitochondrial transport in the maint

188 A minor role for retromer in Snc1 recycling can also be observed

189 cular at glutamatergic synapses, a potential role for Rh50 proteins at synapses has not yet been inve

190 Taken together, our data indicate functional roles for RhoA and Rho-kinase in mediating depression-li

191 , here we show a kinase activity-independent role for RIPK1 in these processes using a model of TLR p

192 These findings indicate a major role for RNase AM in cellular RNA metabolism and establi

193 ly affected by RPLP1/2 knockdown, implying a role for RPLP1/2 in multi-pass transmembrane protein bio

194 ese data reveal a novel unexplored oncogenic role for RUNX genes in kidney cancer and indicate that t

195 variation in plumage, suggesting a prominent role for sexual selection.

196 ers to polymers, we demonstrate a surprising role for shuttling of F-actin across cells for lamellipo

197 n together, these results suggest a critical role for skeletal muscle lamin A/C to prevent cellular s

198 These results delineate a novel role for Slug in the nutrient stress response and provid

199 This report highlights an important role for SMARCD2 in human myelopoiesis and the curative

200 citatory cells, indicating a dominant causal role for SOM(+) cells in the integration of information

201 rtebrates singled out an expected functional role for some genes, while others displayed an unforesee

202 undantly expressed in neurons, physiological roles for SORLA remain unclear.

203 These data provide the first evidence for a role for spectraplakins in single-cell lumen formation a

204 ere, we discovered an unanticipated and sole role for spermine in facilitating mucilage production by

205 These findings reveal a novel role for sSORLA in promoting neurite regeneration throug

206 s tumor-promoting function by highlighting a role for ST6Gal-I in EMT, which may be mediated, at leas

207 Thus, our data highlight a role for stereoelectronic effects in dictating the speci

208 d B16 tumor cells, suggesting that the major role for STING activation was to produce type I IFN.

209 mental questions about the recently proposed role for STK19 in melanoma progression via a function as

210 Although various other cellular roles for strumpellin have also been described, none acc

211 The screen revealed prominent roles for subunits of the coat protein 1 (COPI)-vesicle

212 ruptions in chromatin structure and reveal a role for Suv39h2 in depositing sufficient H3K9me3 to pro

213 Together, these findings describe a new role for SUV420H2 in regulating the chromatin landscape

214 lating evidence has established an important role for symbiotic microorganisms in vector-virus intera

215 In addition, they highlight a key role for systemic ROS signals in coordinating the respon

216 Previous studies have suggested an important role for T-cell-mediated immunopathology in LF pathogene

217 Our work reveals a key role for TAD remodeling in epigenetic regulation of tran

218 (2020) identify a therapeutic role for tau reduction in downregulating this pathway an

219 ow temperatures, and we highlight a specific role for TBCB/Alf1 in microtubule maintenance at low tem

220 Furthermore, Th1-independent roles for Tbet were suggested by significant differences

221 As a result, this study elucidates a role for TET2 in governing luminal cell differentiation

222 eficient (Tbet KO) mice, we showed a partial role for Th1 subset CD4(+) T cells in vaccine protection

223 ontent of response feedback plays a critical role for the acquisition and long-term retention of VPL

224 lymphocytes isolated from patients support a role for the adaptive immune system in the pathogenesis

225 now find a role for the APP family in neuronal excitability, synapt

226 s challenge dual-stream accounts that deny a role for the arcuate fasciculus in semantic processing,

227 Our structure also indicates a central role for the ArpC3 subunit in stabilizing the active con

228 dynamics, and here, we report an unexpected role for the atypical actin motor Myo6 in creating prima

229 Our results uncover a role for the beta-catenin signaling pathway in fine tuni

230 A potential role for the CCDs shared by the schistosome and inverteb

231 We also demonstrate a role for the cytokine interferon-gamma (IFNgamma) and th

232 Although the role for the cytolytic complement proteins in astrocyte

233 The data support an important role for the dimethylbenzimidazole tail in moving the co

234 PI-E2 transition identify a hitherto unknown role for the dorsal respiratory group.

235 EEC deficiency to identify an unappreciated role for the EEC hormone peptide YY in regulating ion-co

236 In this study, we uncover a conditional role for the endodermal and pulmonary specifying TF GATA

237 in vivo experiments in zebrafish revealed a role for the ETS factor FEV in endothelial identity down

238 Our results are compatible with a role for the fast-diffusible NO gas in signaling and cel

239 ar RNA metabolism and establish a biological role for the first 5' to 3' RNA exonuclease identified i

240 Consistent with a role for the G-proteins in regulating GSC division frequ

241 but recent evidence indicates an additional role for the genetic diversity among MTBC clinical strai

242 tive effects can be reinforcing, revealing a role for the hepatic vagus nerve in transforming sugar s

243 ith patient prognosis, implying an important role for the HIF/NICI/SLC2A3 axis in this malignancy.

244 Recent research has highlighted a role for the hippocampus and a Posterior Medial cortical

245 oaches and live-cell imaging to reveal a key role for the histone chaperone complex FACT (SPT16 and S

246 sms leading to this failure and report a key role for the HIV-1 protein NEF in preventing B-cell matu

247 First, we demonstrated a critical role for the host Golgi compartment-resident ATP-powered

248 Here, we identify a central role for the human DEDD deadenylase TOE1 in distinguishi

249 nesis in nematodes and provide evidence of a role for the Integrator complex as a terminator of promo

250 ust SAC signal, and it reveals a scaffolding role for the key mitotic kinase, Cyclin B1:CDK1, which u

251 Recent studies highlight a novel role for the NMDAR, independent of ion flow, in driving

252 Our data emphasize a role for the pericentriolar material in the postnatal br

253 domonas Lap system model, our data support a role for the predicted c-di-GMP-binding protein LapD in

254 (2020) provide evidence of a novel role for the premotor cortex in maintaining the context-

255 Here, we describe an unexpected role for the radial fiber scaffold in directing corticos

256 alpha5beta1 integrin and supports a critical role for the RAP1/RAC1 signaling axis in HNSCC cell migr

257 Here we show a role for the Ras GTPase, R-Ras, in the functional adapta

258 of FA-independent ICL repair and establish a role for the RecQ4 helicases in the repair of these detr

259 Together, these data demonstrate a critical role for the Reissner fiber for the maintenance of a str

260 data indicate a previously underappreciated role for the relatively unexplored neuropeptide Pth2 in

261 ting burst occurrence, and a multifunctional role for the rosette structure in activity-prolongation

262 Our data support an important role for the second threonine of the SF signature sequen

263 Thus, we show a role for the TBPL2/TFIIA complex in the establishment of

264 s toward hypoxia have identified a prominent role for the transcription factor hypoxia-inducible fact

265 report a role for the type 2 cytokine interleukin-13 in orchestra

266 Collectively, these data reveal novel roles for the ANGPT2 N-terminal domain in blood vessel r

267 ditional genetic studies indicated important roles for the exocyst regulators Rab8 and Rab11 in bacte

268 species with core structural and functional roles for their use in restoration.

269 ndromes and/or cardiomyopathies suggesting a role for these genes in cardiovascular pathology in the

270 We describe a functional role for these recurrent noncoding mutations in disrupti

271 r are discussed in line with the contrasting roles for these metabolites within the CAM mesophyll and

272 ge losses of function, suggesting functional roles for these specific residues.

273 and induce apoptosis, suggesting a potential role for this BH3-binding site in BAK activation.

274 multiple mechanisms, further establishing a role for this coronary artery disease-associated gene in

275 and thus, to our knowledge, identify a novel role for this cytokine as a central regulator of immunit

276 eceptor tyrosine kinases, indicating a novel role for this family of receptors in mitochondria.

277 ion mutant demonstrated a previously unknown role for this gene in INH susceptibility.

278 tes the ERK and JNK cascades and highlight a role for this kinase in maintaining survival of KRAS-mut

279 taxanes plus an anthracycline, suggesting a role for this kinase in modulating taxane sensitivity.

280 egulates accumulation of R-loops, implying a role for this modification in safeguarding genomic stabi

281 C9 and TOGARAM1 patient cell lines suggest a role for this new JBTS-associated protein module in cili

282 3 positive neuronal inclusions, suggesting a role for this protein in disease pathogenesis.

283 biofilm formation, thus providing a defined role for this USP in mycobacterial physiology and stress

284 Here, we describe roles for three metabolites-indole-3-ethanol, indole-3-p

285 ssing TLR3 in infected B6 mice, suggesting a role for TLR sensing in the innate immune response.

286 Altogether, these data identify a role for TLR2 in DENV infection and provide insights int

287 Our data highlight a multifaceted role for TMEM30A in B-cell lymphomagenesis, and characte

288 Our data point to a role for TOP2A as a structural chromosome maintenance en

289 (2020) reveal an unexpected role for TRAIL receptors in ER-stress-induced inflammati

290 ut fruit development, as well as revealing a role for transitory starch accumulation in ensuring opti

291 These findings indicate a novel mechanistic role for TSLP and CD11c-expressing IMs in the developmen

292 Our results reveal an important role for two WRKYs as positive regulators of plant immun

293 Overall, this study highlights a novel role for USP11 in the regulation of ERalpha activity, wh

294 ted functions in vitro demonstrated critical roles for USP22 in prostate cancer.

295 pproaches we have confirmed an indispensable role for vasoactive intestinal polypeptide-expressing SC

296 This study implies a protective role for VD sufficiency throughout pregnancy, particular

297 for thymocyte maturation, we investigated a role for WNK1 in mouse thymocyte development.

298 We uncovered a role for Xinbeta in signaling via the Hippo-YAP pathway

299 To identify roles for Y RNAs in mammals, we used CRISPR to generate

300 ad increased DNA damage levels, suggesting a role for zinc in maintaining genome integrity.