ライフサイエンスコーパス: regulatory role

1 onditions, the ER-mitochondria ud can play a regulatory role.

2 other tumors in which peroxynitrite plays a regulatory role.

3 REs with specific genomic repeats suggests a regulatory role.

4 hat the state of cell migration also plays a regulatory role.

5 gion, suggesting that this region may play a regulatory role.

6 ighted for an especially early and important regulatory role.

7 ng of T cells in vivo, indicating a critical regulatory role.

8 ervous system (SNS), wherein CB1 plays a key regulatory role.

9 ly unstable, and in this capacity it plays a regulatory role.

10 ibility to apoptosis underscored its central regulatory role.

11 ion pathway, potentially contributing to its regulatory role.

12 ibrosis suggests they may have unanticipated regulatory roles.

13 membrane protein cysteine residues with many regulatory roles.

14 Hippo signaling also plays important immune-regulatory roles.

15 the genome and thought to act through their regulatory roles.

16 RNAs and RNA-binding proteins with potential regulatory roles.

17 ssembling tRNA fragments and emphasize their regulatory roles.

18 ce of backtracking transitions with possible regulatory roles.

19 nderlying molecular mechanisms including its regulatory roles.

20 osphorylation at this site has an additional regulatory role and reinforcing a previously reported re

21 ory responses through dsRNA sensing and gene-regulatory roles and are controlled by the HUSH complex.

22 The core nucleosome performs a fundamental regulatory role, apart from the histone "tails," which m

23 ance are associated with mortality; however, regulatory roles are unknown.

24 dispensable for snRNA processing, also have regulatory roles at these protein-coding genes, possibly

25 ellular ISG15 is suggested to have an immune-regulatory role, based on disease phenotypes of ISG15-de

26 Despite this lack of a regulatory role, boosting beta5 expression increases the

27 This suggests that TBC1D8B plays a regulatory role by inhibiting endogenous RAB11.

28 rading nonfunctional toxic proteins and play regulatory roles by targeting particular substrates in r

29 Consistent with a repressive regulatory role, DDX3 localized to cytoplasmic puncta wi

30 ng enzyme in polyamine catabolism, has broad regulatory roles due to near ubiquitous polyamine bindin

31 /RNA-binding protein, which plays a critical regulatory role during cell stage transitions of mouse e

32 we propose that G3BP proteins do not have a regulatory role during polyprotein processing.IMPORTANCE

33 4 residue of the 1/2 site is known to play a regulatory role during processing at this site, and we f

34 port secretory vesicles, while actin plays a regulatory role during secretion.

35 s an inhibitory coreceptor with an important regulatory role during T cell development.

36 ies have suggested that dynamin also plays a regulatory role during the early stages of CME; however,

37 that Dyn1 and Dyn2 play nonredundant, early regulatory roles during CME in nonneuronal cells.

38 w that different muscle fibres have distinct regulatory roles during regeneration in the planarian Sc

39 nd mice, suggesting that they play important regulatory roles during soft palate development.

40 Identifying its DNA targets is crucial given regulatory roles exerted by members of the MEF2 family a

41 Our data support a gene regulatory role for 5hmC that is predominant over its ro

42 The findings reveal a regulatory role for a GABAergic signaling machinery in t

43 likely that the CHIM will play an important regulatory role for advancing the range of Shigella vacc

44 These results establish a regulatory role for BCAT1 in macrophage function with th

45 We uncover a dual regulatory role for chromatin during DNA replication: pr

46 results provide unprecedented evidence for a regulatory role for circFOXP1 as a gatekeeper of pivotal

47 In summary, these studies present a novel regulatory role for Crth2 during inflammatory response i

48 This work establishes a key regulatory role for DRN(Vgat) neurons in controlling ene

49 We therefore demonstrate a novel regulatory role for Dzip1 and Fam92 in mediating membran

50 s had reduced TGFbeta signaling, revealing a regulatory role for embryonic myosin in the TGFbeta sign

51 reticulocyte yields, suggesting an important regulatory role for EMP3 in erythropoiesis and control o

52 Our findings uncover a crucial regulatory role for histone concentrations in ZGA of Dro

53 Overall, these results establish a novel regulatory role for histone H3 acetylation during the in

54 L33-ILC2-IL5-neutrophil axis defines a novel regulatory role for ILC2 in acute lung injury that could

55 Our findings point toward a regulatory role for NK cells in CFA-induced systemic inf

56 ever, some studies have suggested a positive regulatory role for NLRX1 in inducing antiviral response

57 These empirical results suggest a plausible regulatory role for NnCYP76B6 in CPT biosynthesis and al

58 This enhancement points to a regulatory role for noradrenergic neurotransmission in p

59 Our data identify an important regulatory role for periplakin SUMOylation in dynamic re

60 n protein dephosphorylation, revealing a new regulatory role for phosphorylation/dephosphorylation cy

61 This suggests a novel regulatory role for PI4KIIIbeta and PI4P in cell adhesio

62 A special regulatory role for prostaglandin E(2) (PGE(2) ) has bee

63 ollectively, these results demonstrate a new regulatory role for SLX4IP in maintaining an efficient S

64 than wild-type littermates, which suggests a regulatory role for testicular phosphate and calcium hom

65 Taken together, our studies support a key regulatory role for the fractalkine axis in advanced and

66 Taken together, these findings outline a regulatory role for the GPR146/ERK axis in systemic chol

67 Our study reveals a regulatory role for the miR397b-LAC2 module in root lign

68 ken together, our results indicate a pivotal regulatory role for the SphK1/S1P axis in maintaining th

69 This study supports a new regulatory role for the TME in mitochondrial heterogenei

70 of ZMP/SZMP and ATP, revealing a much wider regulatory role for these intermediate metabolites in an

71 binding motifs, suggesting a potential gene regulatory role for these regions.

72 gent behavior, possibly highlighting a novel regulatory role for this domain.

73 Consistent with a regulatory role for this lectin during Y. enterocolitica

74 insensitive to rapamycin, further defining a regulatory role for this region.

75 ells, B cells, or LysM(+) cells but due to a regulatory role for TPL-2 in DCs.

76 Our data characterize a regulatory role for UPF1 in myogenesis, and they demonst

77 Recent studies found an immune regulatory role for Y chromosome and a relationship betw

78 mtDNA could be further elevated, suggesting regulatory roles for 6mA in mitochondrial stress respons

79 revealed additional B12-binding enzymes and regulatory roles for B12 Here we report the development

80 differentiation in the field and suggest key regulatory roles for clinical factors and gdv1 in gameto

81 x lincRNAs in mouse, which suggested genomic regulatory roles for four of the cohort.

82 These results support the regulatory roles for inherited noncoding variants in the

83 owever, growing evidence suggests additional regulatory roles for myristoylation on proteins.

84 ted to directly control gene regulation, but regulatory roles for ribosomal RNA (rRNA) remain largely

85 Discriminating regulatory roles for the two BCMA-like molecules are sug

86 ty for each construct, we uncovered new auto-regulatory roles for the ubiquitin binding domains and t

87 tral role of NAD in plant metabolism and its regulatory role have been investigated extensively at th

88 lular GABA concentration [GABA] could play a regulatory role here, we use a GABA 'sniffer' patch in a

89 Contrary to ICOSL's immune-regulatory role, ICOSL in nonhematopoietic cells limited

90 ends of stems upon cutting and played a key regulatory role in adventitious rooting.

91 tophagy in the developing mouse lung and its regulatory role in airway branching and terminal sacculi

92 The tumor microenvironment plays a critical regulatory role in cancer progression, especially in cen

93 e GM-CSF, another factor with an established regulatory role in Crohn's disease pathogenesis.

94 rs and mutants, provided insights into their regulatory role in defined modules of the JA network.

95 sociating domains (TADs) was shown to have a regulatory role in development and cellular function, bu

96 The protein 53BP1 plays a central regulatory role in DNA double-strand break repair.

97 er, the molecular mechanisms underlying ER's regulatory role in endometrial cancer are poorly underst

98 rs of microRNA-200 (miRNA-200) family have a regulatory role in epithelial to mesenchymal transition

99 , it is not clear whether ECRs play a direct regulatory role in G-protein signaling or simply serve a

100 e architecture is thought to play a critical regulatory role in gene expression, but the mechanisms g

101 rminal region of OsDGAT1-1 gene revealed its regulatory role in gene function.

102 -derived extracellular vesicles (EVs) play a regulatory role in hematopoiesis and have been shown to

103 function focused on the nervous system, its regulatory role in hematopoiesis has not been reported.

104 We dissected ABIN1 and A20's regulatory role in human keratinocyte inflammation using

105 e to nutrient limitation, plays an important regulatory role in lipid homeostasis upon energy demands

106 ntified an lncRNA that can play an important regulatory role in liver function and provide new insigh

107 crophages by ER stress, and VDR plays a dual regulatory role in macrophages by protecting against ER

108 is not known whether the CTD takes an active regulatory role in metal recognition and discrimination

109 Kinase 1delta and epsilon (CK1) plays a key regulatory role in metazoan circadian rhythms.

110 Our findings show that N1 can play a regulatory role in microglial function in the context of

111 ation (APA) plays a key post-transcriptional regulatory role in mRNA stability and functions in eukar

112 lude that nucleoporins play an unanticipated regulatory role in NEBD, by recruiting PLK-1 to the NE t

113 n with Klebsiella pneumoniae, indicating its regulatory role in NET formation.

114 d that MKK7-JNK signaling plays an important regulatory role in neural development, however, post-dev

115 sults suggest that RN-tre plays an important regulatory role in NMII RLC distribution, phosphorylatio

116 e two distinct endodermal barriers and their regulatory role in nutrient transport is still limited.

117 Given SHP2's key regulatory role in OB differentiation, our studies sugge

118 t dynamic RNA methylation plays an important regulatory role in oligodendrocyte development and CNS m

119 of alphaBSer-59, known to play an important regulatory role in oligomerization, was severely inhibit

120 mmary, our data suggest that CytM may have a regulatory role in photomixotrophy by modulating the pho

121 ight and in the dark, suggesting a potential regulatory role in photosynthesis, but this has not been

122 increasingly recognized to play an important regulatory role in post-transcriptional gene regulation.

123 nvolved in EV subtype biogenesis that play a regulatory role in RNA transfer.

124 s integrin-dependent cell migration, but its regulatory role in skin dendritic cells (DCs) during inf

125 We found that LCBK1 has a positive regulatory role in stomatal closure after pathogen inocu

126 Vasopressin receptors appear to have a regulatory role in stress, anxiety, and alcohol.

127 in the mediation of autophagy; however, its regulatory role in the autophagic process remains contro

128 indications that alpha-syn also plays a gene-regulatory role in the cell nucleus.

129 results indicate that AtBAG7 plays a central regulatory role in the heat-induced UPR pathway.

130 s suggest the Sts proteins play an important regulatory role in the host response to bacterial infect

131 Thus, the KSHV ORF34 protein plays a regulatory role in the KSHV life cycle by regulating HIF

132 and DNA binding), S. suis 2 retains a single regulatory role in the modulation of NAD(+) salvage.

133 show that the PDK2-lactic acid axis plays a regulatory role in the observed metabolic imbalance and

134 This implies a potential regulatory role in the wound healing process and, thus h

135 ng that mechanical forces may play a broader regulatory role in translation than previously appreciat

136 other findings suggest that CLP1/cbc plays a regulatory role in tRNA splicing by serving as a negativ

137 udy to demonstrate that uterine PVAT plays a regulatory role in UtBF, at least in part, as a result o

138 Endocannabinoid signaling plays a regulatory role in various (neuro)biological functions.

139 r Ser78 in the T78S mutant) plays a negative regulatory role in vivo and provides an explanation for

140 SOCS-3 and SOCS-4 appear to play regulatory roles in a number of keratinocyte and endothe

141 rylation-dependent interactions play crucial regulatory roles in all domains of life.

142 to pancreatic cancer progression through its regulatory roles in both tumor cells and the tumor micro

143 S family of adaptor proteins, with important regulatory roles in cell migration, cell cycle control,

144 ylation is an epigenetic mark with important regulatory roles in cellular identity and can be quantif

145 owth and metastasis, may also have important regulatory roles in controlling the tumor microenvironme

146 stinct from RBP-P, RBP-L exhibits additional regulatory roles in development, either directly through

147 The ECM serves important structural and regulatory roles in establishing tissue architecture and

148 plays important but still poorly understood regulatory roles in eukaryotic cells, including as a sig

149 A) has recently been shown to exist and play regulatory roles in eukaryotic genomic DNA (gDNA).

150 a current view of the enteric glia and their regulatory roles in gastrointestinal (GI) (patho)physiol

151 As) have been demonstrated to play important regulatory roles in gene expression, from histone modifi

152 Because sugars play fundamental regulatory roles in gene expression, physiology, metabol

153 The internal start sites may also play regulatory roles in gene expression.

154 d to contribute to an expanded proteome with regulatory roles in gene expression.

155 that shows these species also play important regulatory roles in health.

156 Fibrinogen is a complex glycoprotein with regulatory roles in hemostasis, tumor development, wound

157 from rice (Oryza sativa), and unravel their regulatory roles in key steps of reproductive developmen

158 DNA methylation has pivotal regulatory roles in mammalian development, retrotranspos

159 tyrosine phosphatases (RPTPs) play critical regulatory roles in mammalian signal transduction.

160 RNAs) are small noncoding RNAs with profound regulatory roles in many areas of biology, including can

161 MA is growing due to its recently identified regulatory roles in metabolism, differentiation, cell cy

162 hypothesize that the circadian system plays regulatory roles in minimizing the IR-induced cardiotoxi

163 ion of 5'TOP mRNAs are controversial and its regulatory roles in mTORC1-mediated translation remain u

164 of small noncoding RNAs that have important regulatory roles in multicellular organisms including in

165 te that GGG might have organizing and growth-regulatory roles in multiple human tissues.

166 t trehalose and trehalose 6-P play important regulatory roles in nectary starch degradation and necta

167 discovered in animals and plants, and their regulatory roles in numerous biological processes have b

168 to how the complex fulfils its catalytic and regulatory roles in photosynthesis.

169 nct ribosomal protein (RP) stoichiometry and regulatory roles in protein synthesis has been speculate

170 obal phosphoproteomes in Musa spp. and their regulatory roles in response to cold stress.

171 es, termed non-coding RNA (ncRNA), plays key regulatory roles in shaping cellular activity.

172 hat plays key structural, developmental, and regulatory roles in skeletal and cardiac muscle.

173 Long noncoding RNAs may play important regulatory roles in soybean growth and development.

174 Thus, these results reveal novel regulatory roles in the B cell response for receptors th

175 organelles, implying that they may have key regulatory roles in the biophysical assembly process.

176 two signaling molecules that have important regulatory roles in the development and plasticity of ne

177 cyclin-dependent kinases (CDK) had critical regulatory roles in the expression and chromatin activat

178 croRNAs have demonstrated critical and broad regulatory roles in the pathogenesis of PH via the direc

179 s evidence for better understanding of miRNA regulatory roles in the process of fiber development, wh

180 fying enzymes HDAC1 and KDM5A play critical, regulatory roles in this process.

181 e show that the BRANCHED genes play opposing regulatory roles in tobacco lateral branching.

182 s transcriptomes, which could play important regulatory roles in translation and other biological pro

183 rent muscle types have distinct and specific regulatory roles in wound signalling and patterning to e

184 generally not thought to play a significant regulatory role, in fact impart restrictions on the deve

185 evealed the potential molecular profiles and regulatory roles involving the TL difference between NSE

186 port is affected by S56 phosphorylation, its regulatory role is subtle.

187 previously unknown structural, functional or regulatory roles, not apparent from systematic point mut

188 nknown cannabinoid receptor 2 (CB2)-mediated regulatory role of 2-AG on IFN-alpha induction by pDCs.

189 el in Arabidopsis (Arabidopsis thaliana) the regulatory role of ABA in mechanisms that determine root

190 fter BABA perception by IBI1, as well as the regulatory role of ABA therein, remain unknown.

191 We discovered a regulatory role of ABHD6 in human pDCs through modulatin

192 f holo-ACPP in the cell identify a potential regulatory role of ACPS in fatty acid biosynthesis.

193 These results provide new insights into the regulatory role of adherens junctions in initiating and

194 enhanced cell death, which confirmed the key regulatory role of Ca2+ in EPEC-induced pyroptosis.

195 in allergic contact dermatitis, indicating a regulatory role of CD163.

196 in living cells and elucidates the essential regulatory role of CK1e in DVL conformational dynamics.

197 ic studies were carried out to elucidate the regulatory role of COP1 in ABA signaling.

198 These results demonstrate the regulatory role of core-promoters in cell-cycle-dependen

199 ion addition, including Zn(2+), suggesting a regulatory role of divalent cations in tubule formation.

200 Here, we report the BBB-regulatory role of endothelial sphingosine 1-phosphate (

201 To provide insights into the regulatory role of enhancer-associated non-coding varian

202 Gene silencing approaches confirmed the regulatory role of HIF-1alpha in BACE1-AS/BACE1 in Tat-m

203 3D angiogenesis model demonstrated the dual regulatory role of high-sulfated derivatives on the biol

204 The primary regulatory role of Hot216, and specifically the gene enc

205 try and replication and highlight a positive regulatory role of IFN-induced proteins in HIV-1 infecti

206 specific conformations of an enzyme, but the regulatory role of IMPDH filaments has remained unclear.

207 drial ATP production, demonstrating a direct regulatory role of insulin on brain mitochondrial functi

208 Here, we show a novel regulatory role of KDM3C in inflammatory responses to or

209 Together, our results suggest a regulatory role of Lmo4-resistin signaling in weight cyc

210 Given the important immune-regulatory role of LMs, these data provide mechanistic i

211 we aimed to improve our understanding of the regulatory role of lncRNA KCNQ1OT1 during osteoblast pro

212 vances regarding both the pathogenic and the regulatory role of lymphocytes in SLE beyond the product

213 es a comprehensive overview of the important regulatory role of methylation in metastatic castration-

214 Here, we investigated the regulatory role of microRNAs (miRNAs) in harmonizing ang

215 This is the first study demonstrating a regulatory role of miR-485-5p for multiple UGT2B enzymes

216 The negative regulatory role of MSRB8 in HR is further supported by a

217 The regulatory role of mTOR during erythropoiesis was confir

218 decreased MIG6 expression, demonstrating the regulatory role of NDRG1.

219 xic induction of SLC2A3, indicating a direct regulatory role of NICI in SLC2A3 expression, which was

220 This study further demonstrated the regulatory role of PCA1 on lipopolysaccharide (LPS)-stim

221 The regulatory role of PLK4 in cytokinesis makes it a potent

222 We present the regulatory role of Plvap in the development of blood-bor

223 Our study thus reveals a new regulatory role of PML bodies in Aire function, and high

224 thrombin production in PRP, underlining the regulatory role of PN-1 released from platelet granules.

225 roximal ribosome binding sites, suggesting a regulatory role of processing on translation initiation.

226 ults of our study not only shed light on the regulatory role of RPTP-D2 domains, but also provide a p

227 In this context, the regulatory role of rs113288603 in cerebellum appears to

228 ain kinase (MLCK) expression, confirming the regulatory role of TAK-1 and NF-kappaB p65/p50 in up-reg

229 dent, we resolve the paradox, highlighting a regulatory role of telomeres in cancer.

230 Here, we show that the regulatory role of the Arabidopsis RETINOBLASTOMA RELATE

231 ane deformations, highlighting the potential regulatory role of the bilayer.

232 Among the three tRNA binding sites, the regulatory role of the exit (E) site, where deacylated t

233 h tRNA gene activity, supporting a prominent regulatory role of the local genomic context in combinat

234 These results suggest an important regulatory role of the M-domain in cMyBP-C effects on ac

235 The regulatory role of the N-terminal domain was dissected.

236 Our results thus unravel the regulatory role of the OST1-PUB25/26 module in regulatin

237 We aimed to characterize the regulatory role of the primary intracellular metabolite

238 Our findings reveal the regulatory role of the repeat domain as a specific pH-se

239 Here we investigate the synaptic regulatory role of the RhoGEF protein Tiam1, whose expre

240 Together, these data indicate a fundamental regulatory role of the VDR in the regulation of myogenes

241 eriments can be performed to investigate the regulatory role of thousands of oligonucleotide sequence

242 In this review, we first discuss the regulatory role of translation elongation in protein bio

243 ta-catenin, are responsible for the negative regulatory role of Wnt3a.

244 es provided unambiguous understanding of the regulatory role of WsMYC2 in context to withanolides and

245 block, These findings confirm the important regulatory roles of AlucJHEH in A. lucorum and indicate

246 We explore the self-regulatory roles of anger and guilt, as well as prosocia

247 Our data thus reveals unexpected regulatory roles of AS through differential utilization

248 Together, these findings demonstrate regulatory roles of ASHCEs in the creation of avian-spec

249 Altogether, our results elucidate positive regulatory roles of CaMPK9 and CaWRKY40 in modulating de

250 results illuminate previously unappreciated regulatory roles of DNA cleavage activity on Cas9's conf

251 In the present study, we characterized the regulatory roles of five BRC gene members in tobacco (Ni

252 Despite evident regulatory roles of heparan sulfate (HS) saccharides in

253 tive small-molecule inhibitors to assess the regulatory roles of interleukin-1 receptor (IL-1R)-assoc

254 Given the importance regulatory roles of lncRNAs, providing methods for predi

255 ted molecular interactions important for the regulatory roles of MAP2c in microtubule dynamics.

256 Our experiments validated the regulatory roles of miR-340-5p and Foxm1 in the Wnt-FoxO

257 RNA transfer and add multiple layers to the regulatory roles of miRNAs and PMPs in tumor progression

258 Understanding the regulatory roles of non-coding genetic variants has beco

259 Nevertheless, regulatory roles of non-coding RNAs remain unknown.

260 environmentally regulated, architectural and regulatory roles of nucleoid-associated proteins and the

261 emerging research indicates that the immune regulatory roles of platelets may be just as important.

262 These genome regulatory roles of proteins of the nuclear periphery ha

263 functional experiments when evaluating gene regulatory roles of TEs.

264 Herein, we review the regulatory roles of the 3'UTRome as binding sites for mi

265 R, we sought to investigate specifically the regulatory roles of the beta-arrestin2 isoform on expres

266 nt reduction of H3K27ac levels validated the regulatory roles of the perturbed motifs.

267 To investigate the regulatory roles of these loci, we sequenced fibre trans

268 ncies increase the urgency to understand the regulatory roles of tRFs.

269 However, the broad regulatory roles of USP7 in cell death pathways, chromat

270 cations in imaging and for understanding the regulatory roles of zinc fluxes in live cells.

271 Our data suggest that rare codons have a regulatory role only if they are present within appropri

272 Vitamin D exerts a regulatory role over mucosal immunity via the vitamin D

273 AP2 transcription factors may play a limited regulatory role, perhaps operating in conjunction with e

274 ocess during cutaneous wound healing and the regulatory roles played by catecholamines during the pro

275 tly extends the current understanding of the regulatory roles played by dynamin isoforms during early

276 Due to the important structural and regulatory roles played by histones, it is not surprisin

277 Taken together, our study reveals dynamic regulatory roles played by neurogranin on synaptic plast

278 for ChR1 function points to their potential regulatory role(s).

279 lude upstream ORFs that are likely to have a regulatory role, several in-frame internal ORFs within e

280 Finally, genes with a transcriptional regulatory role (SF3A3, ILF3, and N4BP2L2) exert their e

281 Consistent with a permissive regulatory role, SNr output provides information about t

282 24 proteins are identified as holding regulatory roles specific to the infected cell by measur

283 ntial behavior, potentially highlighting the regulatory role that this domain may play in the two ant

284 These findings, along with the well-known regulatory roles that SIRT1 plays in modulating both ana

285 ptic active zone (AZ) proteins have multiple regulatory roles that vary during distinct stages of neu

286 intensified research into the pathogenic and regulatory roles these cells play in demyelinating disea

287 To perform this regulatory role, these Duts require an extra motif VI, a

288 hese regions play a variety of signaling and regulatory roles, they appear to be rapidly evolving at

289 Apart from their regulatory roles, they are also involved in the producti

290 ar sarcomeric protein playing structural and regulatory roles through its dynamic interaction with ac

291 pathway of Mei2 turnover, but rather plays a regulatory role to limit its accumulation or inhibit its

292 2 functions in a noncanonical/non-cell cycle regulatory role to maintain adult pyramidal neuron ribos

293 or antiviral functions, PTMs generally play regulatory roles to tune protein functions, levels, and

294 nsient over-expression displayed significant regulatory role vis-a-vis withanolides and stigmasterol

295 ation between an i-modulon and sigmaS, whose regulatory role was previously undefined; 3) the regulat

296 findings that E2F3a and E2F3b have divergent regulatory roles, we set out to study the putative trans

297 -GMP specified by these enzymes has a global regulatory role, with about 20% of all S. venezuelae gen

298 lies, and that NPF neurons have an important regulatory role within this system.

299 ver, MycG4 is highly stable in vitro and its regulatory role would require active unfolding.

300 ined immune-cell subsets can play key immune-regulatory roles, yet their detailed study is often hamp