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1 infections and discuss their predicted role in maintaining a fit virus population, their impact on h

2 hip with NPC, underpinning their unique role in maintaining a healthy neurovascular niche, and in sup

3 temporarily, which plays a fundamental role in maintaining a homeostatic environment in the brain.

4 n important structural role of genomic loops in maintaining a less entangled genome.

5 (YAP), a major effector of Hippo signaling, in maintaining a younger state of human mesenchymal stem

6 IK motifs, functionally overlaps with UNC-87 in maintaining actin cytoskeletal integrity in vivo and

7 roup E member 3 (NR2E3) plays a crucial role in maintaining active DINO epigenetic status for its pro

8 a PCNA-associated protein, plays a key role in maintaining active replication and counteracting repl

9 cell lines and show that it plays key roles in maintaining active replication in both the nucleus an

10 oint was efficacy of prophylactic emicizumab in maintaining adequate bleed prevention, assessed in al

11 tudy establishes a prominent role for HNRNPK in maintaining adult tissue self-renewal through both tr

12 tments, suggesting the importance of the PPP in maintaining AKT activation even in the presence of a

13 ransformation and enamel crystal growth, and in maintaining ameloblast integrity and function during

14 demonstrate a new regulatory role for SLX4IP in maintaining an efficient SLX4-XPF-ERCC1 complex in IC

15 lioma environment and have an important role in maintaining and propagating glioma progression.

16 icates that SUMOylation plays a crucial role in maintaining and regulating neural function, and impor

17 egulation of APP in the CNS and participates in maintaining APP regulation of Fe, which is disrupted

18 lateral medulla (RVLM) plays a critical role in maintaining arterial baroreflex sympathoinhibition.

19 l genomes encode motifs that may be involved in maintaining association with the coral host and in su

20 se-related proteins in astrocytes as well as in maintaining astrocyte function, which could impact th

21 tiating stem-like cells (TICs) are defective in maintaining asymmetric cell division and responsible

22 stead, we propose a novel role for PGC1alpha in maintaining AT2 pneumocyte identity.

23 phatases PTEN and SHIP-1 play a crucial role in maintaining B cell anergy and are reduced in expressi

24 se studies reveal HIF-1alpha's critical role in maintaining barrier and highlight the HIF-1alpha/clau

25 te that mitochondria play a fundamental role in maintaining bioenergetic homeostasis of both OXPHOS-c

26 lution, the role of local adaptive evolution in maintaining biological diversity through these proces

27 ng the blood-brain and blood-nerve barriers, in maintaining brain nutrient levels in health and disea

28 o an interconnected role of VCP/p97 and GCN2 in maintaining cancer cell metabolic and protein homoeos

29 Furthermore, the role of the UPR(mt) in maintaining cancer cells in the mitohormetic zone to

30 est regeneration, emphasising their key role in maintaining carbon stores, and the need for national

31 e and behavioral responses that are involved in maintaining cardiovascular homeostasis.

32 e species are more important than dogs, both in maintaining CDV and as sources of infection for tiger

33 ghting the importance of lncRNA surveillance in maintaining cell and organism functions and health.

34 unctions, play an essential synergistic role in maintaining cell envelope integrity of Escherichia co

35 seabass, which may be attributed to its role in maintaining cell membrane integrity and permeability.

36 Although lignin plays an important role in maintaining cell wall integrity of xylem vessels, phy

37 icating that it is likely a protein involved in maintaining cell wall integrity.

38 tin-dependent, but the precise role of actin in maintaining cell-cell adhesion is not fully understoo

39 69, which is an activation marker implicated in maintaining cells in tissues, was observed in lungs f

40 Given the pathway's central role in maintaining cellular and physiological homeostasis, d

41 on) antiporter (CAX) plays an important role in maintaining cellular Ca(2+) homeostasis in bacteria,

42 arbon receptor (AhR) plays an important role in maintaining cellular homeostasis and also in pathophy

43 ese results suggest a pivotal role for STING in maintaining cellular homeostasis and response to geno

44 Lst1-mediated ER-phagy played a vital role in maintaining cellular homeostasis by preventing the ac

45 Its role in maintaining cellular homeostasis helps to nourish hyp

46 Due to the integral role of OGG1 in maintaining cellular homeostasis under oxidative stre

47 maintenance protein 1, plays a crucial role in maintaining cellular homeostasis via the regulated ex

48 Lipid metabolism is exceedingly important in maintaining cellular homeostasis, and it is recognize

49 e expression of many genes that are critical in maintaining cellular homeostasis.

50 Bundled actin structures play a key role in maintaining cellular shape, in aiding force transmiss

51 play a previously unappreciated trophic role in maintaining choroidal vasculature and RPE cells, impl

52 The top 24 proteins identified were involved in maintaining chromatin structure, transcriptional regu

53 lucidate a novel nuclear function for PACS-1 in maintaining chromosomal integrity.

54 his adds to the important roles of condensin in maintaining chromosome stability.

55 n at the base of the cilium that is involved in maintaining ciliary compartment-specific sensory and

56 ed to investigate the role of epithelial EP4 in maintaining colonic homeostasis by characterizing the

57 robes, especially the most diverse rare taxa in maintaining community diversity and multifunctionalit

58 present challenges to clinical laboratories in maintaining competence for accurate identification an

59 Health-care providers have a vital role in maintaining confidence in vaccination and preventing

60 ments, and identified a novel role for CPEB1 in maintaining constitutive translation of a large group

61 oborates independently proposed roles of Tau in maintaining dendritic spines and mitochondrial fissio

62 mbriata point to a role of CYC and CIN genes in maintaining differential perianth expansion during mi

63 e will discuss the role of skin CD8(+) T(RM) in maintaining disease in vitiligo and the opportunity t

64 Thus, our work uncovers a role for DNMT3L in maintaining DNMT3A stability, which contributes to th

65 re discern the importance of the OxyE enzyme in maintaining effective cyclization of such peptides be

66 ion pathways, autophagy plays a pivotal role in maintaining effective turnover of proteins and damage

67 r cortico-cortical connections, may be vital in maintaining efficiency of cognitive control processes

68 PRC2 thus plays essential roles in maintaining embryonic stem cell identity and in contr

69 novel mediator of myeloid cell-IEC crosstalk in maintaining epithelial barrier integrity, suggesting

70 e have clarified the specific role of hepsin in maintaining epithelial cell membrane integrity, known

71 has been proposed to play an important role in maintaining epithelial tissue homeostasis in many sys

72 AP-SCRN1 interactions play an important role in maintaining ER continuity and dynamics, as well as pr

73 ession is limited, in part due to challenges in maintaining F. nucleatum viability under standard aer

74 echanisms that may be responsible for aiding in maintaining fidelity (the frequency of incorrect inco

75 tissue-dependent role of the circadian clock in maintaining fitness in the face of long-term abiotic

76 highlight the importance of fork stabilizers in maintaining fork integrity during replication of stru

77 r data suggest a more dynamic role for PAP I in maintaining functional tRNA levels in the cell.

78 he intestine, thus playing an important role in maintaining gastrointestinal homeostasis.

79 an important role for hydrographic gradients in maintaining genetic diversity.

80 eutic agents in AML due to the role of SIRT6 in maintaining genome integrity and DNA repair.

81 f 3' end blocks and identify a role for Apn2 in maintaining genome integrity during rNMP repair.

82 , our findings indicate a novel role for CST in maintaining genome integrity through resolution of G4

83 helicases are a family of proteins involved in maintaining genome integrity with functions in DNA re

84 NA damage levels, suggesting a role for zinc in maintaining genome integrity.

85 The cohesin complex has an essential role in maintaining genome organization.

86 Pif1 plays multiple roles in maintaining genome stability and preferentially unwin

87 nnoticed cooperation between MDC1 and TOPBP1 in maintaining genome stability during cell division.

88 efine a novel ATR dependent pathway involved in maintaining genome stability in developing embryos by

89 Besides critical and well-studied roles in maintaining genome stability, DNA repair pathways inc

90 otic nuclease that plays a multifaceted role in maintaining genome stability.

91 ATR plays a crucial role in maintaining genomic integrity by responding to a larg

92 ur study uncovers an essential role for SDE2 in maintaining genomic integrity by stabilizing the FPC

93 g screening study to define the role of E2F2 in maintaining genomic integrity in breast cancer.

94 lucose and lipid homeostasis and is involved in maintaining genomic stability under conditions of oxi

95 Although RAD51AP1 is involved in maintaining genomic stability, recent studies have sh

96 e we show that RNAi pathways play a key role in maintaining germline gene expression and totipotency

97 elucidates the molecular function of PRDM10 in maintaining global translation, establishes its essen

98 on, nuclear ERalpha signaling is predominant in maintaining glucose homeostasis in mice of both sexes

99 the role of ATP-sensitive K+ (KATP) channels in maintaining glucose homeostasis.

100 er is required for its interactions and role in maintaining Golgi homeostasis.

101 demonstrate that WISP1 plays critical roles in maintaining GSCs and tumor-supportive TAMs in GBM, in

102 Paneth cells are critical in maintaining gut microbiota composition and homeostasi

103 ific microbiome, which has an essential role in maintaining health and homeostasis.

104 Electrolytes have a crucial role in maintaining health and their serum levels are homeost

105 Therefore, IRF3 is involved largely in maintaining health but sometimes contributing to dise

106 mportant context- and tissue-dependent roles in maintaining health during response to injury, physiol

107 , suggesting that they have beneficial roles in maintaining health.

108 Collectively, miR-204/-211 are essential in maintaining healthy homeostasis of mesenchymal joint

109 iuretic peptides (NPs) are hormones involved in maintaining heart health that undergo proteolytic cle

110 n and deepen our understanding of HO2's role in maintaining heme homeostasis, paving the way for futu

111 novel, microRNA processing-independent role in maintaining heterochromatin organization and attenuat

112 itu was identified to be the critical factor in maintaining high yield to the C(5+) ketones and the s

113 nd other IC molecules have a functional role in maintaining HIV latency and whether blocking IC molec

114 and specificity for class I HDACs implicated in maintaining HIV provirus in the latent state.

115 a mechanism to share metabolites and assist in maintaining homeostasis across the photoreceptor cell

116 ne vasopressin (AVP) plays significant roles in maintaining homeostasis and regulating social behavio

117 he autonomic nervous system plays a key role in maintaining homeostasis and responding to external st

118 human innate immune system that is involved in maintaining homeostasis and responding to infections

119 ighlight the role of bacterial sphingolipids in maintaining homeostasis and symbiosis in the gut.

120 usion, we report that Jonah66Ci participates in maintaining homeostasis of certain physiological proc

121 nctions, thus placing mitochondria centrally in maintaining homeostasis upon infection.

122 ceptor levels, which in turn may play a role in maintaining homeostasis.

123 se results demonstrate crucial roles of BOH2 in maintaining hook complex integrity and promoting cent

124 that this response may play a role not only in maintaining host metabolic homeostasis but also in in

125 notypes suggested critical functions of Hopx in maintaining HSC quiescence.

126 Given the role of HA in maintaining hydration in the skin it is plausible tha

127 crucial metabolic organ that has a key role in maintaining immune and endocrine homeostasis.

128 n (TSLP) has recently been shown as a factor in maintaining immune homeostasis and regulating type 2

129 Regulatory T (Treg) cells play central roles in maintaining immune homeostasis and self-tolerance.

130 romal cell populations during LN development in maintaining immune homeostasis and tolerance and in t

131 ate a key function of T(H)17 cell plasticity in maintaining immune homeostasis, and dissect the molec

132 r degradative autophagy, have a key function in maintaining immune quiescence of tissue-resident macr

133 de experimental support for the role of MBCs in maintaining imprinting effects and suggest a mechanis

134 al performance parameters which are critical in maintaining individual health and survival.

135 The beta3 subunit has an important role in maintaining inhibitory tone, and the expression of th

136 of the Yap/Tead transcription factor complex in maintaining inner ear progenitors during development,

137 n for surface features plays a critical role in maintaining intercellular cohesion of the epidermis d

138 oid cells and epithelium plays critical role in maintaining intestinal epithelial barrier integrity.

139 One such NLR, NLRP6, plays an important role in maintaining intestinal homeostasis and protecting aga

140 d "physiologic hypoxia." An important factor in maintaining intestinal homeostasis is the transcripti

141 e crucial role of epithelial PGE(2)/EP4 axis in maintaining intestinal homeostasis.

142 Peroxiredoxins (Prxs) are crucially involved in maintaining intracellular H(2)O(2) homeostasis via th

143 utative bacillithiol reductase, for its role in maintaining intracellular redox homeostasis.

144 ypothesis that IGF2BP2 has an important role in maintaining lipid homeostasis through its modulation

145 rther warming, substantial challenges remain in maintaining local biodiversity amongst the non-unifor

146 as poor recording stability and difficulties in maintaining long-term recording conditions.

147 ether, we uncover a critical role for ARID1A in maintaining luminal cell identity and endocrine thera

148 e to hypoxic stress and play essential roles in maintaining lung homeostasis.

149 The role of ClC-7 in maintaining lysosomal pH has been controversial.

150 eckpoint and the spindle position checkpoint in maintaining meiotic commitment.

151 l contact sites, and lipid transfer proteins in maintaining membrane homeostasis.

152 th T2DM in humans and plays an integral role in maintaining metabolically healthy AT function.

153 firmed the role that phosphate residues have in maintaining micelle structural stability and provides

154 that the stabilization device may be useful in maintaining microbial profile integrity, especially f

155 ggest that CASP1, IFNGR and NOS2 play a role in maintaining microbiome homeostasis.

156 for future studies on the importance of PTEN in maintaining microglia homeostasis.

157 es and rescues the requirement for TBCB/Alf1 in maintaining microtubule polymer at low temperatures.

158 embrane protein of the alveoli, plays a role in maintaining microtubule stability.

159 Here, we assessed Nampt's role in maintaining mitochondrial and metabolic functions in

160 dings indicate that L-OPA1 and S-OPA1 differ in maintaining mitochondrial function.

161 ggesting towards a specific role of AtPam16L in maintaining mitochondrial homeostasis, especially und

162 -Mfn2 pathway plays an early checkpoint role in maintaining mitochondrial integrity.

163 is may extend beyond their conventional role in maintaining mitochondrial phospholipid homeostasis.

164 -standing paradox between the role of ARID1A in maintaining mitotic integrity and the lack of genomic

165 s-linking MAP that are known to have effects in maintaining MT organization and suggest a simple mean

166 ence its development and stability, its role in maintaining mucosal homeostasis, and ultimately its c

167 l role for NMIIA-mediated contractile forces in maintaining multicellularity during sprouting and hig

168 Belowground organisms play critical roles in maintaining multiple ecosystem processes, including p

169 dominant phylotypes within the soil network in maintaining multiple functions.

170 gnaling pathway that plays an important role in maintaining muscle and bone homeostasis is that regul

171 t farnesylated DNAJA1 is a crucial chaperone in maintaining mutp53 stabilization, and by using an in

172 sential function of m(6)A demethylase ALKBH5 in maintaining myeloid leukemia stem cells.

173 6-phosphate dehydrogenase (G6PD) is critical in maintaining NADPH, which is an important cofactor for

174 in LNC plays an important developmental role in maintaining NC progenitor status to support self-rene

175 re membrane glycolipids with important roles in maintaining nervous system integrity.

176 Ets1 target gene and uncovered its function in maintaining neural crest migration pattern.

177 assive corpse removal but has an active role in maintaining neurogenesis.

178 view the literature on the role of autophagy in maintaining neuronal stem cells and in neuronal plast

179 c related gene(ERG) exerts an important role in maintaining normal aortic wall function.

180 s which suggests these factors are important in maintaining normal commensals in the mouth.

181 results indicate the crucial role of SMAD2/3 in maintaining normal endometrial function and confirm t

182 in type protein that plays an important role in maintaining normal joint function by providing lubric

183 ated a previously undescribed role for wtHTT in maintaining normal macrophage health and function.

184 to the contralateral hemisphere, is involved in maintaining normal motor function.

185 hlight the crucial roles of lipid regulation in maintaining normal organismal physiology under differ

186 re the adaptive flexibility of the intestine in maintaining normal tissue homeostasis.

187 Pancreatic beta-cells play a pivotal role in maintaining normoglycemia.

188 d whether FGF8 functions with FGF9 and FGF20 in maintaining NPCs.

189 regulated actin polymerization plays a role in maintaining nuclear architecture.

190 indicate that LRRK2 plays an essential role in maintaining nuclear envelope integrity.

191 opose a role for the nuclear beta-actin pool in maintaining open chromatin for transcriptional reprog

192 s roles as a cofactor in several enzymes and in maintaining optimal physiology are well-known, the ov

193 for home care and professional intervention in maintaining oral health.

194 saliva, microbiology, and the role of saliva in maintaining oral health.

195 and GTP-hydrolysis activities, and function in maintaining overall plant architecture and controllin

196 f the yeast polyamine transporter Tpo1p(3-5) in maintaining oxidant resistance is unknown(6).

197 s into the tissue-specific functions of VDRs in maintaining Paneth cell alertness to pathogens in int

198 o support a pivotal role for the endothelium in maintaining perfusion and microvascular patency in th

199 findings highlight a critical role for JAG1 in maintaining peripheral nerve integrity, particularly

200 gnition that B cells also play critical role in maintaining peripheral tolerance and suppressing the

201 ted to malate metabolism, which participates in maintaining photosynthetic linear electron flow.

202 NKT10 cells, and perifollicular mast cells, in maintaining physiologic hair follicle immune privileg

203 a major role for basement-membrane proteins in maintaining plaque stability.

204 ation and reveal the importance of RNA decay in maintaining pluripotency.

205 our results showed that FgPal1 plays a role in maintaining polarized tip growth and coordination bet

206 ir desired destinations plays a central role in maintaining proper cell functionality.

207 Our results suggest HU plays a dual role in maintaining proper nucleoid volume through its differ

208 globally in many cellular processes involved in maintaining protein homeostasis.

209 t molecular chaperones that play vital roles in maintaining protein solubility and preventing aberran

210 underscoring the importance of glycosylation in maintaining protein structures.

211 period can substitute for visual experience in maintaining receptive field refinement into adulthood

212 covers a noncanonical function of MPO enzyme in maintaining redox balance and mitochondrial energetic

213 onide orodispersible tablet (BOT) vs placebo in maintaining remission of EoE.

214 1.0 mg twice daily) was superior to placebo in maintaining remission of EoE.

215 Constitutive TGFbeta signaling is important in maintaining retinal neurons and blood vessels and is

216 in ribosome assembly and suggests new roles in maintaining ribosome homeostasis.

217 is factor and IL-1alpha/beta expression, and in maintaining Ripk1 function to prevent caspase-8- and

218 alyzing the role of knowledge infrastructure in maintaining safe operating spaces.

219 (TFs) nuclear factor IB (NFIB) and IX (NFIX) in maintaining SC identity.

220 We find a specific requirement for Shrub in maintaining septate junction (SJ) integrity by transp

221 not clear if palindromic repeats play a role in maintaining sequence conservation in the absence of h

222 s more effective than pseudocholine esterase in maintaining sequential degradation until >90% of DMA

223 t that otic mesenchyme cells may play a role in maintaining SGN populations during the early postnata

224 r, first-line ablation may be more effective in maintaining sinus rhythm.

225 e cutaneous immune cells and their functions in maintaining skin health and driving diseases.

226 l and/or horticultural trade may be involved in maintaining some level of connectivity across distant

227 of the SERCA2 (SR Ca(2+)-ATPase), essential in maintaining SR Ca(2+) content cycling during each hea

228 glycan modification may have a role to play in maintaining stability at elevated temperatures.

229 ascades and highlight a role for this kinase in maintaining survival of KRAS-mutant lung cancer cells

230 nvolve the role of intercontinental commerce in maintaining sustainable production within important s

231 MACF1 plays an important role in maintaining synaptic differentiation and efficient sy

232 Thus, the role of sleep in maintaining synaptic homeostasis may extend to the hi

233 eal a surprising role for this feedback loop in maintaining synaptic vesicle pools in the adult brain

234 , demonstrating that this pathway is crucial in maintaining T cell function and pathogenicity.

235 , we wondered whether they differ from shoes in maintaining tactile sensitivity during walking, espec

236 , and POT1 and TPP1) plays an important role in maintaining telomere length and integrity, and any al

237 lungs and find evidence for type 2 cytokines in maintaining the altered epithelial cell states.

238 The Mla pathway is believed to be involved in maintaining the asymmetrical Gram-negative outer memb

239 to limit the immune response and is critical in maintaining the balance between homeostasis and infla

240 votal regulatory role for the SphK1/S1P axis in maintaining the balance between immunosurveillance an

241 propose a new role for the Bub1-Bub3 pathway in maintaining the balance between kinetochore localizat

242 It suggests that AtNBR1 might play role in maintaining the balance of ABA signalling by controll

243 rgan in mammals, which plays essential roles in maintaining the body temperature of infants.

244 gests that the role of functional adaptation in maintaining the bone structural integrity in old age

245 protein conformations that play a vital role in maintaining the capsid architecture of the virion.

246 ry nonperfusion may play a compensatory role in maintaining the central macular microcirculation.

247 Corneal immune privilege is integral in maintaining the clear avascular window to the foreign

248 ence of a novel role for the premotor cortex in maintaining the context-dependent information necessa

249 est that primary cilia play an integral role in maintaining the function of PCs in the adult cerebell

250 esults demonstrate the conserved role of BLM in maintaining the genome while reinforcing the applicab

251 e packaging materials play an important role in maintaining the health of ecosystems.

252 ophagy illustrate mitophagy's essential role in maintaining the health of the mitochondrial network.

253 s suggest that selective autophagy functions in maintaining the homeostasis of a plant immune recepto

254 re we show that Zbtb11 plays essential roles in maintaining the homeostasis of mitochondrial function

255 ts highlight the role of balancing selection in maintaining the inbred load and linked genetic divers

256 pecialized cells that play an essential role in maintaining the integrity and function of the glomeru

257 ly unknown role for the epigenetic mark 5hmC in maintaining the integrity of stalled RFs and a potent

258 n essential role of actomyosin contractility in maintaining the integrity of the nucleus of neutrophi

259 networks of RS1 may play a stabilizing role in maintaining the integrity of the retina.

260 our studies demonstrate a novel role of DRA in maintaining the intestinal epithelial barrier functio

261 yme catalytic subunit 3A, abbreviated "A3A") in maintaining the latency state within HIV-1-infected c

262 ts highlight the essential role of AP-2gamma in maintaining the luminal breast cancer phenotype and p

263 their host bacteria plays an important role in maintaining the microbial communities.

264 sident immune cells that play critical roles in maintaining the normal physiology of the central nerv

265 We found that YhdP, an IM protein involved in maintaining the OM permeability barrier, modulates th

266 the role of Pax6 in limbal niche cells (LNC) in maintaining the phenotype of neural crest (NC) progen

267 results support a determining role for TOPs in maintaining the proper level and dynamics of proteome

268 egument protein with unknown function, UL88, in maintaining the proper tegument composition of HCMV v

269 pairs of hydrogen bonds played a major role in maintaining the protein conformation.

270 lts indicate that Tet1 plays a critical role in maintaining the quiescence and reconstitution capacit

271 presented in every region played a key role in maintaining the region-specific cell functions and he

272 ected memory CD4(+) T cells plays a key role in maintaining the reservoir over time.

273 wave and mean flow interaction is important in maintaining the robust spectral structure.

274 domain at the Y junction and its likely role in maintaining the split trajectories of the unwound 5'

275 er, only CTG-based procedures were effective in maintaining the stability of the gingival margin over

276 ely, act in concert to promote NF155 and MAG in maintaining the stable axo-glial interactions essenti

277 ribute to the essential role of this protein in maintaining the steady-state levels of snoRNAs in the

278 membrane of the stem cells and was critical in maintaining the stemness via interactions with CD98HC

279 on of vimentin intermediate filaments (VIFs) in maintaining the structural integrity of PGCCs and enh

280 a gangetica), which plays a significant role in maintaining the structure, functions and integrity of

281 tanding of neuronal trafficking and its role in maintaining the synaptic function that underlies high

282 DNA-binding protein with important functions in maintaining the topological structure of chromatin an

283 or Portobello mushrooms, as it was effective in maintaining their chemical profiles (except for minor

284 ecules that surround them play crucial roles in maintaining their full structural and functional inte

285 and signaling pathways that may be involved in maintaining their identity.

286 oteasome system (UPS), have an integral role in maintaining this balance.

287 s indicates the importance of key regulators in maintaining this specialized photoreceptor mitochondr

288 ed that dysbiosis played only a partial role in maintaining tight junction protein expression.

289 mphatic contractions play a fundamental role in maintaining tissue and organ homeostasis.

290 crucial function of neuroimmune interactions in maintaining tissue homeostasis and protection.

291 biologic response that plays a critical role in maintaining tissue homeostasis by eliminating deleter

292 suggesting an important role for these cells in maintaining tissue homeostasis.

293 servations 1) highlight a role for platelets in maintaining vascular homeostasis in the absence of in

294 ons regarding the critical role of microglia in maintaining vascular integrity in the CNS.

295 gs highlight an important role for microglia in maintaining vascular integrity in the hypoxic spinal

296 monstrated not only that Sri Lanka succeeded in maintaining very high primary immunization coverage a

297 Assembly of the peptidoglycan is crucial in maintaining viability of bacteria and in defining bac

298 These betaOMPs play crucial roles in maintaining viability of their hosts, and therefore,

299 DTG/3TC was noninferior in maintaining virologic suppression vs a TAF-based regi

300 ggesting that females play an important role in maintaining year-round group cohesion.