ライフサイエンスコーパス: envelop

1 ding on their lipid composition of the viral envelop.

2 ucleocapsid formed by a homodimer and is not enveloped.

3 unctionality of gram-negative bacterial cell envelopes.

4 for packaging the drug and placebo in opaque envelopes.

5 sessors and was concealed with sealed opaque envelopes.

6 made by use of sequentially numbered opaque envelopes.

7 at kills pathogens by perforating their cell envelopes.

8 eriving from ancestral endogenous retroviral envelopes.

9 ealed with use of sequential numbered opaque envelopes.

10 myelinated axons and perisynaptic astroglial envelopes.

11 -sorption analysis, and adsorption isotherms/envelopes.

12 o secrete proteins across their complex cell envelopes.

13 al importance of amino acid 375H in CRF01_AE envelopes.

14 ealed with use of sequential numbered opaque envelopes.

15 concealment was implemented by use of sealed envelopes.

16 elivery of large molecules across their cell envelopes.

17 fs, walls, and other components of buildings envelopes.

18 vertical evolution of most diderm bacterial envelopes.

19 network-based model for evaluating isotopic envelopes.

20 Exposure to biological fluid envelops a nanoparticle in layers of proteins and biomol

21 In addition, we show inhibition of a non-enveloped adenovirus.

22 ation, evidenced by restoration of cornified envelopes after CLE rescue.

23 hosphoryl and carboxyl groups from bacterial envelopes, among other released complexing agents, to be

24 y, minimal sample volume, and reduced sensor envelop and power budget creates a new class of mobile N

25 al organs that youthful skin was designed to envelop and safeguard.

26 cortical site using a difference of Gaussian envelopes and derived estimates of the strength of centr

27 This process disrupts viral envelopes and diminishes infectivity but leaves cellular

28 s, which groups spectral peaks into isotopic envelopes and extracts monoisotopic masses of precursor

29 d/or green fluorescent protein (GFP)-labeled envelopes and infected the cortical neurons to study axo

30 d different abilities to diffuse across cell envelopes and interact with lipids and intracellular nuc

31 llular process occurring in both the nuclear envelopes and mitochondria of dividing cells.

32 ded proteins, have severely compromised cell envelopes and strong growth defects.

33 es viruses that carry glycoproteins in their envelopes and that are routinely used for infection of C

34 s for degradation, and reset proteostasis by enveloping and clearing the aggregates.

35 matitis, Rabies, Mokola and Ross River viral envelopes) and self-complementary adeno-associated viral

36 However, because cornified envelopes are attenuated in these autosomal recessive co

37 Reactions with materials inside building envelopes are expected to influence the amount of ambien

38 for necromass in the form of microbial cell envelopes as well as plankton and algal detritus.

39 es move separately, and notably, capsids are enveloped at axonal varicosity and terminals, which are

40 Notably, capsids acquired envelopes at axonal varicosities and terminals where the

41 ster catalyst consisting of partially ligand-enveloped Au(4)Pt(2) clusters supported on defective gra

42 In this study, the enveloped bacteriophage Phi6 was evaluated as a surrogat

43 lf-assemble into capillary networks that are enveloped by a basement membrane.

44 mbryonic ectoderm of the mouse embryo become enveloped by a basement membrane.

45 Biological cells are enveloped by a heterogeneous lipid bilayer that prevents

46 gnetite (Fe(3)O(4)) or greigite (Fe(3)S(4)), enveloped by a lipid bilayer membrane, produced by magne

47 yer develops into a spherical shell (capsid) enveloped by a lipid-rich membrane.

48 in social epidemiology that should always be enveloped by a thorough understanding of how systems and

49 A 3D array of split ring resonators (SRR) is enveloped by an inductively heated argon plasma with a n

50 Gram-negative pathogens are enveloped by an outer membrane that serves as a double-e

51 uth America, with those assemblages becoming enveloped by assemblages from the subtropics.

52 The gastrointestinal tract is enveloped by concentric and orthogonally aligned layers

53 pherical nanoparticles tend to be completely enveloped by host membranes, whereas low sphericity nano

54 are the predominant cell population that is enveloped by PNNs, which enhance their ability to releas

55 cleft, and would depolarize other hair cells enveloped by the same neuritic process increasing the fi

56 arge quantities of unenveloped and partially enveloped capsids in neuronal cytoplasm.

57 ontrast, the CTD in empty HBV virions (i.e., enveloped capsids with no RNA or DNA) was found to be ph

58 Satellite glial cells (SGCs) closely envelop cell bodies of neurons in sensory, sympathetic a

59 ed tight junction (TJ) formation between the enveloping cell layer (EVL) and the yolk syncytial layer

60 e reveal that the extra-embryonic epithelial enveloping cell layer, thought mainly to provide protect

61 ons of nuclear motion constrained inside the enveloping cell membrane show that concentration-depende

62 ted MDC1 is dynamically localized to nuclear envelopes, centrosomes, kinetochores, and midbodies.

63 mitosis it was absent from kinetochores and enveloped chromatin.

64 IFITM1 also restricted infection with an enveloped DNA virus that can enter via the plasma membra

65 Herpesviridae is a vast family of enveloped DNA viruses that includes eight distinct human

66 Ascoviruses are large, enveloped DNA viruses that induce remarkable changes in

67 Hepadnaviruses are hepatotropic enveloped DNA viruses with an icosahedral capsid.

68 Rotaviruses, like other non-enveloped, double-strand RNA viruses, package an RNA-dep

69 ope evolution, wherein the original orbit is enveloped during the red giant phase and shrinks owing t

70 ns from the naturally occurring ion isotopic envelopes (e.g., [M], [M+1], [M+2], ...

71 in proteins distributed in sheath cells that envelop each chromatocyte.

72 Moreover, isolated bacterial cell envelopes, encompassing inner and outer membranes, yield

73 border and are highly enriched in the lumen-enveloping endotube, which is attached to the C. elegans

74 these antibodies do not recognize most HIV-1 envelopes (Envs).

75 e geographic distributions of their climatic envelopes, exposing species to the risk of extinction.

76 Ebolavirus (EBOV), an enveloped filamentous RNA virus causing severe hemorrhag

77 inhibiting the replication of members of the enveloped filo, alpha, and herpes virus families but not

78 scoring functions in distinguishing correct envelopes from incorrect ones and that it increases the

79 scoring functions, which distinguish correct envelopes from incorrect ones.

80 Quasi-enveloped HAV (eHAV) mediates stealthy cell-to-cell spre

81 To better understand the biogenesis of quasi-enveloped HAV (eHAV) virions, we conducted a quantitativ

82 cellular and viral proteins that could link enveloping herpesviruses to cellular ESCRT components.

83 pid formation of a bacterial biofilm that is enveloped in a complex extracellular polymeric substance

84 They may either have a rocky core enveloped in a H(2)-He gaseous envelope (gas dwarfs) or

85 cterized by their basolateral membrane being enveloped in a single large afferent nerve terminal, nam

86 m virus containing a rod shaped nucleocapsid enveloped in an elliptical membrane.

87 The consequent isotopic envelopes in mass spectra can reveal the ion stoichiomet

88 e isotopes, yielding ubiquitous isotopologic envelopes in mass spectra.

89 Herpesviruses acquire their membrane envelopes in the cytoplasm of infected cells via a molec

90 ntification and analysis of peptide isotopic envelopes in the HDX MS raw data and HDsite for residue-

91 orm in interstellar clouds and circumstellar envelopes, including the important role that polycyclic

92 Among pretreatment envelopes, increased probability of using CXCR4 and grea

93 ly smaller until 2 dpf and display perturbed enveloping layer (EVL) integrity and cell protrusions at

94 Since periderm formation from the enveloping layer precedes the formation of the basal epi

95 ndomly assigned, using sequentially numbered envelopes linked to a second non-sequentially numbered s

96 To survive within this enveloping membrane, the organism must take in nutrients

97 ally visible cellular compartments that lack enveloping membranes, recently termed biomolecular conde

98 ary plastids that are enclosed by only three enveloping membranes, unlike most secondary plastids, wh

99 escent confocal micrographs demonstrated the enveloping membranous structure identified on phase-cont

100 ss the boreal, on the edge of their climatic envelopes, more vulnerable to intense post-fire drying,

101 t microscopy data show that H129 capsids and envelopes move separately, and notably, capsids are enve

102 he mutated residues, with loss of the native enveloping movement of the binding site around its ligan

103 ike varicosity clusters (CGRP+ baskets) that enveloped myenteric nerve cell bodies.

104 detected activated ISG-expressing microglia enveloping NA-containing neuritic plaques in postmortem

105 By contrast, non-enveloped naked virions are shed in faeces and stripped

106 Ebola virus (EBOV) is an enveloped negative-sense RNA virus that causes sporadic

107 Hantaviruses (family Bunyaviridae) are enveloped negative-sense tripartite RNA viruses.

108 Arenaviruses are enveloped negative-strand RNA viruses that cause signifi

109 Paramyxoviruses are enveloped, nonsegmented, negative-strand RNA viruses tha

110 te combustion processes and in circumstellar envelopes of carbon rich asymptotic giant branch (AGB) s

111 lecular gas phase reactions in circumstellar envelopes of carbon-rich stars, whereas secondary reacti

112 e synthesis of complex PAHs in circumstellar envelopes of dying carbon-rich stars.

113 ass through the middle and innermost plastid envelopes of E. gracilis by machinery homologous to the

114 was suggested that slowly fluctuating power envelopes of electrophysiological signals synchronize ac

115 stigated the long-term evolution of the main envelopes of Mars; these comprise a liquid metallic core

116 The model was validated by comparing the envelopes of the wild-type complex and two variants.

117 the geographic distribution of the climatic envelopes of this plant community further, suggesting th

118 ented relative to FG-nucleoporins in nuclear envelopes of Torsin-deficient cells.

119 The Late Devonian envelops one of Earth's big five mass extinction events

120 follicles, consisting of granulosa cell (GC)-enveloped oocytes are maintained in a state of developme

121 ted data were as follows: RNA or DNA genome, enveloped or not, primary transmission pathway, temperat

122 emoving barriers to the external world (cell envelopes) or by destroying their genetic identity (DNA)

123 d that the two innermost E. gracilis plastid envelopes originated from the primary plastid, while the

124 conformation and that the protruding density envelopes originating from GstDnaB1-300 could completely

125 orcine herpesvirus demonstrated that primary enveloped particles accumulated in the perinuclear space

126 articles are secreted basolaterally as quasi-enveloped particles and apically as naked virions, recap

127 lopment, there was missorting of capsids and enveloped particles in the neuronal cytoplasm, which can

128 f both HSV gE and US9 blocks the assembly of enveloped particles in the neuronal cytoplasm, which exp

129 e trans-Golgi network, nor were prototypical enveloped particles with capsids (virions) seen in cytop

130 plasm, which blocks anterograde transport of enveloped particles.

131 , a process required for axonal transport of enveloped particles.IMPORTANCE Herpes simplex viruses 1

132 s easily extendable to a wide range of other enveloped pathogenic viruses and holds significant promi

133 ser pulses and analyze the effect of carrier-envelop phase with particle tracking.

134 but not the flavivirus group and not the non-enveloped poliovirus.

135 Here we probe how the non-enveloped polyomavirus SV40 penetrates the endoplasmic r

136 Alphaviruses are enveloped, positive-sense RNA viruses that are important

137 We found that broadband slow-wave modulation enveloped posterior cortex when subjects initially becam

138 onized tACS) or the slower oscillating power envelopes (power-synchronized tACS).

139 differentiation of the GSC derivatives they envelop, provide niche signals for FSCs and derive direc

140 Tospoviridae is a family of enveloped RNA plant viruses that infect many field crops

141 Lassa virus (LASV) is an enveloped RNA virus endemic to West Africa and responsib

142 e causative agent, measles virus, is a small enveloped RNA virus that infects a broad range of cells

143 y of the H2S slow-releasing donor GYY4137 on enveloped RNA viruses from Ortho-, Filo-, Flavi- and Bun

144 Alphaviruses are positive-sense, enveloped RNA viruses that are important causes of viral

145 Alphaviruses are small enveloped RNA viruses that bud from the host cell plasma

146 cts alphaviruses, which are highly organized enveloped RNA viruses that bud from the plasma membrane.

147 sport.IMPORTANCE Nairoviruses are tick-borne enveloped RNA viruses that include several pathogens res

148 oronaviruses are a family of positive-strand enveloped RNA viruses that includes the severe acute res

149 l activity against a broad range of emerging enveloped RNA viruses, and should be further explored as

150 the retroviruses and many other families of enveloped RNA viruses, are not utilized by the Herpesvir

151 TING pathway triggered by membrane fusion of enveloped RNA viruses.

152 Ebola virus (EBOV) is an enveloped, single-stranded RNA virus that can cause Ebol

153 Zika virus (ZIKV)(3) is an enveloped, single-stranded, positive-sense RNA virus of

154 but they also send out targeted processes to envelop sites of tissue damage.

155 Those envelopes split in differential or field asymmetric wave

156 ich predicted T90 from DNA or RNA structure, enveloped status, whether primary transmission pathway w

157 KIX domain structures into the SAXS-derived envelopes suggested that the G-region emerges near the M

158 use of opaque, sealed, sequentially numbered envelopes that each contained one of the four dietary in

159 s cytosolic DNA species with fragile nuclear envelopes that undergo spontaneous disruption.

160 expressed in the pseudopalisading cells that envelop the hypoxic-necrotic regions, and mitochondrial

161 atellite glial cells (SGC), which completely envelop the neuronal soma, contribute to nerve regenerat

162 The LUMOs envelop the surfaces of these structures, suggesting ext

163 The polysaccharide-rich wall, which envelopes the fungal cell, is pivotal to the maintenance

164 ong association and form a capsule structure enveloping the cell and/or take the form of exopolysacch

165 y generated tension in the actomyosin cortex enveloping the MTs.

166 hyaloid membrane is a true basement membrane enveloping the posterior hyaloid surface.

167 ne whether the structure clinically observed enveloping the posterior vitreous surface after posterio

168 creased and distinct glassy membranous sheet enveloping the posterior vitreous surface, correlating c

169 The Gram-negative outer-membrane envelops the bacterium and functions as a permeability b

170 he soft and deformable layer of ligands that envelops the nanocrystals, which contributes significant

171 the electrostatic potential (EP) field that envelops them: one positive and one negative.

172 anions in interstellar clouds, circumstellar envelopes, Titan, and cometary comae.

173 ks of two using sequentially numbered sealed envelopes to glycaemic regulation with a bihormonal bion

174 nt by systematic shifts of scattering factor envelopes to increasingly higher energies.

175 We found those envelopes to split in differential ion mobility (FAIMS)

176 use of opaque, sequentially numbered, sealed envelopes, to receive labour induction with either oral

177 Hazara nairovirus (HAZV) is an enveloped trisegmented negative-strand RNA virus classif

178 and of plastid subfractions (thylakoids and envelopes), using HPLC high-resolution tandem mass spect

179 ficiency of IDLVs pseudotyped with different envelopes (vesicular stomatitis, Rabies, Mokola and Ross

180 antiviral protein that blocks the release of enveloped viral particles by linking them to the membran

181 ecretory pathway for the transport of single enveloped viral particles from the trans-Golgi network w

182 documented an impaired secondary assembly of enveloped viral particles in the presence of monensin.

183 These quasi-enveloped virions are infectious and are the only form o

184 o viral infections: it traps newly assembled enveloped virions at the plasma membrane in infected cel

185 lly from infected cells as infectious, quasi-enveloped virions cloaked in host membranes.

186 Thus naked and quasi-enveloped virions enter via similar endocytic pathways,

187 roduce two antigenically distinct infectious enveloped virions termed intracellular mature virions an

188 duce two, antigenically distinct, infectious enveloped virions termed intracellular mature virions an

189 rograde transport of unenveloped capsids and enveloped virions.

190 n explain the defects in axonal transport of enveloped virions.

191 quired for infection by both naked and quasi-enveloped virions.

192 Marburg virus bud from the host membrane as enveloped virions.

193 l membrane fusion proteins and, unlike their enveloped virus counterparts, are nonstructural proteins

194 sis virus (IHNV) as a model to study aquatic enveloped virus diseases and their inhibition.

195 actors, the tetraspanin proteins, facilitate enveloped virus entry by promoting virus-cell membrane f

196 RNPA2B1 plays a key role in the transport of enveloped virus from its site of assembly to the extrace

197 Marburg virus (MARV) is a lipid-enveloped virus from the Filoviridae family containing a

198 lar vesicles contribute to the spread of non-enveloped virus infection.

199 ad-spectrum antiviral compound that inhibits enveloped virus infections by specifically targeting pho

200 ein (N) is an immunodominant antigen in many enveloped virus infections.

201 matically reduced viral infection in another enveloped virus model, suggesting a broader inhibitory m

202 ng both gE and US9 fail to properly assemble enveloped virus particles in the cytoplasm, which blocks

203 , these results highlight the variability of enveloped virus persistence in the environment and the v

204 antiviral host factor that broadly restricts enveloped virus release by tethering budded viral partic

205 SARS-CoV-2 is an enveloped virus responsible for the COVID-19 pandemic.

206 The formation of a membrane-enveloped virus starts with the assembly of a curved lay

207 The apparent suitability of Phi6 as an enveloped virus surrogate was dependent on the temperatu

208 We describe an additional mechanism by a non-enveloped virus to disrupt endosomal membranes.

209 nowledge, this is the first example of a non-enveloped virus using the arginines of an ARM to disrupt

210 Because SARS-CoV-2 is an enveloped virus, many reagents target the outer lipid me

211 n to promoting secretory protein maturation, enveloped viruses also utilize these large oligosacchari

212 ntiviral function likely broadly impacts non-enveloped viruses and may help illuminate the process of

213 ctivating agents.IMPORTANCE Nonenveloped and enveloped viruses are exposed to the environment during

214 our data show that, prior to cell lysis, non-enveloped viruses are secreted within infectious vesicle

215 We further find that additional enveloped viruses are similarly sensitive to polyamine d

216 G in humans) are specifically formed against enveloped viruses but generally not against other antige

217 They also mediate the entry of enveloped viruses by binding PS in the virion membrane.

218 proteins inhibit release of HIV-1 and other enveloped viruses by interacting with cell- and virion-a

219 2 (BST-2)/tetherin acts against a variety of enveloped viruses by restricting their release from the

220 enveloped archaeal viruses have evolved from enveloped viruses by shedding the membrane, indicating t

221 antiviral activity inhibited the release of enveloped viruses by tethering them to the plasma membra

222 Many enveloped viruses cause devastating disease in aquacultu

223 fficient binding and subsequent fusion, most enveloped viruses encode between one and five proteins(1

224 Enveloped viruses enter cells via a process of membrane

225 However, the mechanisms by which non-enveloped viruses escape the endosome are poorly underst

226 To enhance infection, enveloped viruses exploit adhesion molecules expressed o

227 Several pathogenic families of enveloped viruses hijack these PS receptors to gain entr

228 e and/or therapeutic agent for infections by enveloped viruses in aquaculture.

229 embly.IMPORTANCE Poxviruses are unique among enveloped viruses in that they acquire their primary env

230 ne-interacting peptides that inhibit diverse enveloped viruses in vitro and in vivo Peptide therapeut

231 affect viral membrane fusion.IMPORTANCE Many enveloped viruses infect cells via fusion to endosomes,

232 Many enveloped viruses infect cells within endocytic compartm

233 Enveloped viruses infect host cells by fusing their memb

234 Numerous peptides inhibit the entry of enveloped viruses into cells.

235 The penetration of enveloped viruses into target cells requires the fusion

236 Infection by enveloped viruses involves fusion of their lipid envelop

237 nfected cell lysates.IMPORTANCE The entry of enveloped viruses is achieved by the fusion of viral and

238 We hypothesize that entry by other enveloped viruses may also use sequential processes of a

239 To achieve this, enveloped viruses must first fuse their membrane with th

240 compared with persistence values from other enveloped viruses reported in the literature.

241 target for antiviral development.IMPORTANCE Enveloped viruses require virus-cell membrane fusion to

242 ive peptides caused potent inhibition of all enveloped viruses tested at low and submicromolar concen

243 display broad antiviral activity against all enveloped viruses tested, including herpesviruses, Measl

244 Non-enveloped viruses that are endocytosed employ numerous m

245 Herpesviruses are enveloped viruses that are prevalent in the human popula

246 arburg viruses are filoviruses: filamentous, enveloped viruses that cause haemorrhagic fever.

247 new class of antivirals applicable to other enveloped viruses that cause irreversible physical damag

248 viruses are ubiquitous, double-stranded DNA, enveloped viruses that establish lifelong infections and

249 we investigated its function with a range of enveloped viruses thought to infect cells by fusion with

250 ORTANCE The ESCRT system is hijacked by many enveloped viruses to mediate budding and release.

251 Enveloped viruses transfer their genomes into host cells

252 Enveloped viruses utilize fusion (F) proteins studding t

253 Enveloped viruses utilize surface glycoproteins to bind

254 Non-enveloped viruses were present throughout the year.

255 lcium-mediated interaction of the surface of enveloped viruses with DNA, that can be used for the fun

256 Human astroviruses are small non-enveloped viruses with positive-sense single-stranded RN

257 Hepatitis B viruses (HBVs), which are enveloped viruses with reverse-transcribed DNA genomes,

258 n of a variety of vesicle species, including enveloped viruses, bacterial outer membrane vesicles, an

259 For many enveloped viruses, binding to a receptor(s) on a host ce

260 ould potentially inhibit a broad-spectrum of enveloped viruses, but currently such antivirals are lac

261 -1, unlike members of many other families of enveloped viruses, does not appear to require the ESCRT-

262 urrent understanding of ESCRT association by enveloped viruses, examines what is known of herpesvirus

263 , along with the structural lattice of other enveloped viruses, has been mostly considered static.

264 vents leading to the entry of representative enveloped viruses, highlighting the strategies they use

265 plays a critical role in immune responses to enveloped viruses, including COVID-19.

266 proteins restricting host cell entry of many enveloped viruses, including HCV.

267 cific supramolecular ligand (CLR01) destroys enveloped viruses, including HIV, Ebola, and Zika virus,

268 Matrix proteins are encoded by many enveloped viruses, including influenza viruses, herpes v

269 tory effect of surfactin extended broadly to enveloped viruses, including influenza, Ebola, Zika, Nip

270 gent for controlling emerging or re-emerging enveloped viruses, particularly diverse subtypes of IAVs

271 For enveloped viruses, such as the influenza A virus (IAV),

272 he Kalpha2 peptide inhibited infections with enveloped viruses, such as Vesicular Stomatitis Virus (V

273 As archetypical non-enveloped viruses, their biology has been extensively st

274 T cells endocytose lipoprotein particles and enveloped viruses, two natural systems with structures t

275 ssembly is complete, retroviruses, like most enveloped viruses, utilize host proteins to catalyze mem

276 To examine whether GBA is required for other enveloped viruses, we compared the results seen with ent

277 h the Brownian simulations of the budding of enveloped viruses.

278 ecretory pathway more commonly used by other enveloped viruses.

279 protein may be applicable to a broad span of enveloped viruses.

280 virion integrity with broad activity against enveloped viruses.

281 ntiviral compound that specifically inhibits enveloped viruses.

282 on, a process that remains enigmatic for non-enveloped viruses.

283 ) machinery is necessary for budding of many enveloped viruses.

284 e of the critical steps in the life cycle of enveloped viruses.

285 r their ability to mediate the entry of many enveloped viruses.

286 suggests potentially broad activity against enveloped viruses.

287 for the ability to inhibit multiple diverse enveloped viruses.

288 approach for vaccine design against diverse enveloped viruses.

289 ool to investigate the dynamics within these enveloped viruses.

290 Many 'non-enveloped' viruses, including hepatitis A virus (HAV), a

291 ophage Phi6 was evaluated as a surrogate for enveloped waterborne viruses.

292 By displaying GPCRs in viral envelopes, we fabricated a Virion Display (VirD) array c

293 TR Doppler envelopes were assessed for quality.

294 r of two homologous proteins and is membrane enveloped, while SSRV1 has a nucleocapsid formed by a ho

295 g of additively manufactured titanium frames enveloped with CaP BioCer or titanium control implants w

296 d-receptor interactions, the fusion of viral envelopes with cellular membranes during endocytosis, th

297 loped viruses involves fusion of their lipid envelopes with cellular membranes to release the viral g

298 ng also showed that among some, but not all, envelopes with decreased neutralization sensitivity, V1

299 ortantly, we show that individuals harboring envelopes with higher likelihood of using CXCR4 or great

300 The transition between cell envelopes with one membrane (Gram-positive or monoderm)