ライフサイエンスコーパス: to escape from

1 Endobronchial valves that allow air to escape from a pulmonary lobe but not enter it can ind

2 li at expansion rates that give ample chance to escape from a sea lion-sized predator, but humpback w

3 system, a population of viruses that evolved to escape from a single antisense RNA would require a co

4 t level in the environment, and is low prior to escape from a visual threat.

5 receptor binding affinity may allow viruses to escape from Ab-mediated inhibition.

6 es in envelope structure, enabling Y. pestis to escape from adaptive immune responses and plague immu

7 tobacco smoke enables lung epithelial cells to escape from adaptive immunity to promote tumorigenesi

8 hat fill the HAP site are not a path for HBV to escape from AEfs.

9 ells, and correlates well with the inability to escape from an extended late S-phase-G2 arrest.

10 t drug self-administration enables an addict to escape from and avoid the severe withdrawal symptoms

11 that, CCl4 (but also (CH3)3CBr) was proposed to escape from, and a molecule of solvent to enter, the

12 cessary for delaminated daughter neuroblasts to escape from anoikis.

13 f human immunodeficiency virus (HIV) leading to escape from anti-HIV drugs is the greatest challenge

14 ed insight into the potential for SARS-CoV-2 to escape from antibodies elicited during infection or d

15 ar the receptor binding site were sufficient to escape from antibodies specific for A(H1N1)pdm09 viru

16 changes in capsid Vp1 or T-antigen predicted to escape from antibody neutralization or cytotoxic CD8

17 art by mutations in the viral capsid leading to escape from antibody neutralization.

18 nel, suggesting that this drift may not lead to escape from antibody-mediated protection.IMPORTANCE U

19 nfers a survival advantage by allowing cells to escape from apoptosis, supporting a new role for aber

20 demonstrated the propensity of an RNA virus to escape from attenuation but also showed that, through

21 expansion of the V1V2 domain is one pathway to escape from autologous neutralization in subtype C En

22 grow at bird body temperature, and are able to escape from bird macrophages by vomocytosis.

23 ormal human cells, it may allow cancer cells to escape from breakage-fusion-bridge cycles.

24 ly, probably because they have no safe place to escape from bullying.

25 to be the most important kinase contributing to escape from CD8 T-cell recognition.

26 reased apoptosis but, remarkably, was unable to escape from cells as efficiently as the single mutant

27 ht that spare CCR5, which might permit HIV-1 to escape from chemokines, should be targeted for effici

28 We provide evidence that epitopes known to escape from chronic CD8 T cell responses in animals t

29 ve now obtained evidence that epitopes known to escape from chronic CD8 T cell responses in animals t

30 Many invasive species are able to escape from coevolved enemies and thus enjoy a compet

31 cohesion because it permits chromatin fibers to escape from cohesin rings.

32 Pathogens, in turn, have evolved strategies to escape from commensal-mediated resistance to coloniza

33 The ability to escape from confinement and reintegrate after mitosis

34 active-site cysteine provides PDI with a way to "escape" from covalent intermediates that do not rear

35 tical for normal and transformed human cells to escape from crisis and is implicated in oncogenesis.

36 itro system to evaluate the ability of HIV-1 to escape from CTL clones, finding that virus replicatin

37 HIV's ability to mutate to escape from CTL pressure is increasingly recognized;

38 studies have highlighted the ability of HIV to escape from cytotoxic T lymphocyte (CTL) responses th

39 It enables organisms to escape from danger, acquire food, and perform courtsh

40 sents a cardinal strategy deployed by tumors to escape from detection and elimination by the immune s

41 In one, subjects are given the option to escape from difficult trials.

42 In this environment, movement is critical to escape from disturbances and to find resources scatte

43 nts have evolved shoot elongation mechanisms to escape from diverse environmental stresses such as fl

44 ormant lymphoma cells and the host that lead to escape from dormancy.

45 ce of Chk2 allow Brca1(delta11/delta11) mice to escape from embryonic lethality.

46 2 murine macrophage-like cells, an inability to escape from endocytic vacuoles and a complete absence

47 trated the impaired capacity of inlB mutants to escape from endocytic vacuoles and to enter the cytop

48 ce of positive membrane curvature enables it to escape from endocytosis and being removed from the ce

49 medicine, particularly formulations designed to escape from endosomes after being taken by tumor cell

50 mAM(PU.1+) and MH-S cells, adenovirus failed to escape from endosomes, colocalized exclusively with e

51 ing skin infections by allowing the bacteria to escape from endosomes, replicate intracellularly, and

52 ficantly, the transported proteins were able to escape from endosomes.

53 Thus, although much attention has been paid to escape from enemies as a factor in the establishment

54 epidoptera in temperate forests with respect to escape from enemies.

55 Given the emerging demand to "escape from flatland" for drug discovery, synthetic

56 (3)) content are still limited, and the need to "escape from flatland" more readily on-DNA remains.

57 and enable the current arene-rich drug space to escape from flatland.

58 pathway are abrogated and allow individuals to escape from group behavior.

59 sforming events that metastases must undergo to escape from growth restriction, cannot be extracted f

60 onal somatic defects in HLA alleles may lead to escape from GvL control.

61 ucleotide analogs and those with the ability to escape from HBV-neutralizing antibody have the potent

62 he CD8(+) T cell compartment potentially due to escape from HLA binding.

63 cytogenes Deltahly mutants, which are unable to escape from host cell vacuoles, did not express actA/

64 HLA-I-restricted peptide antigens allows it to escape from host cytotoxic T lymphocytes (CTLs).

65 te hosts, Lyme borreliae require the ability to escape from host defense mechanisms, in particular co

66 lexneri employs additional virulence factors to escape from host defenses that operate downstream fro

67 osis factor (TNF), which causes cancer cells to escape from host immune defenses.

68 s evolved multiple immune evasion strategies to escape from host immune surveillance for successful r

69 HIV-1 populations, thereby allowing variants to escape from host immunity or antiviral therapies.

70 5 viruses use a similar resistance mechanism to escape from HR1 peptide inhibition but different gp12

71 alization epitopes likely allowed GII.4-2012 to escape from human herd immunity and emerge as the new

72 )(,)(20)(,)(21)(,)(22) In mice, the decision to escape from imminent threats is implemented by a feed

73 n contribute to the ability of a skin cancer to escape from immune attack by cytotoxic T lymphocytes,

74 anding the mechanisms that enable the cancer to escape from immune attack.

75 The ability of an AIDS virus to escape from immune containment by selective mutation

76 nce to treatment, eventually allowing tumors to escape from immune control.

77 least in part, to the capacity of this virus to escape from immune recognition through mutation.

78 cells with selective HLA class I allele loss to escape from immune recognition.

79 rds persisting virus a window of opportunity to escape from immune surveillance.

80 at a later stage develops evasion strategies to escape from immune surveillance.

81 wnregulate adaptive responses and contribute to escape from immune surveillance.

82 of the HCV-specific antibodies, enabling HCV to escape from immune surveillance.

83 e 12 (Ad12)-transformed cells, enabling them to escape from immunosurveillant cytotoxic T lymphocytes

84 onucleotides require high-temperature spikes to escape from inactive configurations.

85 poration into the cell genome, enabling them to escape from induction of senescence.

86 h has also shown that migration allows hosts to escape from infected habitats, reduces disease levels

87 unique features of ADAMDEC1 may have evolved to escape from inhibition by endogenous metalloprotease

88 EF-5 did not appear to enable RNA polymerase to escape from intrinsic pause sites.

89 into one aphid species led to it being able to escape from its natural enemy and increase in density

90 a star explodes in vacuum, the first photons to escape from its surface appear as a brief, hours-long

91 Chemopreventive agents allow Nrf2 to escape from Keap1-mediated repression, although the m

92 This suggests that DNA is able to escape from late endosomes without traversing lysosom

93 After perceiving light, roots bend to escape from light (root light avoidance) and reduce t

94 feed-forward GABA release, allowing seizures to escape from local inhibitory restraint.

95 te cellular uptake, a histidine-rich peptide to escape from lysosomes, and an Alexa Fluor 488 tag for

96 een sustained to date, but one, E554K, leads to escape from mAbs.

97 tch, enabling wild-type C. albicans and KWN8 to escape from macrophages within 6 h, whereas KWN6 was

98 enchymal tumors, which are described as able to escape from many treatments, suggesting that the USP1

99 This implies that the potential for water to escape from Mars is higher than previously thought.

100 that cholesterol can activate WT mouse eggs to escape from MII arrest.

101 y permitting a partially degraded fatty acid to escape from mitochondria.

102 ting Ipl1p allows cells overexpressing Mps1p to escape from mitosis and segregate their chromosomes n

103 sphorylatable Cdc20 mutant allows HeLa cells to escape from mitosis in the presence of spindle damage

104 show that it is more difficult for the flies to escape from Mono Lake water than from fresh water, du

105 identified several key RBD mutations leading to escape from most antibodies.

106 Theta, Iota, Kappa, Lambda, Mu, and Omicron) to escape from mRNA vaccine-induced antibodies.

107 al genomes to acquire substantial length and to escape from Muller's Ratchet.

108 that allows autoantigen-activated CLL cells to escape from negative selection and indicate that this

109 is region, and that unobserved evolution led to escape from neutralizing antibodies similar in scale

110 pidly, as shown by viral mutations that lead to escape from neutralizing antibodies.

111 results highlight the potential for variants to escape from neutralizing humoral immunity and emphasi

112 lectively, our data suggest that in addition to escaping from neutralizing antibodies, the success of

113 ew findings indicate that Leishmania is able to escape from neutrophils and 'silently' enter macropha

114 t inactivation of TGF-beta signaling leading to escape from normal growth control occurs at an early

115 teremia, where increased CPS may be required to escape from opsonic clearance.

116 ent motivator of behavior, directing actions to escape from or reduce potentially harmful stimuli.

117 Policy diversification, leading to escape from panacea traps, can come from monitoring i

118 murine macrophage cell lines and was unable to escape from phagosome vacuoles.

119 enes plays a role in the bacterium's ability to escape from phagosomes and spread from cell to cell.

120 er of possible substitutions that could lead to escape from population immunity.

121 loy maneuverable and agile swimming behavior to escape from predators, find prey, or navigate through

122 d invasive, suggestive of heightened ability to escape from primary tumors due to matrix-degrading ac

123 This causes BIM-EL to escape from proteasomal degradation, allowing it to e

124 in antigenic variation that allows the virus to escape from protective herd immunity, resulting in ne

125 mounted flies and identify it as an attempt to escape from restraint.

126 Control mice rapidly learned to escape from shallow water in a paddling pool, which c

127 te that the natural evolution of RSV F leads to escape from some monoclonal antibodies, but at most m

128 ce that mutations in spike protein permit it to escape from some vaccines and therapeutic monoclonal

129 cardiac glycoside production allows Erysimum to escape from some, but not all, specialist herbivores.

130 t-step mutations and the ability for strains to escape from suboptimal local fitness maxima.

131 of the ability of renin-angiotensin activity to escape from suppression during long-term treatment.

132 ates at the endosomal pH of 5.5-6.0 in order to escape from target-mediated degradation.

133 e that functional mosaicism could contribute to escape from targeted therapies and could allow develo

134 Other pathways must be activated to escape from temozolomide (TMZ) treatment, however acq

135 These mutations enable tumor cells to escape from TGFB-induced growth inhibition and induce

136 ies with large genomes find alternative ways to escape from that constraint.

137 scape", i.e., the migration allows the geese to "escape" from the location where infection risk is hi

138 MC simulation steps required for the ligand to escape from the 'funnel of attraction' of the binding

139 acid changes in the epitope allow the virus to escape from the antibody.

140 h the previous analysis of MVMi mutants able to escape from the B7 antibody.

141 onstraints during learning can help learners to escape from the behavioural consequences of their int

142 tions in selected vessels to allow liposomes to escape from the blood stream and to extravasate into

143 editing could allow some autoreactive cells to escape from the bone marrow in lupus-prone mice, thus

144 d capacity of the ST8Sia IV(-/-) progenitors to escape from the bone marrow niche.

145 l tolerance and further promotes these cells to escape from the bone marrow, differentiate in periphe

146 Furthermore, parasites were able to escape from the brain and establish a systemic infect

147 In gene delivery the genetic material has to escape from the cellular compartments into the cytoso

148 I antigens but also allowed excess molecules to escape from the endoplasmic reticulum.

149 d structure that allow the endocytosed virus to escape from the endosome, pass through the cell cytop

150 cell, presumably reflecting their inability to escape from the endosomes.

151 membrane-bound J proteins B12, B14, and C18 to escape from the ER into the cytosol en route to succe

152 IL-2-dependent T-cell lines allows the cells to escape from the G1 arrest induced by IL-2 withdrawal.

153 his host shutoff is thought to allow viruses to escape from the host antiviral response, which restri

154 es have developed a wide range of strategies to escape from the host cells in which they replicate.

155 an ability to cross the integuments and then to escape from the host immune defenses.

156 lternative carbon source, perhaps a strategy to escape from the host immune response.

157 uzi, the causative agent of Chagas' disease, to escape from the host immune system and to invade the

158 s to resist to lysozyme degradation and thus to escape from the host innate immune system but little

159 rors made during replication allow the virus to escape from the host's immune system and to develop r

160 HCV employs evasion and sabotage tactics to escape from the host's immune system.

161 e terminates virulence gene expression prior to escape from the host, but it is unknown how this ToxT

162 h ToxT and TcpP undergoing proteolysis prior to escape from the host.

163 mmunodeficiency viruses allows these viruses to escape from the immune pressure mediated by neutraliz

164 ion S(173)A, and the difficulty of the virus to escape from the immune response against the KK10 epit

165 ids, providing an important path for a virus to escape from the immune response.

166 tively high transmissibility and the ability to escape from the immune surveillance of the host.

167 We discuss why alpha males seem to escape from the immunosuppressive costs of glucocorti

168 odies to map the amino acid changes that led to escape from the initial autologous neutralizing antib

169 s latter context, we measure motile bacteria to escape from the interfaces preferentially into the is

170 ze, and hence animals were randomly assigned to escape from the left or the right arm, one of which c

171 Surprisingly, Staphylococcus appeared to escape from the lysosome without generation of membra

172 and increases the ability of immature cells to escape from the marrow.

173 y decreased indicating that crayfish learned to escape from the maze more rapidly and efficiently.

174 attachment and enables progeny swarmer cells to escape from the monolayer biofilm.

175 ctomized ERalphaKO and WT mice rapidly learn to escape from the Morris water maze.

176 Virulent M. marinum is able to escape from the Mycobacterium-containing vacuole (MCV

177 type II receptor protein, thus allowing them to escape from the negative growth control of TGF-beta1.

178 and combinations to allow neural crest cells to escape from the neuroepithelium.

179 esize that the former may enable tumor cells to escape from the normal growth-constraining influence

180 ess complex (NEC) allows herpesvirus capsids to escape from the nucleus without compromising the nucl

181 Low cohesion allows molecules to escape from the original assemblies and exchange dyna

182 icient time to dissociate from membranes and to escape from the outer segment.

183 use Francisella organisms have been reported to escape from the phagolysosome into the cytosol, we hy

184 low-dose intracellular pathogen that is able to escape from the phagosome and replicate in the cytoso

185 nes depends on the ability of this bacterium to escape from the phagosome of the host cells via the a

186 ith LVSDeltaiglC, a Ft LVS mutant that fails to escape from the phagosome, displayed greatly increase

187 a monocytogenes that infects cells but fails to escape from the phagosome, we demonstrate the inducti

188 n, mediated by CheY3, is necessary for cells to escape from the porous biofilm matrix.

189 uring tumor formation, allowing cancer cells to escape from the primary tumor.

190 differences in the ability of these enzymes to escape from the promoter and to recognize certain typ

191 The productive ITCs are able to escape from the promoter rapidly to produce full-leng

192 re either released or extended to allow RNAP to escape from the promoter.

193 l capabilities to target cancerous cells and to escape from the recognition and elimination by the re

194 shown that the wrapping mode may help a cell to escape from the region where the cell is trapped near

195 amage their internalization vacuole, leading to escape from the Salmonella-containing vacuole (SCV) a

196 In a single session, mice learn to escape from the shock-delivering moving grid, display

197 1) and they offer an account that aims "to escape from the social dimension" (sect.

198 quire a significant period for magnetic flux to escape from the solid inner core and sufficiently wea

199 to result when the replication fork attempts to escape from the stall site.

200 L2d) elicit two seemingly opposing behaviors to escape from the stressful condition: food-seeking roa

201 the potential for drive-bearing individuals to escape from the target release area and impact popula

202 pproximately 140 mV a polymer is more likely to escape from the vestibule against the applied voltage

203 sease form, providing an effective mechanism to escape from the vitamin D-dependent antimicrobial pat

204 o nonindigenous habitats has been attributed to escape from their native natural enemies, allowing re

205 o adapt to low-oxygen environments, and also to escape from them.

206 ck cancers, enable HPV-positive cancer cells to escape from these regulatory principles: E6/E7 is eff

207 est at G2/M. hdf1 cells, lacking Ku70p, fail to escape from this RAD9/RAD17-dependent checkpoint.

208 Movement execution required activities to escape from this subspace toward an orthogonal subspa

209 Among the factors contributing to escape from vacuoles are a phosphatidylcholine phosph

210 Trapped larval worms were sometimes able to escape from worm-stars by undergoing autotomy, separa