ライフサイエンスコーパス: shuttle

1 g protic additives, which operate as "proton shuttles".

2 hippocampus without the aid of any insertion shuttle.

3 eficiency, presumably through citrate-malate shuttle.

4 with a lysine residue as an essential proton shuttle.

5 ,2-trifluoroethanol (TFE) acting as a proton shuttle.

6 sulfide intermediates that lead to parasitic shuttle.

7 atory component of the NADH malate-aspartate shuttle.

8 he malate-aspartate and glycerol 3-phosphate shuttles.

9 d the capacity of the chloroplast ATP export shuttles.

10 mental data confirmed BEX3 nucleocytoplasmic shuttling.

11 on small cytochrome c proteins for electron shuttling.

12 TICS systems thus exhibit charge shuttling.

13 es as a fungal-derived signal sufficient for shuttling.

14 signaling cascade that controls YAP nuclear shuttling.

15 RNAs undergo one round of nucleo-cytoplasmic shuttling.

16 lenges, including lithium polysulfide (LiPS) shuttling.

17 ochondrial arrangement as well as metabolite shuttling.

18 dynamics are the essential driver of proton shuttling.

19 ilure and efficiently suppresses polysulfide shuttling.

20 ge nuclear-nuclear entanglement via electron shuttling(3).

21 uttling speed over a nanometer distance (tau(shuttling) ~ 30 ns) reported to date.

22 biotic fungi associated with plant roots can shuttle a key nutrient through their hyphal network in r

23 ted transcytosis (RMT) systems as a means to shuttle a targeted therapeutic into the brain.

24 suggest a possible role for this protein in shuttling a variety of lipids to strengthen the mycobact

25 asic membrane building blocks, i.e. PLs, are shuttled across the cell envelope remain elusive.

26 process was found to be mediated by a proton-shuttling agent such as water, a second IBX, or a second

27 particularly when water is considered as the shuttling agent), the redox step for the amine takes pla

28 ced from racemic propylene oxide using chain shuttling agents and double-metal cyanide catalysts.

29 metallic catalysts in conjunction with chain shuttling agents.

30 ferredoxins, thus functioning in vitro as a shuttle among different cyanobacterial pools of reducing

31 ich detects differences in nucleocytoplasmic shuttling among seven canonical SR protein family member

32 se grown cells, both the malate/oxaloacetate shuttle and a glycerol-3-phosphate dehydrogenase 1(Gpd1p

33 with consequent compromised malate-aspartate shuttle and changes in allosteric effectors of PFK1 and

34 itate bioreduction by working as an electron shuttle and decreased aggregate size, but only a negligi

35 ectron transport chain, the malate-aspartate shuttle and mitochondrial citrate export are required to

36 evidence that the dysregulation of carnitine shuttle and vitamin E pathways play a role in the risk o

37 is mediated by native redox-active molecular shuttles and active bacterial metabolism.

38 nsistent with these molecules being electron shuttles and virulence determinants.

39 ly in the presence of extracellular electron shuttles and/or Fe(III).

40 w decreased dynamics of transcription factor shuttling and increased nuclear compartmentalization.

41 n impair HuR's PARylation, nucleocytoplasmic shuttling and mRNA binding.

42 rt occurs through these waters via Grotthuss shuttling and reveal that proton binding to the extracel

43 iates the TGFbeta1-induced nucleocytoplasmic shuttling and transcriptional activity of SMAD2.

44 esidue of the enzyme's intramolecular proton shuttle, and a charged amino acid residue in the Ig1 dom

45 ) transients, nuclear translocation of a CaM shuttle, and nuclear CaMKIV activation.

46 ire articles, sensor readings from the Space Shuttle, and protein expression levels.

47 nhibits complex I and alpha-glycerophosphate shuttle, and the resultant increase in cytoplasmic NADH/

48 cens in the presence of an external electron shuttle, and we used ICP-MS to distinguish Fe(II) produc

49 s unearthed a broad range of enzymes, sulfur shuttles, and chemical mechanisms for generating carbon-

50 erred electrons extracellularly via electron shuttles, and the consequent ion migration led to high a

51 3-phosphate dehydrogenase 1(Gpd1p)-dependent shuttle are able to maintain the intraperoxisomal redox

52 alve and triose phosphate-3-phosphoglycerate shuttle are predicted to have important metabolic roles,

53 sly donate and accept a proton, and the best shuttles are molecules that are strong hydrogen bond don

54 pping/plating and essentially no polysulfide shuttle as well as fast redox kinetics.

55 lting mechanical bond, can lead to molecular shuttling as well as modulate the observed fluorescence

56 on chemistry via a one-electron copper(I/II) shuttle, as exemplified with an aerobic alcohol oxidatio

57 nsity was also observed with diminished Gle1 shuttling, as well as colocalization of Gle1 at R-loops.

58 hed-chain amino acids), as well as carnitine shuttle associated with mitochondrial energy metabolism.

59 experimentally, but for these two pathogens, shuttling augments initial conidial redistribution away

60 whether material entering the cells will be shuttled back to the cell surface or degraded by the lys

61 The macrocycle can shuttle between an initial succinamide station and a 3,6

62 lytes, causing charge and active material to shuttle between electrodes.

63 rocessing machinery rely on their ability to shuttle between endosomes and plasma membranes, as well

64 In particular, they could shuttle between lymph nodes and the CNS and produced enc

65 as parts of defence mechanisms and are often shuttled between MGEs and defence systems.

66 ntaining peptides as the aspartyl side chain shuttles between free acid and peracid forms.

67 We propose that Armi shuttles between nuage and mitochondria, feeding precurs

68 Dbp5 also shuttles between nuclear and cytoplasmic compartments wi

69 n with prominent nucleolar localization that shuttles between nucleus and cytoplasm.

70 otif to design a phosphorylation switch that shuttles between the cytosol and the nucleus, a strategy

71 The ARV p17 protein continuously shuttles between the nucleus and the cytoplasm to regula

72 vian reovirus (ARV) p17 protein continuously shuttles between the nucleus and the cytoplasm via trans

73 vascular endothelial cells, calcium (Ca(2+)) shuttling between the endoplasmic reticulum (ER) and mit

74 osa cells exposed to HS has the potential to shuttle bioactive molecules to recipient cells and make

75 should now be understood in light of lactate shuttle biology.

76 GPD2, a component of the glycerol phosphate shuttle, boosts glucose oxidation to fuel the production

77 This mechanism was exploited to shuttle boron atoms into cancer cells for the applicatio

78 when rats crossed into the dark chamber of a shuttle box.

79 rization of these intercompartment reductant shuttles broadens our understanding of energy partitioni

80 NAs associated with vascular performance and shuttled by CD31(+) EVs in a large (n = 218) cross-secti

81 which can be used as extracellular electron shuttles by resistant microbes.

82 The polyether axle accelerates the shuttling by ~70% compared to a structurally similar rot

83 Redox cycling of extracellular electron shuttles can enable the metabolic activity of subpopulat

84 ed the length scale over which this electron shuttling can occur.

85 ally be used to power actuators and engines, shuttle cargo to sensors, and enable new computing parad

86 mportin-11) is a nuclear import protein that shuttles cargo from the cytoplasm to the nucleus.

87 ocon-mediated transport across membranes, by shuttling cargos through the nuclear pore complex, and b

88 tages and potential applications of electron shuttling catalysts.

89 How these shuttles catalyze extracellular electron transfer (EET)

90 d the expression of key enzymes in carnitine shuttle complex, in particular the homolog to the brain-

91 gulating ciliogenesis through the exocyst, a shuttling complex that chaperones cilia cargo to the mem

92 and its subsequent transfer to a cytoplasmic shuttle comprised of ARF6-GTP and GRP1.

93 ndence of the reduction rate on the electron-shuttle concentration.

94 A [2]rotaxane molecular shuttle containing secondary ammonium/amine and thiourea

95 oteins (ACPs), small, flexible proteins that shuttle covalently linked intermediates between catalyti

96 thodology for XEC that utilizes redox-active shuttles developed by the energy-storage community to pr

97 r transport receptor (i.e., a biportin) that shuttles distinct sets of cargoes in opposite directions

98 s-Leu-Met-Cys sequence suggested to act as a shuttle dithiol/disulfide for electron transport.

99 These results indicate that C-terminal shuttle dithiols of mammalian R1 have a crucial catalyti

100 entified an NES-containing nucleocytoplasmic shuttling domain (aa 19 to 40) of p17 that is critical f

101 A(E245) residue, which contributes to proton shuttling during fumarate reduction, for detailed biophy

102 The shuttling dynamics are monitored by means of UV-vis and

103 NA export defects, including changes in tRNA shuttling dynamics during recovery from nutrient stress.

104 soluble sodium polysulfides that reduce the shuttle effect and display excellent electrochemical per

105 y promotes conversion processes, suppressing shuttle effect and improving energy density.

106 on simultaneously suppresses polysulfide the shuttle effect and lithium dendrite formation of lithium

107 ediates during cycling, thus eliminating the shuttle effect and lithium metal corrosion.

108 ble mechanistic insight into the polysulfide shuttle effect in lithium-sulfur batteries, and are inst

109 e electrolyte cosolvents and the polysulfide shuttle effect in lithium-sulfur batteries.

110 nges and rapid capacity fading caused by the shuttle effect of polyselenides.

111 e insulating nature of active materials, the shuttle effect, and slow redox kinetics lead to severe c

112 ty chemically trap intermediates to suppress shuttle effects and facilitate electron transfer and red

113 tical challenges such as lithium polysulfide shuttling effects, mismatched interfaces, Li dendrite gr

114 and three metallocofactors that sequentially shuttle eight electrons between three distinct metalloco

115 itated by incorporating redox mediators that shuttle electron-holes between the porous substrate and

116 sis bacteria use an abiotic reaction to help shuttle electrons outside of the cell.

117 Alternatively, we propose that KsNaxLS may shuttle electrons to this enzyme complex.

118 ow directions, suggesting that MtrC and MtrF shuttle electrons with similar efficiency and reversibly

119 the electron transport chain (ETC), where it shuttles electrons from bc(1) complex to cytochrome c ox

120 One of these constructs efficiently shuttles electrons through a designed metabolic pathway

121 different lengths to gain full control over shuttling electrons and holes between C(60), ZnP, and Fc

122 ring to the outer mitochondrial membrane and shuttling electrons through the intermembrane space to s

123 me bd-I terminal oxidase, the CydDC complex, shuttles excessive l-cysteine from the cytoplasm to the

124 nct structural features, and considering the shuttle factor displayed by electrolytes that employ HFE

125 The proteasomal shuttle factor UBQLN4 is phosphorylated by ATM and inter

126 ubiquitin chains or indirectly by binding to shuttle factors Rad23/HR23, Dsk2/PLIC/UBQLN, or Ddi1, wh

127 some of the interactions that occur with the shuttle factors.

128 y roles of the proteasome receptor sites and shuttle factors.

129 All seven Ubl-containing proteins tested-the shuttling factors Rad23A, Rad23B, and Ddi2; the deubiqui

130 er eukaryotes have been proposed to serve as shuttling factors that deliver ubiquitinated substrates

131 teins not only deliver substrates (e.g., the shuttling factors) or provide additional enzymatic activ

132 Furthermore, unlike other shuttling factors, Ddi1 and its homologs contain a conse

133 The Ddi1/DDI2 proteins are ubiquitin shuttling factors, implicated in a variety of cellular f

134 r temperature change (thermochromism), which shuttles FAX salt pairs between the FA(n+1)Pb(n)X(3n+1)

135 oGDI, which is generally viewed as a passive shuttle for inactive RhoGTPases.

136 udin 2 suggests that caveolin-1 may act as a shuttle for the internalization of claudin 2 seen in exp

137 2) core-shell nanoparticles served as Fe(2+) shuttles for homogeneous Fenton's reaction and provided

138 ed as the primary intercompartment reductant shuttles for mediating excess light energy dissipation.

139 The impact of shuttling for microbiological outcomes of in vivo infect

140 d enolate-iron(III) complex undergoes proton shuttling from an iron-bound alcohol.

141 agonist salbutamol also could induce Ca(2+) shuttling from cytoplasm to mitochondria, suggesting tha

142 EVs mediate intercellular communication by shuttling functional signaling molecules as cargo.

143 lds from coupling reactions with added redox shuttles (generally >80%) and those without (generally <

144 phosphine-borane frustrated Lewis pair (FLP) shuttles H atoms to the N(3-) , evolving NH(3) .

145 A rotaxane-based molecular shuttle has been synthesized in which the switching of t

146 and their interconversion, arising from ring shuttling, have been characterized by NMR spectroscopy.

147 Dynamics simulations with explicit Grotthuss-shuttling hydrated excess protons are used to explore de

148 Within P. polycephalum, cytoplasm is shuttled in a peristaltic wave driven by cross-sectional

149 Murine phagocytes also shuttled in vitro.

150 e of the metal, ancillary ligand, and proton shuttles in H(2) activation.

151 hat contributes to CASZ1 nuclear-cytoplasmic shuttling in a chromosomal maintenance 1-dependent manne

152 , drugs that inhibit the ISR can rescue eIF2 shuttling in a manner correlating to levels of eIF2alpha

153 crucial for the p24 activity, which involves shuttling in between the endoplasmic reticulum and the G

154 nic proteins involved in intracellular lipid shuttling in growth and reproduction, as well as in defe

155 Overall, MSH3's shuttling in response to inflammation enables accumulati

156 contrast, smaller bodies show increased eIF2 shuttling in response to stress, which is accompanied by

157 ific roles for Yap and its nucleocytoplasmic shuttling in the developing airway and alveolar compartm

158 is a small hemoprotein involved in electron shuttling in the mitochondrial respiratory chain and is

159 The shuttling in this case is proposed to take place via a s

160 of interleukocyte conidial exchange called "shuttling." In Talaromyces marneffei and Aspergillus fum

161 e(III) reduction in the presence of electron shuttles, independent of the type of FeRB.

162 Whereas Gle1 shuttling inhibition did not appear to perturb nuclear D

163 Therefore, GPD2 and the glycerol phosphate shuttle integrate the extent of microbial stimulation wi

164 Actin shuttles into and out the nucleus through the action of

165 Rev's shuttling into and out of the nucleus is regulated by th

166 d glucose experiments did not reveal lactate shuttling into LECs from breast cancer cells, yet showed

167 HoloBLG shuttled iron into monocytic cells and impaired their an

168 red that one of two enzymes in the carnitine shuttle is absent from the calanoid copepod lineage.

169 urotransmission when the glutamate-glutamine shuttle is inhibited.

170 Their use as electron shuttles is demonstrated via an intraelectron transfer c

171 Shuttling is a frequent host-pathogen interaction contri

172 ere, a high-performance TENG based on charge shuttling is demonstrated.

173 arkably, we found that Yap nucleocytoplasmic shuttling is largely dispensable in epithelial progenito

174 together provide evidence that Dbp5 nuclear shuttling is not essential for mRNP export.

175 the prediction that diffusion-based electron shuttling is only effective across short distances and m

176 Shuttling is unidirectional, not a chance event, and inv

177 (PBPs) that bind cargo in the periplasm and shuttle it to an ATP-binding cassette (ABC)-transporter

178 e (LPL) within the subendothelial spaces and shuttles it to the capillary lumen.

179 Shuttling kinetics were fungal-species-specific, implica

180 Performance of astronaut pilots during space shuttle landing was degraded after a few weeks of microg

181 the enzyme with the light-activated nuclear shuttle (LANS) domain.

182 nsport proteins in eukaryotes are thought to shuttle lipids between cellular membranes.

183 refore, additional systems are required that shuttle lipids between the MIM and MOM.

184 LBP-8 shuttles lysosomal lipids into the nucleus to activate l

185 In conclusion, the TXB2 VNAR shuttle markedly increased brain uptake of protein cargo

186 xpression of glycolysis and malate-aspartate shuttle (MAS) genes.

187 ere, we studied the role of malate-aspartate shuttle (MAS)-dependent substrate supply in OXPHOS respo

188 features of the merely passive, non-biomotor-shuttled material transport within the cytoplasm of Dict

189 -serine impaired LTP, supporting an l-serine shuttle mechanism between glia and neurons in generating

190 mature hippocampus through a Phgdh-dependent shuttle mechanism.

191 Our analysis ruled out a BMP shuttling mechanism and a bmp transcriptionally-informed

192 Golgi-endosome transport, specifically M6PR shuttling mediated by GCC2, in PS-ASO trafficking and ac

193 (i.e. 21, 37, and 42 days vs 13 days for the Shuttle mice).

194 lly relevant systems, suggests that electron shuttling microorganisms have the capacity to access and

195 etween the ellipsoid and myoid, functions to shuttle microtubules from the ellipsoid into the myoid d

196 Furthermore, another CD31(+) EV-shuttled miRNA signature, i.e., miR-155, -320a, -342-3p,

197 Extracellular vesicle (EV)-shuttled miRNAs have been proposed as an alternative app

198 upport a model in which the malate-aspartate shuttle, mitochondrial citrate export and complex I supp

199 Transporters shuttle molecules across cell membranes by alternating a

200 5 changes in an acidic environment through a shuttle movement.

201 Our results indicate that proton shuttles need to be able to both simultaneously donate a

202 Our studies indicate that active-site shuttling occurs at a high frequency, and we propose tha

203 Here we demonstrate shuttling of a single electron across a linear array of

204 ctric surface, the device works based on the shuttling of charges corralled in conduction domains.

205 to larger bodies and results in a decreased shuttling of eIF2.

206 links and 2) trigger an actomyosin-dependent shuttling of epigenetic factors.

207 lymers, we demonstrate a surprising role for shuttling of F-actin across cells for lamellipodial expa

208 e we show in mice that stress constrains the shuttling of glucose and lactate through astrocyte netwo

209 Thus, nuclear-cytoplasmic shuttling of ICAP1 influences both integrin activation a

210 o the lung in vivo and required, in part, MV shuttling of miR-17 and/or miR-221.

211 The continual shuttling of MZ B cells between the MZ and the B-cell fo

212 n A/C led to inhibition of nucleocytoplasmic shuttling of p17 and reduced virus yield.

213 the mechanisms underlying nucleocytoplasmic shuttling of p17 remain largely unknown.

214 cellular proteins modulate nucleocytoplasmic shuttling of p17 remains unknown.

215 iator proteins to modulate nucleocytoplasmic shuttling of p17.

216 d hnRNP A1 interaction and nucleocytoplasmic shuttling of p17.

217 arrier protein to modulate nucleocytoplasmic shuttling of p17.

218 inding to hnRNP A1 and for nucleocytoplasmic shuttling of p17.

219 t MZ B cells also play a role in the initial shuttling of prions from the blood-stream to FDC.

220 ition is released through an eas-1-dependent shuttling of rnf-145 from the cis-Golgi to the trans-Gol

221 2 and p53 that facilitated the nucleoplasmic shuttling of TET2, as well as its recruitment to the aut

222 A1 and lamin A/C modulate nucleocytoplasmic shuttling of the ARV p17 protein.

223 A1 and lamin A/C-modulated nucleocytoplasmic shuttling of the ARV p17 protein.IMPORTANCE Avian reovir

224 rom each other, which necessitates alternate shuttling of the peptide substrate between them, while r

225 e entry of a magnesium-bound nucleotide with shuttling of the second magnesium necessary for the two-

226 Shuttling of these effector molecules, including the hig

227 also used as predictors of nucleocytoplasmic shuttling of transcription factors and the level of chro

228 complex pulse sequences we perform parallel shuttling of two and three electrons at a time through t

229 nteraction of two quasi-symmetrical domains, shuttling of two mirror charge carriers can be achieved

230 atically elevated rates of nucleocytoplasmic shuttling of YAP, suggesting an escape from compartmenta

231 his mechanism of neutrophil-derived microRNA shuttling opens up new therapeutic potential to enhance

232 unction, as an aromatization/dearomatization shuttle, or as an electron reservoir with reversible red

233 t can likely act as anion sensors, molecular shuttles, or transport molecules.

234 Most importantly, shuttling parameters were among the most influential one

235 promote systemic dissemination, rather than shuttle parasites across the blood-brain barrier via ext

236 rovide an unexpected link between the serine shuttle pathway, responsible for regulating D-serine syn

237 ach of experiment and theory, we explain the shuttling pathways of single dopants into and out of the

238 Instillation of shuttle peptides combined with SpCas9 or AsCas12a RNP ac

239 These shuttle peptides, non-covalently combined with GFP prote

240 tein type alpha (PITPalpha), a protein which shuttles phosphatidylinositol between organelles, is ess

241 gulate lipid accumulation in mitochondria by shuttling phospholipids in a lipid-specific manner acros

242 Thirty-one Space Shuttle pilots participating in 17 space missions were t

243 GOT2, a member of the malate-aspartate shuttle, plays an essential role in the intracellular NA

244 t a reversible acid-base triggered molecular shuttling process to switch an appropriately designed ro

245 rial citrate export and the malate-aspartate shuttle promote histone acetylation, and specifically re

246 ffinity to murine and human TfR1 was used to shuttle protein cargo into the brain.

247 , for example, that the ubiquitin-proteasome shuttle protein Ubiquilin-2 (UBQLN2) selectively interac

248 We reveal that TPL-2 is a nucleocytoplasmic shuttling protein and identify the nucleus as the primar

249 ngs suggest that XIW1 is a nucleocytoplasmic shuttling protein and plays a positive role in ABA respo

250 nslocation of their effector, WDR26, via the shuttling protein NOLC1.

251 Gle1 is a nucleocytoplasmic shuttling protein with well-documented cytoplasmic roles

252 RGS14 also is a nucleocytoplasmic shuttling protein, suggesting that balanced nuclear impo

253 ukin-6 (IL-6), suggesting that MSH3 may be a shuttling protein.

254 ion of hemiorthoamide from the ester but, by shuttling protons, the enzyme eliminates water, a revers

255 n) phase sequence, the parasitic polysulfide shuttle, pulverization-driven capacity fade, etc.

256 rst deep lithiation, completely avoiding the shuttle reaction.

257 onostable systems by a reduced set of linear shuttling reactions that circulates all the species arou

258 partments and sharing species through linear shuttling reactions.

259 gates that bind both a cell-surface lysosome-shuttling receptor and the extracellular domain of a tar

260 ically, MAARS knockdown alters HuR cytosolic shuttling, regulating HuR targets such as p53, p27, Casp

261 sms underlying betacatenin nucleocytoplasmic shuttling remain incompletely defined.

262 Located adjacent to proton shuttle residue Ser(130), it is suggested to play a role

263 elease exosomes, and these released exosomes shuttle several antimicrobial peptides to carry out anti

264 Mouse studies performed on the Space Shuttle showed disruption of lipid metabolism in liver.

265 hey represent the sensors and mediators that shuttle signals from outside to the inside of liver cell

266 The dihydroxyrotaxane exhibits the fastest shuttling speed over a nanometer distance (tau(shuttling

267 tic pathways, the acyl carrier protein (ACP) shuttles substrates to appropriate enzymatic partners to

268 cules has led to the design and synthesis of shuttles, switches, and machines at the nanoscale.

269 We report on a switchable rotaxane molecular shuttle that features a pseudo-meso 2,5-disubstituted py

270 additional function as a swinging linker to shuttle the one-carbon carrying amine between the two ac

271 eract with Cas9 ribonucleoproteins (RNPs) to shuttle the template to the nucleus, enhancing HDR effic

272 the crabs can temporally share resources by shuttling the particles back and forth between themselve

273 cavenge fatty acids from the environment and shuttle them into FAS and ultimately lipids.

274 ral organic matter (NOM) can act as electron shuttles thus facilitating electron transfer from Fe(III

275 ss, namely the twisted intramolecular charge shuttle (TICS).

276 in catalytic amounts and serves as a hydride shuttle to connect two or more enzymatic redox events, u

277 To do this, we trained mice to shuttle to the end of a track and back to an enclosed st

278 Subsequently, the engulfed MCGs are actively shuttled to skin-draining lymph nodes and finally degrad

279 ng, and generate frayed primer-ends that are shuttled to the exonuclease site and excised efficiently

280 nomeric antigens, nanoparticles were rapidly shuttled to the follicular dendritic cell (FDC) network

281 tissue infiltrating PMNs (PMN-MPs) serve as shuttles to protect and deliver active mediators to loca

282 normally mostly in the nucleus, although it shuttles to the cytoplasm.

283 equences for binding to regulatory proteins, shuttling to and from the plasma membrane, and degradati

284 field, allowing them to absorb new Li(+) and shuttling to and from the substrate.

285 e was proposed to regulate NMDAR activity by shuttling to neurons to sustain d-serine production, but

286 blebbing is tightly coupled to MRTF nuclear shuttling to promote the SRF transcriptional activity re

287 coordinating phase-transfer organocatalysts, shuttling triazolate anions into solution.

288 -driven charge transfer, and direct electron shuttling under dark conditions all contribute to the ob

289 arvum infection can activate immune cells by shuttling various effector molecules, a process that may

290 Here, we utilized a shuttle vector method to examine the efficiency and fide

291 argeted using a novel adeno-associated virus shuttle vector to deliver microRNA-adapted shRNA via int

292 In this study, using a shuttle vector-based strand-specific PCR-competitive rep

293 Shuttle vectors for facile gap repair cloning and integr

294 ysis was suppressed, mitochondrial carnitine shuttle was inhibited, while genes involved in fatty aci

295 peptide that disrupts Gle1 nucleocytoplasmic shuttling, we detected nuclear accumulation of specific

296 f aspartate deregulated the malate-aspartate shuttle, which is important for cytoplasmic NAD(+) regen

297 sporter that is part of the malate-aspartate shuttle, which regulates the NAD+/NADH ratio between the

298 thesis that hypercalin C may act as a proton shuttle with the dearomatized acylphloroglucinol moiety

299 The implementation combines ion shuttling with individually addressed single-qubit rotat

300 eIF2 localizes to eIF2B bodies and shuttles within these bodies in a manner that correlates