ライフサイエンスコーパス: electrogenic

1 ates through the transmembrane domain may be electrogenic.

2 CFT cRNA, uptake of 2, like that of Pmx, was electrogenic.

3 i consuming, from which it is inferred to be electrogenic.

4 y the other quinone-containing mediators was electrogenic.

5 owed that the delayed HCO(3)(-) transport is electrogenic.

6 Na(+) to make the overall transport process electrogenic.

7 We show that the AmtB activity is electrogenic.

8 Q variant of TtNapA revealed that it is also electrogenic.

9 iron and chloroquine transport via PfCRT is electrogenic.

10 on the transmembrane potential and, thus, is electrogenic.

11 ccurs before serotonin release and is highly electrogenic.

12 ectroneutral, specific partial reactions are electrogenic.

13 in native AE1 and is consistent with coupled electrogenic 2:1 Cl(-)/Cl(-) exchange.

14 d not affect the energetics, consistent with electrogenic 2H(+)/ethidium(+) antiport.

15 ed by the Na(+)/I(-) symporter (NIS) with an electrogenic 2Na(+):1I(-) stoichiometry.

16 n the propidium efflux reaction, pointing to electrogenic 3H(+)/propidium(2+) antiport.

17 channels stimulates Na+,K+-ATPase, which, by electrogenic action, restores membrane potential, genera

18 Consistent with our prediction of its electrogenic activities, ablation of Slc26a6 results in

19 mpacts neural and glial physiology by direct electrogenic activity and the modulation of ion gradient

20 f action potentials that was mediated by the electrogenic activity of Na(+)/K(+) ATPase.

21 hich was restrained in WT neutrophils by the electrogenic activity of NADPH oxidase.

22 -) in exchange for cytosolic ADP(3-) via the electrogenic adenine nucleotide translocator (ANT) locat

23 mal and distal colon, while NBCe1B/C encodes electrogenic, amiloride-insensitive Na-HCO3 cotransport

24 or brain function, not least because all the electrogenic and biochemical machinery of synaptic trans

25 NCX is electrogenic and depends on Na+ and Ca2+ transmembrane g

26 t the Na(+) and H(+) transport reactions are electrogenic and do not result from secondary antiport e

27 ostly nonspecific, capable of mediating both electrogenic and electroneutral (nonelectrogenic) transp

28 Both electrogenic and electroneutral NBC activities are satur

29 o either one or two protons, performing both electrogenic and electroneutral transport of a single su

30 brative nucleoside transporter family can be electrogenic and establishes that these three permeases,

31 Na(+),K(+)-ATPase and H(+),K(+)-ATPase are electrogenic and nonelectrogenic ion pumps, respectively

32 Although the sodium pump is intrinsically electrogenic and responsive to dynamic changes in intrac

33 Af-Amt1 and Af-Amt3 are electrogenic and transport the ammonium and methylammoni

34 efflux mediated by DAT is voltage-dependent, electrogenic, and dependent on intracellular Na(+) conce

35 ansporter in HeLa cells was thiol-sensitive, electrogenic, and described by a single Michaelis-Menten

36 At neutral pH, electrogenic anion currents are detectable, whereas upon

37 Although luminal SCFAs evoke electrogenic anion secretion and smooth muscle contracti

38 exchange in normal mice, to a predominantly electrogenic anion secretion including HCO3- that occurs

39 mals, but short-circuit current, an index of electrogenic anion secretion, was reduced.

40 tracellular pH increases beyond the optimum, electrogenic antiport activity ceases, and cytoplasm aci

41 The transport process is electrogenic as evidenced from GABA-induced inward curre

42 lies generally to all Na(+)/H(+) exchangers, electrogenic as well as electroneutral, and elegantly ex

43 state-of-the-art techniques for screening of electrogenic bacteria are inefficient, and often prevent

44 The current generated from electrogenic bacteria in the sensing unit was amplified

45 were mainly dependent on the activity of the electrogenic bacteria on the anode surfaces.

46 Electrogenic bacteria or exoelectrogens can transfer ele

47 was used as the inoculum in CMFCs for anodic electrogenic bacteria that were fully acclimated within

48 ajor limiting factor in selecting for highly electrogenic bacterial communities, while the quality of

49 coli (E. coli) and an electrogenic bacterium Shewanella oneidensis MR-1 (S. on

50 nomycin, a minor fraction of activity may be electrogenic, based upon a stimulation of rate that is p

51 This enzyme is electrogenic because it translocates electrons across th

52 y equivalent rates of electrogenic chloride, electrogenic bicarbonate, and electroneutral bicarbonate

53 s confirmed the capacity of MdtM to catalyse electrogenic bile salt/H(+) antiport.

54 uch a V(M)-dependent inhibitor would display electrogenic binding kinetics.

55 This voltage dependence was blunted by electrogenic binding of intracellular K(+) and, notably,

56 ts, therefore, document an essential role of electrogenic binding of K(+) or of H(+) to the inward-fa

57 We emphasize the electrogenic capabilities of NMDA receptors (NMDARs) bec

58 ye to evaluate and quantify direct bacterial electrogenic capabilities.

59 n vitro assay that allows us to quantify the electrogenic capacity of Amt proteins.

60 sickle cell disease (SCD) exhibit increased electrogenic cation permeability, particularly following

61 Electrogenic cation transport is known to reside in the

62 ss different nanoscale conductors in a model electrogenic cell (electrocyte) of an electric eel.

63 the electromechanical coupling mechanism in electrogenic cells and open the door to noninvasive labe

64 ness could provide a deeper understanding of electrogenic cells and their networks in tissues, and pu

65 l diseases as well as fundamental studies of electrogenic cells and their networks.

66 hysiological recording of a large network of electrogenic cells has long been an outstanding challeng

67 maintenance of a partial muscle phenotype by electrogenic cells of S. macrurus.

68 for the recording of action potentials from electrogenic cells.

69 hanism observed earlier in neurons and other electrogenic cells.

70 mbrane subdomains in which the clustering of electrogenic channels enables action potential initiatio

71 that can be used to describe a wide range of electrogenic charge transfers in channels and transporte

72 ctors in the CcOs are large enough to afford electrogenic chemistry and proton pumping, i.e. efficien

73 ient across the membrane, via two processes, electrogenic chemistry and proton pumping.

74 ssed in gastrointestinal tract and can cause electrogenic chloride anion secretion.

75 in short circuit current (Isc) indicative of electrogenic chloride ion transport.

76 This leads to cAMP-mediated electrogenic chloride secretion in intestinal epithelia.

77 sm involving adenosine-mediated induction of electrogenic chloride secretion, with concomitant water

78 ulted from approximately equivalent rates of electrogenic chloride, electrogenic bicarbonate, and ele

79 normal prostatic epithelial cells possess an electrogenic citrate transporter which mediates the cotr

80 eal that hypercapnia reduces CFTR-dependent, electrogenic Cl(-) and fluid secretion, but not CFTR-dep

81 Intestinal crypt fluid secretion, driven by electrogenic Cl(-) secretion, hydrates and sterilizes th

82 Infective diarrhoea reflects activation of electrogenic Cl(-) secretion, inhibition of electroneutr

83 nd urine, Slc26a6 may largely function as an electrogenic Cl(-)-oxalate exchanger.

84 that function either as Cl(-) channels or as electrogenic Cl(-)/H(+) exchangers.

85 We show that Slc26a6 mediates electrogenic Cl(-)/HCO3(-) exchange activities in cardio

86 stic insights into Slc26a6, a unique cardiac electrogenic Cl(-)/HCO3(-) transporter in ventricular my

87 Slc26a3 and Slc26a6 function as coupled electrogenic Cl-/HCO(3)- exchangers or as bona fide anio

88 rge underlying the transient currents of the electrogenic ClC-5 transporter.

89 Spike duration and other electrogenic conductance were unaffected.

90 e (alpha-MDG), which acts as a substrate for electrogenic (depolarizing) sodium-glucose cotransporter

91 a: see text] from the ischemic region due to electrogenic drift and diffusion within the intra and ex

92 ded by the Ca(V)3 genes are well established electrogenic drivers for burst discharge.

93 g plasmid-borne NhaA, the well-characterized electrogenic E. coli antiporter.

94 l resulted in Cd2+ efflux, demonstrating the electrogenic effect of ZitB transport.

95 The electrogenic efficacy of the scGIRK channels, however, i

96 iptomic analysis provides a set of potential electrogenic entities, of which the conductance repertoi

97 (PM) lattice dimensions, sheet size, or the electrogenic environment of the ground-state chromophore

98 Our results further suggest that an electrogenic ESS in synodontids is an exaptation of a so

99 the antiporter function for a 3Na(+):1Ca(2+) electrogenic exchange as well as the inhibitory effects

100 acts as an anion transporter, mediating the electrogenic exchange of sulfate or oxalate for chloride

101 by LmrP with an apparent K(t) of 8.6 mum via electrogenic exchange with three or more protons.

102 omplex (cyt bc(1)) plays a major role in the electrogenic extrusion of protons across the membrane re

103 arginine and agmatine in a strictly coupled, electrogenic fashion.

104 )(-) : 1Na(+); coupling coefficient N= 1) or electrogenic forms of the transporter (NBCe; equivalent

105 NADPH oxidase is electrogenic, generating electron current (I(e)) that is

106 Ussing chamber experiments revealed electrogenic glucose transport across the endometrium in

107 Electrogenic glutamate binding can be isolated in the mu

108 Electrogenic glutamate binding has to be considered toge

109 l spines and express both AMPA receptors and electrogenic glutamate transporters.

110 ms: the permeability transition pore and the electrogenic H(+) channel.

111 riteria for electrogenic Na(+) transport and electrogenic H(+) transport, respectively, in the presen

112 ed on integrating optogenetic control of non-electrogenic human cells, modified to express light sens

113 ed in Xenopus laevis oocytes and found to be electrogenic in the presence of nucleoside ligands for w

114 The electrogenic interaction of the first Na(+) ion with NaP

115 ransient inward current, as expected for the electrogenic inward movement of co-transported Na(+) In

116 se data revealed important information about electrogenic ion binding reactions of the Na,K-ATPase th

117 ssful effort to isolate the energetics of an electrogenic ion pump in an engineered in vitro environm

118 The ion channels that mediate electrogenic ion transport are regulated by extracellula

119 denosine 3',5'-cyclic monophosphate-mediated electrogenic ion transport in infected colonic tissues,

120 al activity contributes to the regulation of electrogenic ion transport in the intestine through effe

121 the effects on colonic barrier function and electrogenic ion transport in Ussing chambers.

122 elective activation of glial activity evoked electrogenic ion transport primarily through neural path

123 al NH4 (+), Na(+), and H(+) contributions to electrogenic ion transport through SLC4A11 stably expres

124 tion in tissues from GFAP::hM3Dq mice evoked electrogenic ion transport to an extent equal to the dir

125 neural pathways and was sufficient to drive electrogenic ion transport to an extent equal to the dir

126 AMRQ) syndrome, strongly interfered with the electrogenic lipid translocation.

127 The electrogenic machinery, mitochondria and myelin form a t

128 s present, the chemistry must occur in a non-electrogenic manner.

129 sumed mechanistic evidence that was based on electrogenic measurements is not unique.

130 these compounds facilitate transport via an electrogenic mechanism (determined using valinomycin and

131 SLC4A11 has been proposed to be an electrogenic membrane transporter, permeable to Na(+), H

132 The specific electrogenic metabolism of cable bacteria generates a la

133 oastal basin demonstrate that the long-range electrogenic metabolism of cable bacteria leads to a dis

134 This study explores potential of a non-electrogenic microbe for power production in a mediatorl

135 er acetate or natural rice root exudates, by electrogenic microbial populations.

136 for easy, rapid, and sensitive control of an electrogenic microbial suspension.

137 eases caused by point mutations in the human electrogenic Na(+) bicarbonate cotransporter (NBCe1/SLC4

138 the proton flux criteria of light-dependent electrogenic Na(+) pumping activity in vitro, namely, li

139 ed K(+) secretion, because of both increased electrogenic Na(+) reabsorption and increased apical mem

140 These results meet the criteria for electrogenic Na(+) transport and electrogenic H(+) trans

141 reduced ferredoxin to NAD(+) was coupled to electrogenic Na(+) transport, indicating the generation

142 gs indicate that under resting conditions an electrogenic Na(+) transporter, possibly involving an am

143 mum, N. thermophilus utilizes at least eight electrogenic Na(+)(K(+))/H(+) antiporters for cytoplasm

144 m the double-null mice was maintained by the electrogenic Na(+),K(+)-ATPase.

145 ocular disease arises from mutations in the electrogenic Na(+)-bicarbonate cotransporter NBC1 of the

146 Electrogenic Na(+)-bicarbonate cotransporter NBCe1 varia

147 rsts of prolonged Ca(2+) release, activating electrogenic Na(+)-Ca(2+) exchanger activity and trigger

148 eviously reported a topological model of the electrogenic Na(+)-HCO(3)(-) cotransporter (NBC1) in whi

149 RT-PCR detected the expression of the electrogenic Na(+)-HCO(3)(-) cotransporter NBC1 and the

150 In the electrogenic Na(+)-HCO3(-) cotransporter NBCe1-A, EL-3 i

151 tion in diabetes, and that a decrease in the electrogenic Na(+)-K(+) pump current (I(NaK)) results in

152 ytes has been inferred from a transient peak electrogenic Na(+)-K(+) pump current beyond steady state

153 The electrogenic Na(+)/bicarbonate cotransporter (NBCe1) of

154 directly stimulates heterologously expressed electrogenic Na(+)/bicarbonate cotransporter NBCe1-A in

155 um, which couple to the action potential via electrogenic Na(+)/Ca(2)(+) exchange.

156 ht responses and show that it is mediated by electrogenic Na(+)/Ca(2+) exchange.

157 We found that K300Q EcNhaA can still support electrogenic Na(+)/H(+) antiport in EcNhaA, but has redu

158 The electrogenic Na(+)/H(+) antiporter was active in asymmet

159 In electrogenic Na(+)/H(+) antiporters, it has been assumed

160 We propose that both, electroneutral and electrogenic Na(+)/H(+) antiporters, represent a careful

161 udies revealed that NhaA could still perform electrogenic Na(+)/H(+) exchange even in the absence of

162 translocation complex in electroneutral and electrogenic Na(+)/H(+) exchangers.

163 The renal electrogenic Na(+)/HCO(3)(-) cotransporter (NBCe1-A) con

164 The electrogenic Na(+)/HCO(3)(-) cotransporter (NBCe1-A) tra

165 uring seizure-like events and mediated by an electrogenic Na(+)/HCO3 (-) cotransporter.

166 The duodenal enteroid model showed that electrogenic Na(+)/HCO3(-) cotransporter 1 might be a ta

167 osis transmembrane conductance regulator and electrogenic Na(+)/HCO3(-) cotransporter 1.

168 rainstem astrocytes of mice deficient in the electrogenic Na(+)/HCO3(-) cotransporter NBCe1.

169 ed with seizure activity, are mediated by an electrogenic Na(+)/HCO3- cotransporter, and are more tig

170 component is generated by enhancement of the electrogenic Na(+)/K(+) ATPase (NKA) by spike Na(+) infl

171 zation resulting from Na(+) accumulation and electrogenic Na(+)/K(+) exchange.

172 y- and sodium spike-dependent enhancement of electrogenic Na(+)/K(+) pump function.

173 as postulated to arise from operation of the electrogenic Na+ -HCO3- cotransporter NBCe1.

174 ns because of limited substrate delivery for electrogenic Na+ reabsorption to KCNQ1-expressing mid to

175 enopus oocytes heterologously expressing the electrogenic Na+-HCO3- cotransporter (NBC), AQP1 and car

176 The electrogenic Na+-HCO3- cotransporter (NBCe1) plays a cen

177 gative shift of Vm that is characteristic of electrogenic Na+-HCO3- cotransporters.

178 r release in which hyperpolarization from an electrogenic Na+-K+ exchanger activates HCNCs.

179 iac pacemaker cell function by activation of electrogenic Na/Ca exchanger (NCX) during diastole.

180 The electrogenic Na/Ca exchanger (NCX) mediates bidirectiona

181 cytosolic carbonic anhydrases (CAs) with the electrogenic Na/HCO(3) cotransporter NBCe1-A speeds tran

182 nsmembrane domains, that are conserved among electrogenic Na/HCO(3) transporters but are substituted

183 ess is the basolateral exit of HCO3- via the electrogenic Na/HCO3 co-transporter, which is the subjec

184 C termini of the anion exchanger AE1 and the electrogenic Na/HCO3 cotransporter NBCe1-A, enhancing tr

185 The consequences of electrogenic NADPH oxidase activity on both membrane pot

186 nformation of SERT in (i) cancelling out the electrogenic nature of intracellular Na(+) release and (

187 We have taken advantage of the electrogenic nature of NADPH oxidase to determine its pH

188 aracteristically distinct NBC isoforms [i.e. electrogenic (NBCe) and electroneutral (NBCn)] that exhi

189 criptase PCR (RT-PCR) analyses revealed that electrogenic NBCe1B or NBCe1C (NBCe1B/C) isoform is pred

190 s in the CLCN5 gene encoding a voltage-gated electrogenic nCl(-)/H(+) exchanger ClC-5.

191 the NCX protein might result from maintained electrogenic NCX (with 3:1 stoichiometry, supported by a

192 us, surviving SP and WM cells are functional electrogenic neurons integrated within the postnatal vis

193 ons, we reveal a unique two-lane pathway for electrogenic NH(4)(+) transport in two archetypal member

194 o accounts for acidic down-regulation of the electrogenic NhaA Na(+)/H(+) exchanger from Escherichia

195 ivity are the relatively recent discovery of electrogenic or electroactive bacteria and the vision of

196 ild-type P. aeruginosa and even the strongly electrogenic organism, Shewanella oneidensis (25 muW/cm(

197 Whereas mouse slc26a6 mediates bidirectional electrogenic oxalate/Cl(-) exchange, human SLC26A6-media

198 sociated with a fast, previously undetected, electrogenic partial reaction in the SNAT1 transport cyc

199 aeruginosa and other organisms that enhance electrogenic performance in microbial fuel cells (MFCs).

200 Excessive loading leads to poor electrogenic performance; therefore, operation of an MFC

201 nalyses revealed that amiloride-insensitive, electrogenic, pH gradient-dependent NBC activity is pres

202 ves a stoichiometric movement of ions and is electrogenic, postsynaptic currents mediated by EAATs sh

203 electron transfer pathways and improve their electrogenic potential.

204 line was independent of sodium, energy, and electrogenic potential.

205 ing for a rapid assessment (<2 min) of their electrogenic potential.

206 TS transport assay was used to quantify this electrogenic process and assess the interference of natu

207 GABA together with sodium and chloride in an electrogenic process enabling efficient GABAergic transm

208 tion in the healthy adult PFC arises via the electrogenic process of sodium/Ca(2+) exchange.

209 CO3- efflux across the apical membrane is an electrogenic process that is facilitated by the depletio

210 e processes, the oxidative pathway requiring electrogenic production of superoxide by the membrane-bo

211 had no noticeable effect on the steady-state electrogenic properties of mGAT3.

212 embryonic kidney (HEK293) cells and studied electrogenic properties of the encoded proteins with who

213 aluate whether loss of Kv1.1 channels alters electrogenic properties within the nerve, we compared th

214 ingly, LdNT1.1 and LdNT1.2 exhibit different electrogenic properties, despite their close sequence ho

215 c inputs in cortex but also have specialized electrogenic properties.

216 Electrogenic proton pumps have been implicated in the ge

217 In particular, electrogenic Pseudomonas aeruginosa has been studied wit

218 sient peak current is attributed to enhanced electrogenic pumping of Na(+) that accumulated in the di

219 ree energy of electron transfer reactions to electrogenic pumping of sodium across the cell membrane.

220 ng in a high field access channel is a major electrogenic reaction of the Na(+),K(+)-ATPase.

221 -1) We attribute the recorded currents to an electrogenic reaction that includes Na(+) binding and po

222 udy demonstrates for the first time that the electrogenic sarcolemma membrane cardiac NCX1 can act as

223 ays to determine coupling stoichiometries of electrogenic secondary active transporters reconstituted

224 teristics of structural rearrangements of an electrogenic secondary-active cotransporter during its t

225 orporates measurements from a newly designed electrogenic sensory catheter with preoperative imaging

226 Electrogenic signals mediated by intramembrane movement

227 t is mediated predominantly by CFTR or by an electrogenic SLC26 anion exchanger.

228 ting effect of EGFR activation on epithelial electrogenic sodium absorption that would be expected to

229 In addition, persons with mutations in the electrogenic sodium bicarbonate co-transporter NBCe1 and

230 The electrogenic sodium bicarbonate co-transporter NBCe1 has

231 f HCO3 (-) into and out of astrocytes by the electrogenic sodium bicarbonate cotransporter (NBCe1) pl

232 The SLC4A4 gene encodes electrogenic sodium bicarbonate cotransporter 1 (NBCe1).

233 cilitated outward HCO(3)(-) transport by the electrogenic sodium bicarbonate cotransporter 1, NBCe1.

234 AII) binds in vitro to the C-terminus of the electrogenic sodium bicarbonate cotransporter kNBC1 (kNB

235 (-) : Na(+) cotransport stoichiometry of the electrogenic sodium bicarbonate cotransporter kNBC1 dete

236 The electrogenic sodium bicarbonate cotransporter NBCe1 (SLC

237 SLC4A4 encodes the electrogenic sodium bicarbonate cotransporter NBCe1, a m

238 , the gene that encodes the widely-expressed electrogenic sodium bicarbonate cotransporter NBCe1, res

239 The electrogenic sodium bicarbonate cotransporter NBCe1-A me

240 d disruption of the Slc4a5 gene encoding the electrogenic sodium bicarbonate cotransporter NBCe2 resu

241 smembrane topography of the human pancreatic electrogenic sodium bicarbonate cotransporter pNBC1 was

242 e first direct evidence that a complex of an electrogenic sodium bicarbonate cotransporter with CAII

243 The human NBC1 (SLC4A4) gene encodes the electrogenic sodium bicarbonate cotransporters kNBC1 and

244 te) transporter proteins and functions as an electrogenic sodium borate cotransporter.

245 on barriers and chloride pores to facilitate electrogenic sodium reabsorption and potassium and acid

246 Aldosterone promotes electrogenic sodium reabsorption through the amiloride-s

247 - A375, MeWo, and HS695T - and included the electrogenic sodium-bicarbonate cotransporter isoforms 1

248 In sinoatrial node (SAN) cells, electrogenic sodium-calcium exchange (NCX) is the domina

249 to promote electrical activity either by the electrogenic sodium-glucose cotransporter SGLT1, or by c

250 The electrogenic sodium/calcium exchanger (NCX) mediates bid

251 glutamine causes the direct activation of an electrogenic, sodium-dependent presynaptic transporter,

252 lactating breast, and other tissues with an electrogenic stoichiometry of 2 Na(+) per I(-).

253 However, isolation of an electrogenic strain proved difficult as transfer culture

254 ol is taken up via a specific proton-coupled electrogenic symport and that this transport is essentia

255 MNTB principal neurones express electrogenic system A glutamine transporters, and were e

256 enues for the study of ion pumps and similar electrogenic targets.

257 Cl(-)/oxalate exchange by mouse slc26a6 was electrogenic, that mediated by human SLC26A6 appeared el

258 tem cells localized within a non-contractile electrogenic tissue.

259 terial Na(+)/H(+) antiporter NapA from being electrogenic to electroneutral by the mutation of a sing

260 ane potential and thus the driving force for electrogenic transepithelial transport, e.g., Na+/glucos

261 unlike XylEEc, does not perform steady-state electrogenic transport at symmetrical pH conditions.

262 designed the first functional experiments on electrogenic transport in human ES and investigated the

263 ane embedded lysine residue is essential for electrogenic transport in Na(+)/H(+) antiporters.

264 This protein complex mediates a highly electrogenic transport in Xenopus oocytes.

265 However, contrary to current dogma, electrogenic transport is not rate-limiting for water tr

266 plained by attenuation of transmitochondrial electrogenic transport mechanisms with consequent compro

267 conserved proton-binding site arguing for an electrogenic transport mode.

268 T, cloned from retina, mediates H(+)-coupled electrogenic transport of folate and its derivatives.

269 GAT-1 mediates electrogenic transport of GABA together with sodium and

270 ential participation of K(+) channels in the electrogenic transport of human ES epithelium.

271 The GABA transporter GAT-1 mediates electrogenic transport of its substrate together with so

272 nopus oocytes, slc5a8 mediates Na(+)-coupled electrogenic transport of lactate/pyruvate as well as sh

273 ide (mAP), a specific activator of PAR-2, on electrogenic transport of mouse distal colon using short

274 In Xenopus oocytes, AtCAT6 mediated electrogenic transport of proteinogenic as well as non-p

275 calizes to lysosomes and catalyzes a robust, electrogenic transport that is selective for CAAs and st

276 Electrogenic transport via the species PbMon(+) may also

277 The identified K(+) channels involved in the electrogenic transport were KCNN2, KCNJ14, KCNK2, and KC

278 ted the contribution of K(+) channels in the electrogenic transport, which has been rarely identified

279 ich proteins from the Amt family can sustain electrogenic transport.

280 to more negative potentials, consistent with electrogenic transport.

281 used two-electrode voltage clamp to measure electrogenic transporter current in Xenopus oocytes expo

282 L, Ct or Nt + L + Ct) produced no measurable electrogenic transporter currents in the presence of CO2

283 thereby reducing the interference with other electrogenic transporter functions).

284 dynamics profoundly affect ion channels and electrogenic transporters and vice versa.

285 study identifies the first concentrative and electrogenic transporters mediating D-serine reuptake in

286 Most notably, the SLC26s are electrogenic transporters with isoform-specific stoichio

287 methylglutamate [DMG]), acting downstream of electrogenic transporters, elicited similar alterations

288 d (TBOA), indicating that they resulted from electrogenic uptake of D-aspartate.

289 stance, consistent with the well-established electrogenic uptake of this amino acid.

290 n the ion-binding site of EcNhaA produced an electrogenic variant (D163N/K300Q).

291 The human CLC-5 is an electrogenic voltage-dependent 2Cl(-)/1H(+) exchanger th

292 he presence of borate, NaBC1 functions as an electrogenic, voltage-regulated, Na(+)-coupled B(OH)(4)(

293 Muller cell glutamate transporter, which is electrogenic, was monitored by the perforated-patch conf

294 Also electrogenic were chimeras with an NBCe1-A background bu

295 ranslocation of Na(+) across the membrane is electrogenic, whereas transport of Ca(2+) is not.

296 NCE--supports the hypothesis that the NCE is electrogenic with a stoichiometry of 3:1.

297 t is concluded that the mitochondrial NCE is electrogenic with a stoichiometry of 3:1.

298 te that Arg/Agm exchange by AdiC is strongly electrogenic with positive charge moved outward, and thu

299 hrough ZIPB was found to be nonsaturable and electrogenic, yielding membrane potentials as predicted

300 porters (SMCT) from zebrafish (Danio rerio), electrogenic (zSMCTe) and electroneutral (zSMCTn).