SLC1A5 and SLC6A19 are two high-affinity amino acid transporters that play important roles in electroneutral
exchange of amino acids accompanied by co-transport of sodium .
However, ZIP8 shows a [Zn.sup.2+]-HC[O.sub.3.sup.-] symporter mechanism with an influx of two HC[O.sub.3.sup.-] anions per one [Cd.sup.2+] (or one [Zn.sup.2+]) cation, that is, electroneutral
complexes, in an electrogenicity study of ZIP8 cRNA-injected Xenopus oocytes .
Such dependency was observed in the case that the electroneutral
condition (ENC) was 2[[V.sup.**.sub.O]] + [O[H.sup.*.sub.O]] = [[Y'.sub.Zr]], where [[V.sup.**.sub.O] and [[Y'.sub.zr]], approximately, are the concentration of the oxygen vacancy and dopant, respectively (details are described in ).
Gamba, "Molecular physiology and pathophysiology of electroneutral
cation-chloride cotransporters," Physiological Reviews, vol.
When pH was below 3, Cr(VI) was in form of [H.sub.2] [Cr.sub.2] [O.sub.7], which was electroneutral
. It could not be removed through neutralization by CATCS, but only removed by bridging and sweeping flocculation.
NHE1 is a member of a family of electroneutral
exchangers ubiquitously expressed that play an essential role in the regulation of [pH.sub.i], protection against cytosolic acidification, and absorption of HC[O.sub.3.sup.-] .
[sup] NHE mediates the electroneutral
exchange of extracellular Na [sup]+ for intracellular H [sup]+ .
Effect of phloretin on ionophore mediated electroneutral
transmembrane translocations of [H.sup.4"], [K.sup.+] and [Na.sup.+] in phospholipid vesicles.
In the electroneutral
mixture method of the COSMO-RS, in order to estimate the activity coefficient ([gamma]), a mixture of ILs and solute was treated as ternary system (1: 1 IL, cation + anion + solute) that can be converted into a binary system.
When the ethylene molecule is within the vertical projection of benzene shape, excitation leads to a [C.sub.1] - [C.sub.7] bonded intermediate, which evolves to an electroneutral
biradical and then to a zwitterionic intermediate at an avoided crossing.
Indeed, the formation of microparticles or individual molecules of electroneutral
AgCl is probably important for its penetration through membrane barriers, including the blood--brain barrier, the placental barrier, and the cell membrane, all of which exclude charged moieties.