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1 rearrangements occurring during forward and reverse transport.
2 uptake to a stimulatory one, and eliminated reverse transport.
3 ceptor activation by DA that is released via reverse transport.
4 promoting nonexocytotic dopamine efflux via reverse transport.
5 m that is independent of DAT trafficking and reverse-transport.
7 essing GAT1 greatly reduced both forward and reverse transport and reduced the transport rate in a do
8 anding of molecular mechanisms of macrophage reverse transport and regulators that play important rol
10 depend strongly on transport direction, with reverse transport being faster but less voltage-dependen
11 ed as a consequence of DL-TBOA inhibition of reversed transport by high-affinity, Na-dependent carrie
14 ls, or it can be released from cells through reverse transport, depending on the electrochemical grad
16 -independent release of neurotransmitter via reverse transport independent from normal presynaptic fu
18 hin the microdialysis fiber, suggesting that reversed transport is an important contributor to glutam
19 though it is known that METH releases DA via reverse transport, it is not known how METH increases th
20 However, it is unknown how fast and by which reverse transport mechanism glutamate can be released fr
24 unctional characteristics of the forward and reverse transport modes of the human Na(+)/glucose trans
26 apolipoprotein (apo) A-I contributes to the reverse transport of cholesterol from the periphery to t
27 lipoproteins and is a key participant in the reverse transport of cholesterol from the periphery to t
29 s, and was essential for amphetamine-induced reverse transport of DA in neurons but not for DA uptake
33 Moreover, the compound does not enhance the reverse transport of glutamate under ionic conditions th
34 increase in proton concentrations slows the reverse transport of glutamate, which may play a neuro-p
36 s identified as being involved in gating the reverse transport of NE (Arg81, Gln314, and Asp473) did
38 OGD-induced glutamate accumulation involves reversed transport of glutamate via glutamate transporte
39 nhance [3H]DA release mediated by either DAT reverse-transport or Ca(2+) channels in dSTR slices.
41 electrogenicity is distributed over several reverse transport steps, including intracellular Na(+) b
42 1A caused similar reductions in forward and reverse transport that did not involve changes in appare
43 s and driving non-exocytotic release through reverse transport, this psychostimulant also activates p
44 Abnormal DA release is thought to occur by reverse transport through the DA transporter (DAT), and
45 ducing stimulation-independent DA efflux via reverse transport through the DA transporter and by inhi
47 elial cell mitochondria results largely from reverse transport to complex I and through the Q cycle i
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