ABCC8 p.Val343Gly
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PMID: 12421811
[PubMed]
Abdel-Dayem M et al: "Cytoplasmic loop connecting helices IV and V of the melibiose permease from Escherichia coli is involved in the process of Na+-coupled sugar translocation."
No.
Sentence
Comment
6
Strikingly, introduction of an additional mutation in the C-terminal helix X (Gly for Val-343) of R149C restored sugar transport.
X
ABCC8 p.Val343Gly 12421811:6:78
status: NEW7 Impermeant thiol reagents inhibited R149C/V343G transport activity in right-side-out membrane vesicles and prevented sugar binding in a sugar-protected manner.
X
ABCC8 p.Val343Gly 12421811:7:42
status: NEW73 Identification of R149C/V343G Second-site Revertants-A strategy developed by Ding and Wilson was used (28).
X
ABCC8 p.Val343Gly 12421811:73:24
status: NEW83 The second-site mutation present in helix X (V343G) of the revertant R149C/V343G described below is indicated in bold face.
X
ABCC8 p.Val343Gly 12421811:83:45
status: NEWX
ABCC8 p.Val343Gly 12421811:83:75
status: NEW104 TABLE I NPG binding constants of the C-less permease, of the permease carrying different substitutions at position 141 or 149, and of the second-site revertant R149C/V343G All RSO membrane vesicles harboring the C-less or MelB mutants were prepared and concentrated (15-25 mg of protein/ml) in Na- -free, 0.1 M potassium phosphate buffer (pH 7) containing carbonyl cyanide m-chlorophenylhydrazone (5 M) and monensin (0.75 M) as described in the Fig. 3 legend.
X
ABCC8 p.Val343Gly 12421811:104:166
status: NEW111 Mutant Location Bmax (nmoles/mg protein) KD KNa M mM C-less 0.6 0.6 0.6 R141C 0.2 2.5 0.1-0.5 R141K Loop 4-5 0.2 1.7 0.3 R141Q 0.3 3.1 0.3 R149C NS NS NS R149K Loop 4-5 0.3 7.7 0.3 R149Q 0.3 7.3 0.4 R149C/V343G Loop 4-5/TM X 0.2 1.7 0.2 V343G TM X 0.3 4.4 1.6 FIG. 3.
X
ABCC8 p.Val343Gly 12421811:111:213
status: NEWX
ABCC8 p.Val343Gly 12421811:111:245
status: NEW168 Fig. 6 shows that R149C/V343G RSO membrane vesicles accumulated melibiose up to 10% of the levels observed in C-less MelB vesicles.
X
ABCC8 p.Val343Gly 12421811:168:24
status: NEW170 Remarkably, although R149C/V343G had limited capacity to concentrate the substrates, it displayed sugar affinity and Naϩ activation constants very close or identical to those of C-less MelB (Table I).
X
ABCC8 p.Val343Gly 12421811:170:27
status: NEW172 One may finally note that the double mutant has a comparatively better affinity for ␣-galactosides (KD) or for Naϩ ions on the basis of the KNa value than any of the individual single R149C or V343G mutants (Table I).
X
ABCC8 p.Val343Gly 12421811:172:206
status: NEW173 Finally, the effects of various thiol reagents on the transport and sugar binding properties of R149C/V343G RSO membrane vesicles were analyzed.
X
ABCC8 p.Val343Gly 12421811:173:102
status: NEW177 To identify the step of the R149C/V343G transport cycle inhibited by MTSETϩ inhibited, we analyzed the effect of this reagent on the ␣-[3 H]NPG binding to RSO membrane vesicles and looked for an eventual protection by the co-substrates (Fig. 7).
X
ABCC8 p.Val343Gly 12421811:177:34
status: NEW182 Inhibition of Na؉ -dependent sugar transport of R149C/ V343G in RSO membrane vesicles by MTSET؉ .
X
ABCC8 p.Val343Gly 12421811:182:61
status: NEW188 Selective protection against inactivation by MTSET؉ of ␣-[3 H]NPG binding to R149C/V343G RSO membrane vesicles by the sugar.
X
ABCC8 p.Val343Gly 12421811:188:96
status: NEW224 Analysis of the properties of the second-site suppressor mutant R149C/V343G provided further clues to the mechanism by which Arg-149 participates in the process of sugar binding.
X
ABCC8 p.Val343Gly 12421811:224:70
status: NEW225 The presence of an additional mutation (V343G) led to partial recovery of transport activity despite the absence of the native arginine at position 149.
X
ABCC8 p.Val343Gly 12421811:225:40
status: NEW230 The observed inhibition of both R149C/V343G sugar transport and binding activity by MTSETϩ or PCMBS- provides insight into the relative localization of Arg-149 with respect to the sugar binding site.
X
ABCC8 p.Val343Gly 12421811:230:38
status: NEW