ABCMdb

ABCC7 p.Ser809Arg

Predicted by SNAP2:	A: N (93%), C: N (66%), D: N (53%), E: N (57%), F: D (53%), G: N (87%), H: N (78%), I: N (78%), K: N (57%), L: D (53%), M: N (53%), N: N (93%), P: D (59%), Q: N (72%), R: N (61%), T: N (93%), V: N (66%), W: N (53%), Y: D (53%),
Predicted by PROVEAN:	A: N, C: N, D: N, E: N, F: D, G: N, H: N, I: D, K: N, L: D, M: N, N: N, P: N, Q: N, R: N, T: N, V: N, W: D, Y: D,

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Publications
[hide] KATP channel interaction with adenine nucleotides. J Mol Cell Cardiol. 2005 Jun;38(6):907-16. Epub 2005 Feb 5. Matsuo M, Kimura Y, Ueda K
KATP channel interaction with adenine nucleotides.
J Mol Cell Cardiol. 2005 Jun;38(6):907-16. Epub 2005 Feb 5., [PMID:15910875]

Abstract [show]
ATP-sensitive potassium (K(ATP)) channels are regulated by adenine nucleotides to convert changes in cellular metabolic levels into membrane excitability. Hence, elucidation of interaction of SUR and Kir6.x with adenine nucleotides is an important issue to understand the molecular mechanisms underlying the metabolic regulation of the K(ATP) channels. We analyzed direct interactions with adenine nucleotides of each subunit of K(ATP) channels. Kir6.2 binds adenine nucleotides in a Mg(2+)-independent manner. SUR has two NBFs which are not equivalent: NBF1 is a Mg(2+)-independent high affinity nucleotide binding site, whereas NBF2 is a Mg-dependent low affinity site. Although SUR has ATPase activity at NBF2, it is not used to transport substrates against the concentration gradient unlike other ABC proteins. The ATPase cycle at NBF2 serves as a sensor of cellular metabolism. This may explain the low ATP hydrolysis rate compared to other ABC proteins. Based on studies of photoaffinity labeling, a model of K(ATP) channel regulation is proposed, in which K(ATP) channel activity is regulated by SUR via monitoring the intracellular MgADP concentration. K(ATP) channel activation is expected to be induced by the cooperative interaction of ATP binding at NBF1 and MgADP binding at NBF2.

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Sentences [show]
No. Sentence Comment
184 Mutations within the ABC signature motif of NBF2 of SUR1 (S1482R) and SUR2B (S1446R) abolished the channel activation by MgADP, whereas the corresponding mutation of NBF1 of SUR1 (S830R) and SUR2B (S809R) did not [96]. Login to comment
187 Interestingly, the serine mutation of NBF1 (S809R) and NBF2 (S1446R) of SUR2A did not affect the channel activation by MgADP [96]. Login to comment

[hide] Mutations in the linker domain of NBD2 of SUR inhi... EMBO J. 2002 Aug 15;21(16):4250-8. Matsuo M, Dabrowski M, Ueda K, Ashcroft FM
Mutations in the linker domain of NBD2 of SUR inhibit transduction but not nucleotide binding.
EMBO J. 2002 Aug 15;21(16):4250-8., [PMID:12169627]

Abstract [show]
ATP-sensitive potassium (K(ATP)) channels are composed of an ATP-binding cassette (ABC) protein (SUR1, SUR2A or SUR2B) and an inwardly rectifying K(+) channel (Kir6.1 or Kir6.2). Like other ABC proteins, the nucleotide binding domains (NBDs) of SUR contain a highly conserved "signature sequence" (the linker, LSGGQ) whose function is unclear. Mutation of the conserved serine to arginine in the linker of NBD1 (S1R) or NBD2 (S2R) did not alter the ability of ATP or ADP (100 microM) to displace 8-azido-[(32)P]ATP binding to SUR1, or abolish ATP hydrolysis at NBD2. We co-expressed Kir6.2 with wild-type or mutant SUR in Xenopus oocytes and recorded the resulting currents in inside-out macropatches. The S1R mutation in SUR1, SUR2A or SUR2B reduced K(ATP) current activation by 100 microM MgADP, whereas the S2R mutation in SUR1 or SUR2B (but not SUR2A) abolished MgADP activation completely. The linker mutations also reduced (S1R) or abolished (S2R) MgATP-dependent activation of Kir6.2-R50G co-expressed with SUR1 or SUR2B. These results suggest that the linker serines are not required for nucleotide binding but may be involved in transducing nucleotide binding into channel activation.

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Sentences [show]
No. Sentence Comment
238 We made the following mutations in the NBD1 linker: SUR1-S830R and SUR2-S809R (S1R); SUR1-Q774A, SUR1-H888A. Login to comment