ABCB4 p.Gly1179Asp
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PMID: 16352426
[PubMed]
Ambudkar SV et al: "The power of the pump: mechanisms of action of P-glycoprotein (ABCB1)."
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Between the Walker A and B sequences is found a linker peptide with the sequence LSGGQ, also known as the C-region or ABC signature sequence, as it is the hallmark of Table 1 - Summary of mutational analysis of conserved residues in nucleotide-binding domains of Pgp Domain Source Residue number Function Reference NBD1 NBD2 A-loop Human Y401A Y1044A No ATP binding/hydrolysis Kim et al. (submitted for publication) Walker A Mouse K429N K1072N Normal ATP binding but no hydrolysis Azzaria et al. (1989) G431A G1073A Human C431 C1074 ATP protects from modification by N-ethylmaleimide Loo and Clarke (1995) Disulfide bond formation between Walker A domains of both NBDs Urbatsch et al. (2001) Human K433M K1076M Decreased ATP-binding Muller et al. (1996) No ATP hydrolysis Szakacs et al. (2000) No vanadate-trapping, but aluminum and beryllium fluoride-induced trapping normal Q-loop Mouse Q471 Q1114 Not essential for ATP hydrolysis but may be involved in communication with drug-substrate sites Urbatsch et al. (2000a) LSGGQ or linker peptide or signature motif Mouse S528A S1173A Normal ATP binding but no hydrolysis Tombline et al. (2004a) Human S532R Decreased cell surface expression Hoof et al. (1994) Human G534C G1179C No ATP hydrolysis Loo et al. (2002) Human G534D Decreased cell surface expression Hoof et al. (1994) No drug resistance Normal cell surface expression Bakos et al. (1997) No ATP hydrolysis Human G534D/V G1179D Interdomain communication Szakacs et al. (2001) Human Q535C Q1180C No ATP hydrolysis Loo et al. (2002) Human K536Q Decreased drug resistance Hoof et al. (1994) LSGGQ or linker peptide or signature motif Human K536R Increased colchicine resistance (normal ATP hydrolysis?)
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ABCB4 p.Gly1179Asp 16352426:52:1432
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