ABCB1 p.Ile868Cys
| Predicted by SNAP2: | A: N (53%), C: N (66%), D: D (80%), E: D (75%), F: N (57%), G: D (66%), H: D (63%), K: D (75%), L: N (97%), M: N (93%), N: D (71%), P: D (75%), Q: D (63%), R: D (75%), S: D (59%), T: D (53%), V: N (87%), W: D (75%), Y: D (63%), |
| Predicted by PROVEAN: | A: D, C: D, D: D, E: D, F: D, G: D, H: D, K: D, L: N, M: N, N: D, P: D, Q: D, R: D, S: D, T: D, V: N, W: D, Y: D, |
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[hide] The packing of the transmembrane segments of human... J Biol Chem. 2000 Feb 25;275(8):5253-6. Loo TW, Clarke DM
The packing of the transmembrane segments of human multidrug resistance P-glycoprotein is revealed by disulfide cross-linking analysis.
J Biol Chem. 2000 Feb 25;275(8):5253-6., 2000-02-25 [PMID:10681495]
Abstract [show]
Residues from several transmembrane (TM) segments of P-glycoprotein (P-gp) likely form the drug-binding site(s). To determine the organization of the TM segments, pairs of cysteine residues were introduced into the predicted TM segments of a Cys-less P-gp, and the mutant protein was subjected to oxidative cross-linking. In SDS gels, the cross-linked product migrated with a slower mobility than the native protein. The cross-linked products were not detected in the presence of dithiothreitol. Cross-linking was observed in 12 of 125 mutants. The pattern of cross-linking suggested that TM6 is close to TMs 10, 11, and 12, while TM12 is close to TMs 4, 5, and 6. In some mutants the presence of drug substrate colchicine, verapamil, cyclosporin A, or vinblastine either enhanced or inhibited cross-linking. Cross-linking was inhibited in the presence of ATP plus vanadate. These results suggest that the TM segments critical for drug binding must be close to each other and exhibit different conformational changes in response to binding of drug substrate or vanadate trapping of nucleotide. Based on these results, we propose a model for the arrangement of the TM segments.
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No. Sentence Comment
77 In these cross-linking experiments, the amount of oxidant was lowered by 10-fold (0.2 mM), and the minimum temperature required to induce cross-TABLE I Cross-linking analysis of P-gp Cross-linking of S993C (TM12) with residues in the following TM: TM1 TM2 TM3 TM4 TM5 M51C -a Y130C - G185C - G226C - I293C - V52C - I131C - I186C - L227C ϩb T294C - V53C - Q132C - G187C - S228C - A295C ϩ G54C - V133C - D188C - A229C - N296C - T55C - S134C - K189C - A230C - I297C - L56C - F135C - I190C - V231C ϩ S298C - A57C - W136C - G191C - W232C ϩ I299C ϩ A58C - C137C - M192C - A233C ϩ G300C - I59C - L138C - F193C - K234C - A301C - I60C - A139C - F194C - I235C ϩ A302C - H61C - A140C - Q195C - L236C ϩ F303C - G141C - S196C - S237C - L304C - Cross-linking of P350C (TM6) with residues in the following TM: TM7 TM8 TM9 TM10 TM11 F711C - F770C - A828C - I867C - A935C - V712C - F771C - I829C - I868C - H936C - V713C - L772C - G830C - A869C - I937C - G714C - Q773C - S831C - I870C - F938C - V715C - G774C - R832C - A871C - G939C ϩ F716C - F775C - L833C - G872C - I940C - C717C - T776C - A834C - V873C - T941C - A718C - F777C - V835C - V874C ϩ F942C - I719C - G778C - I836C - E875C ϩ S943C - I720C - K779C - T837C - M876C ϩ F944C - N721C - A780C - Q838C - K877C - T945C - G722C - G781C - N839C - M878C - Q946C - G723C - E782C - I840C - L879C - A947C - I783C - a -, no cross-linked product detected in SDS-PAGE. b ϩ, cross-linked product detected in SDS-PAGE.
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ABCB1 p.Ile868Cys 10681495:77:929
status: NEW[hide] New light on multidrug binding by an ATP-binding-c... Trends Pharmacol Sci. 2006 Apr;27(4):195-203. Epub 2006 Mar 20. Shilling RA, Venter H, Velamakanni S, Bapna A, Woebking B, Shahi S, van Veen HW
New light on multidrug binding by an ATP-binding-cassette transporter.
Trends Pharmacol Sci. 2006 Apr;27(4):195-203. Epub 2006 Mar 20., [PMID:16545467]
Abstract [show]
ATP-binding-cassette (ABC) multidrug transporters confer multidrug resistance to pathogenic microorganisms and human tumour cells by mediating the extrusion of structurally unrelated chemotherapeutic drugs from the cell. The molecular basis by which ABC multidrug transporters bind and transport drugs is far from clear. Genetic analyses during the past 14 years reveal that the replacement of many individual amino acids in mammalian multidrug resistance P-glycoproteins can affect cellular resistance to drugs, but these studies have failed to identify specific regions in the primary amino acid sequence that are part of a defined drug-binding pocket. The recent publication of an X-ray crystallographic structure of the bacterial P-glycoprotein homologue MsbA and an MsbA-based homology model of human P-glycoprotein creates an opportunity to compare the original mutagenesis data with the three-dimensional structures of transporters. Our comparisons reveal that mutations that alter specificity are present in three-dimensional 'hotspot' regions in the membrane domains of P-glycoprotein.
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No. Sentence Comment
78 Single-cysteine mutants in human P-glycoprotein that are protected from cross-linking to cysteine-reactive MTS substrate analogues by the non-reactive substratea P-glycoprotein residueb Corresponding residue in V. cholera MsbA Cysteine-reactive substrate I340C (6) G293 MTS-rhodamine A841C (9) A151 MTS-rhodamine L975C (12) T285 MTS-rhodamine V981C (12) M291 MTS-rhodamine V982C (12) F292 MTS-rhodamine S222C (4) A175 MTS-verapamil L339C (6) M291 MTS-verapamil A342C (6) M295 MTS-verapamil I868C (10) F180 MTS-verapamil F942C (11) Q256 MTS-verapamil T945C (11) A259 MTS-verapamil G984C (12) L294 MTS-verapamil a Data adapted from [24,2].
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ABCB1 p.Ile868Cys 16545467:78:490
status: NEW76 Single-cysteine mutants in human P-glycoprotein that are protected from cross-linking to cysteine-reactive MTS substrate analogues by the non-reactive substratea P-glycoprotein residueb Corresponding residue in V. cholera MsbA Cysteine-reactive substrate I340C (6) G293 MTS-rhodamine A841C (9) A151 MTS-rhodamine L975C (12) T285 MTS-rhodamine V981C (12) M291 MTS-rhodamine V982C (12) F292 MTS-rhodamine S222C (4) A175 MTS-verapamil L339C (6) M291 MTS-verapamil A342C (6) M295 MTS-verapamil I868C (10) F180 MTS-verapamil F942C (11) Q256 MTS-verapamil T945C (11) A259 MTS-verapamil G984C (12) L294 MTS-verapamil a Data adapted from [24,25].
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ABCB1 p.Ile868Cys 16545467:76:490
status: NEW