ABCC6 p.Arg964Pro
| LOVD-ABCC6: |
p.Arg964Pro
D
|
| Predicted by SNAP2: | A: N (72%), C: N (61%), D: D (75%), E: D (66%), F: D (63%), G: N (53%), H: N (53%), I: D (59%), K: N (57%), L: D (53%), M: N (53%), N: N (53%), P: D (75%), Q: N (61%), S: N (82%), T: N (72%), V: D (53%), W: D (75%), Y: N (57%), |
| Predicted by PROVEAN: | A: N, C: N, D: N, E: N, F: N, G: N, H: N, I: N, K: N, L: N, M: N, N: N, P: N, Q: N, S: N, T: N, V: N, W: D, Y: N, |
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[hide] ABCC6 mutations in pseudoxanthoma elasticum: an up... Mol Vis. 2008 Jan 24;14:118-24. Plomp AS, Florijn RJ, Ten Brink J, Castle B, Kingston H, Martin-Santiago A, Gorgels TG, de Jong PT, Bergen AA
ABCC6 mutations in pseudoxanthoma elasticum: an update including eight novel ones.
Mol Vis. 2008 Jan 24;14:118-24., [PMID:18253096]
Abstract [show]
PURPOSE: Pseudoxanthoma elasticum (PXE) is an autosomal recessive disorder of connective tissue, affecting the retina, the skin, and the cardiovascular system. PXE is caused by mutations in ABCC6. Up to now, the literature reports that there are 180 different ABCC6 mutations in PXE. The purpose of this paper is to report eight novel mutations in ABCC6 and to update the spectrum and frequency of ABCC6 mutations in PXE patients. METHODS: Eye, skin, and DNA examinations were performed using standard methodologies. We newly investigated the gene in 90 probands by denaturing high-performance liquid chromatography (dHPLC) and direct sequencing. We examined a total of 166 probands. RESULTS: Eight novel ABCC6 mutations (c.1685T>C, p.Met562Thr; c.2477T>C, p.Leu826Pro; c.2891G>C, p.Arg964Pro; c.3207C>A, p.Tyr1069X; c.3364delT, p.Ser1122fs; c.3717T>G, p.Tyr1293X; c.3871G>A, p.Ala1291Thr; c.4306_4312del, p.Thr1436fs) were found in seven unrelated patients. Currently, our mutation detection score is at least one ABCC6 mutation in 87% of patients with a clinical diagnosis of PXE. CONCLUSIONS: Our results support that ABCC6 is the most important, and probably the only, causative gene of PXE. In total, 188 different ABCC6 mutations have now been reported in PXE in the literature.
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6 Results: Eight novel ABCC6 mutations (c.1685T>C, p.Met562Thr; c.2477T>C, p.Leu826Pro; c.2891G>C, p.Arg964Pro; c.3207C>A, p.Tyr1069X; c.3364delT, p.Ser1122fs; c.3717T>G, p.Tyr1293X; c.3871G>A, p.Ala1291Thr; c. 4306_4312del, p.Thr1436fs) were found in seven unrelated patients.
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ABCC6 p.Arg964Pro 18253096:6:99
status: NEW69 In case 3, one missense mutation was found in ABCC6, the novel mutation c.2891G>C (p.Arg964Pro), which leads to the change of a well conserved amino acid between NBF1 and NBF2.
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ABCC6 p.Arg964Pro 18253096:69:85
status: NEW115 DISCUSSION In this study, eight novel mutations were found, which we consider to be implicated in PXE: c.1685T>C (p.Met562Thr), c.2477T>C (p.Leu826Pro), c.2891G>C (p.Arg964Pro), c.
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ABCC6 p.Arg964Pro 18253096:115:166
status: NEW[hide] Molecular docking simulations provide insights in ... PLoS One. 2014 Jul 25;9(7):e102779. doi: 10.1371/journal.pone.0102779. eCollection 2014. Hosen MJ, Zubaer A, Thapa S, Khadka B, De Paepe A, Vanakker OM
Molecular docking simulations provide insights in the substrate binding sites and possible substrates of the ABCC6 transporter.
PLoS One. 2014 Jul 25;9(7):e102779. doi: 10.1371/journal.pone.0102779. eCollection 2014., [PMID:25062064]
Abstract [show]
The human ATP-binding cassette family C member 6 (ABCC6) gene encodes an ABC transporter protein (ABCC6), primarily expressed in liver and kidney. Mutations in the ABCC6 gene cause pseudoxanthoma elasticum (PXE), an autosomal recessive connective tissue disease characterized by ectopic mineralization of the elastic fibers. The pathophysiology underlying PXE is incompletely understood, which can at least partly be explained by the undetermined nature of the ABCC6 substrates as well as the unknown substrate recognition and binding sites. Several compounds, including anionic glutathione conjugates (N-ethylmaleimide; NEM-GS) and leukotriene C4 (LTC4) were shown to be modestly transported in vitro; conversely, vitamin K3 (VK3) was demonstrated not to be transported by ABCC6. To predict the possible substrate binding pockets of the ABCC6 transporter, we generated a 3D homology model of ABCC6 in both open and closed conformation, qualified for molecular docking and virtual screening approaches. By docking 10 reported in vitro substrates in our ABCC6 3D homology models, we were able to predict the substrate binding residues of ABCC6. Further, virtual screening of 4651 metabolites from the Human Serum Metabolome Database against our open conformation model disclosed possible substrates for ABCC6, which are mostly lipid and biliary secretion compounds, some of which are found to be involved in mineralization. Docking of these possible substrates in the closed conformation model also showed high affinity. Virtual screening expands this possibility to explore more compounds that can interact with ABCC6, and may aid in understanding the mechanisms leading to PXE.
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228 (Leu953His) R964 2891G.C R964P Missense 22 p.
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ABCC6 p.Arg964Pro 25062064:228:25
status: NEW229 (Arg964Pro) 998 998+2delT Splice 8i 998 998+2_998+3delTG Splice 8i Chain B D1006 3307-1006_3882+1582del Del 23i_25i D1056 3168C.A D1056E Missense 23 p.
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ABCC6 p.Arg964Pro 25062064:229:1
status: NEW