ABCC4 p.Val776Ile
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PMID: 18464048
[PubMed]
Gradhand U et al: "Pharmacogenomics of MRP transporters (ABCC1-5) and BCRP (ABCG2)."
No.
Sentence
Comment
191
MRP4 protein has been detected in human kidney (van Aubel et al., 2002), lung (Torky et al., 2005), liver (Rius et al., 2003), prostate (Lee et al., 2000), brain (Nies et al., 2004), pancreas (König et al., 2005), lymphocytes (Schuetz et al., 1999), and platelets Figure 4 Predicted membrance topology of MRP4 (ABCC4) based on hydrophobicity analysis. Locations of the non-synonymous polymorphisms are indicated with arrows. See Table 4 for allele frequencies and description of funtional consequences. NH2 COOH NBD NBD Val854Phe Ile18Leu Ile866Val Arg531Gln Tyr556Cys Thr1142Met Glu757Lys Val776Ile Gly187Trp Lys304Asn in out Membrane Cys171Gly Pro403Leu Lys498Glu Met744Val Met1272Val MRP4 (ABCC4) COOH NBD NBD Val854Phe Ile866Val Arg531Gln Tyr556Cys Thr1142Met Glu757Lys Val776Ile Gly187Trp Lys304AsnCys171Gly Pro403Leu Lys498Glu Met744Val Met1272Val COOH NBD NBD Val854Phe Ile866Val Arg531Gln Tyr556Cys Thr1142Met Glu757Lys Val776Ile Gly187Trp Lys304AsnCys171Gly Pro403Leu Lys498Glu Met744Val Met1272Val (Jedlitschky et al., 2004).
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ABCC4 p.Val776Ile 18464048:191:595
status: NEWX
ABCC4 p.Val776Ile 18464048:191:779
status: NEWX
ABCC4 p.Val776Ile 18464048:191:933
status: NEW216 Polymorphisms in exons 1, 5, 12, 13, 19, 21, and 28 leading to the following amino acid exchanges Ile18Leu, Gly187Trp, Arg531Gln, Tyr556Cys, Val776Ile, Val854Phe, Ile866Val, and Thr1142Met were analysed in relation to expression and localization of MRP4 in human liver.
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ABCC4 p.Val776Ile 18464048:216:141
status: NEW217 Some of the amino acid substitutions are located within highly conserved regions such as membrane spanning domains (Val776Ile, Val854Phe, Ile866Val) or ATP-binding domains (Tyr556Cys, Thr1142Met), others are located in intracellular regions where they might influence substrate recognition (Gly187Trp).
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ABCC4 p.Val776Ile 18464048:217:116
status: NEW236 Following the discovery and Table 4 MRP4 (ABCC4) Single nucleotide polymorphisms. Location, allele frequency and functional effects. Position in coding sequence Amino acid exchange Location Allele frequency Effect NCBI ID ReferenceAf Ca Jp others 52A>C Ile18Leu Exon 1 - 1.1 [1] 0 [2] - No influence on expression and localization in liver [1] rs11568681 511T>G Cys171Gly Exon 4 - 0 [1] [2] - - rs4148460 559G>T Gly187Trp Exon 5 - 2.2 [1] 0 [2] - No influence on expression and localization in liver [1] rs11568658 912G>T Lys304Asn Exon 8 - 9.9 [1] [2] - No influence on expression and localization in liver [1] rs2274407 1208T>C Pro403Leu Exon 9 - - - - - rs11568705 1492A>G Lys498Glu Exon 11 - - - - - rs11568669 1592G>A Arg531Gln Exon 12 - 0.6 [1] 0 [2] - No influence on expression and localization in liver [1] 1667A>G Tyr556Cys Exon 13 - 0.6 [1] 0 [2] - No influence on expression and localization in liver [1] 2230A>G Met744Val Exon 18 - - - - - rs9282570 2269G>A Glu757Lys Exon 18 - 0.6 [1] [2] - No influence on expression and localization in liver [1] rs3765534 2326G>A Val776Ile Exon 19 - 0.6 [1] 0 [2] - No influence on expression and localization in liver [1] 2560G>T Val854Phe Exon 21 - 1.7 [1] 0 [2] - No influence on expression and localization in liver [1] rs11568694 2596A>G Ile866Val Exon 21 - 2.8 [1] 0 [2] - No influence on expression and localization in liver [1] 3425C>T Thr1142Met Exon 27 - 1.6 [1] 0 [2] - No influence on expression and localization in liver [1] rs11568644 3814A>G Met1272Val Exon 30 - - - - - rs1134217 Reference without frequency means that SNP was detected but no frequency determined.
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ABCC4 p.Val776Ile 18464048:236:1080
status: NEW
PMID: 21619426
[PubMed]
Stieger B et al: "Pharmacogenetics of drug transporters in the enterohepatic circulation."
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117
Gene name Transporter SNP Protein Population size (n) In vitro function Ref. Liver efflux transporters (cont.) SLC47A1 (cont.) MATE1 (cont.) c.1490G>C c.149G>T p.C497S p.C497F N/A Reduced, unchanged or increased transport activities (substrate dependent) [170,229] c.1557G>C p.Q519H N/A Unchanged [170] ABCC4 MRP4 c.232C>G p.P78A N/A Increased intracellular drug accumulation (substrate dependent), lower transport protein expression [161] c.559C>T p.G187W N/A Increased intracellular drug accumulation, reduced transport protein expression Slightly reduced function [161] [162] c.877A>G p.K293E N/A Unchanged [161] c.912G>T p.K304N N/A Unchanged Unchanged [161] [162] c.1208C>T p.P403L N/A Increased intracellular drug accumulation [161] c.1460G>A p.G487E N/A Increased intracellular drug accumulation Reduced transport activity (substrate dependent) [161] [162] c.1492A>G p.K498E N/A Unaltered [161] c.1667A>G p.Y556C N/A Increased transport activity [162] c.2269G>A p.E575K N/A Increased transport activity [162] c.2230A>G p.M744V N/A Unchanged [161] c.2326G>A p.V776I N/A Reduced transport activity [162] c.2459G>T p.R820I N/A Reduced transport activity [162] c.2560G>T p.V854F N/A Unchanged [162] c.2596A>G p.I866V N/A Unchanged [162] c.2867G>C p.C956S N/A Reduced intracellular drug accumulation [161] c.3211G>A p.V1071I N/A Unchanged [161] c.3425C>T p.T1142M N/A Increased transport activity [162] For more information on members of the SLC superfamily of transporters please consult [301] and for more information of ABC transporters please consult [302].
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ABCC4 p.Val776Ile 21619426:117:1066
status: NEW
PMID: 18300232
[PubMed]
Janke D et al: "6-mercaptopurine and 9-(2-phosphonyl-methoxyethyl) adenine (PMEA) transport altered by two missense mutations in the drug transporter gene ABCC4."
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Comment
6
A total of four variants (Y556C, E757K, V776I, and T1142M) exhibited a 20% to 40% reduced expression level compared to the wild type.
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ABCC4 p.Val776Ile 18300232:6:40
status: NEW8 Compared to wild-type MRP4, the transmembrane variant V776I, revealed a significant lower activity in 6-MP transport, while the amino acid exchange Y556C in the WalkerB motif displayed significantly higher transport of PMEA.
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ABCC4 p.Val776Ile 18300232:8:54
status: NEW11 Carriers of the rare MRP4 variants Y556C and V776I may have altered disposition of MRP4 substrates.
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ABCC4 p.Val776Ile 18300232:11:45
status: NEW34 We also sequenced large regions of the MRP4 gene of these individuals and identified 74 genetic variations, among them 10 missense mutations (I18L, G187W, K304N, R531Q, Y556C, E757 K, V776I, V854F, I866 V, and T1142 M).
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ABCC4 p.Val776Ile 18300232:34:184
status: NEW54 Untagged hMRP4(wild-type,V776I) Construct for Xenopus laevis Oocyte Expression MRP4.pcDNA3.1/Hygro was AccI/XhoI-digested and a 160-bp fragment containing the MRP4 stop codon was cloned into the AccI/XhoI site of MRP4(wild-type, V776I).EGFP-pSGEM obtaining MRP4(wild-type, V776I)-pSGEM without an EGFP tag, respectively.
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ABCC4 p.Val776Ile 18300232:54:25
status: NEWX
ABCC4 p.Val776Ile 18300232:54:229
status: NEWX
ABCC4 p.Val776Ile 18300232:54:273
status: NEW170 However, the mutation Y556C located in the WalkerB motif resulted in significantly increased [3 H] PMEA efflux, while the mutation V776I, located in the transmembrane region, led to a significantly decreased [14 C] 6-MP transport activity compared to wild-type (Supplementary Figs. S5 and S6).
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ABCC4 p.Val776Ile 18300232:170:131
status: NEW175 The MRP4 protein variants E757 K, V776I, and T1142 M showed a 20-30% reduced protein expression and Y556C exhibited a 40% reduced protein expression compared to wild type, respectively.
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ABCC4 p.Val776Ile 18300232:175:34
status: NEW182 Quantification of the fluorescence intensity demonstrated a 20-30% reduction in the surface expression for the variants E757 K, V776I, and T1142 M, and a 40% reduction in the surface expression of Y556C (Fig. 4B).
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ABCC4 p.Val776Ile 18300232:182:128
status: NEW185 To investigate intracellular localization of MRP4 wild-type and variants (Y556C, E757 K, V776I, and T1142 M) with a reduced protein level, we prepared thin cryostat sections (12 mm) from oocytes.
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ABCC4 p.Val776Ile 18300232:185:89
status: NEW188 Comparison ofTransport to Cell Surface Expression Y556C caused a two to three times higher [3 H] PMEA efflux, and V776I, G487E, and R820I caused a 25-30% decrease in [14 C] 6-MP efflux compared to wild-type when transport activity was normalized using the MRP4 expression levels (Fig. 5).
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ABCC4 p.Val776Ile 18300232:188:114
status: NEW189 The G487E and R820I mutations had a similar effect on [3 H] PMEA efflux, whereas the V776I did not (Fig. 5).
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ABCC4 p.Val776Ile 18300232:189:85
status: NEW229 MRP4 proteins variants Y556C, E757 K, V776I, and T1142 M were expressed at lower levels (range 20-40% of wild type) compared to MRP4 wild-type protein.
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ABCC4 p.Val776Ile 18300232:229:38
status: NEW233 The maximal decrease in overall 6-MP transport activity caused by any one of the 10 MRP4 mutations was approximately 50% (V776I) and it was partly due to a reduction of the protein`s expression.
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ABCC4 p.Val776Ile 18300232:233:122
status: NEW234 The transmembrane variant V776I was not computationally predicted to be deleterious (by SIFT, PolyPhen, and Grantham).
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ABCC4 p.Val776Ile 18300232:234:26
status: NEW246 It is possible that MRP4 mutations like Y556C and V776I may affect tissue accumulation and elimination of nucleoside-based agents, including PMEA, 6-MP, or other antiviral agents.
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ABCC4 p.Val776Ile 18300232:246:50
status: NEW248 In addition, four variants have been found as singletons, including the mutation leading to Y556C and V776I substitution (Supplementary Table S1).
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ABCC4 p.Val776Ile 18300232:248:102
status: NEW251 In contrast, variants of MRP4 having an influence on functional activity (G487E, Y556C, V776I, and R820I) were present at allelic frequencies o1%.
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ABCC4 p.Val776Ile 18300232:251:88
status: NEW258 Conservation of the MRP4 Polymorphic AminoAcids Among Di¡erent ABCC Orthologs and Homologsà Protein Speciesa G187W K304N G487E Y556C E757K V776I R820I V854F I866V T1142M MRP4 Human G K G Y E V R V I T Mouse G K G Y E V R I V T Rat G K G Y G V R I L S MRP1 Human K Q D Y K ^ N C F S Mouse K Q D Y F A ^ V F S Rat K Q D Y ^ G N V V S MRP2 Human K K G Y S G R L V S Mouse R K G Y S G R L V S Rat K K G Y S G R L I S MRP3 Human R Q C F L G R L V S Rat R Q C F S G R I V S MRP5 Human ^ ^ A Y D L R V S T Mouse ^ ^ A Y D L R V S T Rat ^ ^ A Y D L R V S T MRP6 Human K G T Y G H S V V S Mouse K G T Y H G N G V T Rat K G T Y G N G V V T ÃAligned using ClustalW (www.ebi.ac.uk/clustalw).
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ABCC4 p.Val776Ile 18300232:258:149
status: NEW
PMID: 17404579
[PubMed]
Gradhand U et al: "Variability in human hepatic MRP4 expression: influence of cholestasis and genotype."
No.
Sentence
Comment
45
Table 2 Genetic variations identified in the MRP4 gene among 95 Caucasian individuals Variant ID Sequence context 50 Systematic name Sequence context 30 Genetic element Effect Frequency (%) Heterozygous Homozygous NCBI SNP ID HW HW 1 GAACTCCTGA g.-2174C4G GTCAGGTGAT Promoter 23.7 28.5 5.4 3.0 2 CACCTGCCTC g.-2152A4G GCCTCCCAGA Promoter 2.2 2.2 0.0 0.0 3 TGGGCTAAAG g.-2055C4A CATCCTCCTG Promoter 40.9 47.9 39.8 36.3 rs2389235 4 CTAAAGCCAT g.-2051C4T CTCCTGTCTC Promoter 38.7 45.1 46.2 43.0 rs1764419 5 ATTTTTAAAA g.-1980-1981insA CTTTTGGTAG Promoter 39.8 45.5 45.2 42.3 6 CACTATGCTG g.-1949G4C CTAGCCTGTG Promoter 1.1 1.1 0.0 0.0 7 CATCTATAAA g.-1508G4A TAAGGATAAC Promoter 12.6 11.8 0.0 0.4 rs868853 8 AAATTATCAG g.-1235T4C ATTTGAACTT Promoter 2.1 2.1 0.0 0.0 9 TACTTAAACT g.-1130G4A AGTTGGGAGG Promoter 42.4 46.3 15.2 13.3 rs2993579 10 CCATGGCACC g.-642G4C TCGTTTGGTC Promoter 41.9 46.7 41.9 39.6 rs869951,39 11 CGCGTCTCCT g.-289C4G CCGCCGCGTC Promoter 2.2 2.2 0.0 0.0 12 CCGCGGCCAC g.-49C4T GCCGCCTGAT 50 UTR/ Exon 1 1.1 1.1 0.0 0.0 rs3751333,39 13 TGCCCGTGTA g.15C4T CAGGAGGTGA Exon 1 synonymous 1.1 1.1 0.0 0.0 14 GGACGCGAAC g.52A4C TCTGCTCACG Exon 1 I18L 2.2 2.2 97.8 97.8 rs11568681 15 GGTGAGTGTC g.84C4T CCGCCCGAAA Intron 1 2.2 2.1 0.0 0.0 rs11568682 16 CACTCTCCCG g.138G4C GGCCGCGCCC Intron 1 1.1 1.0 0.0 0.0 17 ACCCATGGAG g.53498G4A TAGGAGTCTA Intron 1 46.7 47.4 15.2 14.9 rs9556466 18 TTTTTCCTCAT g.54215T4C GTAGGTTCTG Intron 2 46.7 47.0 14.4 14.3 rs4148437,39 19 AGCATGGGTG g.66387A4G CAGAGCAAGC Intron 3 11.9 11.2 0.0 0.4 39 20 GGTAAGTGAC g.66715A4G TTCAGCATTA Intron 4 2.2 2.2 0.0 0.0 rs11568637 21 CATGGCCATG g.90561G4T GGAAGACAAC Exon 5 G187W* 4.3 4.2 0.0 0.0 rs11568658 22 CACCCCTCTT g.90673T4C CCCCTTTTAT Intron 5 25.3 23.7 73.6 74.4 rs899496,39 23 TTTCTGGAGG g.90696C4T AGGGGCTCAC Intron 5 38.9 37.5 5.6 6.3 rs4148472,39 24 GCAGGGGCTC g.90705-90708delACTC TGTTCACACT Intron 5 44.9 47.7 38.2 36.8 rs3046400 25 TGTGTTCTTA g.91667C4T TGGTTTTGCT Intron 5 1.1 1.1 0.0 0.0 26 TGCAGGCGAT g.91765C4T GCAGTGACTG Exon 6 synonymous 19.4 19.2 1.1 1.2 rs899494,39 27 GTTGTCGGAA g.93281G4T CAAAAGCGCT Intron 6 43.5 41.5 48.9 49.9 rs2274410,39 28 GGCTGTGATC g.93355G4A CTCAGGCTCA Intron 6 15.2 17.7 2.2 1.0 rs2274409,39 29 CTCATCTCCC g.93372G4A TGTCTGGTTC Intron 6 2.2 2.2 0.0 0.0 rs11568683 30 AAGTTTTACT g.93595A4G TGTTTTCACA Intron 7 43.5 41.5 48.9 49.9 rs2274408,39 31 TCTCTTTCAG g.94534G4T AAGGAGATTT Exon 8 K304N 17.6 17.8 1.1 1.0 rs2274407,39 32 CCTGCCTCAG g.94573G4A GGGATGAATT Exon 8 synonymous 47.2 42.3 6.7 9.2 rs2274406,39 33 ATTTGGCTTC g.94591G4A TTTTTCAGTG Exon 8 synonymous 47.2 42.3 6.7 9.2 rs2274405,39 34 CAGGTTGGTG g.94791T4A CAGATGCCAT Intron 8 4.4 4.3 0.0 0.0 rs11568702 35 CACTATGTTC g.94865C4G AGTGTAATGA Intron 8 47.2 42.3 46.1 48.5 rs3818494,39 36 TGACATTTAA g.94883C4T TCTCTCATAA Intron 8 47.2 42.3 46.1 48.5 rs3818494,39 37 TAGAGAATTT g.106549T4C GAGGTGTTAC Intron 9 55.6 49.9 24.4 27.3 rs2274403,39 38 GCATTGCAGT g.114366G4A GCTTATTCTT Intron 10 9.8 9.3 0.0 0.2 rs4148487,39 39 CTCTGAAAAA g.114614G4A GTGAGTGATG Exon 11 synonymous 1.1 1.1 0.0 0.0 40 ATAGGAGATC g.123270G4A GGGAACCACG Exon 12 R531Q 1.1 1.1 0.0 0.0 41 GCTGACATCT g.123548A4G TCTCCTGGAC Exon 13 Y556C* 1.1 1.1 0.0 0.0 42 GAGGTCTCCC g.130808G4A AACTTGCAAG Intron 14 24.4 23.1 1.1 1.8 rs11568663 43 TGCCTGTTTC g.136709C4T CCACAGCTTT Intron 15 18.2 16.5 0.0 0.8 rs4148501,39 44 GTTTTCAGGC g.136862C4T TATAAGAATT Exon 16 synonymous 2.1 2.1 0.0 0.0 rs11568666 45 ATGTATGAAA g.137735T4C ACTCCAAAAT Intron 17 16.1 14.8 83.9 84.5 rs11568650 46 GGTTCATTTT g.138034T4C AAAAAAATGT Intron 17 20.7 20.3 1.1 1.3 39 47 AAATGTAACC g.138154G4A AGAAGCTAGA Exon 18 E757K 1.1 1.1 0.0 0.0 rs3765534,39 48 TGTAGCTACC g.139997G4A TTCTTTTTGG Exon 19 V776I 1.1 1.1 0.0 0.0 49 ACCACTGACA g.185182T4G CGGCTTATTT Intron 19 46.7 49.9 29.3 27.8 rs1678394,39 50 TGAATAATAT g.185207A4G TTAAATACAT Intron 19 4.3 4.2 0.0 0.0 rs2296652 51 ATTTGCTGCC g.185369G4A CTGACGTTTT Exon 20 synonymous 1.1 1.1 0.0 0.0 52 ACAACTCATG g.217965C4A AAGTATTTTT Intron 20 6.7 6.4 93.3 93.4 rs1189437,39 53 GGTTGGTGTG g.218049G4T TCTCTGTGGC Exon 21 V854F* 3.3 3.3 0.0 0.0 rs11568694 54 TTGGATCGCA g.218085A4G TACCCTTGGT Exon 21 I866 V* 5.6 5.4 0.0 0.1 55 CTTGGGAGGC g.225708C4T GCAGGTTTTT Intron 21 28.0 25.8 1.2 2.3 rs11568672 Figure 3 Predicted two-dimensional protein structure of the MRP4 protein.
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ABCC4 p.Val776Ile 17404579:45:3724
status: NEW52 MRP4 protein expression in samples carrying non-synonymous polymorphisms relative to the control group (n ¼ 8) was as follows: G187W 58% (n ¼ 2), K304N 54% (n ¼ 3), R531Q 20% (n ¼ 1), Y556C 60% (n ¼ 1), E757K 86% (n ¼ 1), V776I 161% (n ¼ 1), V854F 96% (n ¼ 1), I866V 78% (n ¼ 4) and T1142M 40% (n ¼ 2).
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ABCC4 p.Val776Ile 17404579:52:252
status: NEW72 Prediction of functional effects of non-synonymous variations In silico analysis of all 10 detected amino acid exchanges revealed that five of them (I18L, K304N, R531Q, E757K, V776I) can be considered benign, whereas others especially near or within transmembrane regions or ATP-binding domains are possibly (G187W, Y556C, V854F, I866V) or in one case (T1142M) even very likely damaging for protein localization and/or function (Figure 3).
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ABCC4 p.Val776Ile 17404579:72:176
status: NEW46 Table 2 Genetic variations identified in the MRP4 gene among 95 Caucasian individuals Variant ID Sequence context 50 Systematic name Sequence context 30 Genetic element Effect Frequency (%) Heterozygous Homozygous NCBI SNP ID HW HW 1 GAACTCCTGA g.-2174C4G GTCAGGTGAT Promoter 23.7 28.5 5.4 3.0 2 CACCTGCCTC g.-2152A4G GCCTCCCAGA Promoter 2.2 2.2 0.0 0.0 3 TGGGCTAAAG g.-2055C4A CATCCTCCTG Promoter 40.9 47.9 39.8 36.3 rs2389235 4 CTAAAGCCAT g.-2051C4T CTCCTGTCTC Promoter 38.7 45.1 46.2 43.0 rs1764419 5 ATTTTTAAAA g.-1980-1981insA CTTTTGGTAG Promoter 39.8 45.5 45.2 42.3 6 CACTATGCTG g.-1949G4C CTAGCCTGTG Promoter 1.1 1.1 0.0 0.0 7 CATCTATAAA g.-1508G4A TAAGGATAAC Promoter 12.6 11.8 0.0 0.4 rs868853 8 AAATTATCAG g.-1235T4C ATTTGAACTT Promoter 2.1 2.1 0.0 0.0 9 TACTTAAACT g.-1130G4A AGTTGGGAGG Promoter 42.4 46.3 15.2 13.3 rs2993579 10 CCATGGCACC g.-642G4C TCGTTTGGTC Promoter 41.9 46.7 41.9 39.6 rs869951,39 11 CGCGTCTCCT g.-289C4G CCGCCGCGTC Promoter 2.2 2.2 0.0 0.0 12 CCGCGGCCAC g.-49C4T GCCGCCTGAT 50 UTR/ Exon 1 1.1 1.1 0.0 0.0 rs3751333,39 13 TGCCCGTGTA g.15C4T CAGGAGGTGA Exon 1 synonymous 1.1 1.1 0.0 0.0 14 GGACGCGAAC g.52A4C TCTGCTCACG Exon 1 I18L 2.2 2.2 97.8 97.8 rs11568681 15 GGTGAGTGTC g.84C4T CCGCCCGAAA Intron 1 2.2 2.1 0.0 0.0 rs11568682 16 CACTCTCCCG g.138G4C GGCCGCGCCC Intron 1 1.1 1.0 0.0 0.0 17 ACCCATGGAG g.53498G4A TAGGAGTCTA Intron 1 46.7 47.4 15.2 14.9 rs9556466 18 TTTTTCCTCAT g.54215T4C GTAGGTTCTG Intron 2 46.7 47.0 14.4 14.3 rs4148437,39 19 AGCATGGGTG g.66387A4G CAGAGCAAGC Intron 3 11.9 11.2 0.0 0.4 39 20 GGTAAGTGAC g.66715A4G TTCAGCATTA Intron 4 2.2 2.2 0.0 0.0 rs11568637 21 CATGGCCATG g.90561G4T GGAAGACAAC Exon 5 G187W* 4.3 4.2 0.0 0.0 rs11568658 22 CACCCCTCTT g.90673T4C CCCCTTTTAT Intron 5 25.3 23.7 73.6 74.4 rs899496,39 23 TTTCTGGAGG g.90696C4T AGGGGCTCAC Intron 5 38.9 37.5 5.6 6.3 rs4148472,39 24 GCAGGGGCTC g.90705-90708delACTC TGTTCACACT Intron 5 44.9 47.7 38.2 36.8 rs3046400 25 TGTGTTCTTA g.91667C4T TGGTTTTGCT Intron 5 1.1 1.1 0.0 0.0 26 TGCAGGCGAT g.91765C4T GCAGTGACTG Exon 6 synonymous 19.4 19.2 1.1 1.2 rs899494,39 27 GTTGTCGGAA g.93281G4T CAAAAGCGCT Intron 6 43.5 41.5 48.9 49.9 rs2274410,39 28 GGCTGTGATC g.93355G4A CTCAGGCTCA Intron 6 15.2 17.7 2.2 1.0 rs2274409,39 29 CTCATCTCCC g.93372G4A TGTCTGGTTC Intron 6 2.2 2.2 0.0 0.0 rs11568683 30 AAGTTTTACT g.93595A4G TGTTTTCACA Intron 7 43.5 41.5 48.9 49.9 rs2274408,39 31 TCTCTTTCAG g.94534G4T AAGGAGATTT Exon 8 K304N 17.6 17.8 1.1 1.0 rs2274407,39 32 CCTGCCTCAG g.94573G4A GGGATGAATT Exon 8 synonymous 47.2 42.3 6.7 9.2 rs2274406,39 33 ATTTGGCTTC g.94591G4A TTTTTCAGTG Exon 8 synonymous 47.2 42.3 6.7 9.2 rs2274405,39 34 CAGGTTGGTG g.94791T4A CAGATGCCAT Intron 8 4.4 4.3 0.0 0.0 rs11568702 35 CACTATGTTC g.94865C4G AGTGTAATGA Intron 8 47.2 42.3 46.1 48.5 rs3818494,39 36 TGACATTTAA g.94883C4T TCTCTCATAA Intron 8 47.2 42.3 46.1 48.5 rs3818494,39 37 TAGAGAATTT g.106549T4C GAGGTGTTAC Intron 9 55.6 49.9 24.4 27.3 rs2274403,39 38 GCATTGCAGT g.114366G4A GCTTATTCTT Intron 10 9.8 9.3 0.0 0.2 rs4148487,39 39 CTCTGAAAAA g.114614G4A GTGAGTGATG Exon 11 synonymous 1.1 1.1 0.0 0.0 40 ATAGGAGATC g.123270G4A GGGAACCACG Exon 12 R531Q 1.1 1.1 0.0 0.0 41 GCTGACATCT g.123548A4G TCTCCTGGAC Exon 13 Y556C* 1.1 1.1 0.0 0.0 42 GAGGTCTCCC g.130808G4A AACTTGCAAG Intron 14 24.4 23.1 1.1 1.8 rs11568663 43 TGCCTGTTTC g.136709C4T CCACAGCTTT Intron 15 18.2 16.5 0.0 0.8 rs4148501,39 44 GTTTTCAGGC g.136862C4T TATAAGAATT Exon 16 synonymous 2.1 2.1 0.0 0.0 rs11568666 45 ATGTATGAAA g.137735T4C ACTCCAAAAT Intron 17 16.1 14.8 83.9 84.5 rs11568650 46 GGTTCATTTT g.138034T4C AAAAAAATGT Intron 17 20.7 20.3 1.1 1.3 39 47 AAATGTAACC g.138154G4A AGAAGCTAGA Exon 18 E757K 1.1 1.1 0.0 0.0 rs3765534,39 48 TGTAGCTACC g.139997G4A TTCTTTTTGG Exon 19 V776I 1.1 1.1 0.0 0.0 49 ACCACTGACA g.185182T4G CGGCTTATTT Intron 19 46.7 49.9 29.3 27.8 rs1678394,39 50 TGAATAATAT g.185207A4G TTAAATACAT Intron 19 4.3 4.2 0.0 0.0 rs2296652 51 ATTTGCTGCC g.185369G4A CTGACGTTTT Exon 20 synonymous 1.1 1.1 0.0 0.0 52 ACAACTCATG g.217965C4A AAGTATTTTT Intron 20 6.7 6.4 93.3 93.4 rs1189437,39 53 GGTTGGTGTG g.218049G4T TCTCTGTGGC Exon 21 V854F* 3.3 3.3 0.0 0.0 rs11568694 54 TTGGATCGCA g.218085A4G TACCCTTGGT Exon 21 I866 V* 5.6 5.4 0.0 0.1 55 CTTGGGAGGC g.225708C4T GCAGGTTTTT Intron 21 28.0 25.8 1.2 2.3 rs11568672 Figure 3 Predicted two-dimensional protein structure of the MRP4 protein.
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ABCC4 p.Val776Ile 17404579:46:3724
status: NEW53 MRP4 protein expression in samples carrying non-synonymous polymorphisms relative to the control group (n &#bc; 8) was as follows: G187W 58% (n &#bc; 2), K304N 54% (n &#bc; 3), R531Q 20% (n &#bc; 1), Y556C 60% (n &#bc; 1), E757K 86% (n &#bc; 1), V776I 161% (n &#bc; 1), V854F 96% (n &#bc; 1), I866V 78% (n &#bc; 4) and T1142M 40% (n &#bc; 2).
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ABCC4 p.Val776Ile 17404579:53:246
status: NEW73 Prediction of functional effects of non-synonymous variations In silico analysis of all 10 detected amino acid exchanges revealed that five of them (I18L, K304N, R531Q, E757K, V776I) can be considered benign, whereas others especially near or within transmembrane regions or ATP-binding domains are possibly (G187W, Y556C, V854F, I866V) or in one case (T1142M) even very likely damaging for protein localization and/or function (Figure 3).
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ABCC4 p.Val776Ile 17404579:73:176
status: NEW