101 Several molecular defects in MRP2 have been suggested to result in DJS including those which produce deficient protein maturation (Hashimoto et al., 2002; Keitel et al., 2003), proteasomal degradation (Keitel, 2003), impaired membrane sorting (Hashimoto et al., 2002; Mor-Cohen et al., 2001), loss in transport activity (Mor-Cohen et al., 2001), Figure 2 Predicted membrance topology of MRP2 (ABCC2) based on hydrophobicity analysis. Locations of the non-synonymous polymorphisms are indicated with arrows. See Table 2 for allele frequencies and description of funtional consequences. NH2 COOH NBD NBD in out Membrane Pro19Leu Phe39Tyr Arg100* Arg100Gln Ser281Asn Ser325* Asp333Gly Arg353His Arg412Gly Val417Ile Lys430Arg Thr486Ile Gly676Arg Trp709Arg Asn718Ser Ser789Phe Arg768Trp Asp833Asn Glu893Gln Leu927Arg Lys961Arg Tyr967* Phe981Leu Gln1019His Arg1066* Arg1150His Arg1100Cys Arg1100His Ile1137Phe Ile1173Phe Val1188Glu Arg1174His Arg1181Leu Asn1244Lys Thr1273Ala Pro1291Leu Lys1299Gln Arg1310* Ser1367Cys Gln1382Arg Arg1392del Met1393del Ala1450Thr Thr1476Met Cys1515Tyr MRP2 (ABCC2) NBD NBD Asp833Asn Glu893Gln Leu927Arg Lys961Arg Tyr967* NBD NBDNBD Asp833Asn Glu893Gln Leu927Arg Lys961Arg Tyr967* 325 Table2MRP2(ABCC2)singlenucleotidepolymorphisms.Location,allelefrequencyandfunctionaleffects. Positionin codingsequence Amino acidexchangeLocation Allelefrequency EffectNCBIIDReferenceAfCaJpothers 56C>TPro19LeuExon2--1[1]b -- 116T>APhe39TyrExon2--0[2]--rs927344 298C>TArg100*Exon3--[3]-DJS[3] 299G>AArg100GlnExon3--1[1]b -- 842G>ASer281AsnExon7-0[4]1[1]b -- 974C>GSer325*Exon8---Malayan[5]DJS[5] 998A>GAsp333GlyExon8--0[2]--rs17222674 1058G>AArg353HisExon9--0[2]--rs7080681 1271A>GArg412GlyExon10-[6]0[2]-DJS;Decreaseinmethotrexateelimination[6] 1249G>AVal417IleExon10-22[7]13[9]-lowermRNAand(protein)expressioninpreterm placenta[11] rs2273697 26[8]16[4]noeffectonRNAandproteinininduodenum[12] 19[10]noeffectonproteininliver[8] noeffectonconjugatedbilirubinlevelinserum[13] changesinlocalizationinneuroepithelialtumors[14] possibleassociationwithtenofovir-inducedrenal proximaltubulopathy[15] 1289A>GLys430ArgExon10-4[16]0[2]-- 1457C>TThr486IleExon10-0[4]3[1]b -- 2026G>CGly676Arg--0[2]-DJS[17] 2125T>CTrp709Arg--0[2]-DJS[17] 2153A>GAsn718SerExon17-0[4]0[2]--rs3740072 2302C>TArg768TrpExon18-0[18]1[9]-DJS;deficientmaturationandimpairedsorting[19] 2366C>TSer789PheExon18-0[18]1[9]-lowerexpressionandmembranelocalization[20] noeffectonconjugatedbilirubinlevelinserum[13]/ heterozygous 2647G>AAsp883AsnExon20--1[1]b -- 2677G>CGlu893GlnExon20--0[2]--rs3740071 2780T>GLeu927ArgExon21-1[10]0[2]-- (Continued) Table2(Continued) Positionin codingsequence Aminoacid exchangeLocation Allelefrequency EffectNCBIIDReferenceAfCaJpothers 2882A>GLys961ArgExon21--1[1]b --- 2901C>ATyr967*Exon22--0[2]--rs17222547 2943C>GPhe981LeuExon22-2[21]0[2]-Noinfluenceonpravastatinkinetics[21] 3057G>TGln1019HisExon22--1[1]b -- 3196C>TArg1066*Exon23-[22]0[2]-DJS;truncatedprotein[22][23] 3298C>TArg1100CysExon24-1[10]0[2]-- 3299G>AArg1100HisExon24-1[10]0[2]-- 3449G>AArg1150HisExon25--0[2]Israeli[24]DJS;impairedtransportactivityintransfectedcells althoughnormalexpressionandlocalization[24] 3517A>TIle1173PheExon25--0[2]Israeli[24]DJS;impairedproteinmaturationandproteasomal degradation[25] lowexpression,mislocation,andimpairedtransport activityintransfectedcells[24] 3521G>AArg1174HisExon25-0[4]1[1]b -- 3542G>TArg1181LeuExon25-0[4]0[2]--rs8187692 3563T>AVal1188GluExon25-7[4]1[1]b -noeffectonnelfinaviraccumulationinPBMC[4],rs17222723 4[16]associatedwithanthracycline-induced cardiotoxicity[26] 6[8] 3732C>TAsn1244LysExon26--0[1]b -- 0[2] 3817A>GThr1273AlaExon27--0[2]--rs8187699 3872C>TPro1291LeuExon28--0[2]--rs17216317 3897A>CLys1299GlnExon28--0[2]--rs4148400 3928C>TArg1310*Exon28--0[2]-DJS[17,27] 4100C>GSer1367CysExon29--1[1]b -- 4145A>GGln1382ArgExon29--[28]-DJS;noeffectonmaturationorsorting,impaired substrate-inducedATPhydrolysis[19] 4175-80delArg1392delExon30--0[2]-DJS;deficientMRP2maturationandimpaired sortingtoapicalmembraneintransfectedcells[29] 327 4348G>AAla11450ThrExon31-0[18]1[9]-lowerexperssionandmembracelocalizationin transfectedcells[20] 4461C>TThr1476MetExon31-[30]1[2]-- 4544G>ACys1515TyrExon32-9[4]1[1]b -noeffectonnelfinaviraccumulationinPBMC[4]rs8187710 5[10]associatedwithanthracycline-induced cardiotoxicity[26] 4[16] 6[8] ReferencewithoutfrequencymeansthatSNPwasdetectedbutnofrequencydetermined.

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ABCC2 p.Gly676Arg 18464048:101:732

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28 The study of allelic segregation in Letter to the Editor R100X R393W IVS6_IVS7del L441M IVS13 +2 T>A IVS15 +2 T>C G676R IVS18 +2 T>C R768W * 2748_2883del * R1066X * 3399_3400del L1173F 3615_3843del* Y1275X * R1310X Q1382R R1392_M1393del S325X W709R T1273A IVS8 +4 A>G 1256_1272delins CT 4292_4293delR1150H E1352Q * Exon 1 32 Fig. 1.

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ABCC2 p.Gly676Arg 21044052:28:116

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64 They included the three mutations 1177C > T (R393W), 2026G > C (G676R) and 2125T > C (W709R) first found in our patients.23,49,52 Better understanding of the pathogenesis of hepatic storage disorders provided by gene analysis The genetic backgrounds of Japanese patients with hemochromatosis are now partially clear.

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ABCC2 p.Gly676Arg 17517077:64:64

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76 Fifty years after the first identification of lysosomes,1,2 three Table 3 Results of mutation analysis for patients with Dubin-Johnson syndrome Patient Age (years)/Sex MRP2 Mutation 1 Mutation 2 1 21/male 298C > T (R100X) 298C > T (R100X) 2 26/male 1177C > T (R393W) 2302C > T (R768W) 3 23/female 1967 + 2T > C (1901del67: exon 15 skipping) 1967 + 2T > C (1901del67: exon 15 skipping) 4 25/male 1967 + 2T > C (1901del67: exon 15 skipping) 2026G > C (G676R) 5 28/female 2125T > C (W709R) 2125T > C (W709R) 6 28/male 2439 + 2T > C (2272del168: exon 18 skipping) 2439 + 2T > C (2272del168: exon 18 skipping) adult-onset storage disorders of the liver were found to be secondary lysosomal diseases with the genetic defects outside of lysosomes.

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ABCC2 p.Gly676Arg 17517077:76:450

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139 Although all sequence variants associated with Dubin-Johnson syndrome result in the absence of a Table 3 Nucleotide sequence variants in the human ABCC2 gene (NM_000392) leading to amino acid changes in the ABCC2/MRP2 protein (NP_000383) Location Nucleotide changea Deduced effect on proteina Causing Dubin-Johnson syndromeb Predicted effect by PolyPhen databasec Experimentally proven functional consequence Average frequency of indicated nucleotide exchange in population NCBI SNP IDd and/or references Exon 2 c.56 C>Te p.P19L Probably damaging T: 0.007 [63] Exon 2 c.116 T>A p.F39Y Benign A: 0.010 rs927344 A: 0.008 rs17222603 Exon 3 c.298 C>T p.R100Xf DJS [154] Exon 3 c.299 G>Ae p.R100Q Possibly damaging A: 0.007 [63] Exon 7 c.736 A>C p.M246L Benign C: 0.002 rs8187667 C: 0.002 rs17222744 Exon 7 c.842 G>A p.S281N Benign A: 0.0060.056 [117] Exon 8 c.998 A>G p.D333G Possibly damaging G: 0.002 rs8187668 G: 0.004 rs17222674 Exon 9 c.1058 G>A p.R353H Benign A: 0.009 rs7080681 A: 0.014 rs17216205 Exon 9 c.1177 C>T p.R393W DJS Probably damaging [104, 112] Exon 10 c.1234 A>G p.R412G Probably damaging Deficient methotrexate transport function [56] Exon 10 c.1249 G>A p.V417I Benign None apparent [50] A: 0.163 rs2273697, [146] A: 0.158 rs17216184 A: 0.125 [62] A: 0.1830.312 [117] Exon 10 c.1457 C>T p.T486I Benign T: 0.002 rs8187670 T: 0.002 rs17222589 Exon 11 c.1483 A>G p.K495E Possibly damaging G: 0.002 rs8187672 G: 0.002 rs17222561 Exon 13 c.1686 T>G p.F562L Benign G: 0.002 rs8187673 G: 0.002 rs17216233 Exon 16 c.2009 T>C p.I670T Benign rs8187676 C: 0.006 rs17222632 Exon 16 c.2026 G>C p.G676R DJS Probably damaging [181] Exon 17 c.2125 T>C p.W709R DJS Probably damaging [111] Exon 17 c.2153 A>G p.N718S Possibly damaging rs3740072 Exon 17 c.2215 C>T p.L739F Probably damaging T: 0.006 [51] Exon 18 c.2302 C>T p.R768W DJS Probably damaging Deficient maturation and impaired sorting [47] T: 0.010 [62] [168, 180] Exon 18 c.2366 C>T p.S789F Probably damaging Reduced protein levels [50] T: 0.010 [62] Exon 19 c.2546 T>G p.L849R Benign G: 0.002 rs8187689 G: 0.006 rs17222617 Exon 20 c.2647 G>Ae p.D883N Benign A: 0.007 [63] Exon 20 c.2677 G>C p.E893Q Benign rs3740071 Exon 21 c.2882 A>Ge p.K961R Benign G: 0.007 [63] Exon 22 c.2901 C>A p.Y967Xf A: 0.002 rs8187683 A: 0.002 rs17222547 Exon 22 c.2944 A>G p.I982V Benign G: 0.002 rs8187684 G: 0.002 rs17222554 Exon 22 c.3057 G>Te p.Q1019H Benign T: 0.007 [63] Exon 23 c.3107 T>C p.I1036T Possibly damaging C: 0.002 rs8187685 C: 0.004 rs17216149 Exon 23 c.3188 A>G p.N1063S Benign G: 0.002 rs8187686 G: 0.002 rs17222540 Exon 23 c.3196 C>T p.R1066Xf DJS No ABCC2 protein in liver [134] Exon 25 c.3449 G>A p.R1150H DJS Probably damaging Deficient transport function A: 00.009 [117] Exon 25 c.3517 A>T p.I1173F DJS Probably damaging Deficient maturation and impaired sorting, deficient transport function T: 00.029 [117] [80, 117] Exon 25 c.3521 G>Ae p.R1174H Probably damaging A: 0.007 [63] Exon 25 c.3542 G>T p.R1181L Possibly damaging T: 0.039 rs8187692 T: 0.034 rs17222702 Exon 25 c.3563 T>A p.V1188E Benign A: 0.059 rs8187694 A: 0.059 rs17222723 Exon 26 c.3732 T>Ge p.N1244K Possibly damaging G: 0.014 [63] Exon 27 c.3817 A>G p.T1273A Benign G: 0.002 rs8187699 G: 0.004 rs17222582 Exon 27 c.3825 C>G p.Y1275Xf DJS No ABCC2 protein in liver [104] Exon 28 c.3872 C>T p.P1291L Possibly damaging T: 0.012 rs8187700 T: 0.010 rs17216317 Exon 28 c.3895 A>C p.K1299Q Benign rs4148400, [146] Exon 28 c.3928 C>T p.R1310Xf DJS [166] Exon 29 c.4100 C>Ge p.S1367C Possibly damaging G: 0.007 [63] Exon 29 c.4145 A>G p.Q1382R DJS Probably Deficient [47, 168] Table 3 (continued) Location Nucleotide changea Deduced effect on proteina Causing Dubin-Johnson syndromeb Predicted effect by PolyPhen databasec Experimentally proven functional consequence Average frequency of indicated nucleotide exchange in population NCBI SNP IDd and/or references functionally active ABCC2 protein from the canalicular membrane, their effects on the synthesis and function of the ABCC2 protein differ.

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ABCC2 p.Gly676Arg 16847695:139:1601

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140 Although all sequence variants associated with Dubin-Johnson syndrome result in the absence of a Table 3 Nucleotide sequence variants in the human ABCC2 gene (NM_000392) leading to amino acid changes in the ABCC2/MRP2 protein (NP_000383) Location Nucleotide changea Deduced effect on proteina Causing Dubin-Johnson syndromeb Predicted effect by PolyPhen databasec Experimentally proven functional consequence Average frequency of indicated nucleotide exchange in population NCBI SNP IDd and/or references Exon 2 c.56 C>Te p.P19L Probably damaging T: 0.007 [63] Exon 2 c.116 T>A p.F39Y Benign A: 0.010 rs927344 A: 0.008 rs17222603 Exon 3 c.298 C>T p.R100Xf DJS [154] Exon 3 c.299 G>Ae p.R100Q Possibly damaging A: 0.007 [63] Exon 7 c.736 A>C p.M246L Benign C: 0.002 rs8187667 C: 0.002 rs17222744 Exon 7 c.842 G>A p.S281N Benign A: 0.0060.056 [117] Exon 8 c.998 A>G p.D333G Possibly damaging G: 0.002 rs8187668 G: 0.004 rs17222674 Exon 9 c.1058 G>A p.R353H Benign A: 0.009 rs7080681 A: 0.014 rs17216205 Exon 9 c.1177 C>T p.R393W DJS Probably damaging [104, 112] Exon 10 c.1234 A>G p.R412G Probably damaging Deficient methotrexate transport function [56] Exon 10 c.1249 G>A p.V417I Benign None apparent [50] A: 0.163 rs2273697, [146] A: 0.158 rs17216184 A: 0.125 [62] A: 0.1830.312 [117] Exon 10 c.1457 C>T p.T486I Benign T: 0.002 rs8187670 T: 0.002 rs17222589 Exon 11 c.1483 A>G p.K495E Possibly damaging G: 0.002 rs8187672 G: 0.002 rs17222561 Exon 13 c.1686 T>G p.F562L Benign G: 0.002 rs8187673 G: 0.002 rs17216233 Exon 16 c.2009 T>C p.I670T Benign rs8187676 C: 0.006 rs17222632 Exon 16 c.2026 G>C p.G676R DJS Probably damaging [181] Exon 17 c.2125 T>C p.W709R DJS Probably damaging [111] Exon 17 c.2153 A>G p.N718S Possibly damaging rs3740072 Exon 17 c.2215 C>T p.L739F Probably damaging T: 0.006 [51] Exon 18 c.2302 C>T p.R768W DJS Probably damaging Deficient maturation and impaired sorting [47] T: 0.010 [62] [168, 180] Exon 18 c.2366 C>T p.S789F Probably damaging Reduced protein levels [50] T: 0.010 [62] Exon 19 c.2546 T>G p.L849R Benign G: 0.002 rs8187689 G: 0.006 rs17222617 Exon 20 c.2647 G>Ae p.D883N Benign A: 0.007 [63] Exon 20 c.2677 G>C p.E893Q Benign rs3740071 Exon 21 c.2882 A>Ge p.K961R Benign G: 0.007 [63] Exon 22 c.2901 C>A p.Y967Xf A: 0.002 rs8187683 A: 0.002 rs17222547 Exon 22 c.2944 A>G p.I982V Benign G: 0.002 rs8187684 G: 0.002 rs17222554 Exon 22 c.3057 G>Te p.Q1019H Benign T: 0.007 [63] Exon 23 c.3107 T>C p.I1036T Possibly damaging C: 0.002 rs8187685 C: 0.004 rs17216149 Exon 23 c.3188 A>G p.N1063S Benign G: 0.002 rs8187686 G: 0.002 rs17222540 Exon 23 c.3196 C>T p.R1066Xf DJS No ABCC2 protein in liver [134] Exon 25 c.3449 G>A p.R1150H DJS Probably damaging Deficient transport function A: 00.009 [117] Exon 25 c.3517 A>T p.I1173F DJS Probably damaging Deficient maturation and impaired sorting, deficient transport function T: 00.029 [117] [80, 117] Exon 25 c.3521 G>Ae p.R1174H Probably damaging A: 0.007 [63] Exon 25 c.3542 G>T p.R1181L Possibly damaging T: 0.039 rs8187692 T: 0.034 rs17222702 Exon 25 c.3563 T>A p.V1188E Benign A: 0.059 rs8187694 A: 0.059 rs17222723 Exon 26 c.3732 T>Ge p.N1244K Possibly damaging G: 0.014 [63] Exon 27 c.3817 A>G p.T1273A Benign G: 0.002 rs8187699 G: 0.004 rs17222582 Exon 27 c.3825 C>G p.Y1275Xf DJS No ABCC2 protein in liver [104] Exon 28 c.3872 C>T p.P1291L Possibly damaging T: 0.012 rs8187700 T: 0.010 rs17216317 Exon 28 c.3895 A>C p.K1299Q Benign rs4148400, [146] Exon 28 c.3928 C>T p.R1310Xf DJS [166] Exon 29 c.4100 C>Ge p.S1367C Possibly damaging G: 0.007 [63] Exon 29 c.4145 A>G p.Q1382R DJS Probably Deficient [47, 168] Table 3 (continued) Location Nucleotide changea Deduced effect on proteina Causing Dubin-Johnson syndromeb Predicted effect by PolyPhen databasec Experimentally proven functional consequence Average frequency of indicated nucleotide exchange in population NCBI SNP IDd and/or references functionally active ABCC2 protein from the canalicular membrane, their effects on the synthesis and function of the ABCC2 protein differ.

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ABCC2 p.Gly676Arg 16847695:140:1601

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78 Mutations in the MRP2/ABCC2 Gene Associated with DJS Nucleotide Mutation Exon Predicted Effect Reference 298C→T 3 R100X 27 974C→G 8 S325X This article IVS8 + 4A→G Intron 8 Aberrant splicing 28 1177C→T 9 R393W 29 1256insCT/ delAAACAG TGAACCT- GATG 10 Frameshift 30 1271A→G 10 R412G 31 1815 + 2T→A 13 Skipped exon 32, 33 1967 + 2T→C 15 Skipped exon 34, 35 2026G!92;C 16 G676R 35 2125T→C 17 W709R 36 2302C→T 18 R768W 32, 37, 38 2439 + 2T→C 18 Skipped exon 32, 35, 37 3196C→T 23 R1066X 39, 40 3449G→A 25 R1150H 41 3517A→T 25 I1173F 41 3928C→T 28 R1310X 27, 33 4145A→G 29 Q1382R 37 4175delGGATGA 30 R1392 + M1393 deletion 40 4292delCA 30 Frameshift 30 DISCUSSION Identification of a Novel Nonsense Mutation of the MRP2/ABCC2 Gene Up to now, 18 mutations in the sequence of the MRP2/ABCC2 gene have been reported in DJS, including nonsense mutations, deletions, splicing junction mutations, and missense mutations (Table 1).

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ABCC2 p.Gly676Arg 16952291:78:413

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ABCC2 p.Gly676Arg 16952291:78:421

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41 In Japan, the expected number of Table 1 Summary of mutations identified in Dubin-Johnson syndrome (DJS) Mutation Exon IVS Amino acid alteration Reference 298COT 3 R100X a,b 1815C 2TOA 13 Exon13 skip [38] 1967C 2TOC 15 Exon15 skip [62] 2026GOC 16 G676R [92] 2302COT 18 R768W [49,91]c 2439C 2TOC 18 Exon18 skip [38]a,c 3196COT 23 R1066X [47] 3449GOA 25 R1150H [52] 3517AOT 25 I1173F [52] 3928COT 28 R1310X [50] 4145AOG 29 Q1382R [38] 4175- 4180del 30 RM1392-1393del [48] a Adachi and Wada, unpublished data. b Houkibara and Wada, unpublished data.

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ABCC2 p.Gly676Arg 16377077:41:247

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58 Mor-Cohen analyzed in vitro two novel missense mutations identified in exon 25 in DJS [52] (Tables 1 Table 2 Naturally occurring base-change in ABCC2 gene accompanied by amino acid substitution Location (exon) Nucleic acid substitution Amino acid substitution Domain Pathogenetic consequence (biochemical defect) Frequency (%) Jews Japanese Reference 7 842GOA S281N Linker Unkown 2.4 Not reported [52] 10 1249GOA V417I MSD2 Unkown 22.7 10.9 [42,43,52]a 16 2026GOC G676R NBD1 DJSb Not reported Not reported [92] 18 2302COT R768W NBD1 DJS (protein maturation) Not reported 0.4?

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ABCC2 p.Gly676Arg 16377077:58:464

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55 2026GϾC 16 G676R Wakusawa S et al, J Hum Genet 2003;48:425-429.

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ABCC2 p.Gly676Arg 16012956:55:17

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66 298CϾT Gly100Stop 14 1177CϾT Arg393Trp Novel 1967ϩ2TϾC 1901del67 (exon 15 skipping) 12 2026GϾC Gly676Arg 6 2302CϾT Arg768Trp 13 2439ϩ2TϾC 2272del168 (exon 18 skipping) 8 a b immunohistochemical analysis, the mechanism by which this mutation impairs the canalicular transport of conjugated bilirubin remains unclear.

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ABCC2 p.Gly676Arg 15870973:66:125

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4 The 2026G fi C mutation was a novel mutation in exon 16 affecting the conversion of Gly676 to Arg676 (G676R) in the MRP2 protein, and was not detected in fifty healthy volunteers.

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ABCC2 p.Gly676Arg 12884082:4:102

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5 The G676R mutation was located in the Walker A motif of the first nucleotide binding domain in the MRP2 protein, and it was suggested that the mutation induced the dysfunction of the MRP2 protein.

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ABCC2 p.Gly676Arg 12884082:5:4

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13 In the present study, we conducted a mutational analysis in three Japanese DJS patients and found two known deletion mutations (c.1901del67, c.2272del168) and a novel missense mutation of G676R in the first nucleotide-binding domain (NBD1) in the MRP2 protein.

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ABCC2 p.Gly676Arg 12884082:13:188

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40 In addition, sequencing analysis of exons 16 and 1 detected a novel missense mutation of 2026G fi C (G676R) in the first Walker A motif (Fig. 2) and a single nucleotide polymorphism (SNP) of )24C fi T in the non-coding region of exon 1 (Fig. 3).

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ABCC2 p.Gly676Arg 12884082:40:101

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48 Discussion In the present study, we have found a novel missense mutation that is predicted to affect the substitution of glycine676 with arginine676 (G676R), together with two known deletion mutations.

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ABCC2 p.Gly676Arg 12884082:48:150

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51 One of these mutations (R768 W) is located within the first Walker C motif, and the other (Q1382R) lies within the second ABC (Toh Table 2 Mutations of the MRP2 gene in DJS patients and family members (wild wild-type, nd not determined) a C child, S siblings Patients and family Bilirubin (mg/dl) Alteration in MRP2 gene Predicted effects membersa Total Conjugated 1 DJ1 2.7 1.8 2439+2T fi C/2439+2T fi C 2272del168/2272del168 DJ1/C1 0.6 0.2 2439+2T fi C/wild 2272del168/wild DJ1/C2 0.6 0.2 2439+2T fi C/wild 2272del168/wild 2 DJ2 3.0 2.4 1967+2T fi C/1967+2T fi C 1901del67/1901del67 DJ2/S1 0.4 0.1 1967+2T fi C/wild 1901del67/wild DJ2/S2 0.5 0.2 Wild/wild ) DJ2/C1 0.8 0.2 1967+2T fi C/wild 1901del67/wild 3 DJ3 3.4 2.8 1967+2T fi C/2026G fi C 1901del67/G676R DJ3/S1 0.8 0.3 Wild/wild ) DJ3/S2 0.9 0.3 Wild/wild ) DJ3/S3 0.9 0.3 Wild/wild ) DJ3/S4 0.9 0.3 1967+2T fi C/wild 1901del67/wild DJ3/S5 0.3 0.1 Wild/wild ) DJ3/S6 1.3 0.6 1967+2T fi C/wild 1901del67/wild DJ3/C1 nd nd 1967+2T fi C/wild 1901del67/wild DJ3/C2 0.7 0.3 1967+2T fi C/wild 1901del67/wild Fig. 2 Sequencing analysis of exon 16 in the MRP2 gene from DJ3 (arrow site of the heterozygous missense mutation 2026G fi C).

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ABCC2 p.Gly676Arg 12884082:51:756

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57 The G676R conversion is the first reported mutation of the Walker A motif in MRP2 protein.

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ABCC2 p.Gly676Arg 12884082:57:4

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59 The G676R mutation is located at the 5`-flanking end of lysine, an amino acid shown to bind the c-phosphate of ATP (Konig et al. 2003) in NBD1.

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ABCC2 p.Gly676Arg 12884082:59:4

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63 The G676R mutation is associated with a change of hydrophobicity and electronic charge.

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ABCC2 p.Gly676Arg 12884082:63:4

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64 It has been speculated that G676R causes two basic amino acids, arginine and lysine, to interact and/or a change in the conformation of NBD1.

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ABCC2 p.Gly676Arg 12884082:64:28

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69 Because the parents and one sibling were deceased, the genetic route and correct segregation of the G676R mutation remain unclear.

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ABCC2 p.Gly676Arg 12884082:69:100

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71 In conclusion, a novel disease-associated mutation, 2026G fi C, which is predicted to cause a G676R conversion in the MRP2 protein, has been detected in a DJS patient.

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ABCC2 p.Gly676Arg 12884082:71:94

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