Fig 1.
DNA sequence analysis of individuals from family-90.
(Upper panel) Sequencing chromatograms from the affected individual IV-1 and the parent III-1 showing c.172_173insC mutation. Arrows mark the insertion of C in a homozygous state in the affected individual IV-1 and in a heterozygous state in the parent III-1. (Lower panel) Sequencing chromatograms from the affected individual IV-1 and the parent III-1 showing c.3741C>G mutation. Arrows mark the C>G change in a homozygous state in the affected individual IV-1 and in a heterozygous state in the parent III-1. + denotes the wild-type allele. m1 and m2 denote different mutations.
Fig 2.
DNA sequence analysis of individuals from family-128 and family-31.
(Upper panel) Sequencing chromatogram of the affected individual IV-5 from family-128. Arrow marks the deletion of A residue in a homozygous state. (Lower panel) Sequencing chromatograms of the affected individual II-3 and the parent I-1 from family-31. Arrows mark the C>T change in a homozygous state in the affected individual II-3 and in a heterozygous state in the parent I-1. + and m denote the wild-type and mutant alleles, respectively.
Fig 3.
DNA sequence analysis of individuals from family-60 and family-506.
(Upper panel) Sequencing chromatograms from the affected individual V-1 and parent IV-1 from family-60. Arrows mark the deletion of the C residue in a homozygous state in the affected individual V-1 and in a heterozygous state in the parent IV-1. (Lower panel) Sequencing chromatograms from the affected individual II-1 and parent I-1 from family-506. Arrows mark the C>G change in a heterozygous state in the affected individual II-1 and parent I-1. + and m denote the wild type and mutant alleles, respectively.
Fig 4.
DNA sequence analysis of individuals from family-M and family-41B.
(Upper panel) Sequencing chromatograms from the affected individual II-1 and parent I-1 from the family-M. Arrows mark the T>G change in a homozygous state in the affected individual II-1 and in a heterozygous state in the parent I-1. (Middle panel) Sequencing chromatogram from the affected individual II-1 from family-41B. Arrow marks the T>G change in a heterozygous state in the affected individual II-1. (Lower panel) Sequencing chromatogram from the affected individual II-1 from family-41B. Arrow marks the G>A change in a heterozygous state in the affected individual II-1. + denotes the wild type allele. m1 and m2 denote two different mutations.
Fig 5.
DNA sequence analysis of individuals from family-77 and family-80.
(Upper panel) Sequencing chromatograms from the affected individual II-2 and parent I-1 from family-77. Arrows mark the deletion of the A residue in the affected individual II-2 and parent I-1 in a heterozygous state. (Lower panel) Sequencing chromatograms from the affected individual IV-1 and the parent II-2 from family-80. Arrows mark the T>C change in a homozygous state in the affected individual IV-1 and in a heterozygous state in the parent II-2. + and m denote the wild type and mutant alleles, respectively.
Fig 6.
DNA sequence analysis of individuals from family-123.
(Upper panel) Sequencing chromatogram from the affected individual II-2 from family-123. Arrow marks the A>C change in a heterozygous state in the affected individual II-2. (Lower panel) Sequencing chromatogram from the affected individual II-2 and the parent I-2 from family-123. Arrows mark the C>T change in a heterozygous state in the affected individual II-2 and parent I-2. + denotes the wild type allele. m1 and m2 denote different mutations.
Fig 7.
DNA sequence analysis of individuals from family-86, family-49 and family-C.
(Upper panel) Sequencing chromatograms from the affected individual II-2 and the parent I-1 from family-86. Arrows mark the insertion of the A residue in a homozygous state in the affected individual II-2 and in a heterozygous state in the parent I-1. (Middle panel) Sequencing chromatograms of the affected individual IV-1 and the parent II-1 from family-49. Arrows mark the T>A change in a homozygous state in the affected individual IV-1 and in a heterozygous state in the parent II-1. (Lower panel) Sequencing chromatogram from the affected individual II-3 from family-C. Arrow marks the G>C change in a heterozygous state in the affected individual II-3. + and m denote the wild type and mutant alleles, respectively.
Fig 8.
Mutation landscape of the ATP7B gene and protein.
(A) The intron-exon structure of the gene. The novel mutations are shown in bold. (B) Different domains of the protein. Abbreviations: aa; amino acid; CBDs, copper binding domains; TMS, transmembrane segment and A-domain (actuator domain). The numbers refer to amino acid positions.
Fig 9.
Conservation of the amino acid residues across different species in ATP7B.
Arrows mark the conservation of amino acid residues Leu735, Val752, Val845, His889, Val1307, and Ala1339 across different species. GenBank accession numbers of ATP7B are also given.
Fig 10.
DNA sequence analysis of individuals from family-72.
Sequencing chromatograms from the affected individual IV-1 and parent II-1. Arrows mark two different C>T changes in a homozygous state in the affected individual IV-1 and in a heterozygous state in the parent II-1. + denotes the wild-type allele. m1 and m2 denote two different mutant alleles.
Table 1.
Mutations detected in the ATP7B gene in Wilson disease patients during present study.