We found three novel polymorphisms in the beta ig-h3 gene in patients with gelatinous drop-like corneal dystrophy: (1) a substitution from CTC to CTT at codon 472 that did not alter an amino acid; (2) a substitution from GCG (Ala) to GTG (Val) at codon 480; and (3) a substitution from C to T in intron 10, three nucleotides upstream from the acceptor site of exon 11.
We found three novel polymorphisms in the beta ig-h3 gene in patients with gelatinous drop-like corneal dystrophy: (1) a substitution from CTC to CTT at codon 472 that did not alter an amino acid; (2) a substitution from GCG (Ala) to GTG (Val) at codon 480; and (3) a substitution from C to T in intron 10, three nucleotides upstream from the acceptor site of exon 11.
We found three novel polymorphisms in the beta ig-h3 gene in patients with gelatinous drop-like corneal dystrophy: (1) a substitution from CTC to CTT at codon 472 that did not alter an amino acid; (2) a substitution from GCG (Ala) to GTG (Val) at codon 480; and (3) a substitution from C to T in intron 10, three nucleotides upstream from the acceptor site of exon 11.
Genomic DNA was isolated from unrelated individuals with lattice corneal dystrophy type I (n = 3), Avellino corneal dystrophy (n = 3), and gelatinous drop-like corneal dystrophy (n = 3) and used as a template for polymerase chain reaction to amplify all exons in beta ig-h3.
Q118X mutation of M1S1 gene caused gelatinous drop-like corneal dystrophy: the P501T of BIGH3 gene found in a family with gelatinous drop-like corneal dystrophy.
Although the M1S1 gene was responsible for GDLD in Vietnamese patients, the mutation found here is completely different from that previously reported in Japanese patients, where GDLD is most frequently seen.
Two mutations in the TGFBI gene (A546D and P551Q) cosegregated with LCD in an extensively studied family that lacked the R124C mutation that frequently accompanies this form of corneal amyloidosis.
Immunofluorescence analysis revealed that neither ZO-1 nor occludin was expressed in the TJ areas of surface epithelial cells; there was no expression of claudin-1 or desmoplakin in the epithelial surface layer of GDLD corneas.
Immunofluorescence analysis revealed that neither ZO-1 nor occludin was expressed in the TJ areas of surface epithelial cells; there was no expression of claudin-1 or desmoplakin in the epithelial surface layer of GDLD corneas.
Immunofluorescence analysis revealed that neither ZO-1 nor occludin was expressed in the TJ areas of surface epithelial cells; there was no expression of claudin-1 or desmoplakin in the epithelial surface layer of GDLD corneas.
To identify the genetic defect in the TACSTD2 gene that causes gelatinous drop-like corneal dystrophy (GDLD) in two unrelated consanguineous Chinese families.