BACKGROUND: This paper aims to report GLB1 activities and mutation analysis of three patients from the mainland of China, one with Morquio B disease and two with GM1 gangliosidosis. METHODS: GLB1 activity and GLB1 gene mutation were analyzed in the three patients who were clinically suspected of having Morquio B disease or GM1 gangliosidosis. Novel mutations were analyzed by aligning GLB1 homologs, 100 control chromosomes, and the PolyPhen-2 tool. RESULTS: The enzymatic activity of GLB1 was found to be 5.03, 4.20, and 4.50 nmol/h/mg in the three patients, respectively. Patient 1 was a compound heterozygote for p.[Arg148Cys] and p.[Tyr485Cys] mutations in the GLB1 gene. Patient 2 was a compound heterozygote for p.[Tyr270Phe] and p.[Leu337Pro] mutations. Patient 3 was a homozygote for p.[Asp448Val] mutation. Three mutations (p.[Tyr485Cys], p.[Tyr270Phe] and p.[Leu337Pro]) were novel variants and were predicted to damage GLB1 function. CONCLUSIONS: The enzymatic activity and related gene analysis of β-galactosidase should be performed in clinically suspected individuals to confirm diagnosis. The three novel mutations, p.[Tyr485Cys], p.[Tyr270Phe], and p.[Leu337Pro], are thought to be disease-causing mutations.
BACKGROUND: This paper aims to report GLB1 activities and mutation analysis of three patients from the mainland of China, one with Morquio B disease and two with GM1 gangliosidosis. METHODS:GLB1 activity and GLB1 gene mutation were analyzed in the three patients who were clinically suspected of having Morquio B disease or GM1 gangliosidosis. Novel mutations were analyzed by aligning GLB1 homologs, 100 control chromosomes, and the PolyPhen-2 tool. RESULTS: The enzymatic activity of GLB1 was found to be 5.03, 4.20, and 4.50 nmol/h/mg in the three patients, respectively. Patient 1 was a compound heterozygote for p.[Arg148Cys] and p.[Tyr485Cys] mutations in the GLB1 gene. Patient 2 was a compound heterozygote for p.[Tyr270Phe] and p.[Leu337Pro] mutations. Patient 3 was a homozygote for p.[Asp448Val] mutation. Three mutations (p.[Tyr485Cys], p.[Tyr270Phe] and p.[Leu337Pro]) were novel variants and were predicted to damage GLB1 function. CONCLUSIONS: The enzymatic activity and related gene analysis of β-galactosidase should be performed in clinically suspected individuals to confirm diagnosis. The three novel mutations, p.[Tyr485Cys], p.[Tyr270Phe], and p.[Leu337Pro], are thought to be disease-causing mutations.
Authors: N Ishii; T Oohira; A Oshima; H Sakuraba; F Endo; I Matsuda; K Sukegawa; T Orii; Y Suzuki Journal: Clin Genet Date: 1995-08 Impact factor: 4.438
Authors: E Paschke; I Milos; H Kreimer-Erlacher; G Hoefler; M Beck; M Hoeltzenbein; W Kleijer; T Levade; H Michelakakis; B Radeva Journal: Hum Genet Date: 2001-08 Impact factor: 4.132
Authors: Deborah Eikelberg; Annika Lehmbecker; Graham Brogden; Witchaya Tongtako; Kerstin Hahn; Andre Habierski; Julia B Hennermann; Hassan Y Naim; Felix Felmy; Wolfgang Baumgärtner; Ingo Gerhauser Journal: J Clin Med Date: 2020-04-02 Impact factor: 4.241