MYH7, c.2011C>T, is responsible for congenital scoliosis in a Chinese family

Neuromuscular scoliosis can be caused by muscular or nervous system dysfunction resulting from genetic variants. Variation in MYH7 may cause hypertrophic or dilated cardiomyopathy, skeletal myopathies, or a combination of both; however, scoliosis has rarely been reported. We analyzed a Chinese pedig...

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Published in	Biochemistry and biophysics reports Vol. 40; p. 101845
Main Authors	Wei, Ping, Xu, Fulong, Xian, Caixia, Liu, Yanhan, Xu, Yibo, Zhang, Ting, Shi, Weizhe, Huang, Sihong, Zhou, Xiang, Zhu, Mingwei, Xu, Hongwen
Format	Journal Article
Language	English
Published	Netherlands Elsevier B.V 01.12.2024 Elsevier
Subjects	MYH7 Neuromuscular scoliosis Short Communication Skeletal myopathy Whole-exome sequencing Skeletal myopathy Neuromuscular scoliosis Whole-exome sequencing MYH7
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Abstract	Neuromuscular scoliosis can be caused by muscular or nervous system dysfunction resulting from genetic variants. Variation in MYH7 may cause hypertrophic or dilated cardiomyopathy, skeletal myopathies, or a combination of both; however, scoliosis has rarely been reported. We analyzed a Chinese pedigree with two members suffering from scoliosis. Whole-exome sequencing identified a variant (NM_000257.4:c.2011C > T) of MYH7 that cosegregated with the scoliosis phenotype. The variant resulted in a change in the evolutionarily conserved amino acid residue 671 from arginine to cystine (p.R671C), which was predicted to disrupt the structure and function of the motor domain of the slow/β-cardiac myosin heavy chain encoded by MYH7. To date, 913 MYH7 variants were associated with cardiomyopathy and/or skeletal myopathies according to the Human Gene Mutation Database. However, only 15 cases of scoliosis have been reported. In our case, the c.2011C > T variant caused scoliosis with 100 % penetrance and hypertrophic cardiomyopathy with partial penetrance. •A Chinese family with two members suffering from neuromuscular scoliosis.•The MYH7 gene variant, c.2011C > T (p.R671C) cosegregated with the scoliosis phenotype.•Most of MYH7 variants that cause scoliosis located in the distal region of the C-terminal rod tail domain of Myosin-7.
AbstractList	Neuromuscular scoliosis can be caused by muscular or nervous system dysfunction resulting from genetic variants. Variation in MYH7 may cause hypertrophic or dilated cardiomyopathy, skeletal myopathies, or a combination of both; however, scoliosis has rarely been reported. We analyzed a Chinese pedigree with two members suffering from scoliosis. Whole-exome sequencing identified a variant (NM_000257.4:c.2011C > T) of MYH7 that cosegregated with the scoliosis phenotype. The variant resulted in a change in the evolutionarily conserved amino acid residue 671 from arginine to cystine (p.R671C), which was predicted to disrupt the structure and function of the motor domain of the slow/β-cardiac myosin heavy chain encoded by MYH7 . To date, 913 MYH7 variants were associated with cardiomyopathy and/or skeletal myopathies according to the Human Gene Mutation Database. However, only 15 cases of scoliosis have been reported. In our case, the c.2011C > T variant caused scoliosis with 100 % penetrance and hypertrophic cardiomyopathy with partial penetrance. • A Chinese family with two members suffering from neuromuscular scoliosis. • The MYH7 gene variant, c.2011C > T (p.R671C) cosegregated with the scoliosis phenotype. • Most of MYH7 variants that cause scoliosis located in the distal region of the C-terminal rod tail domain of Myosin-7. Neuromuscular scoliosis can be caused by muscular or nervous system dysfunction resulting from genetic variants. Variation in may cause hypertrophic or dilated cardiomyopathy, skeletal myopathies, or a combination of both; however, scoliosis has rarely been reported. We analyzed a Chinese pedigree with two members suffering from scoliosis. Whole-exome sequencing identified a variant (NM_000257.4:c.2011C > T) of that cosegregated with the scoliosis phenotype. The variant resulted in a change in the evolutionarily conserved amino acid residue 671 from arginine to cystine (p.R671C), which was predicted to disrupt the structure and function of the motor domain of the slow/β-cardiac myosin heavy chain encoded by . To date, 913 variants were associated with cardiomyopathy and/or skeletal myopathies according to the Human Gene Mutation Database. However, only 15 cases of scoliosis have been reported. In our case, the c.2011C > T variant caused scoliosis with 100 % penetrance and hypertrophic cardiomyopathy with partial penetrance. Neuromuscular scoliosis can be caused by muscular or nervous system dysfunction resulting from genetic variants. Variation in MYH7 may cause hypertrophic or dilated cardiomyopathy, skeletal myopathies, or a combination of both; however, scoliosis has rarely been reported. We analyzed a Chinese pedigree with two members suffering from scoliosis. Whole-exome sequencing identified a variant (NM_000257.4:c.2011C > T) of MYH7 that cosegregated with the scoliosis phenotype. The variant resulted in a change in the evolutionarily conserved amino acid residue 671 from arginine to cystine (p.R671C), which was predicted to disrupt the structure and function of the motor domain of the slow/β-cardiac myosin heavy chain encoded by MYH7. To date, 913 MYH7 variants were associated with cardiomyopathy and/or skeletal myopathies according to the Human Gene Mutation Database. However, only 15 cases of scoliosis have been reported. In our case, the c.2011C > T variant caused scoliosis with 100 % penetrance and hypertrophic cardiomyopathy with partial penetrance. •A Chinese family with two members suffering from neuromuscular scoliosis.•The MYH7 gene variant, c.2011C > T (p.R671C) cosegregated with the scoliosis phenotype.•Most of MYH7 variants that cause scoliosis located in the distal region of the C-terminal rod tail domain of Myosin-7. Neuromuscular scoliosis can be caused by muscular or nervous system dysfunction resulting from genetic variants. Variation in MYH7 may cause hypertrophic or dilated cardiomyopathy, skeletal myopathies, or a combination of both; however, scoliosis has rarely been reported. We analyzed a Chinese pedigree with two members suffering from scoliosis. Whole-exome sequencing identified a variant (NM_000257.4:c.2011C > T) of MYH7 that cosegregated with the scoliosis phenotype. The variant resulted in a change in the evolutionarily conserved amino acid residue 671 from arginine to cystine (p.R671C), which was predicted to disrupt the structure and function of the motor domain of the slow/β-cardiac myosin heavy chain encoded by MYH7. To date, 913 MYH7 variants were associated with cardiomyopathy and/or skeletal myopathies according to the Human Gene Mutation Database. However, only 15 cases of scoliosis have been reported. In our case, the c.2011C > T variant caused scoliosis with 100 % penetrance and hypertrophic cardiomyopathy with partial penetrance.Neuromuscular scoliosis can be caused by muscular or nervous system dysfunction resulting from genetic variants. Variation in MYH7 may cause hypertrophic or dilated cardiomyopathy, skeletal myopathies, or a combination of both; however, scoliosis has rarely been reported. We analyzed a Chinese pedigree with two members suffering from scoliosis. Whole-exome sequencing identified a variant (NM_000257.4:c.2011C > T) of MYH7 that cosegregated with the scoliosis phenotype. The variant resulted in a change in the evolutionarily conserved amino acid residue 671 from arginine to cystine (p.R671C), which was predicted to disrupt the structure and function of the motor domain of the slow/β-cardiac myosin heavy chain encoded by MYH7. To date, 913 MYH7 variants were associated with cardiomyopathy and/or skeletal myopathies according to the Human Gene Mutation Database. However, only 15 cases of scoliosis have been reported. In our case, the c.2011C > T variant caused scoliosis with 100 % penetrance and hypertrophic cardiomyopathy with partial penetrance. Neuromuscular scoliosis can be caused by muscular or nervous system dysfunction resulting from genetic variants. Variation in MYH7 may cause hypertrophic or dilated cardiomyopathy, skeletal myopathies, or a combination of both; however, scoliosis has rarely been reported. We analyzed a Chinese pedigree with two members suffering from scoliosis. Whole-exome sequencing identified a variant (NM_000257.4:c.2011C > T) of MYH7 that cosegregated with the scoliosis phenotype. The variant resulted in a change in the evolutionarily conserved amino acid residue 671 from arginine to cystine (p.R671C), which was predicted to disrupt the structure and function of the motor domain of the slow/β-cardiac myosin heavy chain encoded by MYH7. To date, 913 MYH7 variants were associated with cardiomyopathy and/or skeletal myopathies according to the Human Gene Mutation Database. However, only 15 cases of scoliosis have been reported. In our case, the c.2011C > T variant caused scoliosis with 100 % penetrance and hypertrophic cardiomyopathy with partial penetrance.
ArticleNumber	101845
Author	Zhang, Ting Wei, Ping Xian, Caixia Huang, Sihong Zhou, Xiang Zhu, Mingwei Xu, Fulong Liu, Yanhan Shi, Weizhe Xu, Yibo Xu, Hongwen
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Cites_doi	10.1016/j.nmd.2011.05.005 10.1073/pnas.1606950113 10.1161/01.CIR.0000066323.15244.54 10.1007/s10072-017-3192-2 10.3928/01477447-20150603-50 10.1002/humu.22553 10.1542/peds.2015-0709 10.1038/hgv.2015.22 10.1016/j.pmr.2021.02.007 10.1016/j.nmd.2019.04.002 10.1186/s12881-016-0315-1 10.1002/ar.22973 10.1016/j.heliyon.2022.e11774 10.1074/jbc.M113.513291
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Keywords	Skeletal myopathy Neuromuscular scoliosis Whole-exome sequencing MYH7
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Snippet	Neuromuscular scoliosis can be caused by muscular or nervous system dysfunction resulting from genetic variants. Variation in MYH7 may cause hypertrophic or... Neuromuscular scoliosis can be caused by muscular or nervous system dysfunction resulting from genetic variants. Variation in may cause hypertrophic or dilated... Neuromuscular scoliosis can be caused by muscular or nervous system dysfunction resulting from genetic variants. Variation in MYH7 may cause hypertrophic or...
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SubjectTerms	MYH7 Neuromuscular scoliosis Short Communication Skeletal myopathy Whole-exome sequencing
Title	MYH7, c.2011C>T, is responsible for congenital scoliosis in a Chinese family
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