Homozygosity by descent for a rare mutation in the myophosphorylase gene is associated with variable phenotypes in a Druze family with McArdle disease

被引:5
作者
Iyengar, S
Kalinsky, H
Weiss, S
Korostishevsky, M
Sadeh, M
Zhao, Y
Kidd, KK
BonneTamir, B
机构
[1] TEL AVIV UNIV, SACKLER FAC MED, IL-69978 TEL AVIV, ISRAEL
[2] CHAIM SHEBA MED CTR, DEPT NEUROL, IL-52621 RAMAT GAN, ISRAEL
来源
JOURNAL OF MEDICAL GENETICS | 1997年 / 34卷 / 05期
关键词
McArdle disease; glycogen myophosphorylase gene; 1844+1G->A mutation; haplotype;
D O I
10.1136/jmg.34.5.391
中图分类号
Q3 [遗传学];
学科分类号
071007 ; 090102 ;
摘要
We examined a large consanguineous Druze family with McArdle disease for mutations in the glycogen myophosphorylase (PYGM) gene. All affected subjects were autozygous for a single G to A transition that abolishes the 5' consensus splice site in the first nucleotide of intron 14. The G to A transition is a rare mutation, with only one previous report in a single white subject heterozygous for this mutation and another, more common, mutation at codon 49. The kindred in our study is the first family reported in which disease is caused by homozygosity for this rare mutation. This kindred was originally reported as the first familial case of McArdle disease in the Druze.
引用
收藏
页码:391 / 394
页数:4
相关论文
共 23 条
[1]   MCARDLES-DISEASE - A NONSENSE MUTATION IN EXON-1 OF THE MUSCLE GLYCOGEN-PHOSPHORYLASE GENE EXPLAINS SOME BUT NOT ALL CASES [J].
BARTRAM, C ;
EDWARDS, RHT ;
CLAGUE, J ;
BEYNON, RJ .
HUMAN MOLECULAR GENETICS, 1993, 2 (08) :1291-1293
[2]  
BEYNON RJ, 1995, MUSCLE NERVE, pS18
[3]   INTRON EXON STRUCTURE OF THE HUMAN-GENE FOR THE MUSCLE ISOZYME OF GLYCOGEN-PHOSPHORYLASE [J].
BURKE, J ;
HWANG, P ;
ANDERSON, L ;
LEBO, R ;
GORIN, F ;
FLETTERICK, R .
PROTEINS-STRUCTURE FUNCTION AND GENETICS, 1987, 2 (03) :177-187
[4]   DOMINANT INHERITANCE OF MCARDLE SYNDROME [J].
CHUI, LA ;
MUNSAT, TL .
ARCHIVES OF NEUROLOGY, 1976, 33 (09) :636-641
[5]   ASSIGNMENT OF 112 MICROSATELLITE MARKERS TO 23 CHROMOSOME-11 SUBREGIONS DELINEATED BY SOMATIC HYBRIDS - COMPARISON WITH THE GENETIC-MAP [J].
COUILLIN, P ;
LEGUERN, E ;
VIGNAL, A ;
FIZAMES, C ;
RAVISE, N ;
DELPORTES, D ;
REGUIGNE, I ;
ROSIER, MF ;
JUNIEN, C ;
VANHEYNINGEN, V ;
WEISSENBACH, J .
GENOMICS, 1994, 21 (02) :379-387
[6]   A MINISATELLITE AND A MICROSATELLITE POLYMORPHISM WITHIN 1.5-KB AT THE HUMAN MUSCLE GLYCOGEN-PHOSPHORYLASE (PYGM) LOCUS CAN BE AMPLIFIED BY PCR AND HAVE COMBINED INFORMATIVENESS OF PIC-0.95 [J].
IWASAKI, H ;
STEWART, PW ;
DILLEY, WG ;
HOLT, MS ;
STEINBRUECK, TD ;
WELLS, SA ;
DONISKELLER, H .
GENOMICS, 1992, 13 (01) :7-15
[7]   A MUTATION IN CFTR PRODUCES DIFFERENT PHENOTYPES DEPENDING ON CHROMOSOMAL BACKGROUND [J].
KIESEWETTER, S ;
MACEK, M ;
DAVIS, C ;
CURRISTIN, SM ;
CHU, CS ;
GRAHAM, C ;
SHRIMPTON, AE ;
CASHMAN, SM ;
TSUI, LC ;
MICKLE, J ;
AMOS, J ;
HIGHSMITH, WE ;
SHUBER, A ;
WITT, DR ;
CRYSTAL, RG ;
CUTTING, GR .
NATURE GENETICS, 1993, 5 (03) :274-278
[8]   HIGH-RESOLUTION CHROMOSOME SORTING AND DNA SPOT-BLOT ANALYSIS ASSIGN MCARDLES SYNDROME TO CHROMOSOME-11 [J].
LEBO, RV ;
GORIN, F ;
FLETTERICK, RJ ;
KAO, FT ;
CHEUNG, MC ;
BRUCE, BD ;
KAN, YW .
SCIENCE, 1984, 225 (4657) :57-59
[9]   BARDET-BIEDL SYNDROME IS LINKED TO DNA MARKERS ON CHROMOSOME 11Q AND IS GENETICALLY HETEROGENEOUS [J].
LEPPERT, M ;
BAIRD, L ;
ANDERSON, KL ;
OTTERUD, B ;
LUPSKI, JR ;
LEWIS, RA .
NATURE GENETICS, 1994, 7 (01) :108-112
[10]   THE CEPH CONSORTIUM LINKAGE MAP OF HUMAN-CHROMOSOME-11 [J].
LITT, M ;
KRAMER, P ;
KORT, E ;
FAIN, P ;
COX, S ;
ROOT, D ;
WHITE, R ;
WEISSENBACH, J ;
DONISKELLER, H ;
GATTI, R ;
WEBER, J ;
NAKAMURA, Y ;
JULIER, C ;
HAYASHI, K ;
SPURR, N ;
DEAN, M ;
MANDEL, J ;
KIDD, K ;
KRUSE, T ;
RETIEF, A ;
BALE, A ;
MEO, T ;
VERGNAUD, G ;
WARREN, S ;
WILLARD, HF .
GENOMICS, 1995, 27 (01) :101-112
123