TY - JOUR
T1 - Reproducibility and complications in gene searches
T2 - Linkage on chromosome 6, heterogeneity, association, and maternal inheritance in juvenile myoclonic epilepsy
AU - Greenberg, David A.
AU - Durner, Martina
AU - Keddache, Mehdi
AU - Shinnar, Shlomo
AU - Resor, Stanley R.
AU - Moshe, Solomon L.
AU - Rosenbaum, David
AU - Cohen, Jeffrey
AU - Harden, Cynthia
AU - Kang, Harriet
AU - Wallace, Sibylle
AU - Luciano, Daniel
AU - Ballaban-Gil, Karen
AU - Tomasini, Livia
AU - Zhou, Guilian
AU - Klotz, Irene
AU - Dicker, Elisa
N1 - Funding Information:
This work was supported in part by NIH grants NS27941, DK31775, NS37466, MH48858 and by a grant from the Epilepsy Foundation of America to (M.D.).
PY - 2000
Y1 - 2000
N2 - Evidence for genetic influences in epilepsy is strong, but reports identifying specific chromosomal origins of those influences conflict. One early study reported that human leukocyte antigen (HLA) markers were genetically linked to juvenile myoclonic epilepsy (JME); this was confirmed in a later study. Other reports did not find linkage to HLA markers. One found evidence of linkage to markers on chromosome 15, another to markers on chromosome 6, centromeric to HLA. We identified families through a patient with JME and genotyped markers throughout chromosome 6. Linkage analysis assuming equal male-female recombination probabilities showed evidence for linkage (LOD score 2.5), but at a high recombination fraction (θ), suggesting heterogeneity. When linkage analysis was redone to allow independent male-female θs, the LOD score was significantly higher (4.2) at a male-female θ of .5, .01. Although the overall pattern of LOD scores with respect to male-female θ could not be explained solely by heterogeneity, the presence of heterogeneity and predominantly maternal inheritance of JME might explain it. By analyzing loci between HLA-DP and HLA-DR and stratifying the families on the basis of evidence for or against linkage, we were able to show evidence of heterogeneity within JME and to propose a marker associated with the linked form. These data also suggest that JME may be predominantly maternally inherited and that the HLA-linked form is more likely to occur in families of European origin.
AB - Evidence for genetic influences in epilepsy is strong, but reports identifying specific chromosomal origins of those influences conflict. One early study reported that human leukocyte antigen (HLA) markers were genetically linked to juvenile myoclonic epilepsy (JME); this was confirmed in a later study. Other reports did not find linkage to HLA markers. One found evidence of linkage to markers on chromosome 15, another to markers on chromosome 6, centromeric to HLA. We identified families through a patient with JME and genotyped markers throughout chromosome 6. Linkage analysis assuming equal male-female recombination probabilities showed evidence for linkage (LOD score 2.5), but at a high recombination fraction (θ), suggesting heterogeneity. When linkage analysis was redone to allow independent male-female θs, the LOD score was significantly higher (4.2) at a male-female θ of .5, .01. Although the overall pattern of LOD scores with respect to male-female θ could not be explained solely by heterogeneity, the presence of heterogeneity and predominantly maternal inheritance of JME might explain it. By analyzing loci between HLA-DP and HLA-DR and stratifying the families on the basis of evidence for or against linkage, we were able to show evidence of heterogeneity within JME and to propose a marker associated with the linked form. These data also suggest that JME may be predominantly maternally inherited and that the HLA-linked form is more likely to occur in families of European origin.
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U2 - 10.1086/302763
DO - 10.1086/302763
M3 - Article
C2 - 10677311
AN - SCOPUS:0033912851
SN - 0002-9297
VL - 66
SP - 508
EP - 516
JO - American Journal of Human Genetics
JF - American Journal of Human Genetics
IS - 2
ER -