Fragile-X syndrome: unique genetics of the heritable unstable element.
Article 1992 en
Authors
SY
Shuancang Yu
JM
John C. Mulley
DL
Danuta Z. Loesch
Abstract
1 min read
The fragile site at Xq27.3 is an unstable microsatellite repeat, p(CCG)n. In fragile-X syndrome pedigrees, this sequence exhibits variable amplification, the length of which correlates with fragile-site expression. There is a direct relationship between increased p(CCG)n copy number and propensity for instability: individuals having large amplifications exhibit somatic variation due to increased instability. The instability of the p(CCG)n repeat, when transmitted through affected pedigrees, explains the unusual segregation patterns of fragile-X phenotype, referred to as the Sherman paradox. All individuals of fragile-X genotype were found (where testing was possible) to have a parent with amplified p(CCG)n repeat, indicating that few, if any, cases of fragile-X syndrome are not familial.
Eric J. Kremer, Melanie Pritchard, Michael E Lynch, Shuancang Yu, K. Holman, Elizabeth Baker, Stephen T. Warren, David Schlessinger, G.R. Sutherland, Robert I. Richards
Shuancang Yu, Melanie Pritchard, Eric J. Kremer, Michael E Lynch, J.K. Nancarrow, Elizabeth Baker, K. Holman, John C. Mulley, Stephen T. Warren, David Schlessinger, G.R. Sutherland, Robert I. Richards
Grant R. Sutherland, Ági K. Gedeon, Louise Kornman, Andrew J. Donnelly, Roger W. Byard, John C. Mulley, Eric J. Kremer, Michael E Lynch, Melanie Pritchard, Sui Yu, Robert I. Richards
Eric J. Kremer, Shuancang Yu, Melanie Pritchard, Ramaiah Nagaraja, Dominique Heitz, Michael E Lynch, Elizabeth Baker, V.J. Hyland, R. Daniel Little, Morimasa Wada
Discussion(0)
No comments yet. Be the first to comment.