Linkage disequilibrium between the beta frequency of the human EEG and a GAB[A.sub.A] receptor gene locus

Authors :: Porjesz, Bernice
Almasy, Laura
Edenberg, Howard J.
Wang, Kongming
Chorlian, David B.
Foroud, Tatiana
Goate, Alison
Rice, John P.
O'Connor, Sean J.
Rohrbaugh, John
Kuperman, Samuel
Bauer, Lance O.
Crowe, Raymond R.
Schuckit, Marc A.
Hesselbrock, Victor
Conneally, P. Michael
Tischfield, Jay A.
Li, Ting-Kai
Reich, Theodore
Begleiter, Henri
Source :: Proceedings of the National Academy of Sciences of the United States. March 19, 2002, Vol. 99 Issue 6, p3729, 5 p.
Publication Year :: 2002
Abstract: Human brain oscillations represent important features of information processing and are highly heritable. A common feature of beta oscillations (13-28 Hz) is the critical involvement of networks of inhibitory interneurons as pacemakers, gated by [gamma]-aminobutyric acid type A (GABAA) action. Advances in molecular and statistical genetics permit examination of quantitative traits such as the beta frequency of the human electroencephalogram in conjunction with DNA markers. We report a significant linkage and linkage disequilibrium between beta frequency and a set of GABAA receptor genes. Uncovering the genes influencing brain oscillations provides a better understanding of the neural function involved in information processing.

Subjects :: GABA -- Receptors
Electroencephalography -- Research
Brain -- Genetic aspects
Human information processing -- Genetic aspects
Science and technology

ISSN :: 00278424
Volume :: 99
Issue :: 6
Database :: Gale General OneFile
Journal :: Proceedings of the National Academy of Sciences of the United States
Publication Type :: Academic Journal
Accession number :: edsgcl.85242001

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