Association analysis of two candidate phospholipase genes that map to the chromosome 15q15.1-15.3 region associated with reading disability
Association analysis of two candidate phospholipase genes that map to the chromosome 15q15.1-15.3 region associated with reading disability
Molecular genetic studies have suggested a reading disability (RD, dyslexia) susceptibility locus on chromosome 15q. We have previously mapped this locus by association to the region surrounding D15S994. Very little is known about the neurobiological processes involved in RD, and therefore selecting positional candidate genes for analysis based upon function is difficult. Nevertheless we were able to identify two functional candidates based upon existing hypotheses. Both were phospholipase genes, phospholipase C 2 (PLCB2) and phospholipase A2, group IVB (cytosolic; PLA2G4B). D15S944 is located within PLCB2 and is 1.6 Mb from PLA2G4B. We examined each gene for association using a mixed direct and indirect association approach, a case (n = 164)/control (n = 174) sample, and a partially overlapping sample of 178 RD parent-proband trios from South Wales and England. Mutation analysis revealed 14 sequence variants in PLCB2 and 33 variants in PLA2G4B. All non-synonymous SNPs were genotyped as were SNPs across each gene with maximum distance between SNPs of 6 kb. Case-control analyses revealed modest evidence (0.01 < P < 0.05) for association between a single variant in PLCB2 and two variants in PLA2G4B. However, association was not confirmed in the family based sample. As the latter sample has previously generated replicated significant evidence for association between RD and markers/haplotypes surrounding D15S944, it should have sufficient power to detect association to variants in susceptibility gene itself. We conclude that neither gene accounts for the association signal we previously observed. As these are the only clear cut functional candidate genes in the region, identification of the putative susceptibility locus for RD on 15q will require more methodical non-hypothesis driven positional cloning approaches.
candidate gene, D15S994, linkage disequilibrium, phospholipase C 2 (PLCB2), phospholipase A2, group IVB (cytosolic, PLA2G4B PLC), dyslexia
97-103
Morris, D.W.
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Ivanov, D.
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Robinson, L.
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Williams, N.
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Stevenson, J.
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Owen, M.J.
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Williams, J.
2ab33bc3-4988-493b-9cd5-ac68d28385cb
O'Donovan, M.C.
07541263-71ea-4d7e-ba4e-2ced1268be5a
2004
Morris, D.W.
1c5604e5-3515-452a-b411-0e321b9b58be
Ivanov, D.
bd0f0f2a-3b67-4aa2-adf1-11c02830e1fc
Robinson, L.
999a2b9d-50e0-4e9a-85b8-0451183bea65
Williams, N.
54385e30-6b7c-4eec-b904-bd3f9c9dedbb
Stevenson, J.
0c85d29b-d294-43cb-ab8d-75e4737478e1
Owen, M.J.
e6b69d43-8f87-40b8-a089-01bbe02ef7b8
Williams, J.
2ab33bc3-4988-493b-9cd5-ac68d28385cb
O'Donovan, M.C.
07541263-71ea-4d7e-ba4e-2ced1268be5a
Morris, D.W., Ivanov, D., Robinson, L., Williams, N., Stevenson, J., Owen, M.J., Williams, J. and O'Donovan, M.C.
(2004)
Association analysis of two candidate phospholipase genes that map to the chromosome 15q15.1-15.3 region associated with reading disability.
American Journal of Medical Genetics. Part B: Neuropsychiatric Genetics, 129B, .
(doi:10.1002/ajmg.b.30033).
Abstract
Molecular genetic studies have suggested a reading disability (RD, dyslexia) susceptibility locus on chromosome 15q. We have previously mapped this locus by association to the region surrounding D15S994. Very little is known about the neurobiological processes involved in RD, and therefore selecting positional candidate genes for analysis based upon function is difficult. Nevertheless we were able to identify two functional candidates based upon existing hypotheses. Both were phospholipase genes, phospholipase C 2 (PLCB2) and phospholipase A2, group IVB (cytosolic; PLA2G4B). D15S944 is located within PLCB2 and is 1.6 Mb from PLA2G4B. We examined each gene for association using a mixed direct and indirect association approach, a case (n = 164)/control (n = 174) sample, and a partially overlapping sample of 178 RD parent-proband trios from South Wales and England. Mutation analysis revealed 14 sequence variants in PLCB2 and 33 variants in PLA2G4B. All non-synonymous SNPs were genotyped as were SNPs across each gene with maximum distance between SNPs of 6 kb. Case-control analyses revealed modest evidence (0.01 < P < 0.05) for association between a single variant in PLCB2 and two variants in PLA2G4B. However, association was not confirmed in the family based sample. As the latter sample has previously generated replicated significant evidence for association between RD and markers/haplotypes surrounding D15S944, it should have sufficient power to detect association to variants in susceptibility gene itself. We conclude that neither gene accounts for the association signal we previously observed. As these are the only clear cut functional candidate genes in the region, identification of the putative susceptibility locus for RD on 15q will require more methodical non-hypothesis driven positional cloning approaches.
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More information
Published date: 2004
Keywords:
candidate gene, D15S994, linkage disequilibrium, phospholipase C 2 (PLCB2), phospholipase A2, group IVB (cytosolic, PLA2G4B PLC), dyslexia
Organisations:
Psychology
Identifiers
Local EPrints ID: 18403
URI: http://eprints.soton.ac.uk/id/eprint/18403
ISSN: 1552-4841
PURE UUID: d274721f-0d3b-4d25-bd28-c4f016f07b5f
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Date deposited: 31 Jan 2006
Last modified: 15 Mar 2024 06:05
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Author:
D.W. Morris
Author:
D. Ivanov
Author:
L. Robinson
Author:
N. Williams
Author:
M.J. Owen
Author:
J. Williams
Author:
M.C. O'Donovan
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