Evidence for two unlinked loci regulating total serum IgE levels

Evidence for two unlinked loci regulating total serum IgE levels

Studies investigating the genetic control of total serum IgE levels are of major importance in understanding basic pathophysiologic mechanisms in atopy and asthma, since IgE levels predict onset and correlate with the clinical expression of these disorders. Previous analysis of data from 92 families...

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Bibliographic Details
Published in:American journal of human genetics Vol. 57; no. 2; pp. 425 - 430
Main Authors: XU, J, LEVITT, R. C, PANHUYSEN, C. I. M, POSTMA, D. S, TAYLOR, E. W, AMELUNG, P. J, HOLROYD, K. J, BLEECKER, E. R, MEYERS, D. A
Format: Journal Article
Language:English
Published: Chicago, IL University of Chicago Press 01-08-1995
Subjects:
Allergic diseases
Asthma - blood
Asthma - genetics
Biological and medical sciences
Chromosomes, Human, Pair 5
Genetic Linkage
Genotype
Humans
Immunoglobulin E - blood
Immunopathology
Lod Score
Medical sciences
Models, Genetic
Respiratory and ent allergic diseases
Human
Immunopathology
Allergy
Genetic inheritance
Linkage
Respiratory disease
Family study
B5-Chromosome
IgE
Asthma
Genetics
Obstructive pulmonary disease
Molecular biology
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Summary:Studies investigating the genetic control of total serum IgE levels are of major importance in understanding basic pathophysiologic mechanisms in atopy and asthma, since IgE levels predict onset and correlate with the clinical expression of these disorders. Previous analysis of data from 92 families, ascertained through a parent with asthma, showed evidence for recessive inheritance of high IgE levels with linkage to chromosome 5q. Since there was significant residual familial correlation in the one-locus segregation analysis, two-locus segregation and linkage analyses were performed. Segregation analyses provided evidence for a second major locus unlinked to the locus on 5q. Utilization of this two-locus model corroborates the previous evidence for linkage between this trait and markers on 5q31-q33. The LODs for the most informative marker D5S436 increased from 3.00 at 10% recombination to 4.67 at 9% recombination, when the two-locus model was used. Additional linkage studies are needed to map this second locus. These results demonstrate the importance of performing multilocus segregation and linkage analyses for quantitative traits that are related to the phenotype of a complex disorder. This approach has given further insight into the genetics of allergy and asthma by providing evidence for a two-locus model.
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ISSN:0002-9297
1537-6605