Association between Maternal Age and Meiotic Recombination for Trisomy 21

Altered genetic recombination has been identified as the first molecular correlate of chromosome nondisjunction in both humans and model organisms. Little evidence has emerged to link maternal age—long recognized as the primary risk factor for nondisjunction—with altered recombination, although some...

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Published inAmerican journal of human genetics Vol. 76; no. 1; pp. 91 - 99
Main Authors Lamb, Neil E., Yu, Kai, Shaffer, John, Feingold, Eleanor, Sherman, Stephanie L.
Format Journal Article
LanguageEnglish
Published Chicago, IL Elsevier Inc 01.01.2005
University of Chicago Press
Cell Press
The American Society of Human Genetics
Subjects
Adult
Age
Biological and medical sciences
Cell division
Chromosome aberrations
Chromosome Mapping
Chromosomes
Chromosomes, Human, Pair 21
Down Syndrome - genetics
Female
General aspects. Genetic counseling
Genetic Markers
Genetic recombination
Humans
Maternal Age
Medical genetics
Medical sciences
Meiosis
Mothers
Nondisjunction, Genetic
Pregnancy
Recombination, Genetic
Risk Factors
Chromosomal aberration
Human
Trisomy 21
Recombination
Trisomy
Maternal age
Association
Chromosome G21
Aneuploidy
Genetics
Meiosis
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Abstract Altered genetic recombination has been identified as the first molecular correlate of chromosome nondisjunction in both humans and model organisms. Little evidence has emerged to link maternal age—long recognized as the primary risk factor for nondisjunction—with altered recombination, although some studies have provided hints of such a relationship. To determine whether an association does exist, chromosome 21 recombination patterns were examined in 400 trisomy 21 cases of maternal meiosis I origin, grouped by maternal age. These recombination patterns were used to predict the chromosome 21 exchange patterns established during meiosis I. There was no statistically significant association between age and overall rate of exchange. The placement of meiotic exchange, however, differed significantly among the age groups. Susceptible patterns (pericentromeric and telomeric exchanges) accounted for 34% of all exchanges among the youngest class of women but only 10% of those among the oldest class. The pattern of exchanges among the oldest age group mimicked the pattern observed among normally disjoining chromosomes 21. These results suggest that the greatest risk factor for nondisjunction among younger women is the presence of a susceptible exchange pattern. We hypothesize that environmental and age-related insults accumulate in the ovary as a woman ages, leading to malsegregation of oocytes with stable exchange patterns. It is this risk, due to recombination-independent factors, that would be most influenced by increasing age, leading to the observed maternal age effect.
AbstractList Altered genetic recombination has been identified as the first molecular correlate of chromosome nondisjunction in both humans and model organisms. Little evidence has emerged to link maternal age—long recognized as the primary risk factor for nondisjunction—with altered recombination, although some studies have provided hints of such a relationship. To determine whether an association does exist, chromosome 21 recombination patterns were examined in 400 trisomy 21 cases of maternal meiosis I origin, grouped by maternal age. These recombination patterns were used to predict the chromosome 21 exchange patterns established during meiosis I. There was no statistically significant association between age and overall rate of exchange. The placement of meiotic exchange, however, differed significantly among the age groups. Susceptible patterns (pericentromeric and telomeric exchanges) accounted for 34% of all exchanges among the youngest class of women but only 10% of those among the oldest class. The pattern of exchanges among the oldest age group mimicked the pattern observed among normally disjoining chromosomes 21. These results suggest that the greatest risk factor for nondisjunction among younger women is the presence of a susceptible exchange pattern. We hypothesize that environmental and age-related insults accumulate in the ovary as a woman ages, leading to malsegregation of oocytes with stable exchange patterns. It is this risk, due to recombination-independent factors, that would be most influenced by increasing age, leading to the observed maternal age effect.
Altered genetic recombination has been identified as the first molecular correlate of chromosome nondisjunction in both humans and model organisms. Little evidence has emerged to link maternal age-long recognized as the primary risk factor for nondisjunction-with altered recombination, although some studies have provided hints of such a relationship. To determine whether an association does exist, chromosome 21 recombination patterns were examined in 400 trisomy 21 cases of maternal meiosis I origin, grouped by maternal age. These recombination patterns were used to predict the chromosome 21 exchange patterns established during meiosis I. There was no statistically significant association between age and overall rate of exchange. The placement of meiotic exchange, however, differed significantly among the age groups. Susceptible patterns (pericentromeric and telomeric exchanges) accounted for 34% of all exchanges among the youngest class of women but only 10% of those among the oldest class. The pattern of exchanges among the oldest age group mimicked the pattern observed among normally disjoining chromosomes 21. These results suggest that the greatest risk factor for nondisjunction among younger women is the presence of a susceptible exchange pattern. We hypothesize that environmental and age-related insults accumulate in the ovary as a woman ages, leading to malsegregation of oocytes with stable exchange patterns. It is this risk, due to recombination-independent factors, that would be most influenced by increasing age, leading to the observed maternal age effect. [PUBLICATION ABSTRACT]
Author Sherman, Stephanie L.
Lamb, Neil E.
Shaffer, John
Feingold, Eleanor
Yu, Kai
AuthorAffiliation 1 Department of Human Genetics, Emory University, Atlanta; 2 Division of Biostatistics, Washington University, St. Louis; and Departments of 3 Human Genetics and 4 Biostatistics, University of Pittsburgh, Pittsburgh
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Issue 1
Keywords Chromosomal aberration
Human
Trisomy 21
Recombination
Trisomy
Maternal age
Association
Chromosome G21
Aneuploidy
Genetics
Meiosis
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Snippet Altered genetic recombination has been identified as the first molecular correlate of chromosome nondisjunction in both humans and model organisms. Little...
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pascalfrancis
elsevier
SourceType Open Access Repository
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StartPage 91
SubjectTerms Adult
Age
Biological and medical sciences
Cell division
Chromosome aberrations
Chromosome Mapping
Chromosomes
Chromosomes, Human, Pair 21
Down Syndrome - genetics
Female
General aspects. Genetic counseling
Genetic Markers
Genetic recombination
Humans
Maternal Age
Medical genetics
Medical sciences
Meiosis
Mothers
Nondisjunction, Genetic
Pregnancy
Recombination, Genetic
Risk Factors
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Title Association between Maternal Age and Meiotic Recombination for Trisomy 21
URI https://dx.doi.org/10.1086/427266
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