Patricia A. Hunt scite author profile

Aneuploidy (trisomy or monosomy) is the most commonly identified chromosome abnormality in humans, occurring in at least 5% of all clinically recognized pregnancies. Most aneuploid conceptuses perish in utero, which makes this the leading genetic cause of pregnancy loss. However, some aneuploid fetuses survive to term and, as a class, aneuploidy is the most common known cause of mental retardation. Despite the devastating clinical consequences of aneuploidy, relatively little is known of how trisomy and monosomy originate in humans. However, recent molecular and cytogenetic approaches are now beginning to shed light on the non-disjunctional processes that lead to aneuploidy.

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Human aneuploidy: mechanisms and new insights into an age-old problem

Nagaoka

2012

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Cohesin SMC1β is required for meiotic chromosome dynamics, sister chromatid cohesion and DNA recombination

et al. 2004

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Sister chromatid cohesion ensures the faithful segregation of chromosomes in mitosis and in both meiotic divisions. Meiosis-specific components of the cohesin complex, including the recently described SMC1 isoform SMC1 beta, were suggested to be required for meiotic sister chromatid cohesion and DNA recombination. Here we show that SMC1 beta-deficient mice of both sexes are sterile. Male meiosis is blocked in pachytene; female meiosis is highly error-prone but continues until metaphase II. Prophase axial elements (AEs) are markedly shortened, chromatin extends further from the AEs, chromosome synapsis is incomplete, and sister chromatid cohesion in chromosome arms and at centromeres is lost prematurely. In addition, crossover-associated recombination foci are absent or reduced, and meiosis-specific perinuclear telomere arrangements are impaired. Thus, SMC1 beta has a key role in meiotic cohesion, the assembly of AEs, synapsis, recombination, and chromosome movements.

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The origin of human aneuploidy: where we have been, where we are going

Hassold

Hall

Hunt

2007

Human Molecular Genetics

550

437

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Aneuploidy is the most common chromosome abnormality in humans, and is the leading genetic cause of miscarriage and congenital birth defects. Since the identification of the first human aneuploid conditions nearly a half-century ago, a great deal of information has accrued on its origin and etiology. We know that most aneuploidy derives from errors in maternal meiosis I, that maternal age is a risk factor for most, if not all, human trisomies, and that alterations in recombination are an important contributor to meiotic non-disjunction. In this review, we summarize some of the data that have led to these conclusions, and discuss some of the approaches now being used to address the underlying causes of meiotic non-disjunction in humans.

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Chapel Hill bisphenol A expert panel consensus statement: Integration of mechanisms, effects in animals and potential to impact human health at current levels of exposure

Saal

Akingbemi

Belcher

et al. 2007

Reproductive Toxicology

646

392

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Patricia A. Hunt

To err (meiotically) is human: the genesis of human aneuploidy

Human aneuploidy: mechanisms and new insights into an age-old problem

Cohesin SMC1β is required for meiotic chromosome dynamics, sister chromatid cohesion and DNA recombination

The origin of human aneuploidy: where we have been, where we are going

Chapel Hill bisphenol A expert panel consensus statement: Integration of mechanisms, effects in animals and potential to impact human health at current levels of exposure

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