Nudrat Noor scite author profile

PRDM9 binding localizes almost all meiotic recombination sites in humans and mice. However, most PRDM9-bound loci do not become recombination hotspots. To explore factors that affect binding and subsequent recombination outcomes, we mapped human PRDM9 binding sites in a transfected human cell line and measured PRDM9-induced histone modifications. These data reveal varied DNA-binding modalities of PRDM9. We also find that human PRDM9 frequently binds promoters, despite their low recombination rates, and it can activate expression of a small number of genes including CTCFL and VCX. Furthermore, we identify specific sequence motifs that predict consistent, localized meiotic recombination suppression around a subset of PRDM9 binding sites. These motifs strongly associate with KRAB-ZNF protein binding, TRIM28 recruitment, and specific histone modifications. Finally, we demonstrate that, in addition to binding DNA, PRDM9's zinc fingers also mediate its multimerization, and we show that a pair of highly diverged alleles preferentially form homo-multimers.

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Type 1 Diabetes and COVID-19: Preliminary Findings From a Multicenter Surveillance Study in the U.S.

Ebekozien

Noor

Gallagher³

et al. 2020

132

129

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The Centers for Disease Control and Prevention states that individuals with diabetes are at higher risk for severe illness with coronavirus disease 2019 (COVID-19) and poorer health outcomes (1). Research suggests the underlying reason for an increased risk of COVID-19 complications in individuals with diabetes may be poor glycemic control or hyperglycemia (2). Information on clinical outcomes for patients with type 1 diabetes who have confirmed cases of COVID-19 is limited. To our knowledge, this is the first U.S.-based multicenter study that addresses these questions in a population with type 1 diabetes. This study aimed to examine patient characteristics and adverse outcomes among patients with type 1 diabetes with confirmed COVID-19. As a secondary objective, we investigated patient attributes and clinical outcomes in people with COVID-19-like symptoms for whom testing was unavailable or results were pending. The T1D Exchange Quality Improvement Collaborative (T1DX-QI) (3) is conducting this study in collaboration with an additional 49 endocrinology clinics (a total of 64 U.S. sites). The study was approved as exempt by a central review board (Western Institutional Review

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Recombination in the Human Pseudoautosomal Region PAR1

et al. 2014

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The pseudoautosomal region (PAR) is a short region of homology between the mammalian X and Y chromosomes, which has undergone rapid evolution. A crossover in the PAR is essential for the proper disjunction of X and Y chromosomes in male meiosis, and PAR deletion results in male sterility. This leads the human PAR with the obligatory crossover, PAR1, to having an exceptionally high male crossover rate, which is 17-fold higher than the genome-wide average. However, the mechanism by which this obligatory crossover occurs remains unknown, as does the fine-scale positioning of crossovers across this region. Recent research in mice has suggested that crossovers in PAR may be mediated independently of the protein PRDM9, which localises virtually all crossovers in the autosomes. To investigate recombination in this region, we construct the most fine-scale genetic map containing directly observed crossovers to date using African-American pedigrees. We leverage recombination rates inferred from the breakdown of linkage disequilibrium in human populations and investigate the signatures of DNA evolution due to recombination. Further, we identify direct PRDM9 binding sites using ChIP-seq in human cells. Using these independent lines of evidence, we show that, in contrast with mouse, PRDM9 does localise peaks of recombination in the human PAR1. We find that recombination is a far more rapid and intense driver of sequence evolution in PAR1 than it is on the autosomes. We also show that PAR1 hotspot activities differ significantly among human populations. Finally, we find evidence that PAR1 hotspot positions have changed between human and chimpanzee, with no evidence of sharing among the hottest hotspots. We anticipate that the genetic maps built and validated in this work will aid research on this vital and fascinating region of the genome.

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Nudrat Noor

A map of human PRDM9 binding provides evidence for novel behaviors of PRDM9 and other zinc-finger proteins in meiosis

Type 1 Diabetes and COVID-19: Preliminary Findings From a Multicenter Surveillance Study in the U.S.

Recombination in the Human Pseudoautosomal Region PAR1

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