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Gene/Protein
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Target Concepts:
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Query: UMLS:C0162871 (
abdominal aortic aneurysm
)
8,664
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The gene for DNA methyltransferase
3-like
protein (DNMT3L) is essential for normal spermatogenesis and may be involved with spermatogenetic impairment and male infertility. To explore the possible association between the DNMT3L gene and male infertility, this study investigated allele, genotype and haplotype frequencies of three single nucleotide polymorphism (SNP) loci, rs2070565, rs2276248 and rs7354779, of DNMT3L in 233 infertile patients with azoospermia and 249 fertile controls from a population of Chinese men using polymerase chain reaction/restriction fragment length polymorphism. Results showed that the frequencies of allele A (20.6% versus 14.9%; P = 0.022) and the allele A carrier (GA + AA; 37.8% versus 28.1%; P = 0.027) in azoospermic patients were significantly higher than those in controls at the rs2070565 locus. The haplotype
AAA
frequency was significantly higher (18.1% versus 12.4%; P = 0.02) while the haplotype GAA frequency was significantly lower (53.2% versus 62.1%; P = 0.007) in infertile patients compared with fertile controls. These results indicated that SNP rs2070565, as well as haplotypes
AAA
and GAA, may be associated with male infertility and suggest that DNMT3L may contribute to azoospermia susceptibility in humans.
...
PMID:Association between single-nucleotide polymorphisms of DNMT3L and infertility with azoospermia in Chinese men. 2211 73
Precise regulation of chromatin structure is essential for proper development of higher eukaryotes, and methylation of histone H3 at lysine-27 (H3K27) by the Polycomb Repressive Complex 2 (PRC2) component EZH2 has emerged as an important and conserved mechanism to ensure silencing of developmentally regulated genes. Recurrent mutations within the histone H3 genes H3F3A and HIST1H3B that convert K27 to methionine (H3K27M) and disrupt the global H3K27 methylation landscape and PRC2-dependent silencing, have recently been identified in pediatric high-grade gliomas including Diffuse Intrinsic Pontine Glioma (DIPG) and Glioblastoma multiforme (GBM; Type IV glioma). These findings have generated renewed interest in the dynamics of histone genes and their expression, which have been difficult to study due to redundancy and high sequence homology within the H3 gene family. In this in silico study, we re-evaluated genomic organization of the human H3 gene family and expression of these genes in the human brain, utilizing public RNA-based sequence datasets for the human genome and brain development. We identified transcriptional activity from at least 17 protein-encoding H3 genes in the developing brain, comprising at least 14 canonical (H3.1)-like and 3 'replication-independent' (H3.3)-like forms, and encoding six distinct H3 isoforms. Transcripts for H3.3 genes including H3F3A show gradual decrease in abundance associated with developmental progression, whereas H3.1 transcripts including HIST1H3B tend to be strongly downregulated at an early prenatal stage and remain essentially silent thereafter. Twelve genes, including members of both H3.1 and H3.3 classes, contain a K27-AAG codon that is mutable to that for M (ATG), whereas the remaining contain the alternative,
AAA
codon for K at this position. H3F3A is the only H3.
3-like
gene containing the K27-AAG codon, whereas HIST1H3B is among ten H3.1-like genes containing this codon. This data indicates that, in the early developing human brain, HIST1H3B constitutes the largest proportion of H3.1 transcripts among H3.1 isoforms. We suggest that the apparent overrepresentation of K27M mutations in H3F3A relative to other H3 isoforms may result from its uniqueness among H3.3s for the K27-AAG codon and the functional relationship between H3.3 and PRC2, whereas overrepresentation of K27M mutations in HIST1H3B may be a product of strong relative expression of this gene in the early developing brain.
...
PMID:In silico analysis of histone H3 gene expression during human brain development. 2725 Oct 74
