通过计算机模拟预测两类具有CpG缺陷或CpG富集的蜜蜂基因，并根据基因本体类别进行分类。

In silico prediction of two classes of honeybee genes with CpG deficiency or CpG enrichment and sorting according to gene ontology classes.

作者信息

Wang Yong, Leung Frederick C C

机构信息

School of Biological Sciences and Genome Research Centre, The University of Hong Kong, Pokfulam, Hong Kong, China.

出版信息

J Mol Evol. 2009 Jun;68(6):700-5. doi: 10.1007/s00239-009-9244-3. Epub 2009 May 23.

DOI:10.1007/s00239-009-9244-3

PMID:19466376

Abstract

Two honeybee DNA methyltransferase genes have recently been identified and confirmed to be functional. The honeybee genes under regulation by DNA methylation may therefore be CpG deficient, due to natural deamination of methylated DNA. In this report, we show that <39% of the known honeybee genes are likely to be methylated on the basis of their low CpG obs/exp ratios. In contrast, orthologues of these genes in the fruitfly do not show CpG deficiency. Classes of function as determined by Gene Ontology were obtained for the honeybee genes with significantly low and high CpG obs/exp ratios. Overrepresented classes in the low CpG[obs/exp] genes are involved in transcription, translation, protein folding, protein localization, protein transportation, cell cycle, and DNA and RNA metabolism.

摘要

最近已鉴定并确认了两个蜜蜂DNA甲基转移酶基因具有功能。因此，受DNA甲基化调控的蜜蜂基因可能因甲基化DNA的自然脱氨作用而缺乏CpG。在本报告中，我们表明，基于其低CpG观测/预期比率，已知蜜蜂基因中<39%可能被甲基化。相比之下，这些基因在果蝇中的直系同源基因未表现出CpG缺乏。通过基因本体论确定了具有显著低和高CpG观测/预期比率的蜜蜂基因的功能类别。低CpG[观测/预期]基因中过度富集的类别涉及转录、翻译、蛋白质折叠、蛋白质定位、蛋白质运输、细胞周期以及DNA和RNA代谢。

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通过计算机模拟预测两类具有CpG缺陷或CpG富集的蜜蜂基因，并根据基因本体类别进行分类。

In silico prediction of two classes of honeybee genes with CpG deficiency or CpG enrichment and sorting according to gene ontology classes.

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