肠道真菌 Basidiobolus ranarum 具有庞大的基因组和不同数量的假定功能冗余延伸因子基因。

The gut fungus Basidiobolus ranarum has a large genome and different copy numbers of putatively functionally redundant elongation factor genes.

机构信息

The Department of Infectious Disease Epidemiology, Imperial College London, London, United Kingdom.

出版信息

PLoS One. 2012;7(2):e31268. doi: 10.1371/journal.pone.0031268. Epub 2012 Feb 17.

DOI:10.1371/journal.pone.0031268

PMID:22363602

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3281927/

Abstract

Fungal genomes range in size from 2.3 Mb for the microsporidian Encephalitozoon intestinalis up to 8000 Mb for Entomophaga aulicae, with a mean genome size of 37 Mb. Basidiobolus, a common inhabitant of vertebrate guts, is distantly related to all other fungi, and is unique in possessing both EF-1α and EFL genes. Using DNA sequencing and a quantitative PCR approach, we estimated a haploid genome size for Basidiobolus at 350 Mb. However, based on allelic variation, the nuclear genome is at least diploid, leading us to believe that the final genome size is at least 700 Mb. We also found that EFL was in three times the copy number of its putatively functionally overlapping paralog EF-1α. This suggests that gene or genome duplication may be an important feature of B. ranarum evolution, and also suggests that B. ranarum may have mechanisms in place that favor the preservation of functionally overlapping genes.

摘要

真菌基因组大小范围从微小孢子虫肠脑炎 2.3Mb 到昆虫真菌 Entomophaga aulicae 的 8000Mb，平均基因组大小为 37Mb。Basidiobolus 是脊椎动物肠道中常见的居民，与所有其他真菌都有很远的关系，并且是唯一同时拥有 EF-1α 和 EFL 基因的真菌。我们使用 DNA 测序和定量 PCR 方法，估计 Basidiobolus 的单倍体基因组大小为 350Mb。然而，基于等位基因变异，核基因组至少是二倍体，这使我们相信最终的基因组大小至少为 700Mb。我们还发现，EFL 的拷贝数是其假定功能上重叠的同源基因 EF-1α 的三倍。这表明基因或基因组复制可能是 B. ranarum 进化的一个重要特征，也表明 B. ranarum 可能有机制来保护功能上重叠的基因。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dbc9/3281927/aed0ee9fa2ed/pone.0031268.g001.jpg

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肠道真菌 Basidiobolus ranarum 具有庞大的基因组和不同数量的假定功能冗余延伸因子基因。

The gut fungus Basidiobolus ranarum has a large genome and different copy numbers of putatively functionally redundant elongation factor genes.

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