Genomic Analysis of the Xanthoria elegans and Polyketide Synthase Gene Mining Based on the Whole Genome.

IF 1.6 4区生物学 Q2 AGRONOMY

Mycobiology Pub Date : 2023-01-01 DOI:10.1080/12298093.2023.2175428

Xiaolong Yuan, Yunqing Li, Ting Luo, Wei Bi, Jiaojun Yu, Yi Wang

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Abstract

Xanthoria elegans is a lichen symbiosis, that inhabits extreme environments and can absorb UV-B. We reported the de novo sequencing and assembly of X. elegans genome. The whole genome was approximately 44.63 Mb, with a GC content of 40.69%. Genome assembly generated 207 scaffolds with an N50 length of 563,100 bp, N90 length of 122,672 bp. The genome comprised 9,581 genes, some encoded enzymes involved in the secondary metabolism such as terpene, polyketides. To further understand the UV-B absorbing and adaptability to extreme environments mechanisms of X. elegans, we searched the secondary metabolites genes and gene-cluster from the genome using genome-mining and bioinformatics analysis. The results revealed that 7 NR-PKSs, 12 HR-PKSs and 2 hybrid PKS-PKSs from X. elegans were isolated, they belong to Type I PKS (T1PKS) according to the domain architecture; phylogenetic analysis and BGCs comparison linked the putative products to two NR-PKSs and three HR-PKSs, the putative products of two NR-PKSs were emodin xanthrone (most likely parietin) and mycophelonic acid, the putative products of three HR-PKSs were soppilines, (+)-asperlin and macrolactone brefeldin A, respectively. 5 PKSs from X. elegans build a correlation between the SMs carbon skeleton and PKS genes based on the domain architecture, phylogenetic and BGC comparison. Although the function of 16 PKSs remains unclear, the findings emphasize that the genes from X. elegans represent an unexploited source of novel polyketide and utilization of lichen gene resources.

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线虫黄原菌基因组分析及基于全基因组的聚酮合成酶基因挖掘。

秀丽黄病菌是一种地衣共生菌，生活在极端环境中，能吸收UV-B。我们报道了秀丽隐杆线虫基因组的从头测序和组装。全基因组约44.63 Mb, GC含量40.69%。基因组组装得到207个支架，N50长度为563,100 bp, N90长度为122,672 bp。基因组包含9581个基因，其中一些编码的酶参与了次生代谢，如萜烯、多酮。为了进一步了解秀丽隐杆线虫对UV-B的吸收和对极端环境的适应机制，我们利用基因组挖掘和生物信息学分析的方法，从线虫基因组中检索了次级代谢产物基因和基因簇。结果表明，从线虫中分离到7个nr -PKS、12个hr -PKS和2个杂交PKS-PKS，根据结构域结构，它们属于I型PKS (T1PKS);系统发育分析和bgc比较将推测产物与两种NR-PKSs和三种HR-PKSs联系起来，两种NR-PKSs的推测产物分别是大黄素(最有可能是参素)和霉酚酸，三种HR-PKSs的推测产物分别是苦参碱、(+)-曲霉素和大内酯brefeldin A。通过结构域结构、系统发育和BGC比较，建立了线虫5个PKS基因与SMs碳骨架的相关性。尽管16个pks的功能尚不清楚，但研究结果强调，秀丽隐杆线虫的基因代表了一种未开发的新型聚酮来源和地衣基因资源的利用。

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来源期刊

Mycobiology AGRONOMYMYCOLOGY-MYCOLOGY

CiteScore

3.90

自引率

5.30%

发文量

审稿时长

22 weeks

期刊介绍： Mycobiology is an international journal devoted to the publication of fundamental and applied investigations on all aspects of mycology and their traditional allies. It is published quarterly and is the official publication of the Korean Society of Mycology. Mycobiology publishes reports of basic research on fungi and fungus-like organisms, including yeasts, filamentous fungi, lichen fungi, oomycetes, moulds, and mushroom. Topics also include molecular and cellular biology, biochemistry, metabolism, developmental biology, environmental mycology, evolution, ecology, taxonomy and systematics, genetics/genomics, fungal pathogen and disease control, physiology, and industrial biotechnology using fungi.