| Literature DB >> 34939160 |
Tao Lin1,2, Xia Xu1, Huilong Du1,3, Xiuli Fan1,4, Qingwen Chen1,4, Chunyan Hai1,4, Zijian Zhou2, Xiao Su2, Liquan Kou1, Qiang Gao5, Lingwei Deng6, Jinsheng Jiang6, Hanli You1,4, Yihua Ma1,4, Zhukuan Cheng1, Guodong Wang1, Chengzhi Liang7,8, Guomin Zhang9, Hong Yu10, Jiayang Li1,4,11.
Abstract
Plants belonging to the genus Taraxacum are widespread all over the world, which contain rubber-producing and non-rubber-producing species. However, the genomic basis underlying natural rubber (NR) biosynthesis still needs more investigation. Here, we presented high-quality genome assemblies of rubber-producing T. kok-saghyz TK1151 and non-rubber-producing T. mongolicum TM5. Comparative analyses uncovered a large number of genetic variations, including inversions, translocations, presence/absence variations, as well as considerable protein divergences between the two species. Two gene duplication events were found in these two Taraxacum species, including one common ancestral whole-genome triplication and one subsequent round of gene amplification. In genomes of both TK1151 and TM5, we identified the genes encoding for each step in the NR biosynthesis pathway and found that the SRPP and CPT gene families have experienced a more obvious expansion in TK1151 compared to TM5. This study will have large-ranging implications for the mechanism of NR biosynthesis and genetic improvement of NR-producing crops.Entities:
Keywords: Taraxacum kok-saghyz; Taraxacum mongolicum; comparative genomics; natural rubber biosynthesis pathway; reference genome
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Year: 2021 PMID: 34939160 DOI: 10.1007/s11427-021-2033-2
Source DB: PubMed Journal: Sci China Life Sci ISSN: 1674-7305 Impact factor: 6.038