Full-length chloroplast genome of Dongxiang wild rice reveals small single-copy region switching

Jianguang Liang; Rui Chen; Rui Chen; Fantao Zhang; Qian Wang; Yingxia Yang; Mingjie Lv; Shuangyong Yan; Shan Gao

doi:10.3389/fpls.2022.929352

Frontiers in Plant Science (Sep 2022)

Full-length chloroplast genome of Dongxiang wild rice reveals small single-copy region switching

Jianguang Liang,
Rui Chen,
Rui Chen,
Fantao Zhang,
Qian Wang,
Yingxia Yang,
Mingjie Lv,
Shuangyong Yan,
Shan Gao

Affiliations

Jianguang Liang: School of Pharmacy, Changzhou University, Changzhou, China
Rui Chen: Institute of Crop Germplasm and Biotechnology, Tianjin Academy of Agricultural Sciences, Tianjin, China
Rui Chen: Tianjin Institute of Crop Research, Tianjin Academy of Agricultural Sciences, Tianjin, China
Fantao Zhang: College of Life Sciences, Jiangxi Normal University, Nanchang, China
Qian Wang: Institute of Crop Germplasm and Biotechnology, Tianjin Academy of Agricultural Sciences, Tianjin, China
Yingxia Yang: Institute of Crop Germplasm and Biotechnology, Tianjin Academy of Agricultural Sciences, Tianjin, China
Mingjie Lv: Institute of Crop Germplasm and Biotechnology, Tianjin Academy of Agricultural Sciences, Tianjin, China
Shuangyong Yan: Tianjin Institute of Crop Research, Tianjin Academy of Agricultural Sciences, Tianjin, China
Shan Gao: College of Life Sciences, Nankai University, Tianjin, China

DOI: https://doi.org/10.3389/fpls.2022.929352
Journal volume & issue: Vol. 13

Abstract

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BackgroundPlant chloroplast DNA (cpDNA) typically has a circular structure, including a large single-copy region (LSC), a small single-copy region (SSC) and two inverted repeats (IR1 and IR2). The organization of these four elementary regions LSC-IR1-SSC-IR2 is highly conserved across all plant cpDNAs. Very few structural variations (SVs) occurring at the elementary-region level have been reported.ResultsIn the present study, we assembled the full-length cpDNA of Dongxiang wild rice line 159 (DXWR159). Using the long PacBio subreads, we discovered a large inversion of SSC and a large duplication of IR in DXWR159 cpDNAs. Significantly, we reported for the first time forward and reverse SSCs of cpDNAs in similar proportions and named the frequent inversion of a whole SSC as SSC switching.ConclusionsOur study helps researchers to correctly assemble the chloroplast genomes. Our recombination model explained the formation of large SVs in cpDNAs and provided insights into a novel scientific question that if there are common mechanisms in the formation or translocation of all kinds of transposon-like elements (TLEs). We propose that: (1) large inversion is the most accepted mutation type of SVs in cpDNAs; (2) SSC switching ubiquitous occurs in plant cpDNAs; and (3) further investigation of molecular mechanism underlying SSC switching may reveal new driving forces for large SVs.

Published in Frontiers in Plant Science

ISSN: 1664-462X (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Agriculture: Plant culture
Website: https://www.frontiersin.org/journals/plant-science

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