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Highly variable chloroplast genome from two endangered Papaveraceae lithophytes <i>Corydalis tomentella</i> and <i>Corydalis saxicola</i>

Fengming RenInstitute of Medicinal Plant Development Chinese Academy of Medical Sciences &amp; Peking Union Medical College Key Lab of Chinese Medicine Resources Conservation State Administration of Traditional Chinese Medicine of the People's Republic of China Beijing ChinaLiqiang WangCollege of Pharmacy Heze University Heze ChinaYing LiEngineering Research Center of Chinese Medicine Resource Ministry of Education Beijing ChinaWei ZhuoMedicinal Biological Technology Research Center Chongqing Institute of Medicinal Plant Cultivation Bio‐Resource Research and Utilization Joint Key Laboratory Sichuan and Chongqing Chongqing ChinaZhichao XuEngineering Research Center of Chinese Medicine Resource Ministry of Education Beijing ChinaHaojie GuoWuhu Institute of Technology Wuhu ChinaYan LiuMedicinal Biological Technology Research Center Chongqing Institute of Medicinal Plant Cultivation Bio‐Resource Research and Utilization Joint Key Laboratory Sichuan and Chongqing Chongqing ChinaRanran GaoInstitute of Medicinal Plant Development Chinese Academy of Medical Sciences &amp; Peking Union Medical College Key Lab of Chinese Medicine Resources Conservation State Administration of Traditional Chinese Medicine of the People's Republic of China Beijing ChinaJingyuan SongEngineering Research Center of Chinese Medicine Resource Ministry of Education Beijing China
2021en
ABI

Abstract

Abstract The increasingly wide application of chloroplast (cp) genome super‐barcode in taxonomy and the recent breakthrough in cp genetic engineering make the development of new cp gene resources urgent and significant. Corydalis is recognized as the most genotypes complicated and taxonomically challenging plant taxa in Papaveraceae. However, there currently are few reports about cp genomes of the genus Corydalis . In this study, we sequenced four complete cp genomes of two endangered lithophytes Corydalis saxicola and Corydalis tomentella in Corydalis , conducted a comparison of these cp genomes among each other as well as with others of Papaveraceae. The cp genomes have a large genome size of 189,029–190,247 bp, possessing a quadripartite structure and with two highly expanded inverted repeat (IR) regions (length: 41,955–42,350 bp). Comparison between the cp genomes of C. tomentella , C. saxicola , and Papaveraceae species, five NADH dehydrogenase‐like genes ( ndh F, ndh D, ndh L, ndh G, and ndh E) with psa C, rpl 32, ccs A, and trn L‐UAG normally located in the SSC region have migrated to IRs, resulting in IR expansion and gene duplication. An up to 9 kb inversion involving five genes ( rpl 23, ycf 2, ycf 15, trn I‐CAU, and trn L‐CAA) was found within IR regions. The acc D gene was found to be absent and the ycf1 gene has shifted from the IR/SSC border to the SSC region as a single copy. Phylogenetic analysis based on the sequences of common CDS showed that the genus Corydalis is quite distantly related to the other genera of Papaveraceae, it provided a new clue for recent advocacy to establish a separate Fumariaceae family. Our results revealed one special cp genome structure in Papaveraceae, provided a useful resources for classification of the genus Corydalis , and will be valuable for understanding Papaveraceae evolutionary relationships.

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