Abstract
Although there has been a long history of cultivation and research on Nymphaea, the taxonomic relationships and evolutionary relationships among Nymphaea species remain controversial. The chloroplast (cp) genome can provide a new method to determine species origin, evolution, and phylogenetic relationships of Nymphaea. The complete cp genomes of seven Nymphaea species were sequenced by high-throughput sequencing technology, and the structural characteristics and phylogenetic relationships of cp genomes were analyzed. The cp genomes of seven species of Nymphaea had rich variation in large single-copy (LSC) and small single-copy (SSC) regions. A comparative cp genomic analysis of seven Nymphaea species showed that the cp gene sequence of Nymphaea was consistent, with no signs of reverse rearrangement. Using N. colorata as the reference sequence, a total of 8328 single nucleotide polymorphisms (SNPs) and 1579 insertions/deletions were obtained. The degree of variation of the cp genome of the seven Nymphaea species in rpoA–rpl20, rbcL–ndhC, ndhD–ndhF, and trnN-GUU–ndhA regions was relatively high. The ycf2 gene was positively selected. The phylogenetic analysis showed that the genus Nymphaea can be further divided into five subgenera.
Highlights
There has been a long history of cultivation and research on Nymphaea, the taxonomic relationships and evolutionary relationships among Nymphaea species remain controversial
The cp genome of Nymphaea is very conservative in structure and composition, but it has rich variation in Large single-copy region (LSC) and Small singlecopy region (SSC) regions
The phylogenetic analysis showed that Nymphaea could be further divided into five subgenera, and Euryale and Victoria were most closely related to Nymphaea
Summary
There has been a long history of cultivation and research on Nymphaea, the taxonomic relationships and evolutionary relationships among Nymphaea species remain controversial. The complete cp genomes of seven Nymphaea species were sequenced by high-throughput sequencing technology, and the structural characteristics and phylogenetic relationships of cp genomes were analyzed. Subgenus Anecphya contains six or seven species only distributed in Australia and New Guinea. Subgenus Nymphaea contains six to seven species that are distributed in temperate areas of the Northern Hemisphere. Based on the noncoding cp markers, some studies have supported the division of Nymphaea genera into three subgenera:Subgenus Nymphaea followed by Subgenus Anecphya-Brachyceras and another clade comprising Subgenus Hydrocallis-Lotos [6, 7]. Using the cp trnT–trnF sequences to construct phylogenetic trees of Nymphaeaceae, a previous study has supported three subbranches within Subgenus Nymphaea [7]. There are different understandings of the evolutionary relationships among Nymphaea species; it is of great significance to study its phylogenetic relationship
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