
Complete plastome sequencing from Toona (Meliaceae) and phylogenomic analyses within Sapindales
Author(s) -
Lin Nan,
Moore Michael J.,
Deng Tao,
Sun Hang,
Yang Linsen,
Sun Yanxia,
Wang Hengchang
Publication year - 2018
Publication title -
applications in plant sciences
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.64
H-Index - 23
ISSN - 2168-0450
DOI - 10.1002/aps3.1040
Subject(s) - chloroplast dna , biology , burseraceae , phylogenetic tree , botany , meliaceae , evolutionary biology , genetics , gene
Premise of the Study Toona (Meliaceae, Sapindales) is a small genus of five species of trees native from southern and eastern Asia to New Guinea and Australia. Complete plastomes were sequenced for three Toona species to provide a basis for future plastome genetic studies in threatened species of Toona . In addition, plastome structural evolution and phylogenetic relationships across Sapindales were explored with a larger data set of 29 Sapindales plastomes (including members of six out of nine families). Methods The plastomes were determined using the Illumina sequencing platform; the phylogenetic analyses were conducted using maximum likelihood by RA x ML . Results The lengths of three Toona plastomes range from 159,185 to 158,196 bp. A total of 113 unique genes were found in each plastome. Across Sapindales, plastome gene structure and content were largely conserved, with the exception of the contraction of the inverted repeat region to exclude ycf1 in some species of Rutaceae and Sapindaceae, and the movement of trnI‐ GAU and trnA‐ UGC to a position outside the inverted repeat region in some Rutaceae species. Discussion The three Toona plastomes possess the typical structure of angiosperm plastomes. Phylogenomic analysis of Sapindales recovered a mostly strongly supported phylogeny of Sapindales, including most of the backbone relationships, with some improvements compared to previous targeted‐gene analyses.