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Complete Chloroplast Genome Sequences of Four Meliaceae Species and Comparative Analyses

Malte MäderThünen Institute of Forest Genetics, Sieker Landstrasse 2, D-22927 Grosshansdorf, GermanyBirte PakullThünen Institute of Forest Genetics, Sieker Landstrasse 2, D-22927 Grosshansdorf, GermanyCéline Blanc-JolivetThünen Institute of Forest Genetics, Sieker Landstrasse 2, D-22927 Grosshansdorf, GermanyMaike Paulini-DrewesThünen Institute of Forest Genetics, Sieker Landstrasse 2, D-22927 Grosshansdorf, GermanyZ. Henri-Noël BoudaThünen Institute of Forest Genetics, Sieker Landstrasse 2, D-22927 Grosshansdorf, GermanyБернд ДегенThünen Institute of Forest Genetics, Sieker Landstrasse 2, D-22927 Grosshansdorf, GermanyIan SmallAustralian Research Centre of Excellence in Plant Energy Biology, School of Molecular Sciences, The University of Western Australia, 35 Stirling Highway, Crawley, WA 6009, AustraliaBirgit KerstenThünen Institute of Forest Genetics, Sieker Landstrasse 2, D-22927 Grosshansdorf, Germany
2018en
ABI

Аннотация

The Meliaceae family mainly consists of trees and shrubs with a pantropical distribution. In this study, the complete chloroplast genomes of four Meliaceae species were sequenced and compared with each other and with the previously published Azadirachta indica plastome. The five plastomes are circular and exhibit a quadripartite structure with high conservation of gene content and order. They include 130 genes encoding 85 proteins, 37 tRNAs and 8 rRNAs. Inverted repeat expansion resulted in a duplication of rps19 in the five Meliaceae species, which is consistent with that in many other Sapindales, but different from many other rosids. Compared to Azadirachta indica, the four newly sequenced Meliaceae individuals share several large deletions, which mainly contribute to the decreased genome sizes. A whole-plastome phylogeny supports previous findings that the four species form a monophyletic sister clade to Azadirachta indica within the Meliaceae. SNPs and indels identified in all complete Meliaceae plastomes might be suitable targets for the future development of genetic markers at different taxonomic levels. The extended analysis of SNPs in the matK gene led to the identification of four potential Meliaceae-specific SNPs as a basis for future validation and marker development.

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