Plastome-wide rearrangements and gene losses in carnivorous droseraceae

Plastome-wide rearrangements and gene losses in carnivorous droseraceae

The plastid genomes of four related carnivorous plants (Drosera regia, Drosera erythrorhiza, Aldrovanda vesiculosa, and Dionaea muscipula) were sequenced to examine changes potentially induced by the transition to carnivory. The plastid genomes of the Droseraceae show multiple rearrangements, gene l...

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Bibliographic Details
Main Authors: Nevill, Paul, Howell, K.A., Cross, Adam, Williams, A.V., Zhong, X., Tonti-Filippini, J., Boykin, L.M., Dixon, Kingsley, Small, I.
Format: Journal Article
Language:English
Published: OXFORD UNIV PRESS 2019
Subjects:
Science & Technology
Life Sciences & Biomedicine
Evolutionary Biology
Genetics & Heredity
carnivorous plants
chloroplast genome
Droseraceae
gene loss
intron loss
COST-BENEFIT MODEL
HORIZONTAL TRANSFER
TRANSFER-RNA
MITOCHONDRIAL GENES
READ ALIGNMENT
PLANT
CHLOROPLAST
EVOLUTION
GENOME
SEQUENCE
Online Access:http://purl.org/au-research/grants/arc/IC150100041
http://hdl.handle.net/20.500.11937/84619
Description
Summary:The plastid genomes of four related carnivorous plants (Drosera regia, Drosera erythrorhiza, Aldrovanda vesiculosa, and Dionaea muscipula) were sequenced to examine changes potentially induced by the transition to carnivory. The plastid genomes of the Droseraceae show multiple rearrangements, gene losses, and large expansions or contractions of the inverted repeat. All the ndh genes are lost or nonfunctional, as well as in some of the species, clpP1, ycf1, ycf2 and some tRNA genes. Uniquely, among land plants, the trnK gene has no intron. Carnivory in the Droseraceae coincides with changes in plastid gene content similar to those induced by parasitism and mycoheterotrophy, suggesting parallel changes in chloroplast function due to the similar switch from autotrophy to (mixo-) heterotrophy. A molecular phylogeny of the taxa based on all shared plastid genes indicates that the “snap-traps” of Aldrovanda and Dionaea have a common origin.

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