Comparative and phylogenetic analyses of Loranthaceae plastomes provide insights into the evolutionary trajectories of plastome degradation in hemiparasitic plants

The lifestyle transition from autotrophy to heterotrophy often leads to extensive degradation of plastomes in parasitic plants, while the evolutionary trajectories of plastome degradation associated with parasitism in hemiparasitic plants remain poorly understood. In this study, phylogeny-oriented c...

Full description

Saved in:
Bibliographic Details
Published in:BMC plant biology 2024-05, Vol.24 (1), p.406-406, Article 406
Main Authors: Tang, Lilei, Wang, Tinglu, Hou, Luxiao, Zhang, Guangfei, Deng, Min, Guo, Xiaorong, Ji, Yunheng
Format: Article
Language:English
Subjects:
Autotrophy
Biological Evolution
Biotechnology industry
Botanical research
Chloroplasts
Comparative analysis
Degradation
Downsizing
Evolution
Evolution, Molecular
Facultative parasitism
Gene loss
Gene mutations
Genes
Genetic aspects
Genetic testing
Genomes
Heterotrophy
Host plants
Identification and classification
Lifestyles
Loranthaceae
Loranthaceae - genetics
Loranthaceae - physiology
Mistletoe
Natural history
Nutrients
Obligate parasitism
Parasites
Parasitic plants
Parasitism
Phylogenetics
Phylogeny
Physiological aspects
Plant genetics
Plants
Plastids
Plastids - genetics
Plastome degradation
Plastomes
Proteins
Pseudogenization
Stems
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The lifestyle transition from autotrophy to heterotrophy often leads to extensive degradation of plastomes in parasitic plants, while the evolutionary trajectories of plastome degradation associated with parasitism in hemiparasitic plants remain poorly understood. In this study, phylogeny-oriented comparative analyses were conducted to investigate whether obligate Loranthaceae stem-parasites experienced higher degrees of plastome degradation than closely related facultative root-parasites and to explore the potential evolutionary events that triggered the 'domino effect' in plastome degradation of hemiparasitic plants. Through phylogeny-oriented comparative analyses, the results indicate that Loranthaceae hemiparasites have undergone varying degrees of plastome degradation as they evolved towards a heterotrophic lifestyle. Compared to closely related facultative root-parasites, all obligate stem-parasites exhibited an elevated degree plastome degradation, characterized by increased downsizing, gene loss, and pseudogenization, thereby providing empirical evidence supporting the theoretical expectation that evolution from facultative parasitism to obligate parasitism may result in a higher degree of plastome degradation in hemiparasites. Along with infra-familial divergence in Loranthaceae, several lineage-specific gene loss/pseudogenization events occurred at deep nodes, whereas further independent gene loss/pseudogenization events were observed in shallow branches. The findings suggest that in addition to the increasing levels of nutritional reliance on host plants, cladogenesis can be considered as another pivotal evolutionary event triggering the 'domino effect' in plastome degradation of hemiparasitic plants. These findings provide new insights into the evolutionary trajectory of plastome degradation in hemiparasitic plants.
ISSN:1471-2229
1471-2229
DOI:10.1186/s12870-024-05094-5