Comparative plastome genomics, taxonomic delimitation and evolutionary divergences of Tetraena hamiensis var. qatarensis and Tetraena simplex (Zygophyllaceae)

The Zygophyllum and Tetraena genera are intriguingly important ecologically and medicinally. Based on morphological characteristics, T. hamiensis var. qatarensis, and T. simplex were transferred from Zygophyllum to Tetraena with the least genomic datasets available. Hence, we sequenced the T. hamien...

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Bibliographic Details
Published in:Scientific reports 2023-05, Vol.13 (1), p.7436-18, Article 7436
Main Authors: Ahmad, Waqar, Asaf, Sajjad, Al-Rawahi, Ahmed, Al-Harrasi, Ahmed, Khan, Abdul Latif
Format: Article
Language:English
Subjects:
631/61/212
631/61/447
631/61/514
Angiosperms
Biological Evolution
Divergence
Evolution, Molecular
Genera
Genomics
Humanities and Social Sciences
Magnoliopsida
multidisciplinary
NADH dehydrogenase
Phylogenetics
Phylogeny
Physical characteristics
Plastomes
Science
Science (multidisciplinary)
Tetraena
Zygophyllaceae
Zygophyllum
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Summary:The Zygophyllum and Tetraena genera are intriguingly important ecologically and medicinally. Based on morphological characteristics, T. hamiensis var. qatarensis, and T. simplex were transferred from Zygophyllum to Tetraena with the least genomic datasets available. Hence, we sequenced the T. hamiensis and T. simplex and performed in-depth comparative genomics, phylogenetic analysis, and estimated time divergences. The complete plastomes ranged between 106,720 and 106,446 bp—typically smaller than angiosperms plastomes. The plastome circular genomes are divided into large single-copy regions (~ 80,964 bp), small single-copy regions (~ 17,416 bp), and two inverted repeats regions (~ 4170 bp) in both Tetraena species. An unusual shrinkage of IR regions 16–24 kb was identified. This resulted in the loss of 16 genes, including 11 ndh genes which encode the NADH dehydrogenase subunits, and a significant size reduction of Tetraena plastomes compared to other angiosperms. The inter-species variations and similarities were identified using genome-wide comparisons. Phylogenetic trees generated by analyzing the whole plastomes, protein-coding genes, matK , rbcL , and cssA genes exhibited identical topologies, indicating that both species are sisters to the genus Tetraena and may not belong to Zygophyllum . Similarly, based on the entire plastome and proteins coding genes datasets, the time divergence of Zygophyllum and Tetraena was 36.6 Ma and 34.4 Ma, respectively. Tetraena stem ages were 31.7 and 18.2 Ma based on full plastome and protein-coding genes. The current study presents the plastome as a distinguishing and identification feature among the closely related Tetraena and Zygophyllum species. It can be potentially used as a universal super-barcode for identifying plants.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-023-34477-1