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Gene Loss and Evolution of the Plastome

Tapan Kumar MohantaBiotech and Omics Laboratory, Natural and Medical Sciences Research Centre, University of Nizwa, Nizwa 616, OmanAwdhesh Kumar MishraDepartment of Biotechnology, Yeungnam University, Gyeongsan 38541, KoreaAdil KhanBiotech and Omics Laboratory, Natural and Medical Sciences Research Centre, University of Nizwa, Nizwa 616, OmanAbeer HashemBotany and Microbiology Department, College of Science, King Saud University, Riyadh 11451, Saudi ArabiaElsayed Fathi Abd AllahPlant Production Department, College of Food and Agricultural Sciences, King Saud University, P.O. Box. 2460, Riyadh 11451, Saudi ArabiaAhmed Al‐HarrasiNatural Product Laboratory, Natural and Medical Sciences Research Centre, University of Nizwa, Nizwa 616, Oman
2020en
ABI

Annotatsiya

Chloroplasts are unique organelles within the plant cells and are responsible for sustaining life forms on the earth due to their ability to conduct photosynthesis. Multiple functional genes within the chloroplast are responsible for a variety of metabolic processes that occur in the chloroplast. Considering its fundamental role in sustaining life on the earth, it is important to identify the level of diversity present in the chloroplast genome, what genes and genomic content have been lost, what genes have been transferred to the nuclear genome, duplication events, and the overall origin and evolution of the chloroplast genome. Our analysis of 2511 chloroplast genomes indicated that the genome size and number of coding DNA sequences (CDS) in the chloroplasts genome of algae are higher relative to other lineages. Approximately 10.31% of the examined species have lost the inverted repeats (IR) in the chloroplast genome that span across all the lineages. Genome-wide analyses revealed the loss of the Rbcl gene in parasitic and heterotrophic plants occurred approximately 56 Ma ago. PsaM, Psb30, ChlB, ChlL, ChlN, and Rpl21 were found to be characteristic signature genes of the chloroplast genome of algae, bryophytes, pteridophytes, and gymnosperms; however, none of these genes were found in the angiosperm or magnoliid lineage which appeared to have lost them approximately 203–156 Ma ago. A variety of chloroplast-encoded genes were lost across different species lineages throughout the evolutionary process. The Rpl20 gene, however, was found to be the most stable and intact gene in the chloroplast genome and was not lost in any of the analyzed species, suggesting that it is a signature gene of the plastome. Our evolutionary analysis indicated that chloroplast genomes evolved from multiple common ancestors ~1293 Ma ago and have undergone vivid recombination events across different taxonomic lineages.

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