Whole Mitochondrial and Plastid Genome SNP Analysis of Nine Date Palm Cultivars Reveals Plastid Heteroplasmy and Close Phylogenetic Relationships among Cultivars

Sabir, Jamal S. M.; Arasappan, Dhivya; Bahieldin, Ahmed; Abo-Aba, Salah E. M.; Bafeel, Sameera O.; Zari, Talal A.; Edris, Sherif; Shokry, Ahmed M.; Gadalla, Nour O.; Ramadan, Ahmed M.; Atef, Ahmed; Al-Kordy, Magdy A.; El-Domyati, Fotouh M.; Jansen, Robert K.

doi:10.1371/journal.pone.0094158

Cited by 59 publications

(51 citation statements)

References 44 publications

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“…Rather, this scattered occurrence can most easily be explained by the presence of heteroplasmic chloroplast genomes with homologous recombination between them. Thus, our study reveals for the first time incomplete lineage sorting in kelp species as it was shown in higher plants (Jakob & Blattner ; Sabir et al, ). The amount of SNPs per kb cannot be used to discern between coding and noncoding regions, since they are nearly equally distributed over the whole chloroplast genomes.…”

Section: Discussionsupporting

confidence: 68%

Loss of a chloroplast encoded function could influence species range in kelp

Rana

Valentin

Bartsch

et al. 2019

Ecology and Evolution

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Kelps are important providers and constituents of marine ecological niches, the coastal kelp forests. Kelp species have differing distribution ranges, but mainly thrive in temperate and arctic regions. Although the principal factors determining biogeographic distribution ranges are known, genomics could provide additional answers to this question. We sequenced DNA from two Laminaria species with contrasting distribution ranges, Laminaria digitata and Laminaria solidungula . Laminaria digitata is found in the Northern Atlantic with a southern boundary in Brittany (France) or Massachusetts (USA) and a northern boundary in the Arctic, whereas L. solidungula is endemic to the Arctic only. From the raw reads of DNA, we reconstructed both chloroplast genomes and annotated them. A concatenated data set of all available brown algae chloroplast sequences was used for the calculation of a robust phylogeny, and sequence variations were analyzed. The two Laminaria chloroplast genomes are collinear to previously analyzed kelp chloroplast genomes with important exceptions. Rearrangements at the inverted repeat regions led to the pseudogenization of ycf 37 in L. solidungula , a gene possibly required under high light conditions. This defunct gene might be one of the reasons why the habitat range of L. solidungula is restricted to lowlight sublittoral sites in the Arctic. The inheritance pattern of single nucleotide polymorphisms suggests incomplete lineage sorting of chloroplast genomes in kelp species. Our analysis of kelp chloroplast genomes shows that not only evolutionary information could be gleaned from sequence data. Concomitantly, those sequences can also tell us something about the ecological conditions which are required for species well‐being.

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Section: Discussionsupporting

confidence: 68%

Loss of a chloroplast encoded function could influence species range in kelp

Rana

Valentin

Bartsch

et al. 2019

Ecology and Evolution

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“…; Sabir et al . ) and it has been shown that chloroplast heteroplasmy can evolve quickly to homoplasmy (Birky ; Greiner et al . ).…”

Section: Discussionmentioning

confidence: 99%

“…Sabir et al . ) on a single individual. Chloroplasts have a haploid genome, and consequently, SNPs are expected to be homozygous.…”

Section: Introductionmentioning

confidence: 99%

Intra‐individual polymorphism in chloroplasts from NGS data: where does it come from and how to handle it?

Scarcelli

Mariac

Couvreur

et al. 2015

Molecular Ecology Resources

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Next-generation sequencing allows access to a large quantity of genomic data. In plants, several studies used whole chloroplast genome sequences for inferring phylogeography or phylogeny. Even though the chloroplast is a haploid organelle, NGS plastome data identified a nonnegligible number of intra-individual polymorphic SNPs. Such observations could have several causes such as sequencing errors, the presence of heteroplasmy or transfer of chloroplast sequences in the nuclear and mitochondrial genomes. The occurrence of allelic diversity has practical important impacts on the identification of diversity, the analysis of the chloroplast data and beyond that, significant evolutionary questions. In this study, we show that the observed intra-individual polymorphism of chloroplast sequence data is probably the result of plastid DNA transferred into the mitochondrial and/or the nuclear genomes. We further assess nine different bioinformatics pipelines' error rates for SNP and genotypes calling using SNPs identified in Sanger sequencing. Specific pipelines are adequate to deal with this issue, optimizing both specificity and sensitivity. Our results will allow a proper use of whole chloroplast NGS sequence and will allow a better handling of NGS chloroplast sequence diversity.

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“…Duplication of those regions in the chloroplast genome and heteroplasmy cannot be ruled out. These processes have never been identified in the genus Pulsatilla, but they are increasingly often reported in other plant genera (Sabir et al, 2014;Szczecińska et al, 2014).…”

Section: Discussionmentioning

confidence: 99%