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Genomic profiling of plastid DNA variation in the Mediterranean olive tree.
BMC Plant Biol. 2011 May 10; 11:80.BP

Abstract

BACKGROUND

Characterisation of plastid genome (or cpDNA) polymorphisms is commonly used for phylogeographic, population genetic and forensic analyses in plants, but detecting cpDNA variation is sometimes challenging, limiting the applications of such an approach. In the present study, we screened cpDNA polymorphism in the olive tree (Olea europaea L.) by sequencing the complete plastid genome of trees with a distinct cpDNA lineage. Our objective was to develop new markers for a rapid genomic profiling (by Multiplex PCRs) of cpDNA haplotypes in the Mediterranean olive tree.

RESULTS

Eight complete cpDNA genomes of Olea were sequenced de novo. The nucleotide divergence between olive cpDNA lineages was low and not exceeding 0.07%. Based on these sequences, markers were developed for studying two single nucleotide substitutions and length polymorphism of 62 regions (with variable microsatellite motifs or other indels). They were then used to genotype the cpDNA variation in cultivated and wild Mediterranean olive trees (315 individuals). Forty polymorphic loci were detected on this sample, allowing the distinction of 22 haplotypes belonging to the three Mediterranean cpDNA lineages known as E1, E2 and E3. The discriminating power of cpDNA variation was particularly low for the cultivated olive tree with one predominating haplotype, but more diversity was detected in wild populations.

CONCLUSIONS

We propose a method for a rapid characterisation of the Mediterranean olive germplasm. The low variation in the cultivated olive tree indicated that the utility of cpDNA variation for forensic analyses is limited to rare haplotypes. In contrast, the high cpDNA variation in wild populations demonstrated that our markers may be useful for phylogeographic and populations genetic studies in O. europaea.

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Authors+Show Affiliations

Besnard G
Imperial College London, Silwood Park Campus, Buckhurst Road, Ascot SL5 7PY, UK. gbesnard@cict.fr
Hernández P
No affiliation info available
Khadari B
No affiliation info available
Dorado G
No affiliation info available
Savolainen V
No affiliation info available

MeSH

ChloroplastsDNA Mutational AnalysisDNA, ChloroplastGenetic LociGenome, ChloroplastHaplotypesINDEL MutationMediterranean RegionMicrosatellite RepeatsOleaPhylogenyPhylogeographyPolymorphism, Single NucleotideSequence Alignment

Pub Type(s)

Journal Article
Research Support, Non-U.S. Gov't

Language

eng

PubMed ID

21569271

Citation

Besnard, Guillaume, et al. "Genomic Profiling of Plastid DNA Variation in the Mediterranean Olive Tree." BMC Plant Biology, vol. 11, 2011, p. 80.
Besnard G, Hernández P, Khadari B, et al. Genomic profiling of plastid DNA variation in the Mediterranean olive tree. BMC Plant Biol. 2011;11:80.
Besnard, G., Hernández, P., Khadari, B., Dorado, G., & Savolainen, V. (2011). Genomic profiling of plastid DNA variation in the Mediterranean olive tree. BMC Plant Biology, 11, 80. https://doi.org/10.1186/1471-2229-11-80
Besnard G, et al. Genomic Profiling of Plastid DNA Variation in the Mediterranean Olive Tree. BMC Plant Biol. 2011 May 10;11:80. PubMed PMID: 21569271.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Genomic profiling of plastid DNA variation in the Mediterranean olive tree. AU - Besnard,Guillaume, AU - Hernández,Pilar, AU - Khadari,Bouchaib, AU - Dorado,Gabriel, AU - Savolainen,Vincent, Y1 - 2011/05/10/ PY - 2011/01/10/received PY - 2011/05/10/accepted PY - 2011/5/17/entrez PY - 2011/5/17/pubmed PY - 2011/10/1/medline SP - 80 EP - 80 JF - BMC plant biology JO - BMC Plant Biol VL - 11 N2 - BACKGROUND: Characterisation of plastid genome (or cpDNA) polymorphisms is commonly used for phylogeographic, population genetic and forensic analyses in plants, but detecting cpDNA variation is sometimes challenging, limiting the applications of such an approach. In the present study, we screened cpDNA polymorphism in the olive tree (Olea europaea L.) by sequencing the complete plastid genome of trees with a distinct cpDNA lineage. Our objective was to develop new markers for a rapid genomic profiling (by Multiplex PCRs) of cpDNA haplotypes in the Mediterranean olive tree. RESULTS: Eight complete cpDNA genomes of Olea were sequenced de novo. The nucleotide divergence between olive cpDNA lineages was low and not exceeding 0.07%. Based on these sequences, markers were developed for studying two single nucleotide substitutions and length polymorphism of 62 regions (with variable microsatellite motifs or other indels). They were then used to genotype the cpDNA variation in cultivated and wild Mediterranean olive trees (315 individuals). Forty polymorphic loci were detected on this sample, allowing the distinction of 22 haplotypes belonging to the three Mediterranean cpDNA lineages known as E1, E2 and E3. The discriminating power of cpDNA variation was particularly low for the cultivated olive tree with one predominating haplotype, but more diversity was detected in wild populations. CONCLUSIONS: We propose a method for a rapid characterisation of the Mediterranean olive germplasm. The low variation in the cultivated olive tree indicated that the utility of cpDNA variation for forensic analyses is limited to rare haplotypes. In contrast, the high cpDNA variation in wild populations demonstrated that our markers may be useful for phylogeographic and populations genetic studies in O. europaea. SN - 1471-2229 UR - https://www.unboundmedicine.com/medline/citation/21569271/Genomic_profiling_of_plastid_DNA_variation_in_the_Mediterranean_olive_tree_ L2 - https://bmcplantbiol.biomedcentral.com/articles/10.1186/1471-2229-11-80 DB - PRIME DP - Unbound Medicine ER -