Document Details

Document Type : Article In Journal 
Document Title :
Whole Mitochondrial and Plastid Genome SNP Analysis of Nine Date Palm Cultivars Reveals Plastid Heteroplasmy and Close Phylogenetic Relationships among Cultivars
Whole Mitochondrial and Plastid Genome SNP Analysis of Nine Date Palm Cultivars Reveals Plastid Heteroplasmy and Close Phylogenetic Relationships among Cultivars
 
Document Language : English 
Abstract : Date palm is a very important crop in western Asia and northern Africa, and it is the oldest domesticated fruit tree with archaeological records dating back 5000 years. The huge economic value of this crop has generated considerable interest in breeding programs to enhance production of dates. One of the major limitations of these efforts is the uncertainty regarding the number of date palm cultivars, which are currently based on fruit shape, size, color, and taste. Whole mitochondrial and plastid genome sequences were utilized to examine single nucleotide polymorphisms (SNPs) of date palms to evaluate the efficacy of this approach for molecular characterization of cultivars. Mitochondrial and plastid genomes of nine Saudi Arabian cultivars were sequenced. For each species about 60 million 100 bp paired-end reads were generated from total genomic DNA using the Illumina HiSeq 2000 platform. For each cultivar, sequences were aligned separately to the published date palm plastid and mitochondrial reference genomes, and SNPs were identified. The results identified cultivar-specific SNPs for eight of the nine cultivars. Two previous SNP analyses of mitochondrial and plastid genomes identified substantial intra-cultivar (= intra-varietal) polymorphisms in organellar genomes but these studies did not properly take into account the fact that nearly half of the plastid genome has been integrated into the mitochondrial genome. Filtering all sequencing reads that mapped to both organellar genomes nearly eliminated mitochondrial heteroplasmy but all plastid SNPs remained heteroplasmic. This investigation provides valuable insights into how to deal with interorganellar DNA transfer in performing SNP analyses from total genomic DNA. The results confirm recent suggestions that plastid heteroplasmy is much more common than previously thought. Finally, low levels of sequence variation in plastid and mitochondrial genomes argue for using nuclear SNPs for molecular characterization of date palm cultivars. 
ISSN : 1932-6203 
Journal Name : PLOS ONE 
Volume : 9 
Issue Number : 4 
Publishing Year : 1435 AH
2014 AD
 
Article Type : Article 
Added Date : Wednesday, July 26, 2017 

Researchers

Researcher Name (Arabic)Researcher Name (English)Researcher TypeDr GradeEmail
Jamal SabirSabir, Jamal Researcher  
Dhivya ArasappanArasappan, Dhivya Researcher  
Ahmed BahieldinBahieldin, Ahmed Researcher  
Salah Abo-AbaAbo-Aba, Salah Researcher  
Sameera BafeelBafeel, Sameera Researcher  
Talal ZariZari, Talal Researcher  
Sherif EdrisEdris, Sherif Researcher  
Ahmed ShokryShokry, Ahmed Researcher  
Nour GadallaGadalla, Nour Researcher  
Ahmed RamadanRamadan, Ahmed Researcher  
Ahmed AtefAtef, Ahmed Researcher  
Magdy Al-KordyAl-Kordy, Magdy Researcher  
Fotoh El-DomyatiEl-Domyati, Fotoh Researcher  
Robert JansenJansen, Robert Researcher  

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