Abstract
BackgroundThe genus Triticum L. includes diploid, tetraploid, and hexaploid species. DNA barcoding is a new method to identify plant taxa by using short sequences of DNA and within a short time. In this investigation, we determined a phylogenetic analysis of 20 different Triticum species by partial chloroplast Maturase encoding gene (matK).Materials and methodsTwenty accessions of different Triticum species diploid, tetraploid, and hexaploid were obtained from different countries. Genomic DNA was isolated from young leaves of studied samples and then used as a template for PCR reaction. PCR products were checked by electrophoresis, purified, sequenced, and submitted in the GenBank nucleotide sequence database, the nucleotide sequence was translated into an amino acid sequence. The nucleotide and amino acid sequences were aligned with Clustal W multiple sequence alignment programs to obtain the phylogenetic tree depending on two statistical data analysis such as bootstrapping and pairwise distance from both nucleotide and amino acid sequences.ResultsThe phylogenetic tree obtained from both nucleotide and amino acid sequences divided the 20 Triticum species into two groups, A and B. Group A represented the diploid Triticum species. Group B was divided into two subgroup, I and II. Subgroup I represented the hexaploid Triticum species and subgroup II represented the tetraploid species.ConclusionThe matK gene sequence has a critical role in discriminating the closely related Triticum species. So these sequences could be used as a DNA barcode for detecting the evolutionary history of Triticum species.
Highlights
Poaceae is a large family that includes the Triticeae tribe, this tribe has around 400–500 species
The matK gene sequence has a critical role in discriminating the closely related Triticum species. These sequences could be used as a Deoxyribonucleic acid (DNA) barcode for detecting the evolutionary history of Triticum species
The aim of this research is to investigate the genetic relationship among the following 20 different Triticum species: 3 diploid Triticum monococcum L., 11 tetraploid species (one T. dicoccon subsp. dicoccon, 2 T. turgidum subsp. dicoccoides and 8 T. turgidum subsp. durum (Desf.)) and 6 hexaploid T. aestivum were collected from different countries by using one type of DNA barcodes like matK gene and its translated amino acid sequence (151 amino acid) that form maturase K like protein
Summary
Poaceae is a large family that includes the Triticeae tribe, this tribe has around 400–500 species. Genus Triticum L. exists as a polyploid species such as a diploid 2n = 2x = 14, a tetraploid 2n = 4x = 28, and a hexaploid 2n = 6x = 42 species, many of these species have economic importance as a food crop (Doebley et al 2006). Several types of analysis gave critical knowledge about the ancestry of the definite genomes in allopolyploid species (Zhang et al 2002; Gu et al 2004). The genus Triticum L. includes diploid, tetraploid, and hexaploid species. DNA barcoding is a new method to identify plant taxa by using short sequences of DNA and within a short time. In this investigation, we determined a phylogenetic analysis of 20 different Triticum species by partial chloroplast Maturase encoding gene (matK)
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