2024 : 11 : 21
Farzad Nazari

Farzad Nazari

Academic rank: Associate Professor
ORCID: 0000-0001-5671-6188
Education: PhD.
ScopusId: 24921751900
HIndex:
Faculty: Faculty of Agriculture
Address: Department of Horticultural Science Faculty of Agriculture, University of Kurdistan, Sanandaj, Iran. Postal code (ZIP Code): 66177- 15175
Phone: 08733620552

Research

Title
Exploring genetic variations in threatened medicinal orchids using start codon targeted (SCoT) polymorphism and marker association with seed morphometric traits
Type
JournalPaper
Keywords
Iranian orchids, REST species, Population structure, SCoT, Conservation
Year
2021
Journal PHYSIOLOGY AND MOLECULAR BIOLOGY OF PLANTS
DOI
Researchers Soheila Gholami ، Yavar Vafaee ، Farzad Nazari ، Adolbaset Ghorbani

Abstract

We aimed to study the genetic diversity and population structure of eight Iranian terrestrial orchid species, including Anacamptis coriophora (L.) R. M. Bateman, Pridgeon and M. W. Chase, Dactylorhizaumbrosa (Kar. & Kir.) Nevski, Himantoglossum affine (Boiss.) Schltr., Orchis collina Banks and Solander, Orchis mascula (L.) L., Orchis simia Lam., Ophrys schulzei Bornm. and Fleischm., and Ophrys straussii H. Fleischm. and Bornm. using start target codon markers (SCoT) and finding markers associated with seed morphometric traits. A total of 254 reproducible SCoT fragments were generated, of which 248 fragments were polymorphic (average polymorphism of 96.18%). The SCoT markers showed a narrow range of polymorphism information content (PIC) varied from 0.397 for S9 primer to 0.499 for S11 and S20 primers. Based on the population analysis results, the Orchis simia accessions collected from Paveh region (Os.P) represented the lowest observed number of alleles (Na) (1.13) and effective number of alleles (Ne) (1.09). At the same time, the highest Na (1.29) and Ne (1.18) values were obtained in O. schulzei collected from Javanrood (Oyst.JA). Shannon’s information index (I) was ranged from 0.03 for D. umbrosa accessions collected from Marivan (Du.M population) to 0.263 for Ha.Ja population (H. affine accessions collected from Javanrood). The UPGMA dendrogram obtained with the Jaccard similarity coefficient (r = 0.97295) divided 97 studied terrestrial orchid accessions into eight groups mainly based on species type and geographical origin. Based on the Bayesian statistical index, the highest probability of the data was achieved when accessions were divided into eight groups (K = 8). Multiple association analysis (MRA) revealed significant associations between some of SCoT bands with seed morphometric traits. Our findings can be useful for germplasm characterization, conservation, and improvement of Iranian terrestrial orchid species.