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Next Generation Sequencing Technique and Its Application in Plant Virology
Zohreh Davoodi, Jahangir Heydarnejad, Hossein Masoomi,
Volume 8, Issue 2 (9-2019)
Abstract

Davoodi Z, Heidarnejad J and Masoumi H (2019) Next generation sequencing technique and its application in plant virology. Plant Pathology Science 8(2):77-85. DOI:10.2982/PPS.8.2.77

DNA sequencing is used by virtually all branches of biological research. Among the first advanced sequencing technologies, scientists were able to elucidate genetic information from any particular biological system using the Sanger sequencing method. Although Sanger sequencing generates high quality sequencing data, its limitations such as scalability, speed and resolution often preclude scientists from obtaining the essential information. To overcome these barriers, next generation sequencing technique (NGS) was introduced at the beginning of the 21st century. This technique provided a highly efficient, rapid, and low cost DNA sequencing platform beyond the reach of the standard and traditional DNA sequencing technologies that developed in late 1970s. In 2009, NGS technologies began to be applied to several areas of plant virology including virus/viroid genome sequencing, discovery and detection, ecology, epidemiology and replication. It is expected that NGS plays very significant roles in many plant virology researches.
 


Phylogenetic status of Grapevine fanleaf virus isolate of Lorestan province of Iran
Samira Pakbaz, Mostafa Darvishnia, Arezoo Naghavi,
Volume 11, Issue 1 (3-2022)
Abstract
Pakbaz S, Darvishnia M, Naghavi A (2022) Phylogenetic status of Grapevine fanleaf virus isolate of Lorestan province of Iran. Plant Pathology Science 11(1):1-12.                     Doi: 10.2982/PPS.11.1.1
 
Introduction: Grapevine fanleaf virus (GFLV) is a major grapevine infecting virus in the world. Materials and Methods: Grapes showing GFLV signs were sampled from the suburbs of the city of Khorramabad in Lorestan Province of Iran in spring 2020 and RT-PCR test was performed to amplify their GFLV-CP gene and the product was sequenced. Results: Specific primers were able to amplify a 1515 bp fragment of the CP gene. Based on the nucleotide sequence of this fragment, GFLV was first identified in this region. The nucleotide sequence similarity of this isolate was detected at 89.14-95.64% with other isolates in the NCBI library. Also, the phylogenetic tree of these isolates, based on the genomic CP region, grouped GFLV isolates into two groups I and II. The Lorestan GFLV isolate was placed in a subgroup in Group I together with GFLV isolates from the northwestern part of Iran and the Takestan isolate, and isolates from other countries were grouped in a separate subgroup of this group. Also in the phylogenetic tree, the Northeast isolates and the Fars and Kohgiloyeh & Boyer-Ahmad province isolates were classified in Group II. Conclusion: The results of this research indicate that the virus is endemic and that its likely origin was in Iran and then spread to other parts of the world. The impact of geographic segregation on the evolution of GFLV can also be deduced.

 
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