Genetic analysis of Penthorum chinense Pursh by improved RAPD and ISSR in China
Vol. 30 (2017), Research Articles
Vol. 30 (2017)

Genetic analysis of Penthorum chinense Pursh by improved RAPD and ISSR in China

Research Articles
Zhiqiang Mei
Southwest Medical University
Xianqin Zhang
Southwest Medical University
Md. Asaduzzaman Khan
Southwest Medical University
Saber Imani
Southwest Medical University
Xiaoyan Liu
Southwest Medical University
Hui Zou
Southwest Medical University
Chunli Wei
Southwest Medical University
Junjiang Fu
Southwest Medical University
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Keywords

Alleles
Chinese medicine
Coefficient
Genetic diversity
Inter-simple sequence repeat (ISSR)
Molecular marker
Polymorphism
Random amplification of polymorphic DNA (RAPD)
Traditional medicine
Treatment of liver diseases

How to Cite

1.
Mei Z, Zhang X, Khan MA, Imani S, Liu X, Zou H, Wei C, Fu J. Genetic analysis of Penthorum chinense Pursh by improved RAPD and ISSR in China. Electron. J. Biotechnol. [Internet]. 2017 Nov. 23 [cited 2024 Sep. 19];30(1). Available from: https://preprints.pucv.cl/index.php/ejbiotechnology/article/view/2017.08.008
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Abstract

Background: Penthorum chinense Pursh (P. chinense) is a well-known traditional Chinese medicine (TCM) plant, which has long been used for the prevention and treatment of hepatic diseases. This study aimed to genetically characterize the varieties of P. chinense from different geographic localities of China by random amplification of polymorphic DNA (RAPD)-PCR technique and verified with inter-simple sequence repeat (ISSR) markers.

Results: The P. chinense samples were collected from nine different geographic localities. Previously improved RAPD and ISSR markers were utilized for genetic analysis using DNA amplification. The genetic relationship dendrogram was obtained by conducting cluster analysis to the similarity coefficient of improved RAPD and ISSR markers. Improved RAPD yielded 185 scorable amplified products, of which 68.6% of the bands were polymorphic, with an average amplification of 9.25 bands per primer. The ISSR markers revealed 156 alleles with 7.8 bands per primers, where 59.7% bands were polymorphic. Furthermore, the similarity coefficient ranges of RAPD and ISSR markers were 0.71–0.91 and 0.66–0.89, respectively.

Conclusions: This study indicated that improved RAPD and ISSR methods are useful tools for evaluating the genetic diversity and characterizing P. chinense. Our findings can provide the theoretical basis for cultivar identification, standardization, and molecular-assisted breeding of P. chinense for medicinal use.

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