Chloroplast Genome-Wide Analysis Reveals New Single-Nucleotide Polymorphism Resources for the ARMS-qPCR Identification of Dendrobium brymerianum

Dendrobium brymerianum Rchb. f. is a species of orchid with pharmacological interest for its potential to inhibit the growth of human lung cancer cells. The identification of the Dendrobium species is a notable problem due to morphological similarities and the limitations of universal DNA barcodes....

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Published inHorticulturae Vol. 10; no. 3; p. 260
Main Authors Kamal, Afifa, Yang, Jiapeng, Wang, Mengting, Hou, Zhenyu, Li, Chao, Niu, Zhitao, Xue, Qingyun, Ding, Xiaoyu
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.03.2024
Subjects
ARMS-qPCR
Bats
Chinese medicine
chloroplast genome
Chloroplasts
Dendrobium
Dendrobium brymerianum
Flowers & plants
Gene sequencing
Genetic markers
Genetics
Genomes
identification
Inverted repeat
Lung cancer
medicinal products
Mutation
Nucleotides
Phylogeny
Polymorphism
Population genetics
Single-nucleotide polymorphism
Species
Taxonomy
China
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Summary:Dendrobium brymerianum Rchb. f. is a species of orchid with pharmacological interest for its potential to inhibit the growth of human lung cancer cells. The identification of the Dendrobium species is a notable problem due to morphological similarities and the limitations of universal DNA barcodes. To overcome these difficulties, this study employed complete chloroplast (cp) genome sequences as useful resources for the identification of D. brymerianum. Based on Illumina sequencing, the complete cp genomes of five D. brymerianum individuals were assembled. These genomes were in the quadripartite structure, diverse in length between 151,832 and 152,189 bp, and comprised 126 genes. Moreover, significant differences were found in the Small Single-Copy (SSC) and Large Single-Copy (LSC) regions in comparison to the Inverted Repeat (IR) regions. This study recognized hotspot regions and simple sequence repeat (SSR) loci, providing valuable insights into genetic markers. The phylogenetic relationship of Dendrobium species was discovered, highlighting the need for more precise differentiation practices. To address this, ARMS-specific primers, mainly AAob1/AAob2, confirmed strong specificity, permitting the accurate identification of D. brymerianum from other species through ARMS-qPCR. Overall, this study of D. brymerianum chloroplast genomes has generated valuable data about sequence variations, phylogenetics, and mutation dynamics. These perceptions will be valuable in future research on population genetics, taxonomy, and species identification within the Dendrobium genus.
ISSN:2311-7524
2311-7524
DOI:10.3390/horticulturae10030260