Unravelling Artemisia species genetic variation via DNA barcoding, ISSR and RAPD with the development of eco-specific SCAR markers

-д хадгалсан:

Номзүйн дэлгэрэнгүй
-д хэвлэсэн:	BMC Plant Biology vol. 25 (2025), p. 1-14
Үндсэн зохиолч:	Mahgoub, Yasmin A
Бусад зохиолчид:	Mahmoud, Hebaalla A, El-Sebakhy, Nadia A, Abdallah, Ingy I
Хэвлэсэн:	Springer Nature B.V.
Нөхцлүүд:	United States > US Germany Traditional medicine Gene polymorphism Quality control Judaica Flowers & plants Fingerprinting Cloning Morphology Phytochemicals Medicinal plants Species diversity Metabolism Genetic diversity Genetic distance Annealing Differentiation Plasmids Species Polymorphism DNA fingerprinting Pharmacy Gene sequencing Clustering Herbal medicine DNA barcoding Deoxyribonucleic acid > DNA Primers Biomarkers Authentication Random amplified polymorphic DNA Environmental
Онлайн хандалт:	Citation/Abstract Full Text Full Text - PDF
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MARC


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003	UK-CbPIL
022			\|a 1471-2229
024	7		\|a 10.1186/s12870-025-07058-9 \|2 doi
035			\|a 3247124400
045	2		\|b d20250101 \|b d20251231
084			\|a 58484 \|2 nlm
100	1		\|a Mahgoub, Yasmin A
245	1		\|a Unravelling <i>Artemisia</i> species genetic variation via DNA barcoding, ISSR and RAPD with the development of eco-specific SCAR markers
260			\|b Springer Nature B.V. \|c 2025
513			\|a Journal Article
520	3		\|a BackgroundGenus Artemisia is one of the largest and most globally spread genera, comprising more than 500 species known for their phytochemical diversity and therapeutic properties. This necessitates the accurate authentication and differentiation of its species. Traditional morphological, microscopical and metabolic profiling methods are often insufficient for reliable discrimination. The aim of this study is the authentication and assessment of the genetic diversity of wild Egyptian Artemisia species; A. herba-alba, A. monosperma, A. judaica and cultivated A. annua using a combined molecular approach of DNA barcoding, ISSR, RAPD, and the development of eco-specific SCAR markers.ResultsDNA barcoding targeting both nuclear (ITS2) and plastid (psbA-trnH) spacers revealed that ITS2 is recommended over psbA-trnH as the discriminatory barcode of choice since it accurately identified all species with > 99% identity and phylogenetic clustering with greater genetic distances. ISSR fingerprinting with five primers generated 41 polymorphic bands (100% polymorphism) and displayed genetic diversity among the species. However, the morphologically and chemically similar A. herba-alba and A. judaica remained partly undifferentiated. Therefore, RAPD profiling was implemented as a complementary technique for better and reliable discrimination. RAPD profiling with 27 primers generated 212 bands (99.5% polymorphic). RAPD primers OPA-10 and OPK-07 showed superior differentiation of the Artemisia species, while primers OPG-07, OPB-20, OPS-12 and OPD-15 failed to discriminate between the studied species. The reproducible RAPD banding profiles generated by OPG-02, OPG-04, OPA-09 and OPD-15 primers were targeted for the development of species-specific SCAR markers by isolating, cloning, and sequencing the distinct RAPD bands specific for each species. These putative SCAR markers were assessed and validated confirming the identity of the studied species.ConclusionsAn integrated molecular approach combining ITS2 barcoding, ISSR, RAPD, and RAPD-derived SCAR markers offered a reliable strategy for the authentication and discrimination of Artemisia species based on their genetic profiles. It is worth mentioning that this is the first report of eco-specific SCAR markers for the Egyptian Artemisia species. The developed SCAR markers allow rapid species identification for quality control of medicinal plants, complementing conventional methods and overcoming their limitations. This provides a reproducible, cost-effective strategy for large-scale authentication of medicinal plants.
651		4	\|a United States--US
651		4	\|a Germany
653			\|a Traditional medicine
653			\|a Gene polymorphism
653			\|a Quality control
653			\|a Judaica
653			\|a Flowers & plants
653			\|a Fingerprinting
653			\|a Cloning
653			\|a Morphology
653			\|a Phytochemicals
653			\|a Medicinal plants
653			\|a Species diversity
653			\|a Metabolism
653			\|a Genetic diversity
653			\|a Genetic distance
653			\|a Annealing
653			\|a Differentiation
653			\|a Plasmids
653			\|a Species
653			\|a Polymorphism
653			\|a DNA fingerprinting
653			\|a Pharmacy
653			\|a Gene sequencing
653			\|a Clustering
653			\|a Herbal medicine
653			\|a DNA barcoding
653			\|a Deoxyribonucleic acid--DNA
653			\|a Primers
653			\|a Biomarkers
653			\|a Authentication
653			\|a Random amplified polymorphic DNA
653			\|a Environmental
700	1		\|a Mahmoud, Hebaalla A
700	1		\|a El-Sebakhy, Nadia A
700	1		\|a Abdallah, Ingy I
773	0		\|t BMC Plant Biology \|g vol. 25 (2025), p. 1-14
786	0		\|d ProQuest \|t Health & Medical Collection
856	4	1	\|3 Citation/Abstract \|u https://www.proquest.com/docview/3247124400/abstract/embedded/7BTGNMKEMPT1V9Z2?source=fedsrch
856	4	0	\|3 Full Text \|u https://www.proquest.com/docview/3247124400/fulltext/embedded/7BTGNMKEMPT1V9Z2?source=fedsrch
856	4	0	\|3 Full Text - PDF \|u https://www.proquest.com/docview/3247124400/fulltextPDF/embedded/7BTGNMKEMPT1V9Z2?source=fedsrch