Page 62 - 《中国药科大学学报》2026年第2期

P. 62

188 学报 Journal of China Pharmaceutical University 2026, 57(2): 181 − 188 第 57 卷

code regions (rbcL and matK)[J]. Ecol Evol, 2025, 15(2): species using HRM technique and its forensic application [D].
e70961. Soochow: Soochow University, 2021.
[23] Khew GS, Chia TF. Parentage determination of Vanda Miss [38] Chen SL, Yao H, Han JP, et al. Principles for molecular identi-
Joaquim (Orchidaceae) through two chloroplast genes rbcL and fication of traditional Chinese materia Medica using DNA bar-
matK[J]. AoB Plants, 2011, 2011: plr018. coding[J]. China J Chin Mater Med (中国中药杂志), 2013,
[24] Liu QQ, Yang KY, Ma YH, et al. Amplification and sequence 38(2): 141-148.
analysis of rbcL gene in Hippophae rhamnoides[J]. North Hor- [39] Fan YJ, Huang L, Su SD, et al. Identification of Papaveraceae
tic (北方园艺), 2023(21): 42-52. based on chloroplast DNA matK+rbcL+ trnH-psbA[J]. J Kun-
[25] Omonhinmin C, Onuselogu C. rbcL gene in global molecular ming Med Univ (昆明医科大学学报), 2023, 44(1): 12-18.
data repository[J]. Data Brief, 2022, 42: 108090. [40] Anabalón L, Solano J, Encina-Montoya F, et al. Cannabis seeds
[26] Xia RC, Zhang XC, Wang XX, et al. Identification of Cannabis authentication by chloroplast and nuclear DNA analysis cou-
sativa L. based on rbcL sequence[J]. J Forensic Med(法医学杂 pled with high-resolution melting method for quality control
志), 2021, 37(2): 187-191. purposes[J]. Cannabis Cannabinoid Res, 2022, 7(4): 548-556.
[27] Almuteri JS, Al Wahaibi MS, Mustafa AEM, et al. Morphologi- [41] Berraies S, Meyer B, Knox RE, et al. Development of a high-
cal characterization and DNA barcoding of Ruellia sp. in Saudi resolution melt (HRM) marker diagnostic to the wheat (Triticum
Arabia[J]. PLoS One, 2025, 20(2): e0315827. aestivum L. ) leaf rust resistance gene Lr 34 [J]. Methods Mol Bi-
[28] Yuan JJ, Wei S, Ma XH, et al. Application of trnH-psbA se- ol, 2025, 2898: 281-290.
quences as DNA barcodes in the identification of weeds in the [42] Tungphatthong C, Urumarudappa SKJ, Awachai S, et al. Differ-
genus aesculus[J/OL]. J Weed Sci(杂草学报), 2016, 34(2): 1-6. entiation of Mitragyna speciosa, a narcotic plant, from allied
[29] Karbarz M, Szlachcikowska D, Zapał A, et al. Unlocking the Mitragyna species using DNA barcoding-high-resolution melt-
genetic identity of endangered Paphiopedilum orchids: a DNA ing (Bar-HRM) analysis[J]. Sci Rep, 2021, 11(1): 6738.
barcoding approach[J]. Genes (Basel), 2024, 15(6): 689. [43] Brlek P, Bulić LK, Bračić M, et al. Implementing whole
[30] Nath S, VanSlambrouck JT, Yao JW, et al. DNA barcoding of genome sequencing (WGS) in clinical practice: advantages,
terrestrial invasive plant species in Southwest Michigan[J]. challenges, and future perspectives[J]. Cells, 2024, 13(6): 504.
Plant Direct, 2024, 8(6): e615. [44] Jin D, Henry P, Shan J, et al. Classification of Cannabis strains
[31] Graham K, Houston R. Evaluation of chloroplast DNA barcod- in the Canadian market with discriminant analysis of principal
ing markers to individualize Papaver somniferum for forensic components using genome-wide single nucleotide polymor-
intelligence purposes[J]. Int J Legal Med, 2024, 138(1): 267- phisms[J]. PLoS One, 2021, 16(6): e0253387.
275. [45] Wang YH, Zhao Y, Bollas A, et al. Nanopore sequencing tech-
[32] Tanaka S, Ito M. DNA barcoding for identification of agar- nology, bioinformatics and applications[J]. Nat Biotechnol,
wood source species using trnL-trnF and matK DNA 2021, 39(11): 1348-1365.
sequences[J]. J Nat Med, 2020, 74(1): 42-50. [46] Hu XX, Liu JJ, Xu TY, et al. Research progress and application
[33] Hao DC, Huang BL, Chen SL, et al. Evolution of the chloro- of the third-generation sequencing technologies in forensic
plast trnL-trnF region in the gymnosperm lineages Taxaceae medicine[J]. Leg Med (Tokyo), 2024, 71: 102532.
and Cephalotaxaceae[J]. Biochem Genet, 2009, 47(5/6): 351- [47] Ryu BR, Gim GJ, Shin YR, et al. Chromosome-level haploid
369. assembly of Cannabis sativa L. cv. pink pepper[J]. Sci Data,
[34] Pan XY, Zheng TT, Zhao YX, et al. Phylogeny and taxonomy 2024, 11(1): 1442.
of the polyploid species that contain St genome (Triticeae; [48] Chang M, He L, Cai L. An overview of genome-wide associa-
Poaceae) based on four nuclear DNA and three chloroplast tion studies[J]. Methods Mol Biol, 2018, 1754: 97-108.
genes[J]. BMC Plant Biol, 2025, 25(1): 183. [49] de Ronne M, Lapierre É, Torkamaneh D. Genetic insights into
[35] Zhang MQ, Zhai XO, He LQ, et al. Morphological description agronomic and morphological traits of drug-type Cannabis re-
and DNA barcoding research of nine Syringa species[J]. Front vealed by genome-wide association studies[J]. Sci Rep, 2024,
Genet, 2025, 16: 1544062. 14(1): 9162.
[36] Barthet MM, Hilu KW. Expression of matK: functional and [50] Chen JS, Ma EB, Harrington LB, et al. CRISPR-Cas12a target
evolutionary implications[J]. Am J Bot, 2007, 94(8): 1402-1412. binding unleashes indiscriminate single-stranded DNase activi-
[37] Zhang XC. Pilot study of identification of hallucinogenic ty[J]. Science, 2018, 360(6387): 436-439.

57 58 59 60 61 62 63 64 65 66 67