Chen F, Chan H Y E, Wong K L, et al. Authentication of Saussurea lappa, an endangered medicinal material, by ITS DNA and 5S rRNA sequencing [J]. Planta Med, 2008, 74: 889.
[2]
Sasaki Y, Fushimi H, Cao H, et al. Sequence analysis of Chinese and Japanese Curcuma drugs on the 18S rRNA gene and trnK gene and the application refractory mutation system analysis for their authentication[J]. Biol Pharm Bull,2002, 25(12):1593.
[3]
Guo Y H, Tsuruga A, Yamaguchi S, et al. Sequence analysis of chloroplast chlB gene of medicinal Ephedra species and its application to authentication of Ephedra herb[J]. Biol Pharm Bull,2006, 29(6):1207.
[4]
Hebert P D N, Cywinska A, Ball S L, et al. Biological identifications through DNA barcodes [J]. Proc Biol Sci, 2003, 270: 213.
[5]
Ross H A, Murugan S, Li W L S. Testing the reliability of genetic methods of species identification via simulation [J]. Syst Biol,2008, 57(2):216.
Hu J G, Vick B A. Target region amplification polymorphism: a novel marker technique for plant genotyping [J]. Pl Mol Biol Rep, 2003, 21: 289.
[8]
Wang J, Ha W Y, Ngan F N, et al. Application of sequence characterized amplified region (SCAR) analysis to authenticate Panax species and their adulterants [J]. Planta Med, 2001, 67:781.
[9]
Dnyaneshwar W, Preeti C, Kalpana J, et al. Development and application of RAPD-SCAR marker for identification of Phyllanthus emblica Linn [J]. Biol Pharm Bull, 2006, 29(11):2313.
[10]
Theerakulpisut P, Kanawapee N, Maensiri D, et al. Development of species-specific SCAR markers for identification of three medicinal species of Phyllanthus . J Syst Evol, 2008, 26(4): 614.
Carles M, Cheung M K L, Moganti S, et al. A DNA microarray for the authentication of toxic traditional Chinese medicinal plants [J]. Planta Med, 2005, 71:580.
Chen S L, Yao H, Han J P, et al. Validation of the ITS2 region as a novel DNA barcode for identifying medicinal plant species [J]. PLoS One, 2010, 5(1):e8613.
[16]
Sone J Y, Yao H, Li Y, et al. Authentication of the family polygonaceae in Chinese Pharmacopoiea by DNA barcoding technique [J]. J Ethnopharmacol,2009, 124:434.
[17]
Yao H, Song JY, Ma XY, et al. Identification of Dendrobium species by a candidate DNA barcode sequence : the chloroplast psbA-trnH intergenic region [J]. Planta Med,2009, 75:667.
Ding X Y, Wang Z T, Zhou K Y, et al. Allele-specific primers for diagnostic PCR authentication of Dendrobium officinale [J]. Planta Med, 2003, 69(6): 587.
[21]
Li X X, Ding X Y, Chu B H, et al. Molecular authentication of Alisma orientale by PCR-RFLP and ARMS [J]. Planta Med, 2007,73(1):67.
[22]
Lu S, Ding X Y, Han L, et al. Confirming the genetic identity of Dendrobium fimbriatum using an Amplication Refractory Mutation System (ARMS) [J]. Pl Mol Biol Rep, 2010, doi:10. 1007/s11105-010-0190-4.
[23]
Liu Z Q, Wang Y Q, Zhou K Y, et al. Authentication of Chinese crude drug, Gecko, by allele-specific diagnostic PCR[J]. Planta Med, 2001, 67:385.
[24]
Qian L, Ging G, Zhou Q, et al. Molecular authentication of Dendrobium loddigesii Rolfe by Amplification Refractory Mutation System (ARMS) [J]. Planta Med, 2008, 74(4):470.
[25]
Um J Y, Chung H S, Kim M S, et al. Molecular authentication of Panax ginseng species by RAPD analysis and PCR-RFLP [J]. Biol Pharm Bull,2001, 24:872.
[26]
Wang C Z, Li P, Ding J Y, et al. Identification of Fritillaria pallidiflora using diagnostic PCR and PCR-RFLP based on nuclear ribosomal DNA internal transcribed spacer sequences [J]. Planta Med, 2005, 71:384.
[27]
Zhou X W, Li Q Z, Yin Y Z, et al. Identification of medical Genoderma species based on PCR with specific primer and PCR-RFLP [J]. Planta Med,2008, 74:197.
[28]
Zhu S, Fushimi H, Cai S Q, et al. Species identification from Ginseng drugs by muliplex amplification refractory mutation system (MARMS) [J]. Planta Med, 2004, 70(2):189.
[29]
Fu R C, Shaw P C, Wang J, et al. RAPD differentiation of five medicinal Dysosma species [J]. J Chin Pharm Sci,2000, 9(2):57.
[30]
Ha W Y, Yao F C F, But P P H, et al. Direct amplification of length polymorphism analysis differentiates Panax ginseng from P. quinquefolius [J]. Planta Med,2001, 67:587.
[31]
Lu C M, Zhang W M, Peng X M, et al. Development of randomly amplified polymorphic DNA-sequence characterized amplified region marker for identification of Apocynum venetum Linn. from A. pictum Schrenk [J]. Biol Pharm Bull, 2010, 33:522.
[32]
Khan S, Mirza K J, Tayaab M, et al. RAPD profile for authentication of medicinal plant Glycyrrhiza glabra Linn. [J]. Internet J Food Safety, 2009, 11:24.
[33]
Zietkiewicz E, Rafalski A, Labuda D. Genome fingerprinting by simple sequence repeat (SSR)-anchored polymerase chain reaction amplification [J]. Genomics, 1994, 20:176.
[34]
Souframanien J, Gopalakrishna T. A comparative analysis of genetic diversity in blackgram genotypes using RAPD and ISSR markers [J]. Theor Appl Genet, 2004, 109:1687.
[35]
Desmarais E, Lanneluc I, Lagnel J. Direct amplification of length polymorphisms (DALP), or how to get and characterize new genetic markers in many species [J]. Nudeic Acids Res, 1998, 26:1458.
[36]
Li G, Quiros C F. Sequence-related amplified polymorphism (SRAP), a new marker system based on a simple PCR reaction: its application to mapping and gene tagging in Brassica[J]. Theor Appl Genet, 2001, 103(2/3): 455.
[37]
Moon B C, Choo B K, Cheon M S, et al. Rapid molecular authentication of three medicinal plant species, Cynanchum wilfordii, Cynanchum auriculatum, and Polygonum multiflorum (Fallopia mutiflorum), by the development of RAPD-derived SCAR markers and multiplex-PCR [J]. Plant Biotechnol Rep, 2010, 4(1):1.
[38]
Choi Y E, Ahn C H, Kim B B, et al. Development of species specific AFLP-derived SCAR marker for authentication of Panax japonicus C. A. Meyer[J]. Biol Pharm Bull, 2008, 31(1):135.
[39]
Kwon H K, Ahn C H, Choi Y E. Molecular authentication of Panax notoginseng by specific AFLP-derived SCAR marker [J]. J Med Plants Res, 2009, 3(11):957.
[40]
Su H Y, Wang L, Ge Y H, et al. Development of strain-specific SCAR markers for authentication of Ganoderma lucidum [J]. World J Microbiol Biotechnol, 2008, 24(7):1223.
