Background

Benefiting from molecular cloning and PCR techniques, DNA barcoding has now become a popular means for identification and authentication of plant and animal species. DNA barcoding is less affected by age, physiological condition of samples and environmental factors. The power of discrimination is so high that very closely related varieties can often be differentiated. The experiemental procedures can be divided into four steps: (1) Extraction of DNA from different samples; (2) amplification of DNA; (3) generation of species specific fingerprints or sequences and (4) sequence alignment and comparison.

Target DNA barcodes

Our primarily goal is to include the DNA barcodes recommended by CBOL. We also collect common supplementary barcodes as many studies point out that other regions are also useful in identification. As a result, MMDBD includes the following DNA barcodes:

(A) Nuclear genome

  • Internal transcribed spacer
  • 18S rRNA
  • 28S rRNA
  • 5S rRNA intergenic spacer
  • Elongation factor

(B) Mitochondrial genome

  • Cytochrome c oxidase subunit I (COI)
  • Cytochrome b
  • 12S rRNA
  • 16S rRNA

(C) Chloroplast genome

  • Ribulose-1 5-bisphosphate carboxylase/oxygenase large subunit (rbcL)
  • Maturase K gene (matK)
  • trnH-psbA intergenic spacer
  • RNA polymerase B (rpoB)
  • RNA polymerase C1 (rpoC1)
  • psbK-psbI intergenic spacer
  • atpF-atpH intergenic spacer

How-to

Search:  You can use any keyword less than 100 characters to search, which can be part of the species name, material name, family name, medical part or keyword in the title, journal or abstract of the reference. After obtaining the results, there is a species list at the bottom left.  You may click one of the entries to get the sequence information at the right side of the list. When sequence information is clicked, a detailed layer will show all information about the sequence entry, including material information, sequence information and reference information if available. You can click “Import into BLAST for similar sequences” to submit the sequence to BLAST search, or click “Place into sequence cart” to put the sequence into sequence cart in FASTA format.

BLAST:  Input a raw sequence data into the sequence text box. After obtaining the results shown, you may click the bar of alignment to get the overall information. Expect (E) value is an important parameter in BLAST search, which is a parameter that describes the number of hits one can "expect" to see by chance when searching a database of a particular size. The E-value of a BLAST search for the score S is determined by the number of letters in the database (n), the length of the query sequence (n), the values of K and Lambda (λ) based on the formula E=Kmne-λS. K and Lambda (λ) are the parameters in Karlin-Altschul statistics. Essentially, the E value describes the random background noise. It decreases exponentially as the Score (S) of the match increases. The lower the E-value, or the closer it is to zero, the more "significant" the match is.

Sequence cart: Sequences can be selected from Search or BLAST results and placed into sequence cart, where you can carry out different sequence manipulation, including complement, reverse or reverse complement.

Alignment and Primer Design: You can click “Use all the sequences in cart” to easily place the sequences into the field for multiple sequence alignment by Clustal Omega. The first sequence in the sequence cart will automatically be set as the source sequence, only from which short DNA segment can be selected. By highlighting the potential primer region and clicking “Select or Left/Right Primer”, the source sequence, and the two selected primer regions can be subjected to Primer3 for primer design.

Update:Currently we just provide a template file and support manual updating.

References

Books
  1. Pang-Chui Shaw, Jun Wang, Paul Pui-Hay But. Authentication of Chinese medicinal materials by DNA technology. 2002 World Scientific Publishing, Singapore
  2. 邵鵬柱, 曹暉, 王駿, 畢培曦. 中藥分子鑑定. 復旦大學出版社 2004
Papers

  1. Jacky Fong-Chuen Loo, Grace Wing-Chiu But, Ho-Chin Kwok, Pui-Man Lau, Siu-Kai Kong, Ho-Pui Ho, Pang-Chui Shaw. A rapid sample-to-answer analytical detection of genetically modified papaya using loop-mediated isothermal amplification assay on lab-on-a-disc for field use. Food Chemistry (2019) 274:822-830.
  2. Tin-Hang Wong, Grace Wing-Chiu But, Hoi-Yan Wu, Stacey Shun-Kei Tsang, David Tai-Wai Lau, Pang-Chui Shaw. Medicinal Materials DNA Barcode Database (MMDBD) version 1.5—one-stop solution for storage, BLAST, alignment and primer design. Database (2018) 1–7.
  3. Yat-Tung Lo, Mavis Hong-Yu Yik, Pang-Chui Shaw. Effective authentication of Placenta Hominis. Chinese Medicine (2018) 13:32.
  4. Yat-Tung Lo, Pang-Chui Shaw. DNA-based techniques for authentication of processed food and food supplements. Food Chemistry (2018) 240: 767-774.
  5. Yat-Tung Lo, Pang-Chui Shaw. DNA barcoding in concentrated Chinese medicine granules using adaptor ligation-mediated polymerase chain reaction. J Pharm Biomed Anal. (2018) 149:512–516.
  6. Yat-Tung Lo, Pang-Chui Shaw. Quantification of concentrated Chinese medicine granules by quantitative polymerase chain reaction. J Pharm Biomed Anal. (2017) 145:661-665.
  7. Li-Li Jiang, Yat-Tung Lo, Wei-Ting Chen, Pang-Chui Shaw. DNA authentication of animal-derived concentrated Chinese medicine granules. J Pharm Biomed Anal. (2016) 129:398-404.
  8. Li-Li Jiang, Cheuk-Lun Liu, Yuk-Lau Wong, Chun-Fong Nip, Pang-Chui Shaw. Differentiation of deer tendons from cattle tendons by a loop-mediated isothermal amplification (LAMP) test and bone remodeling bioassays. Chinese Medicine (2015) 10:33.
  9. Li-Li Jiang, Ka-Lok Wong, Yuk-Lau Wong, Wei-Ting Chen, Ming Li, Clara Bik-San Lau, Pang-Chui Shaw. Helicase-dependent amplification is effective in distinguishing Asian ginseng from American ginseng. Food Control (2014) 43:199-205.
  10. Ming Li, Ka-Yee Au, Ling Cheng, Pual Pui-Hay But, Pang-Chui Shaw. Molecular identification and cytotoxicity study of herbal medicinal materials that are confused by Aristolochia herbs. Food Chemistry (2014) 147:332-9.
  11. Ka-Lok Wong, Pual Pui-Hay But, Pang-Chui Shaw. Evaluation of seven DNA barcodes for differentiating closely related medicinal Gentiana species and their adulterants. Chinese Medicine (2013) 8:16.
  12. Ming Li, Yuk-Lau Wong, Li-Li Jiang, Ka-Lok Wong, Yuen-Ting Wong, Clara Bik-San Lau, Pang-Chui Shaw. Application of novel loop-mediated isothermal amplification (LAMP) for rapid authentication of the herbal tea ingredient Hedyotis diffusa Willd. Food Chemistry (2013) 141:2522-5.
  13. Ming Li, Paul Pui-Hay But, Pang-Chui Shaw. Molecular identification of traditional medicinal materials. In: Molecular Pharmacognosy. Shanghai scientific and technical publishers (2013) pp. 45-66
  14. JIng Yu, Ming Li, Xing Guo, Rui-Jiang Wang, Siu-Wai Chiu, Pang-Chui Shaw, Paul Pui-Hay But. Value of FINS depends on choice of DNA locus as shown Baihuasheshecao. Journal of Food and Drug Analysis (2012) 20:879-886
  15. Paul Pui-Hui But, Ming Li, Mathew Siu-Ming Wan, Yiu-Man Chan. Exacum paucisquamum (C.B. Clarke) Klack. - a New Record of Mycoheterotroph (Gentianaceae) to the Flora of Hong Kong. Taiwania (2012) 57(3):300-4.
  16. Ming Li, Ka-Yee Au, Hilary Lam, Ling Cheng, Ren-Wang Jiang, Pui-Hay But, Pang-Chui Shaw. Identification of Baiying (Herba Solani Lyrati) commodity and its toxic substitute Xungufeng (Herba Aristolochiae Mollissimae) using DNA barcoding and chemical profiling techniques. Food Chemistry (2012) 135(3):1653-8.
  17. Ka-Lok Wong, Pang-Chui Shaw. Application of bioinformatics in molecular authentication of traditional Chinese medicinal materials. China Journal of Chinese Materia Medica (2012) 37:1072-1075
  18. Ming Li, Ka-Lok Wong, Wing-Hin Chan, Jie-Xin Li, Paul Pui-Hay But, Hui Cao, Pang-Chui Shaw. Establishment of DNA barcodes for the identification of the botanical sources of the Chinese 'cooling' beverage. Food Control (2012) 25:758-766
  19. Wing-Hin Chan, Ka-Ho Ling, Pang-Chui Shaw, Siu-Wai Chiu, Paul Pui-Hay But. Application of FINS and multiplex PCR for detecting genuine abalone products. Food Control (2012) 23:137-142
  20. Ming Li, Hui Cao, Paul Pui-Hay But, Pang-Chui Shaw. Identification of herbal medicinal materials using DNA barcodes. Journal of Systematics and Evolution (2011) 49:271-283
  21. Ming Li, Kalin Yan-Bo Zhang, Paul Pui-Hay But, Pang-Chui Shaw. Forensically informative nucleotide sequencing (FINS) for the authentication of Chinese medicinal materials. Chinese Medicine (2011) 6:42
  22. Wing-Hin Chan, Ka-Ho Ling, Siu-Wai Chiu, Pang-Chui Shaw, Paul Pui-Hay But. Molecular analyses of Cordyceps gunnii in China. Journal of Food and Drug Analysis (2011) 19:18-25
  23. Sue Ka-Yee Law, Mark P. Simmons, Natascha Techen, Ikhlas A. Khan, Ming-Fang He, Pang-Chui Shaw, Paul Pui-Hay But. Molecular analyses of the Chinese herb Leigongteng (Tripterygium wilfordii Hook.f.) Phytochemistry (2011) 72:21-26
  24. Xing Guo, Mark P. Simmons, Paul Pui-Hay But, Pang-Chui Shaw, Rui-Jiang Wang. Application of DNA barcodes in Hedyotis L. (Spermacoceae, Rubiaceae). Journal of Systematics and Evolution (2011) 203-212
  25. Shao-Ke Lou, Ka-Lok Wong, Ming Li, Paul Pui-Hay But, Stephen Kwok-Wing Tsui, Pang-Chui Shaw. An integrated web medicinal materials DNA databasae:MMDBD (Medicinal Materials DNA Barcode Database). BMC Genomics (2010) 11:402
  26. Chang Su, Ka-Lok Wong, Paul Pui-Hay But, Wei-Wei Su, Pang-Chui Shaw. Molecular authentication of the Chinese herb Huajuhong and relaated medicinal materials by DNA sequencing and ISSR markers. Journal of Food and Drug Analysis (2010) 18:161-170
  27. Ming Li, Ka-Ho Ling, Hilary Lam, Pang-Chui Shaw, ling Cheng, Natascha Techen, Ikhlas A. Khan, Yuan-Shiun Chang, Paul Pui-Hay But. Cardiocinum seeds as a replacement for Aristolochia fruits in treating cough. Journal of Ethnopharmacology (2010) 130:429-432
  28. Jun He, Ka-Lok Wong, Pang-Chui Shaw, Hong Wang, De-Zhu Li. Identification of the medicinal plants in Aconitum L. by DNA barcoding technique. Planta Medica (2010) 76:1622-1628
  29. Ka-Ho Ling, Yanli Wang, Wing-Sem Poon, Pang-Chui Shaw, Paul Pui-Hay But. The relationship of Fagaropsis and Luvunga in Rutaceae. Taiwania (2010) 54:338-342
  30. Pang-Chui Shaw, Ka-Lok Wong, Albert Wai-Kit Chan, Wai-Cheong Wong, Paul Pui-Hay But. Patent applications for using DNA technologies to authenticate medicinal herbal material. Chinese Medicine (2009) 4:21
  31. Paul Pui-Hay But, Alice Wing-Sem Poon, Pang-Chui Shaw, Mark P. Simmons, Harald Greger. Contribution of molecular cladistics to the taxonomy of Rutaceae in China. Journal of Systematics and Evolution (2009) 47: 144-150
  32. Feng Chen, Ho-Yin Edwin Chan, Ka-Lok Wong, Jun Wang, Man-Tang Yu, Paul Pui-Hay But, Pang-Chui Shaw. Authentication of Saussurea lappa, an endangered medicinal material, by ITS DNA and 5S rRNA sequencing. Planta Medica (2008) 74: 889-892
  33. Stephen Cho-Wing Sze, Kalin Yan-Bo Zhang, Pang-Chui Shaw, Paul Pui-Hay But, Tzi-Bun Ng, Yao Tong. A DNA microarray for differentiation of the Chinese medicinal herb Dendrobium officinale (Fengdou Shihu) by its 5S ribosomal DNA intergenic spacer region. Biotechnol Appl Biochem (2008) 49: 149-154
  34. Man-tang Yu, Ka-Lok Wong, Yu-ying Zong, Pang-Chui Shaw, Chun-tao Che. Identification of Swertia mussottii and its adulterant Swertia species by 5S rRNA gene spacer. China Journal of Chinese Materia Medica (2008) 33: 502-504
  35. Wing-Sem Poon, Pang-Chui Shaw, Mark P. Simmons, Paul Pui-Hay But. Congruence of molecular, morphological, and biochemical profiles in Rutaceae: a Cladistic analysis of the subfamilies Rutoideae and Toddalioideae. Systematic Botany (2007) 32:837-846
  36. Yan-Bo Zhang, Ren-Wang Jiang, Song-Lin Li, Chun-Feng Qiao, Quan-Bin Han, Hong-Xi Xu, Ka-Lok Wong, Paul Pui-Hay But, Pang-Chui Shaw. Chemical and molecular characterization of Hong Dangshen, a unique medicinal materials for diarrhea in Hong Kong. Journal of Chinese Pharmaceutical Science (2007) 16: 202-207
  37. Ye Sun, Kwok-Pui Fung, Ping-Chung Leung, Pang-Chui Shaw. A phylogenetic analysis of Epimedium (Berberidaceae) based on nuclear ribosomal DNA sequences. Molecular Phylogenetics and Evolution (2005) 35: 287-291
  38. Ka-Lok Wong, Jun Wang, Paul Pui-Hay But, Pang-Chui Shaw. Application of cytochrome b DNA sequences for the authentication of endangered snake species. Forensic Science International (2004) 139: 49-55
  39. Yan-Bo Zhang, Jun Wang, Zheng-Tao Wang, Paul Pui-Hay But, Pang-Chui Shaw. A DNA microarray for identification of the herb of Dendrobium species from Chinese medicinal formulations. Planta Medica (2003) 69: 1172-1174
  40. Forrest Chung-Fai Yau, Ka-Lok Wong, Pang-Chui Shaw, Paul Pui-Hay But, Jun Wang. Authentication of snakes used in Chinese medicine by sequence characterized amplified region (SCAR). Biodiversity and conservation (2002) 11: 1653-1662
  41. Forrest Chung-Fai Yau, Ka-Lok Wong, Pang-Chui Shaw, Paul Pui-Hay But, Jun Wang. Generation of a sequence characterized amplified region probe for authentication of Crocodilian species. Journal of experimental zoology (mol dev evol) 294: 382-386
  42. Jun Wang, Wai-Yan Ha, Fai-Ngor Ngan, Paul Pui-Hay But, Pang-Chui Shaw. Application of sequence characterized amplified region (SCAR) analysis to authenticate Panax species and their adulterants. Planta Medica (2001) 67: 781-783
  43. Wai-Yan Ha, Forrest Chung-Fai Yau, Paul Pui-Hay But, Jun Wang, Pang-Chui Shaw. Direct amplification of length polymorphism analysis differentiates Panax ginseng from P. quinquefolius. Planta Medica (2001) 67: 587-589
  44. David Tai-Wai Lau, Pang-Chui Shaw, Jun Wang, Paul Pui-Hay But. Authentication of medicinal Dendrobium species by the internal transcribed spacer of ribosomal DNA. Planta Medica (2001) 67: 456-460
  45. Rong-Zhao Fu, Jun Wang, Yan-Bo Zhang, Zeng-Tao, Paul Pui-Hay But. Differentiation of medicinal Codonopsis species from adulterants by polymerase chain reaction-restriction fragment length polymorphism. Planta Medica (1999) 65: 648-650
  46. Ngan F, Pang-Chui Shaw, Paul Pui-Hay But, Jun Wang. Molecular authentication of Panax species. Phytochemistry (1999) 50:787-791
  47. Yan-Bo Zhang, Fai-Ngor Ngan, Zheng-Tao Wang, Tzi-Bun Ng, Paul Pui-Hay But, Pang-Chui Shaw, Jun Wang. Random primed polymerase chain reaction differentiates Codonposis pilosula from different localities. Planta Medica (1999) 157-160
  48. Pang-Chui Shaw, Fai-Ngor Ngan, Paul Pui-Hay But, Jun Wang. Authentication of Chinese medicinal materials by DNA technology. Journal of Food and Drug Analysis (1997) 5: 273-284
  49. Hui Cao, Paul Pui-Hay But, Pang-Chui Shaw. Authentication of the Chinese drug “Ku-Di-Dan” (HERBA ELEPHANTOPI) and its substitutes using random-primed polymerase chain reaction (PCR). Acta Pharmaceutica Sinca (1996) 31: 543-553
  50. Pang-Chui Shaw, Paul Pui-Hay But. Authentication of Panax species and their adulterants by random-primed polymerase chain reaction. Planta Medica (1995) 61: 466-469