Summary
The development and applications of molecular markers to hemp breeding are recent, dating back only to the mid-1990s. The main achievements in this field are reviewed. The analysis of Cannabis germplasm by RAPD, AFLP and microsatellites is discussed, with its consequence for the still debated species concept in Cannabis. DNA-based markers have also been exploited in the field of forensic science, in an attempt to discriminate licit from illicit crop. The main applications of the molecular markers to the breeding, however, have been achieved with the development of markers closely linked to the male sex and to some of the most relevant chemotypes. Active research is carried out by several groups in the field of identification and characterization of the genes involved in fiber quality and quantity, and in the determination of monoecy, another very important target of hemp breeding. Besides, markers associated to new, potentially useful chemotypes are being developed, for the marker-assisted breeding of pharmaceutical Cannabis.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alghanim, H.J. & J.R. Almirall, 2003. Development of microsatellite markers in Cannabis sativa for DNA typing and genetic relatedness analysis. Anal Bioanal Chem 376: 1225–1233.
Bartsch, D., M. Lehnen, J. Clegg, M. Pohl-Orf, I. Schuphan & N. Ellstrand, 1999. Impact of gene flow from cultivated beet on genetic diversity of wild sea beet populations. Mol Ecol 8: 1733–1741.
Beckmann, J.S. & M. Soller, 1983. Restriction fragment length polymorphisms in genetic improvement: Methodologies, mapping and costs. Theor Appl Genet 67: 35–43.
Becu, D.M.S., H.D. Mastebroek & H.J.P. Marvin, 1998. Breeding for root knot nematode resistance in hemp. In: Proceedings of ‘Bast Fibrous Plants Today and Tomorrow’, 28–30 September, p. 149, St. Petersburg.
Boudet, A.M., S. Kajita, J. Grima-Pettenati & D. Goffner, 2003. Lignin and lignocellulosics: A better control of synthesis for new and improved uses. Trends Plant Sci 8: 576–581.
Brown, A.H.D. & B.S. Weir, 1983. Measuring genetic variability in plant populations. In: S.D. Tanksley, T.J. Orton, (Eds.), Isozymes in Plant Genetics and Breeding: Vol. 1A. Developments in Plant Genetics and Breedings, pp. 219–240. Elsevier, Amsterdam.
Carboni, A., C. Paoletti, V.M.C. Moliterni, P. Ranalli & G. {Mandolino,} 2000. Molecular markers as genetic tools for hemp characterization. In: Proceedings of Bioresource Hemp, 13–18 September, Wolfsburg. On line at www.nova-institut.de/bioresource-hemp/op.htm.
Carpita, N., M. Terney & M. Campbell, 2001. Molecular biology of plant cell wall: Searching the genes that define structure, architecture and dynamics. Plant Mol Biol 47: 1–5.
Clark, M.S., J.S. Parker & C.A. Ainsworth, 1993. Repeated DNA and heterochromatine structure in Rumex acetosa. Heredity 70: 527–536.
Coyle, H.M., G. Shutler, S. Abrams, J. Hanniman, S. Neylon, C. Ladd, T. Palmbach & H.C. Lee, 2003. A simple DNA extraction method for marijuana samples used in amplified fragment length polymorphism (AFLP) analysis. J Forensic Sci 48: 343–347.
de Meijer, E.P.M., M. Bagatta, A. Carboni, P. Crucitti, V.M.C. Moliterni, P. Ranalli & G. Mandolino, 2003. The inheritance of chemical phenotype in Cannabis sativa L. Genetics 163: 335–346.
Di Stilio, V.S., R.V. Kesseli & D.L. Mulcahy, 1998. A pseudoautosomal random amplified polymorphic DNA marker for the sex chromosomes of Silene dioica. Genetics 149: 2057–2062.
Faeti, V., G. Mandolino & P. Ranalli, 1996. Genetic diversity of Cannabis sativa germplasm based on RAPD markers. Plant Breed 115: 367–370.
Fellermeier, M. & M.H. Zenk, 1998. Prenylation of olivetolate by a hemp transferase yields cannabigerolic acid, the precursor of tetrahydrocannabinol. FEBS Lett 427: 283–285.
Fellermeier, M., W. Eisenreich, A. Bacher & M.H. Zenk, 2001. Biosynthesis of cannabinoids. Incorporation experiments with 13C-labeled glucoses. Eur J Biochem 268: 1596–1604.
Flachowsky, H., E. Schumann, W.E. Weber & A. Peil, 2001. Application of AFLP for the detection of sex-specific markers in hemp. Plant Breed 120: 305–309.
Forapani, S., A. Carboni, C. Paoletti, V.M.C. Moliterni, P. Ranalli & G. Mandolino, 2001. Comparison of hemp (Cannabis sativa L.) varieties using Random Amplified Polymorphic DNA markers. Crop Sci 41: 1682–1689.
Fournier, G. & M. Paris, 1980. Détermination de chimiotypes à partir des cannabinoïdes chez le chanvre à fibres monoïque (Cannabis sativa L.) Possibilités de sélection. Physiologie Végétale 18: 349–356.
Fournier, G., C. Richez-Dumanois, J. Duvezin, J.-P. Mathieu & M. Paris, 1987. Identification of a new chemotype in Cannabis sativa: Cannabigerol-dominant plants, biogenetic and agronomic prospects. Planta Med 53: 277–280.
Gillan, K., M.D. Cole, A. Linacre, J.W. Thorpe & N.D. Watson, 1995. Comparison of Cannabis sativa by Random Amplified of Polymorphic DNA (RAPD) and HPLC of cannabinoids: A preliminary study. Sci Justice 35: 169–177.
Gilmore, S. & R. Peakall, 2003. Isolation of microsatellite markers in Cannabis sativa L. (marijuana). Mol Ecol Notes 3: 105–108.
Gilmore, S., R. Peakall & J. Robertson, 2003. Short Tandem Repeat (STR) DNA markers are hypervariable and informative in Cannabis sativa: Implications for forensic investigations. Forensic Sci Int 131: 65–74.
Hillig, K., 2004. Genetic evidence for speciation in Cannabis (Cannabaceae). Gen Res Crop Evol, in press.
Hsieh, H.M., R.J. Hou, L.C. Tsai, C.S. Wei, S.W. Liu, L.H. Huang, Y.C. Kuo, A. Linacre & J.C.I. Lee, 2003. A highly polymorphic STR locus in Cannabis sativa. Forensic Sci Int 131: 53–58.
Jagadish, V., J. Robertson & J. Gibbs, 1996. A RAPD analysis distinguished Cannabis sativa samples from different sources. Forensic Sci Int 79: 113–121.
Jake, J., K. Kindlhofer & B. Javornik, 2001. Assessment of genetic variation and differentiation of hop genotypes by microsatellites and AFLP markers. Genome 44: 773–782.
Kim, E.S. & P.G. Mahlberg, 2003. Secretory vescicle formation in the secretory cavity of glandular trichomes of Cannabis sativa L. (Cannabaceae). Mol Cells 15: 387–395.
Kohjyouma, M., I.-J. Lee, O. Iida, K. Kurihara, K. Yamada, Y. Makino, S. Sekita & M. Satake, 2000. Intraspecific variation in Cannabis sativa L. based on intergenic spacer region of chloroplast DNA. Biol Pharm Bull 23: 727–730.
Kojoma, M., O. Iida, Y. Makino, S. Sekita, M. Satake, 2002. DNA fingerprinting of Cannabis sativa using Inter-Simple Sequence Repeat (ISSR) amplification. Planta Med 68: 60–63.
Lewontin, R.C. & J.L. Hubby, 1966. A molecular approach to the study of genic heterozygosity in natural populations. II. Amount of variation and degree of heterozygosity in natural populations of Drosophila pseudoobscura. Genetics 54: 595–609.
Linacre, A. & J. Thorpe, 1998. Detection and identification of cannabis by DNA. Forensic Sci Int 91: 71–76.
Mandolino, G., V. Faeti, A. Carboni & P. Ranalli, 1997. A 400 bp marker tightly linked to the male phenotype in dioecious hemp. In: Proceedings of the 2nd Bioresource Hemp Symposium, 27 February–2 March, pp. 195–196, Frankfurt, Germany.
Mandolino, G., A. Carboni, S. Forapani & P. Ranalli, 1998. DNA markers associated with sex phenotype in hemp (Cannabis sativa L.). In: Proceedings of the Bast Fibrous Plants Today and Tomorrow Meeting, 28–30 September, pp. 197–201, St. Petersburg, Russia.
Mandolino, G., A. Carboni, S. Forapani, V. Faeti, P. Ranalli, 1999. Identification of DNA markers linked to the male sex in dioecious hemp (Cannabis sativa L.). Theor Appl Genet 98: 86–92.
Mandolino, G., A. Carboni, M. Bagatta, V.M.C. Moliterni & P. Ranalli, 2002. Occurrence and frequency of putatively Y chromosome linked DNA markers in Cannabis sativa L. Euphytica 126: 211–218.
Mandolino, G. & P. Ranalli, 2002. The application of molecular markers in genetics and breeding of hemp. J Ind Hemp 7: 7–23.
Mandolino, G., M. Bagatta, A. Carboni, P. Ranalli, & E.P.M. de {Meijer,} 2003. Qualitative and quantitative aspects of the inheritance of chemical phenotype in Cannabis. J Ind Hemp 8: 51–72.
Mohan, M., S. Nair, A. Baghwat, T.G. Krishna, M. Yano, C.R. Bhatia & T. Sasaki, 1997. Genome mapping, molecular markers and marker-assisted selection in crop plants. Mol Breed 3: 87–103.
Morgante, M. & A.M. Olivieri, 1993. PCR-amplified microsatellites as markers in plant genetics. Plant J 3: 175–182.
Morris, D., 2002. Why has the hemp revolution bypassed the United States? J Ind Hemp 7: 61–65.
Paran, I. & R.W. Michelmore, 1993. Development of PCR-based markers linked to downy mildew resistance in lettuce. Theor Appl Genet 85: 985–993.
Peil, A., E. Schumann, H. Flachowsky, U. Kriese, M. El Ghani, M. Riedel & W.E. Weber, 2000. AFLP markers for male plants of hemp (Cannabis sativa L.). In: Proceedings of the Bioresource Hemp, 13–18 September, Wolfsburg, Germany. On line at www.nova-institut.de/bioresource-hemp/op.htm.
Peil, A., H. Flachowsky, E. Schumann & W.E. Weber, 2001. In: Proceedings of the International Conference on “Bast Fibrous Plants on the Turn of the Second and Third Millennium”, 18–22 September, pp. 1–7, Shenyang, China.
Peil, A., H. Flachowsky, E. Schumann & W.E. Weber, 2003. Sex-linked AFLP markers indicate a pseudoautosomal region in hemp (Cannabis sativa L.). Theor Appl Genet 107: 102–109.
Rick, C.M. & J. Fobes, 1974. Association of an allozyme with nematode resistance. Tomato Genet Coop Rep 24, 25.
Sakamoto, K., K. Shimomura, Y. Komeda, H. Kamada & S. Satoh, 1995. A male-associated DNA sequence in a dioecious plant, Cannabis sativa L. Plant Cell Physiol 36: 1549–1554.
Sakamoto, K., Y. Akiyama, K. Fukui, H. Kamada & S. Satoh, 1998. Characterization, genome sizes and morphology of sex chromosomes in hemp (Cannabis sativa L.). Cytologia 63: 459–464.
Sakamoto, K., N. Ohmido, K. Fukui, H. Kamada & S. Satoh, 2000. Site-specific accumulation of a LINE-like retrotransposon in a sex chromosome of the dioecious plant Cannabis sativa. Plant Mol Biol 44: 723–732.
Shao, H., S.-J. Song & R.C. Clarke, 2003. Female-associated DNA polymorphisms of hemp (Cannabis sativa L.). J Ind Hemp 8: 5–9.
Siniscalco Gigliano, G., P. Caputo & S. Cozzolino, 1997. Ribosomal DNA analysis as a tool for the identification of Cannabis sativa L. specimens of forensic interest. Sci Justice 37: 171–174.
Siniscalco Gigliano, G. & A. Di Finizio, 1997. The Cannabis sativa L. fingerprint as a tool in forensic investigations. Bull Narcotics 1: www.unodc.org/unodc/en/bulletin/bulletin_1997-01-01_1_page007.html.
Small, E. & H.D. Beckstead, 1973. Common cannabinoid phenotypes in 350 stocks of Cannabis. Lloydia 36: 144–165.
S.D., N.D. Young, A.H. Paterson & M.W. Bonierbale, 1989. RFLP mapping in plant breeding: new tools for an old science. Biotechnology 7: 264.
Taura, F., S. Morimoto & Y. Shoyama, 1995. First direct evidence for the mechanism of delta 1-tetrahydrocannabinolic acid biosynthesis. J Am Chem Soc 38: 9766–9767.
Taura, F., S. Morimoto & Y. Shoyama, 1996. Purification and characterization of cannabidiolic-acid synthase from Cannabis sativa L. J Biol Chem 271: 17411–17416.
Toth, G., Z. Gáspári & J. Jurka, 2000. Microsatellites in different eukaryotic genomes: Survey and analysis. Genome Res 10: 967–981.
Vos, P., R. Hogers, M. Bleeker, M. Reijans, T. van de Lee, M. Hornes, A. Frijters, J. Pot, J. Peleman, M. Kuiper & M. Zabeau, 1995. AFLP: A new technique for DNA fingerprinting. Nucleic Acids Res 23: 4407–4414.
Wilkinson, M. & A. Linacre, 2000. The detection and persistence of Cannabis sativa DNA on skin. Sci Justice 40: 11–14.
Williams, J.G.K., A.R. Kubelik, K.J. Livak, J.A. Rafalski & S.V. Tingey, 1990. DNA polymorphism amplified by arbitrary primers are useful as genetic markers. Nucleic Acids Res 18: 6531– 6535.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Mandolino, G., Carboni, A. Potential of marker-assisted selection in hemp genetic improvement. Euphytica 140, 107–120 (2004). https://doi.org/10.1007/s10681-004-4759-6
Issue Date:
DOI: https://doi.org/10.1007/s10681-004-4759-6