Publications
Found 3 results
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“Comparative genetic analysis of trichome-less and normal pod genotypes of Mucuna pruriens (Fabaceae)”, vol. 10, pp. 2049-2056, 2011.
, Bailey LH (1907). Encyclopedia of American Agriculture: A Popular Survey of Agricultural Conditions, Practices and Ideals in the United States and Canada. Vol. II. Macmillan and Co., London, 656-658.
Bell EA, Nulu JR and Cone C (1971). L-Dopa and L-3 carboxy-6, 7-dihydroxy-1,2,3,4-tetrahydroisoquinoline, a new imino acid from seeds of Mucuna mutisiana. Phytochemistry 10: 2191-2194.
http://dx.doi.org/10.1016/S0031-9422(00)97217-0
Bort KS (1909). The Florida Velvet Bean and its History. Government Printing Office, Washington, DC, USA. Bureau of Plant Industry Bulletin No. 141, 25-32.
Buckles D (1995). Velvet bean: a new plant with a history. Econ. Bot. 49: 13-25.
http://dx.doi.org/10.1007/BF02862271
Caius JF (1989). The Medicinal and Poisonous Legumes of India. Scientific Publications, Jodhpur.
Capo-Chichi LJA, Weaver DB and Morton CM (2001). AFLP assessment of genetic variability among velvet bean (Mucuna sp.) accessions. Theor. Appl. Genet. 103: 1180-1188.
http://dx.doi.org/10.1007/s001220100722
Daxenbichler ME, VanEteen CH, Earle FR and Tallent WH (1972). L-dopa recovery from Mucuna seed. J. Agr. Food Chem. 20: 1046-1048.
http://dx.doi.org/10.1021/jf60183a002
PMid:5057437
Duggar JF (1899). Velvetbeans. Alabama Agriculture Experiment Station, Aubum, Bulletin No. 104.
Duke JA (1981). Handbook of Legumes of World Economic Importance. Plenum Press, New York.
Hadrys H, Balick M and Schierwater B (1992). Applications of random amplified polymorphic DNA (RAPD) in molecular ecology. Mol. Ecol. 1: 55-63.
http://dx.doi.org/10.1111/j.1365-294X.1992.tb00155.x
PMid:1344984
Khanuja SPS, Shasany AK, Dhawan S and Kumar S (1998). Rapid procedure for isolating somaclones of altered genotypes in Mentha arvensis. J. Med. Arom. Plant Sci. 20: 359-361.
Khanuja SPS, Shasany AK, Darokar MP and Kumar S (1999). Rapid isolation of PCR amplifiable DNA from the dry and fresh samples of plants producing large amounts of secondary metabolites and essential oils by modified CTAB procedure. Plant Mol. Biol. Rep. 17: 74.
http://dx.doi.org/10.1023/A:1007528101452
Khanuja SPS, Kumar S, Shasany AK and Srivastava A (2000). Assessment of genetic relationships in Mentha species. Euphytica 111: 121-125.
http://dx.doi.org/10.1023/A:1003829512956
Lubis SHA, Sastrapradja S, Lubis I and Sastrapradja D (1979). Genetic variation of Mucuna pruriens. II. Inheritace of flower color. Ann. Bogorienses 6: 187-191.
Lubis SHA, Sastrapradja S, Lubis I and Sastrapradja D (1980). Genetic variation of Mucuna pruriens. IV. Inheritace and genotypes of seed coat colors. Ann. Bogorienses 7: 79-87.
Nei M and Li W (1979). Mathematical model for studying genetic variation in terms of restriction endonucleases. Proc. Natl. Acad. Sci. U.S.A. 79: 5269-5273.
http://dx.doi.org/10.1073/pnas.76.10.5269
Saikia D, Khanuja SPS, Shasany AK, Darokar MP, et al. (2000). Assessment of diversity among Taxus wallichiana accessions from northeast India using RAPD analysis. Plant Genet. Resour. Newslett. 121: 27-31.
Sastrapradja S, Sastrapradja D, Aminah SH, Lubis I, et al. (1974). Morphological and cytological investigations on some species of Mucuna (Papilionaceae). Ann. Bogorienses 5: 173-178.
Sastry CST and Kavathekar YY (1990). Plants for Reclamation of Wastelands. Publications and Information Directorate, New Delhi.
Shasany AK, Darokar MP, Dhawan S, Gupta AK, et al. (2005). Use of RAPD and AFLP markers to identify inter- and intraspecific hybrids of Mentha. J. Hered. 96: 542-549.
http://dx.doi.org/10.1093/jhered/esi091
PMid:16135712
“Genetics of quantitative and qualitative traits of isabgol (Plantago ovata)”, vol. 8, pp. 939-950, 2009.
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