Agriculture Reference
In-Depth Information
[42]
Zarkadas, C. G.; Gagnon, C.; Gleddie, S.; Khanizadeh, S.; Cober, E. R.; Guillemette,
R. J. D. Assessment of the protein quality of fourteen soybean [Glycine max (L.)
Merr.] cultivars using amino acid analysis and two-dimensional electrophoresis.
Food
Res. Int
., 2007, 40, 129-146.
[43]
Cui, Z.; Carter, T. E., Jr.; Burton, J. W.; Wells, R. Phenotypic diversity of modern
Chinese and North American soybean cultivars.
Crop Sci
., 2001, 41, 1954-1967.
[44]
Gizlice, Z.; Carter, T. E., Jr.; Burton, J. W. Genetic diversity in North American
soybean: I. Multivariate analysis of founding stock and relation to coefficient of
parentage.
Crop Sci
., 1993, 33, 614-620.
[45]
Wagner, C. K.; McDonald, M. B. Rapid laboratory tests useful for differentiation of
soybean (Glycine max) cultivars.
Seed Sci. & Technol
., 1982, 10, 431-449.
[46]
Jianhua, Z.; McDonald, M. B.; Sweeney, P. M. Soybean cultivar identification using
RAPD,
Seed Sci. & Technol
., 1996, 24, 589-592.
[47]
Grabau, E. A.; Davis, W. H.; Phelps, N. D.; Gengenbach, B. G. Classification of
soybean cultivars based on mitochondrial DNA restriction fragment length
polymorphisms.
Crop Sci
., 1992, 32, 271-274.
[48]
Vilela, R.; Goncalves, E.; Alves, M. Determination of genetic diversity within
Brazilian soybean germplasm using random amplified polymorphic DNA techniques
and comparative analysis with pedigree data.
Rev. Brasil. Genet
., 1995, 18, 265-273.
[49]
Ude, G. N.; Kenworthy, W. J.; Costa, J. M.; Cregan, P. B.; Alvernaz, J. Genetic
diversity of soybean cultivars from China, Japan, North America, and North American
ancestral lines determined by amplified fragment length polymorphism.
Crop Sci
.,
2003, 43, 1858-1867.
[50]
Prabhu, R. R.; Webb, D.; Jessen, H.; Luk, S.; Smith, S.; Gresshoff, P. M. Genetic
relatedness among soybean genotypes using DNA amplification fingerprinting (DAF),
RFLP, and pedigree.
Crop Sci
., 1997, 37, 1590-1595.
[51]
Satyavathi, C. T.; Bhat, K. V.; Bharadwaj, C.; Tiwari, S. P.; Chaudhury, V. K. AFLP
analysis of genetic diversity in Indian soybean [
Glycine max
(L.) Merr.] varieties.
Genetic Resources and Crop Evolution
, 2006, 53, 1069-1079.
[52]
Doldi, M. L.; Vollmann, J.; Lelley, T. Genetic diversity in soybean as determined by
RAPD and microsatellite analysis.
Plant Breeding
, 1997, 116, 331-335.
[53]
Giancola, S.; Marcucci Poltri, S.; Lacaze, P.; Hopp, H. E. Feasibility of integration of
molecular markers and morphological descriptors in a real case study of a plant variety
protection system for soybean.
Euphytica
, 2002, 127, 95-113.
[54]
Rongwen, J.; Akkaya, M. S.; Bhagwat, A. A.; Lavi, U.; Cregan, P. B. The use of
microsatellite DNA markers for soybean genotype identification,
Theor. Appl. Genet
.,
1995, 90, 43-48.
[55]
Emura, K.; Yamanak, S.; Isoda, H.; Watanabe, K. N. Estimation for different
genotypes of plants based on DNA analysis using near-infrared (NIR) and Fourier-
transform infrared (FT-IR) spectroscopy.
Breeding Sci
., 2006, 56, 399-403.
[56]
Cardy, B. J.; Kannenberg, L. W.; Beversdorf, W. D. Genetic identification of maize
and soybean cultivars using electrophoretic techniques.
Canadian J. Plant Sci
., 1983,
63, 342.
[57]
McDonald, M. B. Blotting of seed proteins from isoelectrically focused gels for
cultivar identification.
Seed Sci. & Technol
., 1991, 19, 33-40.
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