Agriculture Reference
In-Depth Information
Gijzen, M.; Miller, S. S.; Bowman, L. A.; Batchelor, A. K.; Boutilier, K. & Miki, B. L. A.
(1999a). Localization of peroxidase mRNAs in soybean seeds by in situ hybridization.
Plant Molecular Biology . 41, 57-63.
Gijzen, M.; Miller, S. S.; Kuflu, K.; Buzzell, R. L. & Miki, B. L. A. (1999b). Hydrophobic
protein synthesized in pod endocarp adheres to the seed surface. Plant Physiology . 120,
951-959.
Gomes, V. M.; Oliveira, A. E. A. & Xavier-Filho, J. (1996). A chitinase and a β-1,3-
glucanase isolated from the seeds of cowpea ( Vigna unguiculata L. (Walp.)) inhibit
growth of fungi and insect pests of the seed. Journal of the Science of Food and
Agriculture. 72, 86-90.
Hammerschmidt, R.; Nuckles, E. M. & Kuc, J. (1982). Association of enhanced peroxidase
activity with induced systemic resistance of cucumber to Colletotrichum lagenarium .
Physiologia Plantarum . 20, 73-82.
Harris, W. H. (1987). Comparative ultrastructure of developing seed coats of 'hard-seeded'
and 'soft-seeded' varieties of soybean, Glycine max (L.) Merril. Botanical Gazette. 148,
324-331.
Haughn, G. & Chaudhury, A. (2005). Genetic analysis of seed coat development in
Arabidopsis . TRENDS in Plant Science . 10, 472-477.
Henriksen, A.; Mirza, O.; Indiani, C.; Teilum, K.; Smulevich, G.; Welinder, K.G. & Gajhede,
M. (2001). Structure of soybean seed coat peroxidase: a plant peroxidase with unusual
stability and haem-apoprotein interactions. Protein Science. 10, 108-115.
Jackai, L. E. N. & Daoust, R. A. (1986). Insect pests of cowpea. Annual Review of
Entomology. 31, 95-119.
Janzen, D. H. (1977). How southern cowpea weevil larvae (Bruchidae: Callosobruchus
maculatus ) die on non host seeds. Ecology . 58, 921-927.
Koide, T. & Ikenaka, T. (1973). Studies on soybean trypsin inhibitors. Amino acid sequence
of the carboxyl-terminal region and the complete amino acid sequence of the soybean
trypsin inhibitor. European Journal of Biochemistry . 32 , 417-431.
Koizumi, M.; Kikuchi, K.; Isobe, S.; Ishida, N. Naito, S. & Kano, H. (2008). Role of the seed
coat in imbibing soybean seeds observed by micro-magnetic resonance imaging. Annals
of Botany . 102, 343-352.
Kunitz, M. (1945). Crystallization of a trypsin inhibitor from soybean. Science. 101, 668-669.
La Scala JR., N.; Florentino, A. O. & Carvalho, N. M. (1999). Differences and similarities in
the pore size distribution of soybean seed coats. Seed Science and Technology . 27, 365-
369.
Ma, F.; Teterson, C. A. & Gijzen, M. (2004). Reassessment of the pits and antipits in soybean
seeds. Canadian Journal of Botany. 82, 654-662.
Macedo, M. L. R.; Andrade, L. B. S.; Moraes R. A. & Xavier-Filho, J. (1993). Vicilin
variants and the resistance of cowpea ( Vigna unguiculata ) seeds to the cowpea weevil
( Callosobruchus maculatus ). Comparative Biochemistry and Physiology. 105, 89-94.
Miller, S. S.; Bowman, L. A.; Gijzen, M. & Miki, B. L. A. (1999) Early development of the
seed coat of soybean. Annals of Botany. 84, 297-304.
Moïse, J. A.; Han, S.; Gudynaitę-Savitch, L.; Johnson, D. A. & Mikica, B. L. A. (2005). Seed
coats: Structure, development, composition, and biotechnology. In vitro Cellular and
Developmental Biology - Plant . 41: 620-644.
Search WWH ::




Custom Search