Authors:
Monks, DE
Aghoram, K
Courtney, PD
DeWald, DB
Dewey, RE
Citation: De. Monks et al., Hyperosmotic stress induces the rapid phosphorylation of a soybean phosphatidylinositol transfer protein homolog through activation of the protein kinases SPK1 and SPK2, PL CELL, 13(5), 2001, pp. 1205-1219
Authors:
Shank, KJ
Su, P
Brglez, I
Boss, WF
Dewey, RE
Boston, RS
Citation: Kj. Shank et al., Induction of lipid metabolic enzymes during the endoplasmic reticulum stress response in plants, PLANT PHYSL, 126(1), 2001, pp. 267-277
Authors:
Wilson, RF
Marquardt, TC
Novitzky, WP
Burton, JW
Wilcox, JR
Dewey, RE
Citation: Rf. Wilson et al., Effect of alleles governing 16 : 0 concentration on glycerolipid composition in developing soybeans, J AM OIL CH, 78(4), 2001, pp. 329-334
Authors:
Wilson, RF
Marquardt, TC
Novitzky, WP
Burton, JW
Wilcox, JR
Kinney, AJ
Dewey, RE
Citation: Rf. Wilson et al., Metabolic mechanisms associated with alleles governing the 16 : 0 concentration of soybean oil, J AM OIL CH, 78(4), 2001, pp. 335-340
Authors:
Pedra, JHF
Delu, N
Pirovani, CP
Contim, LAS
Dewey, RE
Otoni, WC
Fontes, EPB
Citation: Jhf. Pedra et al., Antisense and sense expression of a sucrose binding protein homologue genefrom soybean in transgenic tobacco affects plant growth and carbohydrate partitioning in leaves, PLANT SCI, 152(1), 2000, pp. 87-98
Authors:
Siminszky, B
Sheldon, BS
Corbin, FT
Dewey, RE
Citation: B. Siminszky et al., A cytochrome P450 monooxygenase cDNA (CYP71A10) confers resistance to linuron in transgenic Nicotiana tabacum, WEED SCI, 48(3), 2000, pp. 291-295
Citation: Jh. Goode et Re. Dewey, Characterization of aminoalcoholphosphotransferases from Arabidopsis thaliana and soybean, PL PHYS BIO, 37(6), 1999, pp. 445-457
Citation: Bk. Drobak et al., Phosphoinositide kinases and the synthesis of polyphosphoinositides in higher plant cells, INT REV CYT, 189, 1999, pp. 95-130
Authors:
Siminszky, B
Corbin, FT
Ward, ER
Fleischmann, TJ
Dewey, RE
Citation: B. Siminszky et al., Expression of a soybean cytochrome P450 monooxygenase cDNA in yeast and tobacco enhances the metabolism of phenylurea herbicides, P NAS US, 96(4), 1999, pp. 1750-1755