搜索结果: 1-10 共查到“农业生物化学 Soybean”相关记录10条 . 查询时间(0.028 秒)
Endogenous Factors Controlling Stem Growth Habit of Soybean Plants:I. Comparison of abscisic acid levels in determinate and indeterminate types
Abscisic acid Glycine max Stem termination
2009/8/6
Soybean plants show diversity in stem growth habit ranging from determinate type to indeterminate type. Stem growth of determinate type plants abruptly terminates near flowering, while that of indete...
Studies on Internode Elongation in Soybean Plants:IV. Effects of gibberellin biosynthesis inhibitors on internode elongation
Chemical control Gibberellin biosynthesis inhibitor Growth regulator Growth retardant Internode elongation Soybean
2009/8/5
In order to obtain the fundamental information on chemical control of plant structure in soybean ( Glycine max Merr. cv. Fukuyutaka), the effects of growth regulators on the internode elongation were ...
Kunitz Soybean Trypsin Inhibitor is Modified at its C-terminus by Novel Soybean Thiol Protease (Protease T1)
C-terminus degradation Inhibitory activity Kunitz soybean trypsin inhibitor Protease T1
2009/7/23
Kunitz soybean trypsin inhibitor (KSTI) is hydrolyzed during seed germination to yield amino acids needed to support initial seedling growth. The type of KSTI from Glycine max (L.) Merrill cv. Toyokom...
Roles of Auxin and Cytokinin in Soybean Pod Setting
Auxin Cytokinin Flower abortion Pod set Sink formation Soybean
2009/7/23
Soybean plants differentiate abundant floral buds, but most of them fail to grow pods and abort during development. Many studies indicated promotive effects of exogenously applied cytokinin on pod set...
Pod Dehiscence in Relation to Chemical Components of Pod Shell in Soybean
Acid detergent fiber Acid detergent lignin Cellulose Chemical component Hemi-cellulose Neutral detergent fiber Pod dehiscence Soybean
2009/7/23
The relationship between chemical components of pod shell and pod dehiscence was investigated using 25 soybean cultivars; 16 with easily dehiscing pods (susceptible cultivars) and 9 with hardly dehisc...
Nitrogen Uptake and Yielding Ability of Non-nodulating Soybean Genotype (En1282) under Organic Nitrogen Application (Dried Cattle Feces)(Agronomy)
Cattle feces Guinea grass Nitrate Nitrogen uptake
2009/7/10
The nitrogen uptake and yielding ability of non-nodulating soybean genotype (En1282) were investigated under field conditions. Dried cattle feces were applied at levels ranged from 192 to 960 kg N/ha ...
Effects of Chitosan Application on Chitinase Activity in Shoots of Rice and Soybean
Chitinase activity Chitosan Rice Soil incorporation Soybean
2009/7/10
The effects of chitosan application on chitinase activity of rice and soybeans were investigated after incorporating it into soil before transplanting or seeding. In non-fertilized soil, the chitinase...
Effects of Chitosan Application on the Shoot Growth of Rice and Soybean
Chitosan Growth Rice Soil incorporation Soybean
2009/7/10
The effects of 0.1% and 0.5% chitosan application on the shoot growth of rice and soybeans were investigated after incorporating it into soil before planting. In non-fertilized soil, plant heights, le...
酶法提高大豆糖蜜抗氧化活性及其机理(Enhanced Antioxidant Activity of Soybean Molasses Using Cellulase)
大豆糖蜜 抗氧化活性 生物酶解
2009/5/22
为提高大豆糖蜜的抗氧化活性,将大豆糖蜜溶液与纤维素酶溶解于pH值5.0的50mmol/L Tris-HCl 缓冲液中,于50℃保温30min。对比了酶解前后大豆糖蜜的清除DPPH自由基能力和还原力,并分析了异黄酮的组成差异。结果表明:达到50% DPPH自由基清除率,需未处理样品17.15g/L,而处理样品仅为9.19g/L。在相同的质量浓度下,处理后的大豆糖蜜还原力要高于未被处理的大豆糖蜜。纤维...
Preliminary evaluation of the effects of carbonized chicken manure, refuse derived fuel and K fertilizer application on the growth, nodulation, yield, N and P contents of soybean and cowpea in the greenhouse
Carbonization chicken manure grain legumes refuse derived fuel seed yield
2009/3/4
Carbonized organic materials have not traditionally been applied to grain legumes such as soybean (Glycine max L. Merrill) and cowpea (Vigna unguiculata L. Walp) although the potential for favourabl...