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Biosynthesis of Fatty Acids by a Soluble Extract From Developing Soybean Cotyledons 1

机译：发育中的大豆子叶的可溶性提取物对脂肪酸的生物合成1

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Fractionation of developing soybean cotyledons into cellular components demonstrates that most of the activity necessary to incorporate acetate-1-14C into lipid remains in the supernatant from a 198,000g spin for 1 hr. The system studied is dependent upon ATP, CoA, and CO2. Concentrations of ATP greater than 4 × 10−3m are inhibitory, while 1 × 10−4m CoA is needed for optimal activity. Avidin inhibition of acetate incorporation into lipid could be reversed by biotin. Studies indicated that NADPH is a better source of reducing power than NADH. The system studied is inhibited by p-chloromercuribenzoic acid and this inhibition can be reversed by an excess of GSH. The system studied shows maximum activity in tris buffer at pH 8.6 or in glycine buffer, pH 9.4.

机译：将发育中的大豆子叶分馏为细胞组分表明，将乙酸酯-1-14C掺入脂质所需的大多数活性来自198,000g离心1小时后保留在上清液中。研究的系统取决于ATP，CoA和CO2。大于4×10-3m的ATP浓度具有抑制作用，而最佳活性则需要1×10-4m CoA。生物素可以逆转抗生物素蛋白对乙酸酯掺入脂质的抑制。研究表明，NADPH比NADH更好地降低功率。所研究的系统受对氯汞苯甲酸的抑制，而过量的GSH可以逆转这种抑制作用。所研究的系统显示在pH 8.6的tris缓冲液或pH 9.4的甘氨酸缓冲液中具有最大活性。

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Rinne, R. W.;
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年度 1969
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1. Biosynthesis of fatty acids in cell-free preparations. 2. Synthesis of fatty acids from acetate by a soluble enzyme system prepared from rat mammary gland [J] . Alisa Tietz, G. Popják The biochemical journal . 1955,第1期

机译：无细胞制剂中脂肪酸的生物合成。 2.通过大鼠乳腺制备的可溶性酶系统由乙酸酯合成脂肪酸
2. Biosynthesis of fatty acids in cell-free preparations. 5. Synthesis of fatty acids from acetate in extracts of lactating-rat mammary gland [J] . G POPJáK, R DILS The biochemical journal . 1962,第1期

机译：无细胞制剂中脂肪酸的生物合成。 5.泌乳大鼠乳腺提取物中乙酸盐合成脂肪酸
3. Biosynthesis of fatty acids in cell-free preparations. 5. Synthesis of fatty acids from acetate in extracts of lactating-rat mammary gland [J] . G POPJáK, R DILS The biochemical journal . 1962,第1期

机译：无细胞制剂中脂肪酸的生物合成。 5.泌乳大鼠乳腺提取物中乙酸盐合成脂肪酸
4. DEVELOPING PRACTICAL APPROACHES TO MODIFY HEPATIC FATTY ACID PROCESSING AND LIPID MEDIATOR BIOSYNTHESIS IN DAIRY CATTLE: THE EMERGING ROLE OF LIPIDOMICS [C] . Cornell Nutrition Conference for Feed Manufacturers . 2017

机译：制定切换肝脏脂肪酸加工和脂质介质生物合成的实用方法：脂类物学的新兴作用
5. The effect of temperature on fatty acid desaturase gene expression and fatty acid composition in developing soybean seeds. [D] . Byfield, Grace Eleanor. 2005

机译：温度对发育中大豆种子中脂肪酸脱氢酶基因表达和脂肪酸组成的影响。
6. Biosynthesis of Fatty Acids by a Soluble Extract From Developing Soybean Cotyledons [O] . R. W. Rinne 1969

机译：大豆子叶发育过程中可溶性提取物对脂肪酸的生物合成
7. Properties of Rice Cooked with Commercial Water-soluble Soybean Polysaccharides Extracted under Weakly Acidic Conditions from Soybean Cotyledons [O] . Hitoshi FURUTA, Akihiro NAKAMURA, Hiroko ASHIDA, 2003

机译：用弱酸性条件从大豆子叶中提取的商业水溶性大豆多糖烹制的水稻的性质

Biosynthesis of Fatty Acids by a Soluble Extract From Developing Soybean Cotyledons 1

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