glycolatepathway网络乙醇酸途径 网络释义 1. 乙醇酸途径 (2)进行乙醇酸途径(glycolatepathway)代谢:水稻的根部细胞有许多过氧化体分散於细胞质中,进行乙醇酸途径(glycolate pathw…www.pdfio.com|基于4个网页© 2025 Microsoft 隐私声明和 Cookie 法律声明 广告 帮助 反馈...
乙醇酸途径(glycolate pathway) 由rubisco氧化作用产生的磷酸乙醇酸首先在叶绿体中脱磷形成乙醇酸然后进入叶过氧化物酶体(leaf peroxisome),在叶过氧化物酶体的氧化酶作用下被氧化成甘氨酸,然后转运到线粒体,在线粒体中两分子的甘氨酸被转变成一分子的丝氨酸,同时释放一分子的CO2。丝氨酸被运回到过氧化物酶体,在那里...
(1992) Involvement of photorespiration and glycolate pathway in carbonic anhydrase induction and inorganic carbon concentration in ChlamydomonasZ Ramazanov and J Cardenas, Involvement of photorespiration and glycolate pathway in carbonic anhydrase induction and inorganic carbon concentration in Chlamydomonas ...
必应词典为您提供glycolate-pathway的释义,网络释义: 乙醇酸途径;乙醇酸路径;乙醇酸代谢途径;
Deficiency of nitrogen source repressed glycolate dehydrogenase most extensively among the enzymes involved in the glycolate pathway. The mechanism of regulation of the glycolate metabolism by nitrogen source is discussed.doi:10.1080/00021369.1978.10862934YOKOTA, Akiho...
A new route for glycolate production from xylose was established, and an engineered strain Q2742 was constructed from this new explored pathway. The engineering strain showed the highest reported productivity of glycolate to date. This research opened up a new prospect for bio-refinery of xylose an...
Results of in-depth analyses disclosed the interaction of GLO genes with other members of the glycolate pathway and the activity of GLO genes in various organs and developmental stages in lettuce. The extensive genome evaluation of GLO gene family in garden lettuce is believed to be a reference ...
To assess endogenous oxalate production in these patients by measuring urinary glycolate, an oxalate precursor in an important metabolic pathway for endogenous oxalate production.doi:10.1007/978-1-4899-0873-5_134E. R. YendtM. CohanimSpringer US...
Part V. Occurrence and subcellular distribution of enzymes involved in the glycolate pathway and their physiological function in a bleached mutant of Euglena gracilis Z The streptomycin-bleached, non-photosynthetic mutant of Euglena gracilis contained NADH-glyoxylate reductase, NADPH-glyoxylate reductase, ...
plays a positive role in the interaction between plants and pathogens such asSclerotinia sclerotiorumandBotrytis cinerea32,33,34. Glyoxylate also has importance in biosynthesis of amino acids35. However, the pathway through which oxalate accumulates in plants and its regulation is independent ofGLO36....