肌醇多磷酸 的英文怎麼說
中文拼音 [jīchúnduōlīnsuān]
肌醇多磷酸
英文
inositol polyphosphate-
Ip3 - ip3 receptor ( ip3r ) interaction mediates the release of ca2 + from the endoplasmic reticulum in response to many different extracellular stimulus. for higher plants, however, though it is now generally accepted that ip3 participates in signal transduction in many important cellular processes, only limited evidence is available for the presence and properties of the ip3r - like protein so far. here, using the immunological methods with an antibody raised against a mammalian inositol 1, 4, 5 - triphophate receptor ( type 1 ), we found that, 1 ) the antibody across - reacted the proteins with about 200kd in microsomes from oryza sativa and about 200kd from arabidopsis thaliana respectively
本實驗用sds - page電泳和免疫印跡的方法,用哺乳動物大鼠三磷酸肌醇受體的多肽做抗體對類三磷酸肌醇受體蛋白鑒定,結果表明:抗體與水稻和擬南芥微粒體蛋白分子量大約為200kd的蛋白交叉反應,同時還發現在水稻微粒體蛋白62kd和擬南芥微粒體蛋白45kd處有交叉反應的蛋白條帶存在,表明在植物中有類三磷酸肌醇受體蛋白的存在;用免疫膠體金方法,發現類三磷酸肌醇受體蛋白主要分佈於液泡膜和細胞質膜上。This paper briefly reviewed the progress of the physiological functions of functional components including resistant starch, gaba, ip, oryzanol, v ( subscript e ) and octacosanol in rice products ( such as starch, broken grain, rice bran, rice embryo and rice shell etc., and the development of products containing special functional components, which will provide the new way to develop and prepare the new functional food
摘要本文就稻穀主副產品如澱粉、碎米、米糠、米胚和稻殼等中的主要功能性成分,包括抗性澱粉、 -氨基丁酸、多磷酸肌醇、谷維素、維生素e和二十八烷醇等的生理功能及富含特定功能因子產品的開發研究進展進行了簡要綜述,以期為開發與研製新型功能食品提供思路。Phytases catalyze the hydrolysis of phytic acid or phytate ( myo - inositol hexakisphosphate ) to inositol and inorganic phosphate. their roles in eliminating anti - nutritional effects of phytate in plant fodder or foods, in increasing the efficiencies of protein and various microelement utilizations in the animal body and the animal productivities, in reducing the amount of phosphorus in animal excretions and thus reducing environmental pollutions, etc, have been the research focuses domestically and internationally
植酸酶是一類能催化植酸及植酸鹽水解成肌醇和無機磷酸鹽的酶,它具有解除植物性飼料(或食品)中植酸的抗營養作用、提高機體對蛋白質及多種微量元素的利用率、促進生長發育、提高動物生產性能、減少糞便中磷的排放量、降低磷對環境的污染等多種功能,因而受到國內外的廣泛關注。
分享友人