配位酶 的英文怎麼說
中文拼音 [pèiwèi]
配位酶
英文
ligase-
5 - enolpyruvlshimimate - 3 - phosphate synthase ( epsp synthase ) is a necessary enzyme of the shikimate pathway in prokaryote, yeasts, fungi, apicomplexan parasites, plants and algae
原核生物、酵母、真菌、頂配位寄生蟲、植物和藻類中的epsp合成酶是芥草酸途徑中的一個氨基酸必需酶。Sinense y. x. lin using allzyome marker. the experiment employ six enzymes : est, mdh, fdh, gdh, sod and acp, using their polymtic locus to analyse the allele gene frequency, the number of the effective allele gene
採用est 、 mdh 、 fdh 、 sod和acp等5種酶系統,分析荷葉鐵線蕨的等位酶遺傳變異,用間接法估算荷葉鐵線蕨交配系統的特徵參數? ?異交率t 。Several adult individuals from each population at random were observed their morphologic characters, and then to analyse the distribution of the vertical biology yield
對荷葉鐵線蕨進行形態學觀察和垂直生物量分配的分析。 2 )用等位酶標記檢測荷葉鐵線蕨的交配系統。Huangyal4 was complete nucleotide sequence of 1 854 bp with a nucleotide orf ( 1575 bp ), which encoded a protein consisting of 524 aa with molecular weight of 62. 2 kda and pi of 8. 96. strongly basic ( + ) amino acids, strongly acidic ( - ) amino acids, hydrophobic amino acids and polar amino acids of the protein were 13. 74 %, 11. 64 %, 36. 45 % and 22. 70 % respectively, and predicted secondary structure of the protein revealed many conserved domains such as n - glycosylation site, protein kinase c phosphorylation site, casein kinase ii phosphorylation site, n - myristoylation site, camp - and cgmp - dependent protein kinase phosphorylation site, tyrosine kinase phosphorylation site and a cytochrome p450 cysteine heme - iron ligand signature which was typical of cytochrome p450. a - helix and b - sheet of the protein is 47. 7 %, 45. 0 % respectively
Huangya14 )為材料分離克隆到一個細胞色素p450基因,命名為bccyp86mf5 , cdna全長1854bp ,含1575bp的完整開放閱讀框,編碼524個氨基酸,其編碼蛋白質的分子量為61 . 2kda 、等電點為8 . 96 ;堿性氨基酸、酸性氨基酸、疏水氨基酸和極性氨基酸分別占總氨基酸的13 . 74 、 11 . 64 、 36 . 45和22 . 70 ;二級結構預測包括n -糖基化位點、依賴于camp和cgmp的蛋白激酶磷酸化位點、蛋白激酶c磷酸化位點、酪蛋白激酶磷酸化位點、酪氨基酸激酶磷酸化位點、 n -豆蔻酰化位點和細胞色素p450的典型區域,半胱氨酸亞鐵血紅素配體信號區等, -螺旋和-折疊分別佔47 . 7 、 45 . 0 ;與bccyp86mf1基因的氨基酸序列同源性達到95 . 2 ,與擬南芥cyp86c4的達到85 . 9 。When inadequate n was added, the chloroplast structure in mesophyll cell was damaged in ear leaf, the amount of carbohydrate decreased in mestome sheath, and excessive n - redistribution and n - transportation to grain from vegetative mass appeared, which resulted in earlier leaf senescence. excessive n application led to too high activity of nitrate reductase, excessive vigorous nitrogen metabolism and too much exhaustion of carbohydrate in ear leaf, which resulted in the lack of enough carbohydrate in the lower leaf, meanwhile, the expansive chloroplast grana lamellae in leaf mesophyll cell and starch grain without nuclear in mestome sheath cell was observed, which led to the decrease of chlorophyll content and photosythetic capacity in maize leaf, then the early senescence occured
氮肥用量不足導致穗葉葉肉細胞葉綠體結構性差,維管束鞘細胞碳水化合物累積減少,營養體氮素再分配率大而引起葉片早衰;而過量供氮則導致生長後期硝酸還原酶活性過高,氮素代謝過旺,消耗了大量碳水化合物,以致下位葉不能得到充足的碳水化合物供應而提早脫落,同時葉肉細胞葉綠體片層結構膨脹,呈「肉汁化」特徵,維管束鞘細胞澱粉粒大量消耗,無核澱粉粒出現,從而葉片葉綠素含量下降,光合能力降低而出現早衰。The market occupation of retapase project has been over appraised and the market orientation is based on self - reference while less weight has been put on market survey ; the project fund comes inadequately from self - raised resources or by transferring the techniques. in the organization framework of the project, the conventional linear system is adopted, which inhibit imbibing the wisdom of majority ; on personnel management, the r & d professionals have been weighed much more against the management professionals and little effort has been put on building the professionals reservoir, while the personnel incentive tactics are not conducive to the long benefit of the project in addition, the cost management is maldeveloped and the project progress controlling has been neglected
瑞特普酶項目屬生物制藥項目,本文對fdzj公司瑞特普酶項目的管理現狀進行了詳細分析,具體有待改進地方有:市場份額估計過高,市場定位本位化,市場調查注重不足;項目融資僅採用自籌資金及科技成果轉讓的方式;項目組織結構為傳統的直線制,不利於集思廣義,人員配備重研發人才,輕管理人才,人才儲備工作欠缺,人員激勵策略與項目長遠利益不銜接;成本管理欠缺,忽視進度管理等。As a result of adapting shaded environment, large variations took place in photosynthetic unit size, electron transmission, pigment content, endogenous hormones and enzyme activities, morphological and anatomical structure, nutrient absorption and distribution to ensure fully utilizing light energy at shading conditions, and to maintain its energy equilibrium and normal life activities
草本植物為適應蔭的環境,導致在光合作用單位、電子傳遞、光合色素含量、內源激素及酶活性、植株形態解剖結構、營養物質的吸收及分配等方面產生變化,以保證在遮蔭下仍能充分利用光能,維持生長所需的能量平衡,進行正常的生命活動。The metallic enzyme and coordination catalytic mechanism
金屬酶及其配位催化分享友人