疏水性基質 的英文怎麼說
中文拼音 [shūshuǐxìngjīzhí]
疏水性基質
英文
hydrophobic base- 疏 : Ⅰ動詞1 (疏通) dredge (a river etc )2 (疏忽) neglect 3 (分散; 使從密變稀) disperse; scatte...
- 水 : 名詞1 (由兩個氫原子和一個氧原子結合而成的液體) water 2 (河流) river 3 (指江、河、湖、海、洋...
- 性 : Ⅰ名詞1 (性格) nature; character; disposition 2 (性能; 性質) property; quality 3 (性別) sex ...
- 質 : Ⅰ名詞1 (性質; 本質) nature; character; essence 2 (質量) quality 3 (物質) matter; substance;...
- 水性 : 1 (游水的技能) ability in swimming2 (江河湖海的深淺、流速等特點) the depth currents and other...
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In practice, because of the differences in soil property and irregular riverbed, dredging processes are usually complicated. in addition, dredger operators are required to understand dredging processes and to be familiar with the basic characteristics of the dredging equipment through specific training in order to control the dredging equipment correctly
生產實踐中,水下土質的差異及河床形態的多變,使得疏浚工況和疏浚作業比較復雜,再加上大型疏浚設備十分昂貴,從而客觀上要求船員事先應通過崗位培訓,了解疏浚過程,熟悉疏浚設備的基本特性,為正確操控疏浚設備,實現安全高效疏浚,提供技術保證。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 。One of them was identified as the beth gene of halobacillus sp. d8. a hydrophobicity plot of beth revealed an alteration of hydrophobic and hydrophilic segments that was characteristic for integral membrane protein, suggesting the presence of 12 transmembrane - spanning segments and belonged to bcct family
將重組質粒測序,插入片段大小為4kb左右,通過blast比較,結果顯示含有三個orf框,其中一個為甘氨酸甜菜堿轉運蛋白,對其氨基酸組成進行疏水性分析,推測為含有12個跨膜域的跨膜蛋白,屬于bcct家族。Quantify the relevance hydrophobicity in protein structure : the general expectation is that hydrophobic aminoacids are in the core of proteins, while polar aminoacids are on the surface
量化蛋白質結構的參比疏水性:一般認為,疏水性氨基酸在蛋白質的核中,而極性氨基酸在表面。Signal recognition particle ( srp ) - - a particle composed of proteins and 7sl rna that binds to signal sequences and targets polypeptide chains to the endoplasmic reticulum
訊息(指揮)序列- -蛋白質末端的一段疏水性氨基酸,在細菌中引導蛋白質分泌或在真核細胞中將蛋白質併入內質網。Signal ( leaser ) sequence a hydrophobic sequence at the amino terminus of a polypeptide chain that targets it for secretion in bacterial or incorporation into the endoplasmic reticulum in eukaryotic cells
訊息(指揮)序列蛋白質末端的一段疏水性氨基酸,在細菌中引導蛋白質分泌或在真核細胞中將蛋白質併入內質網。A newly made amino acid chain folds into a distinctive shape depending on the positioning of hydrophobic amino acids, which like to cluster together away from the cell ' s watery cytoplasm, leaving hydrophiles to form the protein ' s surface
剛合成好的胺基酸長鏈,會根據疏水性胺基酸的分佈位置,摺疊成蛋白質的獨特形狀:疏水性胺基酸彼此向內聚攏,避免接觸到富含水的細胞質環境;親水性胺基酸則向外翻出,構成蛋白質的表面。Based on the knowledge of characteristic of unsaturated soils. the law of suction change with moisture content and density is got from suction experiment, which revealed that the matrix suction changes obviously with density especially in low moisture content, and with the same moisture content, if the density is gradually added, the value of matrix suction first is lowed, then added and finally lowed, this phenomenon is probed into in this paper
基於對非飽和土特性的認識,進行了基質吸力的試驗研究,得到了基質吸力隨含水量和密度的變化規律,試驗揭示出:基質吸力隨密度的變化是明顯的,含水量越低,這一趨勢越明顯,在含水量相同的情況下,當砂土從疏鬆狀態逐級變密時,吸力值經歷變小、變大、又變小的過程,文中對造成這一現象的原因作了初步分析。This property is crucial to the ultimate functioning of the protein
我們知道,胺基酸對水分子的親疏性將影響蛋白質最終的形狀與功能。分享友人