生物分子結構 的英文怎麼說
中文拼音 [shēngwùfēnzijiēgòu]
生物分子結構
英文
biomolecular structure- 生 : Ⅰ動詞1 (生育; 生殖) give birth to; bear 2 (出生) be born 3 (生長) grow 4 (生存; 活) live;...
- 物 : 名詞1 (東西) thing; matter; object 2 (指自己以外的人或與己相對的環境) other people; the outsi...
- 分 : 分Ⅰ名詞1. (成分) component 2. (職責和權利的限度) what is within one's duty or rights Ⅱ同 「份」Ⅲ動詞[書面語] (料想) judge
- 子 : 子Ⅰ名詞1 (兒子) son 2 (人的通稱) person 3 (古代特指有學問的男人) ancient title of respect f...
- 結 : 結動詞(長出果實或種子) bear (fruit); form (seed)
- 構 : Ⅰ動詞1 (構造; 組合) construct; form; compose 2 (結成) fabricate; make up 3 (建造; 架屋) bui...
- 生物 : living things; living beings; organisms; bios (pl bioi bioses); biont; thing; life生物材料 biol...
- 結構 : 1 (各組成部分的搭配形式) structure; composition; construction; formation; constitution; fabric;...
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The hydrogen - bonded 3d supramolecular compound derived from cinchona alkaloids : synthesis and crystal structure
一個具有三維氫鍵超分子結構的金雞納霜生物堿衍生物的合成和晶體結構No probe leakage was found when the sensor dipped in ethanol and n - hexane for 15 days. this technique is limited for its prolix procession and request of special active function in the structure of molecular probe, sol - gel : the development of sol - gel technique provides a convenient way to incorporate molecular probe in porous inorganic material
化學鍵合法:分子探針通過化學反應鍵合於固定相,在溶劑中不泄漏,提高了傳感器使用壽命,在乙醇和正己烷中浸泡15天,未見探針分子泄漏。但繁雜的過程和對探針分子結構的特殊要求限制這一方光纖化學傳感器、儀器系統的研製們比生物和環境監測中的應用(摘要) 2法的應用。At last, the structure - to - property is researched, we design a series of trans - stilbene derivatives with different arrangements of the substitutions and study their two - photon absorption properties by using the response theory method at hf level
最後,本文選取了一系列不同官能團取代的具有不同對稱性的二苯乙烯系列衍生物,對其雙光子吸收截面與分子結構之間的關系進行了研究。Those conclusions may be meaningful for us to determine mixture ratio when fabricating composite films with special structures. 2. we study the phase - separation and microstructure of the pure binary and trinary mixed lb and ls films of dimyristoyl phosphatidyicholine ( dmpc ) cholesterol ( chol ) and sphingomylin ( sph ) deposited from pure water subphase by - a isotherms and tapping mode atomic force microscopy
2 、利用- a等溫曲線和原子力顯微鏡的輕敲模式對從純水亞相上提拉的不同生物分子二肉豆蔻酰磷脂酰膽堿( dmpc ) 、膽固醇( chol . )和神經鞘磷脂( sph )不同種純的、二元及三元混合單分子膜- lb膜和ls膜體系的相分離和微結構進行了研究。We used this water - soluble cationic polyelectrolyte pei as a soft cushion for biomimetic membranes in this chapter, and studied the microstructure of polymer - cushioned pure binary and trinary mixed lb and ls films of dimyristoyl phosphatidyicholine ( dmpc ). cholesterol ( chol ) and sphingomylin ( sph ) ( that is to say study the influence of pei cushion on the microstructure of the monolayers ) deposited from looppm pei water solution subphase by - a isotherms and tapping mode atomic force microscopy
在本章中我們用這種極易溶於水的陽離子型聚合物pei為一軟墊,研究以此軟墊為基底的不同生物分子和它們不同種二元及三元混合單分子膜體系在含pei亞相上的相結構情況,初步的討論了它們以雲母為基底的is膜和lb膜的微結構或者說是該軟墊對單分子膜微結構的影響。Jade special molecular structure, can be very good body to absorb the infrared, and a good biological effects : such as improving blood circulation, stimulate regeneration and rehabilitation, activase system to enhance the ability of the body resistance
玉的特殊分子結構,能很好地吸收人體發出的紅外線,有良好的生物效應:如改善血液循環,刺激再生和康復能力,活化酶系統,提高機體抗病能力。All these kinds of preparative hplc design help scientists understand the structure, dynamics, and function of human proteins and prospective pharmaceutical compounds ; perform critical analyses throughout the development process ; and purify production quantities of active drug ingredients and bio - pharmaceuticals
這三類系統可以協助研究人員更了解人類蛋白質、藥物在分子結構、動力學以及功能上的特性,以提供在研究階段關鍵性的分析,並且可提供藥品有效成分或生物性藥品的量產。The most commonly used method for the covalent binding of biomolecules onto 1 - d nanostructures is through the diimide - activated amidation of carboxylic acid terminated nanostructures
最常用的方法是通過端羧酸基納米結構的二酰亞胺活化氨基化合物來進行生物分子與1 - d納米結構的共價結合。Such examples are given as the blood filtering principal of hemoglobin, catalysis of enzymes, immune recoglization, prion, glycoprotein and the relationship of structure and function of membrane protein, et al, as well as the applications to medicine
在簡要介紹結構生物學的研究方法的基礎上,主要從分子水平闡述蛋白質和核酸的結構原理、相互作用、結構與功能的關系,通過具體實例闡述血紅蛋白的輸氧機制、酶的催化機制、免疫分子識別、朊病毒、糖蛋白、生物膜的結構功能關系等,以及結構生物學在醫學上的應用。In this paper, the tunable optical characteristics, preparation for quantum dots, the value of core / shell structure, the advantages of quantum dots as fluorescent labeling, quantum dots biolabeling techniques and their application in life science were reviewed, and the future prospects was envisioned
摘要從量子點的光學特徵、制備、核殼結構的意義、量子點熒光標記物的優越性、量子點標記生物分子后在單個細胞及臨床組織樣品檢測中的應用等方面綜述了量子點在生命科學領域的研究進展。Chemistry provides the bridge between the molecules of inanimate matter and the highly complex molecular architectures and systems which make up living organisms
化學便在非生命物質的分子和組成活體組織的高度復雜的分子結構系統間架起一座橋梁。The reproductive organ blister measles therefore recur, is because blister measles virus deep hiding in ganglion " the establishment gram kj medicinal preparation " series medicineis one kind of structure medicine, it ordinary disease - resistant poisonous medicine composition member is younger than several hundred times, can seep the nerve and the ganglion from the extroversion which suffers injury, is same along with it to sponge absoring water, layer upon layer strips the adsorption in the ganglion the crazy duplication viral body, the destruction virus s nucleotide duplication enzyme, causes it to be separated from the nerve is separated from the virus can massive gathering in the reproductive organ hypodermic, by now again coordinated the establishment gram venereal diseases kj medicinal preparation formidable anti - virus function, comprehensively struck kills the virus, caused the virus not to hide the place, thus achieved thoroughly permanently cured goal
安立克kj劑"系列藥物是一種微分子結構的藥物,它比普通抗病毒藥物的組成分子小幾百倍,能夠從外向內滲透進受損的神經和神經節,隨之就向海綿吸水一樣,層層剝離吸附在神經節里瘋狂復制的病毒體,破壞病毒的核苷酸復制酶,使其脫離神經.脫離出來的病毒會大量的聚集在生殖器皮下,這時再配合安立克性病kj劑強大的抗病毒作用,全面擊殺病毒,使病毒無藏身之地,從而達到徹底根治的目的As one ascends the etheric, the biology begins to transmute itself gradually over time to a new cellular structure that is known as “ crystalline ”, which is also a cellular structure that one ' s ancestry knew at an earlier time in human history upon earth
當他提升時,則以太層、生物層開始逐漸變異到新的分子結構中,也就是所稱的「水晶化」 , (注:看到其它譯法如晶體化,舍利子化)這也是他的祖先在地球人類歷史早期就了解的細胞結構。Basic molecular structural principles of biological materials
生物材料的基本分子結構原理。In contrast to fossil fuels, the structure of biofuels ' molecule is bigger, every molecule contain more oxygen atoms
和化石能源比起來,生物能源分子結構上還很大,一個分子包含的氧原子也很多。Molecular structures of various materials of biological origin, including collagen, silk, bone, protein adhesives, gfp, self - assembling peptides
不同生物材料的分子結構,包括膠原蛋白、絲蛋白、骨骼、蛋白質附著物、綠色螢光蛋白質、自組裝肽。( 3 ) volume shrinkage of composite decreases greatly with wpu increasing, even can arrive a negative number, but thermal stability is still good. ( 4 ) toughening mechanism is that : the formation of high molecular linear amino formate construct is the toughening reason ; hydroxyl - terminated pu - prepolymer and pf react to produce chemical bond effect which participate cure ; carboxyl - terminated pu - prepolymer and pf form semi - ipn which make toughened pf occur maximum
( 4 )通過紅外光譜對pf / pu共混物分子結構進行的定性分析、以及掃描電鏡對沖擊斷面形貌進行的分析,可證明聚氨酯預聚物增韌酚醛樹脂的機理是:兩個體系都是由於高分子量的線形氨基甲酸酯結構而增韌;端羥基pu與pf在共固化中產生化學鍵效應,參與pf的固化;而端羧基pu則與pf形成半互穿網路而增韌。Molecular structure instruments
生物分子結構分析儀器The structure and function of metalloproteins and metalloenzymes have been the center of the attention for many years due to their important roles in biological system. though metal ions exist in trace amount in metalloproteins and metalloenzymes, their roles in structure or catalysis are crucial
在生物分子結構的研究中,很重要的方面是了解金屬蛋白和金屬酶。金屬蛋白和金屬酶中僅含少量的金屬離子,但它們起至關重要的作用。It will be helpful for our finding and synthesizing strong tpa materials. this thesis used density functional theory ( dft ) to optimized the organic molecules, then studied their tpa cross sections, solvent effect and structure - to - property by response theory and few states model
本論文採用密度泛函理論對二苯乙烯系列衍生物分子結構進行優化,然後分別採用響應場方法和少態模型方法對分子的雙光子吸收截面、溶劑效應及結構與性質的關系進行了計算與研究。分享友人