英语人>词典>汉英 : 分子的 的英文翻译,例句
分子的 的英文翻译、例句

分子的

基本解释 (translations)
molecular  ·  mol.

更多网络例句与分子的相关的网络例句 [注:此内容来源于网络,仅供参考]

Adj.别致的 Still others have stocked up on such items of antiterrorist chic as flame-retardant ponchos, anthrax-antidote antibiotics and heavy-duty gas masks.

而其他人也采购了一些对付恐怖分子的时髦玩意,如防燃雨布,对付炭疽热的抗生素和重型防毒面具。

Unfortunately, it has been shownthat these methods are not suitable to study about chemical bonds due to not involvingchemical bonds. In order to consider chemical bonds obviously, we have proposed an atom-bondelectronegativity equalization model on the basis of density-functionaltheory and electronegativity equalization principle. The main contents of our atom-bond electronegativity equalization model contain:(1)Considering the fact that there are varies of chemical bonds in molecules andpartitioning the molecular electron density as summations of atomic electron densitiesand chemical bond's electron densities, we obtained the basic equations of atom-bondelectronegativity equalization model: the expression of the total energy 〓, theexpression of the atom electronegativity 〓 and the expression of the bondelectronegativity 〓.

为了明确地考虑和处理分子中存在的化学键,以便能够更好地描述体系中的电荷分布进而准确地描述分子体系中的有关物理化学性质,尤其是与化学键有关的物理化学性质,我们在密度泛函理论和电负性均衡原理基础上提出了原子-键电负性均衡模型,原子-键电负性均衡模型的主要内容是:(1)考虑到分子体系中存在各种化学键这个事实,将分子空间看成是由原子区和化学键区组成的,将分子的单电子密度表达成为分子中各组成原子的单电子密度和各化学键的单电子密度的加和,从而得到了原子-键电负性均衡模型的基本方程:分子体系总能量〓和分子中原子电负性〓和化学键电负性〓表达式。

The influence of position of the substitution, strength and number of donors and acceptors, and their coplanarity and asymmetry is discussed. The results indicate that the molecules may have larger first hyperpolarizabilities when the molecules have stronger and more donors and acceptors, large asymmetry of HOMO and LUMO, better coplanarity and higher accentricity. This work attemps at finding out the relationship between the structure and the property, thus providing theoretical basis for designing nonlinear optical molecules.

进一步研究体系中取代基的位置,给体与受体的数量和得失电子的能力,分子的共面性和对称性对分子第一超极化率的影响,结果表明,有机分子拥有更多数量与更强得失电子能力的给体和受体,最高占据分子轨道和最低未占据分子轨道空间分布的不对称,具有较高的原子共面性和较低的分子中心对称性,都能显著增加

It comprises following steps: dissolving cross linker, functional monomer, mode molecule and initiator into pore-generating agent, getting mixing solvent; hypersonic de-gassing the mixing solvent; venting nitrogen after even mixing, sealing at nitrogen condition or vacuum condition; proceeding polymerization reaction, employing heat initiation for molecule engram polymer; grinding got molecule engram polymer after polymerization, sifting and removing mode molecule with organic solvent, checking with high efficiency liquid chromatography- ultraviolet until there is no mode molecule; vacuum drying and getting final product.

具体为:首先将交联剂、功能单体、模板分子和引发剂溶解在致孔剂中,得到混合溶剂;将混合溶剂超声脱气;混合均匀后,通入氮气,氮气状态或抽真空状态下密封;进行聚合反应,分子印迹聚合物采用热引发;聚合反应结束后,将合成的分子印迹聚合物取出研磨、过筛后用有机溶剂除去模板分子,通过高效液相色谱-紫外检测,直到检测不到模板分子;将除去模板分子的聚合物,真空干燥,得到利血平特异的分子印迹聚合物。

And the development and formation of the sieve tube elements of the different cultivars were influenced by the different levels of B: the sieve tube elements of the two cultivars were not formed at the level of 0.001mg/L; At the level of 0.01mg/L, the sieve tube elements of the high efficiency (Qingyou 10) cultivar could be formed, but the structure of the sieve tube elements was not complete, and the abruption and differenciation of the sieve tube elements of the low efficiency cultivar were inhibited, they were not formed; At the level of 0.01mg/L, the sieve tube elements of the two cultivars were formed.

不同硼水平下,不同硼效率甘蓝型油菜品种根尖筛管分子的发育与形成受到影响:硼浓度为0.001mg/L时,两个油菜品种都不能形成筛管分子;硼浓度为0.01mg/L时,硼高效品种青油10号筛管分子可以形成,但结构受到破坏,而硼低效品种Bakow筛管分子的分裂与分化受阻,几乎不可能形成成熟的筛管分子;硼浓度为0.5 mg/L时,两个油菜品种都能正常生长发育。

Specifically, itcontains 8 chapters.In chapter 1, the formation, structures, properties and the futureprospect of liposome were thoroughly reviewed;In chapter 2, the stibility and permeability of phopholipid -eleostericacid liposome were studied together with the effect of polymerizationof eleostearic acid. This membrane system was very sensitive to 〓,the effect of 〓 was clarified to increase the aggregation/fusion ofliposomes and made the permeability of mixed liposomes much higher;In chapter 3, two polymerizable conjugated diyne bolaamphiphiles were synthesized. They could form very stable mixed liposome, andthe diyne could be polymerized by UV light in bilayer liposomes, as aresult, the stability of mixed liposome against solvent or surfactantafter polymerization were enhanced. In chapter 4, two kinds of amphiphilic amino acids were synthesized andstable liposomes were formed therefrom After the condensationpolymerization of amino acid in bilayer liposomes, stable polypeptide liposomes were obtained, which had lower phase transition temperatureand higher permeability.In chapter 5, four kinds of glycolipids were synthesized and theiraggregation behavior in water was comparied. When incorporated intophospholipid bilayer membranes, they could increase the phase transitiontemperatures and inhibit the aggregation and fusion of mixedliposomesat lower temperature.In chapter 6 and 7, three kinds of steroidal bolaamphiphiles withdifferent chain lengths were synthesized. Incorporation of steroidalmoiety to the center of lipid bilayer membrane obviously increased themobility of lipid membrane and shifted Tc to lower temperature side incomparasion with cholesterol. The bolaamphiphile which was shorter thanthe hosted lipid bilayer membrane thickness influenced the lipid packingmore obviously.

全文共分8章:第一章对脂质体的形成、结构、性质及展望进行了较为详细的文献综述;第二章研究了磷脂-桐酸脂质体的稳定性,通透能力及桐酸的聚合对这些性质的影响;磷脂-桐酸混合脂质体为一类对〓灵敏的脂质体,〓的作用首先是使脂质体集聚然后使脂质体融合,并加速内包荧光物的释放;第三章通过合成两种可聚合共轭双炔双极性双亲分子DDCA,DDOL,研究了共双炔分子在双分子层脂质体膜上的聚合及对脂质体性质的影响,聚合可以提高脂质体相对于溶剂及表面活性剂的稳定性;第四章合成了两类氨基酸为极性基团的双亲分子,它们均可以在超声下形成稳定的脂质体结构;氨基酸基团可以在脂质体上进行缩聚反应,若聚合后脂质体表面仍有足够的亲水能力,则可得到稳定的多肽型脂质体;聚合后脂质体的相变温度降低,通透能力增加;第五章合成了四种亲水基团为单糖基的双亲分子GL-l,GL-2,GL-3, GL-4,研究了它们在水中的分散情况、集合体形态与分子结构的关系;在DMPC双分子层膜中加入糖脂分子可以使脂质体的相变温度提高,阻止脂质体在低温放置时的集聚与融合;第六章-第七章合成了三种不同碳链长度的双极性含胆甾环双亲分子 CL-1,CL-2,CL-3;它们可以象胆固醇一样与磷脂混合形成稳定脂质体,胆甾环基团位于脂质体双分子层膜的中间;与胆固醇的作用相反,它们可以增加磷脂双分子层膜的流动性,降低混合脂质体的相变温度;三种分子的作用与其碳链长度和磷脂双分子层膜的厚度有关,比膜厚度短的分子影响最大。

First, the significant of co-factor InsP6 and center water in the mechanism of auxins are explored by docking; second, the experiments that compared with the docking rusults of two situations involving fully rigid and selective flexible of active residue of the receptor TIR1 illuminate that selective flexibility docking by AutoDock4 reports more rational results, so that, AutoDock4 dockings are implemented with TIR1-Auxins; third, AutoDock4 docking by TIR1-Auxins-Aux/IAA illuminates that auxin as a molecular glue enhances the interaction between TIR1 receptor and Aux/IAA substrate by the weak interactions, such as hydrogen bond and hydrophobic interaction, furthermore, the weak interactions between receptor protein and ligands greatly influence on auxin activity of auxin ligands.

首先, 通过分子对接计算研究辅酶InsP6以及中心水分子在生长素反应中的重要作用;其次,比较受体大分子完全刚性以及活性残基部分柔性的两种情况下的分子对接结果,说明AutoDock4实现了受体分子活性残基的部分柔性而使对接结果更加合理,进而使用AutoDock4方法对TIR1-Auxins体系进行对接计算;最后,对TIR1-Auxins-Aux/IAA体系进行分子对接计算,结果表明,生长素配体分子作为&分子胶水&直接与受体大分子TIR1以及底物多肽Aux/IAA形成强的弱相互作用,如氢键作用、疏水相互作用,促进了受体TIR1与Aux/IAA底物之间的结合,进而说明氢键作用和疏水相互作用等弱相互作用对于生长素分子的活性具有很大的影响。

In contrast, deletion of the propeptide yields mature but inactive NK, the inclusion bodies of NK or denatured rNK couldn't be renatured in any condition, but with the aid of exogenously purified propeptide or Ser221Ala proNK, the inactive mature protein could be renatured by an intermolecular pathway in vitro.

此外,我们利用融合基因表达系统在大肠杆菌中高效表达了谷胱甘肽S-转移酶/NK和硫氧还蛋白/NK两种融合蛋白,经体外复性、纯化,均获得活性蛋白。以上结果显示,pro肽在体内体外,通过分子内或分子间的方式均能帮助NK分子的折叠与再折叠,作为一种分子内的分子伴侣,pro肽为NK分子正确折叠所必需。

Furthermore, the structures of DNA molecules varying with concentration of new modification agent were studied, and it was found that when the new modification agent concentration was 1:1000, DNA molecules were successfully fixed and extended on the modified mica surface and well-distinguished DNA strands were imaged by AFM.

并进一步观察了不同DAPS浓度下DNA分子的吸附行为,发现当DAPS/甲醇体积比浓度为1:100时,DNA分子呈现出大而复杂的形态,发生了分子内和分子间的碱基相互配对;当体积比浓度为1:3000时,即没有分子内和分子间的碱基相互配对,也

The effects of dopant concentration, the molecular volume and the temperature of polymerization on the refractive index profile of the preform rods were investigated in detail.

观察到聚合温度对折射率分布的影响以及掺杂剂分子的分子体积在极端情况下(如溴苯与MMA分子的分子体积相似,联苯分子体积比MMA则要大的多)对折射率分布的影响,清楚地显示出分子体积在界面-凝胶聚合过程中所起的重要作用。

更多网络解释与分子的相关的网络解释 [注:此内容来源于网络,仅供参考]

anti-semite:反犹分子、反犹分子的

genocide 有计划的灭种和屠杀 | anti-Semite反犹分子、反犹分子的 | racial discrimination 种族歧视

molecular:分子的

据此,主体被分成克分子的(molar)和分子的(molecular),少数的(minoritarian)和多数的(majoritarian). 无器官身体,即便空虚的无器官身体,也从不拒绝生成. 生成总是分子的,穿越和重新排列克分子"整体"(如阶级、种族、性别的划分),

molecular:分子的、由分子组成的

moderation 适度 | molecular 分子的、由分子组成的 | momentarily 即刻

monomolecular:单分子的

monomolecularreaction单分子反应 | monomolecular单分子的 | monomorph单晶物;单晶的

monomolecular:单层分子,单分子的

monomodeopticalwaveguide 单模光波导 | monomolecular 单层分子 单分子的 | monomolecularadsorption 单分子吸附

monomolecular:一分子的

monomineralic 单矿物的 | monomolecular 一分子的 | monomolecular 一分子厚的

bimolecular:双分子的有两个分子的

bimolecular termination | 双分子终止 | bimolecular | 双分子的有两个分子的 | bimolybdate | 酸性钼酸盐, 重钼酸盐

dimolecular:二分子的

dimolecular 二分子 | dimolecular 二分子的 | dimolecular 双分子

dimolecular:双分子 二分子 二分子的

dimness 暗淡 | dimolecular 双分子 二分子 二分子的 | dimonoecious 同株二型花

Chaperones, Molecular:分子伴侣,分子的

Chaperones for Metalloproteins金屬蛋白質的分子伴侶 | Chaperones, Molecular分子伴侶,分子的 | Chaperonins伴侶蛋白