274 resultados para TSV-DM
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TSV-DM, a basic metalloproteinase with a molecular weight of 110 kDa, was purified from Trimeresurus stejnegeri venom. TSV-DM degraded the A alpha chain of fibrinogen more rapidly than the B beta chain in a dose dependent manner. The cDNA of TSV-DM encode
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出血性的蝰科蛇毒中含有丰富的蛇毒金属蛋白酶,本论文就竹叶青(Trimeresurus stejnegeri)蛇毒中的蛇毒金属蛋白酶的结构与功能进行研究。我们用生物化学手段从竹叶青(T.stejnegeri)的粗毒中分离纯化得到一个二聚体的P-IIIb亚型蛇毒金属蛋白酶,命名为TSV-DM。同时,用分子生物学方法从竹叶青(T.stejnegeri)的毒腺cDNA文库中克隆得到3个P-III型的蛇毒金属蛋白酶的cDNAs序列, 其中一个编码TSV-DM蛋白前体,另两个编码P-IIIc亚型的出血性蛇毒金属蛋白酶前体,分别命名为stejnihagin-A 和 stejnihagin-B。 经过阴离子层析和肝素亲和层析两步层析方法,我们从竹叶青(T. stejnegeri)蛇毒中分离纯化得到TSV-DM蛋白质,非还原条件下SDS-PAGE电泳表观分子量约110 kDa,还原条件下约为55 kDa。活性检测表明,TSV-DM降解牛纤维蛋白原Aα链快于Bβ链,且呈剂量依赖关系。但不降解明胶,不诱导出血,不具有促凝或者抗凝活性,以及不诱导或者抑制血小板聚集。蛋白质N-末端测序表明TSV-DM的成熟蛋白N-末端封闭。利用肽指纹图谱确证了TSV-DM的编码cDNA。TSV-DM的cDNA序列编码622个氨基酸残基的蛋白前体,包括信号肽、前肽、金属蛋白酶区域、间隔区、去整合素样区域和富含半胱氨酸区域。TSV-DM与其他P-III型蛇毒金属蛋白酶的一级结构序列比对发现TSV-DM和诱导血管内皮细胞凋亡的P-IIIb亚型蛇毒金属蛋白酶具有高度的同源性。但是用人脐带静脉血管内皮细胞系ECV304细胞作为靶细胞检测TSV-DM的诱导血管内皮细胞凋亡活性发现,TSV-DM只能抑制ECV304细胞的增殖和诱导细胞形态从多角形的内皮细胞向成纤维细胞样的梭形状改变。电泳检测抽提的片断化DNA以及流式细胞仪检测TSV-DM处理的ECV304细胞的DNA含量变化均表明TSV-DM不能诱导ECV304细胞的凋亡。 Stejnihagin-A 和stejnihagin-B是用PCR方法从竹叶青(T.stejnegeri)毒腺cDNA文库中克隆得到的两个P-III型蛇毒金属蛋白酶前体的cDNAs。这两个cDNA序列均编码600个氨基酸残基的蛋白前体,包括信号肽、前肽、金属蛋白酶区域、间隔区、去整合素样区域和富含半胱氨酸区域。推导成熟肽的氨基酸序列分析结果表明,stejnihagin-A 和stejnihagin-B不仅在一级结构序列上和来源于黄绿烙铁头(Trimeresurus flavoviridis)的HR1b具有高度同源性,高达79%, 而且在他们的金属蛋白酶区域的第100个氨基酸残基位置上均有一保守的半胱氨酸残基。结合序列比对和进化树的分析,我们推测stejnihagin-A、stejnihagin-B和HR1b有可能组成一个新的P-III型蛇毒金属蛋白酶亚型,命名为P-IIIc亚型。
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】目的观察重组竹叶青蛇毒纤溶酶原激活剂一体内溶栓效应。方法利用家兔制备的脑血检 模型, 以生理盐水和尿激酶为对照, 用数字减影血管造影技术观察重组竹叶青蛇毒纤溶酶原激活剂飞体内溶 检效果。结果昭高剂量实验组喇再通时间为以内月州低剂量实验组止以内再 通。尿激酶组以刃再通时间为一以内生理盐水对照组没有观察到再通现象。实验动物后处 死解剖, 未观察到出血现象和其它异常现象。结论重组巧勺一在体内具有良好的溶检活性。
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Dmr(tdouble sex and Mab-3 related transcription factor)是新发现的与动物性别决定和分化相关的基因家族(Kondo et al.,2002),在多种进化地位的物种中都具有高度保守性。然而在作为动物界第二大门的贝类中,是否也存在高度保守的Dmrt基因家族,是否具有丰富的多样性?到目前为止未见任何相关报道。马氏珠母贝是我国人工培育海水珍珠的最主要母贝,在其养殖群体中有少数雌雄同体个体,并在一定条件下出现性转化。因此,克隆鉴定马氏珠母贝的Dmrt基因既可丰富D
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将 12种鱼类培养细胞用于中华鳖病毒 ( Trionyx sinesisvirus,TSV)的体外感染试验。结果显示 ,TSV能使鲤鱼上皮乳状瘤细胞 ( EPC)、鳗鲡性腺细胞 ( EG)和草鱼卵巢细胞 ( CO)产生病变。比较了不同培养温度对 TSV感染鱼类细胞的影响以及 TSV引起鱼类细胞病变的特征。 TSV引起 3种鱼类细胞病变 ,经显微观察 ,它们具有不同的病变特征。 TSV感染细胞后 ,其 TCID5 0 在 2 0~ 30℃范围内 ,随温度的升高而增加。超微观察表明 ,从感染的鱼类培养细胞中分
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研究了DM(DesertMagic,一种液体保水剂)与大叶相思苗木生长的关系.结果表明,使用DM能加速苗木的生长发育;苗高、地径、根长等生长指标明显高于对照;0~30cm土壤含水量显著提高.使用DM对培育大叶相思优质壮苗有良好的效果.
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The thermal properties of a micro-electromechanical system sensor were analysed by a novel digital moire method. A double-layer micro-cantilever sensor (60 mu m long, 10 mu m width and 2 mu dm thick) was prepared by focused ion beam milling. A grating with frequency of 5000 lines mm- I was etched on the cantilever. The sensor was placed into a scanning electron microscope system with a high temperature device. The observation and recording of the thermal deformation of the grating were realised in real-time as the temperature rose from room temperature to 300 degrees C at intervals of 50 degrees C. Digital moire was generated by interference of the deformed grating and a digital virtual grating. The thermal properties including strain distribution of the sensor and the linear expansion coefficient of polysilicon were accurately measured by the phase-shifted moire patterns.
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Plastic deformation behaviour of Zr52.5Al10Ni10Cu15Be12.5 and Mg65Cu25Gd10 bulk metallic glasses (BMGs) is studied by using the depth-sensing nanoindentation and microindentation. The subsurface plastic deformation zone of the BMGs is investigated using the bonded interface technique. Both the BMGs exhibit the serrated flow depending on the loading rate in the loading process of indentation. Slow indentation rates promote more conspicuous serrations, and rapid indentations suppress the serrated flow. Mg-based BMG shows a much higher critical loading rate for the disappearance of the serration than that in Zr-based BMG. The significant difference in the shear band pattern in the subsurface plastic deformation zone is responsible for the different deformation behaviour between the two BMGs. Increase of the loading rate can lead to the increase of the density of shear bands. However, there is no distinct change in the character of shear bands at the loading rate of as high as 1000 nm/s.
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In this paper, cooperative self-assembly (CSA) of colloidal spheres with different sizes was studied. It was found that a complicated jamming effect makes it difficult to achieve an optimal self-assembling condition for construction of a well-ordered stacking of colloidal spheres in a relatively short growth time by CSA. Through the use of a characteristic infrared (IR) technique to significantly accelerate local evaporation on the growing interface without changing the bulk growing environment, a concise three-parameter (temperature, pressure, and IR intensity) CSA method to effectively overcome the jamming effect has been developed. Mono- and multiscale inverse opals in a large range of lattice scales can be prepared within a growth time (15-30 min) that is remarkably shorter than the growth times of several hours for previous methods. Scanning electron microscopy images and transmittance spectra demonstrated the superior crystalline and optical qualities of the resulting materials. More importantly, the new method enables optimal conditions for CSA without limitations on sizes and materials of multiple colloids. This strategy not only makes a meaningful advance in the applicability and universality of colloidal crystals and ordered porous materials but also can be an inspiration to the self-assembly systems widely used in many other fields, such as nanotechnology and molecular bioengineering.
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A generalized model for the effective thermal conductivity of porous media is derived based on the fact that statistical self-similarity exists in porous media. The proposed model assumes that porous media consist of two portions: randomly distributed non-touching particles and self-similarly distributed particles contacting each other with resistance. The latter are simulated by Sierpinski carpets with side length L = 13 and cutout size C = 3, 5, 7 and 9, respectively, depending upon the porosity concerned. Recursive formulae are presented and expressed as a function of porosity, ratio of areas, ratio of component thermal conductivities and contact resistance, and there is no empirical constant and every parameter has a clear physical meaning. The model predictions are compared with the existing experimental data, and good agreement is found in a wide range of porosity of 0.14-0.80, and this verifies the validity of the proposed model.
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An approximate model, a fractal geometry model, for the effective thermal conductivity of three-phase/unsaturated porous media is proposed based on the thermal-electrical analogy technique and on statistical self-similarity of porous media. The proposed thermal conductivity model is expressed as a function of porosity (related to stage n of Sierpinski carpet), ratio of areas, ratio of component thermal conductivities, and saturation. The recursive algorithm for the thermal conductivity by the proposed model is presented and found to be quite simple. The model predictions are compared with the existing measurements. Good agreement is found between the present model predictions and the existing experimental data. This verifies the validity of the proposed model. (C) 2004 American Institute of Physics.
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In the present paper, a simple mechanical model is developed to predict the dynamic response of a cracked structure subjected to periodic excitation, which has been used to identify the physical mechanisms in leading the growth or arrest of cracking. The structure under consideration consists of a beam with a crack along the axis, and thus, the crack may open in Mode I and in the axial direction propagate when the beam vibrates. In this paper, the system is modeled as a cantilever beam lying on a partial elastic foundation, where the portion of the beam on the foundation represents the intact portion of the beam. Modal analysis is employed to obtain a closed form solution for the structural response. Crack propagation is studied by allowing the elastic foundation to shorten (mimicking crack growth) if a displacement criterion, based on the material toughness, is met. As the crack propagates, the structural model is updated using the new foundation length and the response continues. From this work, two mechanisms for crack arrest are identified. It is also shown that the crack propagation is strongly influenced by the transient response of the structure.
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A method for optimizing tried wave functions in quantum Monte Carlo method has been found and used to calculate the energies of molecules, such as H-2, Li-2, H-3+, H-3 and H-4. Good results were obtained.