| 1. | The problem of the protein stability changed by solvent environment is in the limelight 蛋白质的稳定性随溶液环境的变化一直是人们关心的热点问题。 |
| 2. | Soil nitrate concentrations were estimated based ontdr ecw and a simple linear calibration of ecw vs nitrate concentrations and then predict the soil column nitrate 研究表明,利用时域反射技术得到的土壤溶液电导率计算的硝态氮浓度随溶液电导率以及土壤含水量的变化而变化。 |
| 3. | The relationships between the energy storage density , cop , the rate of crystallization and the solution concentration difference , the temperature of cooling water are also discussed in the paper 此外还分析了系统蓄能密度、 cop及结晶率随溶液浓度差和冷却水温度的变化情况。 |
| 4. | The structures of pamps molecule chains change along with the changes of solution environments ( ph and ionic strength ( i ) ) and thus affect the water flux and selective permeability of the composite membrane Pamps分子链的构象随溶液环境( ph值、离子强度等)的变化而变化,从而影响膜的渗透通量和选择透过能力。 |
| 5. | To solve this problem , we used the formal charge model to study electrostatic interactions of protein complexes . and a fast and effective model for predicting the salt and ph dependent properties of protein complexes was presented here and applied to the analysis and prediction of the stability of protein structures 针对这个问题,我们采用简单形式电荷模型来研究蛋白质二聚体静电相互作用,建立了一种快速、有效地预测蛋白质稳定性随溶液ph值和盐离子浓度变化的方法,并将其应用于蛋白质分子结构稳定性的分析和预测。 |
| 6. | Kds of 125i ~ on several minerals increased with increase of mineral ratio in mixed materials under atmosphere and low oxygen ambience ; and decreased with decrease of ratio of mixed materials and liquid under atmosphere . under the same condition , kds of 125i " on chalcopyrite and galenite were larger than kds of 125io3 " 大气条件下,随溶液初始ph值的增大, 125i -在黄铜矿、方铅矿上的kd值均呈减小的趋势;而在低氧条件下,随溶液初始ph值的增大, 125i -在方铅矿上的kd值增大。 |
| 7. | As the ratio of alcohol to water descends , both of them rise . as the solution concentration of nitrates descends , the crystalline size firstly descends and then rises . the nozzle pressure brings forth little affluence on the crystalline size of the powder , but the elevated pressure can enlarge the quantity and the size of the agglomeration 随酒精和水的比值的减小,粒径和颗粒粒径都增加;粒径随溶液浓度的减小,先减小后增加;一次粒径随压力的变化,变化很小,但随压力和流量的增加,团聚体增多、团聚粒径增大。 |