Conformations and dynamics of surfactants in micelles and liquid crystals by nuclear magnetic relaxation

The order parameters as well as the rates of overall and internal motions of aggregated surfactants can be obtained from deuteron and carbon-13 nuclear relaxation experiments. The main contribution to the relaxation is generally the quadrupolar coupling (²H) or the short range dipolar interaction with protons (¹³C). In some cases it is convenient to derive the same information from the¹³C relaxation induced by long range dipolar interactions with a paramagnetic probe exchanging rapidly among the polar heads of surfactant molecules. This paper outlines the methods of interpretation of relaxation data by means of a rotational jump model of internal motions, taking into account most of the accessible conformers. The conformational and dynamical parameters are obtained from the magnetic field dependence of the longitudinal relaxation rates (micelles) or from the simultaneous fit of these rates and of the dipolar or quadrupolar splittings (liquid crystals). Some examples of application of these methods are given from recent works on single and double detailed surfactants.     

猪垂体总mRNA的提取、鉴定及其cDNA的合成

 用改进的LiCl沉淀法和寡聚(dT)-纤维素亲和层析法由猪垂体制得总mRNA。在兔网织红细胞无细胞翻译体系中进行体外翻译的结果表明,制得的总mRNA具有一定的翻译活力。翻译产物与兔抗猪生长激素抗血清发生免疫沉淀,沉淀物占总翻译产物的10％左右。SDS聚丙烯酰胺凝胶电泳的结果表明翻译产物有一条很深的带,分子量约为24,000道尔顿,与猪前生长激素的分子量相近。以制备的mRNA为模板反转录合成了双链cDNA。第一链的合成产率为10—35％,第二链的合成产率为84—115％。cDNA的平均分子长度为825bp。     

Reduced pyridine nucleotides in Pseudomonas carboxydovorans are formed by reverse electron transfer linked to proton motive force

In cell suspensions of Pseudomonas carboxydovorans pulsed with lithotrophic substrates (CO or H₂) in the presence of oxygen, formation of reduced pyridine nucleotides and of ATP could be demonstrated using the bioluminescent assay. Experiments employing base-acid transition, an uncoupler and inhibitors of ATPase or electron transport enabled us to propose a model for the formation of NAD(P)H in chemolithotrophically growing P. carboxydovorans.The protonophor FCCP (carbonly-p-trifluormethoxyphenylhydrazon) inhibited both, formation of NAD(P)H and of ATP. In the absence of oxygen, a chemical potential imposed by base-acid transition resulted in the formation of NAD(P)H and ATP when electrogenic substrates (CO or H₂) were present. This suggests proton motive force-driven NAD(P)H formation. The proton motive force was generated by oxidation of substrate, and not by ATP hydrolysis, as obvious from NAD(P)H formation during inhibition of ATP synthesis by oligomycin and N,N-dicyclohexylcarbodiimide.That the CO-born electrons are transferred via the ubiquinone 10-cytochrome b region to NADH dehydrogenase functioning in the reverse direction, was indicated by inhibition of NAD(P)H formation by HQNO (2-n-heptyl-4-hydroxyquinoline-N-oxide) and rotenone, and by resistance to antimycin A.We conclude that in P. carboxydovorans, growing with CO or H₂, electrons and a proton motive force, generated by respiration, are required to drive an reverse electron transfer for the formation of reduced pyridine nucleotides.Abbreviations CODH carbon monoxide dehydrogenase - DCCD N,N-dicyclohexylcarbodiimide - FCCP carbonyl-p-trifluormethoxyphenylhydrazon - HQNO 2-n-heptyl-4-hydroxyquinoline-N-oxide - pmf proton motive force     

多羟基苯衍生物对逆转录酶抑制动力学的研究

 一些多羟基苯衍生物对逆转录酶呈现竞争性抑制作用,它们对M-MLV逆转录酶的抑制作用比AMV逆转录酶要强。