(Mg-ATP)-dependent self-assembly of molecular chaperone GroEL

The important Escherichia coli heat-shock protein GroEL of relative molecular mass 57,259 is a typical molecular chaperone. It possesses ATPase activity and interacts in ATP-driven reactions with non-folded proteins to stimulate their correct folding and/or assembly by preventing the formation of improper protein structures or aggregates. As GroEL is isolated and functions as a 20-25S tetradecameric particle (GroELp), the question arises--what is the mechanism of its own assembly? Here we show the (Mg-ATP)-dependent self-stimulation ('self-chaperoning') in vitro of GroELp reassembly from its monomeric state.     

Expression of a candidate sex-determining gene during mouse testis differentiation

The development of a eutherian mammal as a male is a consequence of testis formation in the embryo, which is thought to be initiated by a gene on the Y chromosome. In the absence of this gene, ovaries are formed and female characteristics develop. Sex determination therefore hinges on the action of this testis-determining gene, known as Tdy in mice and TDF in humans. In the past, several genes proposed as candidates for Tdy/TDF have subsequently been dismissed on the grounds of inappropriate location or expression. We have recently described a candidate for Tdy, which maps to the minimum sex-determining region of the mouse Y chromosome. To examine further the involvement of this gene, Sry, in testis development, we have studied its expression in detail. Fetal expression of Sry is limited to the period in which testes begin to form. This expression is confined to gonadal tissue and does not require the presence of germ cells. Our observations strongly support a primary role for Sry in mouse sex determination.     

Molecular cloning of the microtubule-associated mechanochemical enzyme dynamin reveals homology with a new family of GTP-binding proteins

A complementary DNA encoding the D100 polypeptide of rat brain dynamin--a force-producing, microtubule-activated nucleotide triphosphatase--has been cloned and sequenced. The predicted amino acid sequence includes a guanine nucleotide-binding domain that is homologous with those of a family of antiviral factors, inducible by interferon and known as Mx proteins, and with the product of the essential yeast vacuolar protein sorting gene VPS1. These relationships imply the existence of a new family of GTPases with physiological roles that may include microtubule-based motility and protein sorting.     

s-单式环的交换性定理(英文)

本文将文献[3]的引理1推广到s-单式环上,并用迭代技术给出文献[4]的定理2一个简易的证明,将若干有1环的交换性定理推广到s-单式环上。     

溅射用铁电陶瓷靶的烧结与显微结构分析

探讨了溅射用铁电陶瓷靶（ＰＺＴ，ＰＬＺＴ）的烧结工艺，并对其显微结构进行了分析。结果表明，采用新的烧结工艺（含保护措施），可以有效地抑制ＰｂＯ的挥发，制备出组织结构及成分均匀、ＰｂＯ含量正常、致密度较高、不变形的符合磁控溅射要求的铁电陶瓷烧结靶。     

剩余静校正的小波包预处理方法

强反射层追踪与相对时差拾取中的“多值”现象严重影响剩余静校正的效果，为此提出的小波包预处理方法，可以实现地震道噪声与信号及不同强反射层的分离，从而能自动识别并提取“纯”的强反射层，提高强反射层追踪的可靠性和相对时差的拾取精度．     

PWM逆变电源抗冲击负荷电路研究

对几种逆变电源的抗冲击性负荷电路进行分析，给出了一种便于实现且效果很好的电路，实验证明此电路对各种冲击负荷甚至输出短路都能进行很好的限流，可以彻底解决逆变电源在负载冲击下频繁停机的问题。     

工程数据库的双缓冲区管理机制

提出了一面向对象数据库系统Ｏ２Ｓ的双缓冲区机制，阐述了页面缓冲区和对象缓冲区的管理数据结构及其缓冲区内的废品回收等，双缓冲机制能有效地提高应用对象的访问效率。     

传动方案设计专家系统的智能模型与关键技术

分析了传动方案设计的特点，探讨了如何利用人工智能理论及专家系统与常规ＣＡＤ技术解决传动方案设计问题。并给出了智能模型的建立及知识表示、约束推理、参数设计、多方案设计与布置设计的原理与方法。