用微弹轰击法将GUS基因导入香蕉茎尖组织细胞

用在弹轰击法将外源ＤＮＡ导入香蕉（Ｍｕｓａ，ｓｐｐ）茎尖细胞，以ＧＵＳ基因作为报告基因，用Ｘ－Ｇｌｕｃ浴液对ＧＵＳ基因表达产物进行组织化学鉴定。样品材料细胞中发现有明显的蓝色斑点，而对照则没有。实验说明用微弹轰击法可以将外源基因导入香蕉茎尖组织并在其中成功表达，这为香蕉的外源基因导入工作提供了新的有效途径．     

浅谈高等医学院校物理实验室管理与建设

确立实验技术人员的地位和作用,加强对其综合素质进行培养;努力改善实验教学环境和条件,建立完善的制度,是高等医学院校物理实验室建设管理的重要环节.本文结合我校实际谈一些体会.     

产生图的全部哈密顿回路

本文对完全图和非完全图分别给出了一个产生图中全部Hamilton回路的算法。与已有算法比较,本文提出的算法具有速度快、内存小的优点。该算法用于判别一个图是否Hamilton图效果良好。     

高校竞技健美操运动员腕部损伤的原因及康复手段

通过调查与访谈,对参加江苏省16届运动会高校部健美操比赛的运动员手腕部的运动损伤情况进行统计与分析,总结出造成手腕部运动损伤的原因及康复治疗的手段,以期减少不必要的运动损伤,为竞技健美操教学与训练提供有效帮助。     

Ruin Probability with Variable Premium Rate and Disturbed by Diffusion in a Markovian Environment

We consider a risk model with a premium rate which varies with the level of free reserves. In this model, the occurrence of claims is described by a Cox process with Markov intensity process, and the influence of stochastic factors is considered by adding a diffusion process. The integro-differential equation for the ruin probability is derived by a infinitesimal method.     

VHDL语言在EDA开发软件MAX＋PlusII之应用

介绍了EDA开发工具软件MAX PlusII的主要功能；VHDL语言在进行硬件电路描述时所具有的多层次描述系统硬件功能的能力，以及在程序编译时易出现的问题。     

Newton's Easy Quadratures ``Omitted for the Sake of Brevity'

In the 1687 Principia, Newton gave a solution to the direct problem (given the orbit and center of force, find the central force) for a conic-section with a focal center of force (answer: a reciprocal square force) and for a spiral orbit with a polar center of force (answer: a reciprocal cube force). He did not, however, give solutions for the two corresponding inverse problems (given the force and center of force, find the orbit). He gave a cryptic solution to the inverse problem of a reciprocal cube force, but offered no solution for the reciprocal square force. Some take this omission as an indication that Newton could not solve the reciprocal square, for, they ask, why else would he not select this important problem? Others claim that ``it is child's play' for him, as evidenced by his 1671 catalogue of quadratures (tables of integrals). The answer to that question is obscured for all who attempt to work through Newton's published solution of the reciprocal cube force because it is done in the synthetic geometric style of the 1687 Principia rather than in the analytic algebraic style that Newton employed until 1671. In response to a request from David Gregory in 1694, however, Newton produced an analytic version of the body of the proof, but one which still had a geometric conclusion. Newton's charge is to find both ``the orbit' and ``the time in orbit.' In the determination of the dependence of the time on orbital position, t(r), Newton evaluated an integral of the form ∫dx/x <sup>n</sup> to calculate a finite algebraic equation for the area swept out as a function of the radius, but he did not write out the analytic expression for time t = t(r), even though he knew that the time t is proportional to that area. In the determination of the orbit, θ (r), Newton obtained an integral of the form ∫dx/√(1−x<sup>2</sup>) for the area that is proportional to the angle θ, an integral he had shown in his 1669 On Analysis by Infinite Equations to be equal to the arcsin(x). Since the solution must therefore contain a transcendental function, he knew that a finite algebraic solution for θ=θ(r) did not exist for ``the orbit' as it had for ``the time in orbit.' In contrast to these two solutions for the inverse cube force, however, it is not possible in the inverse square solution to generate a finite algebraic expression for either ``the orbit' or ``the time in orbit.' In fact, in Lemma 28, Newton offers a demonstration that the area of an ellipse cannot be given by a finite equation. I claim that the limitation of Lemma 28 forces Newton to reject the inverse square force as an example and to choose instead the reciprocal cube force as his example in Proposition 41. (Received August 14, 2002) Published online March 26, 2003 Communicated by G. Smith     

两段绞接式联合收割机输送槽的设计研究

本文介绍一种适宜配置在悬挂式联合收割机上的两段铰接式输送槽设计,这种输送槽后段固定,前段与割台连接并与后输送槽铰接,该铰接点为前悬挂割台的支点,借助液压油缸升降,文中对该铰接点位置的确定,以及两段输送槽铰接处的圆弧过渡板设计进行了分析研究,提供了设计方法.