生物医学研究热点及意义

生物医学研究是目前发展最快、令人振奋的科技领域。本文概述了生物医学的发展趋势，并对生物医学前沿领域的研究热点，如基因组、蛋白质组、细胞信号转导机制、干细胞研究、神经科学研究、生物信息学等进行了分析。对生物技术领域的研究热点，如生物芯片技术、高效基因转移系统技术、组织工程技术和干细胞定向分化技术、基因敲除和敲入技术、克隆技术等进行了综述。提出研究中应该注意针对研究热点选题，注意多学科交叉和集团作战，同时注意知识产权保护。     

海南岛万泉河口沉积环境演变

根据对柱样沉积物²¹⁰Pb定年及有机碳、硫和有机碳同位素含量分析, 研究万泉河口沉积环境演变. 硫和δ¹³C均自19世纪初期开始持续减少, 硫从1.92%逐渐减少到0.36%, δ¹³C从−20.63‰减少到−23.64‰. C/S比在20世纪之前一直很稳定, 处于0.47~0.80之间, 有机碳与硫呈正相关; 在此之后, C/S比急剧增加, 至表层为3.94, 硫的含量与有机碳的增加没有相关关系. 结果表明在19世纪之前万泉河口尚为开阔的海湾, 处于正常海洋环境,未形成被沙坝围封的泻湖, 海水能够直接出入. 19世纪初期开始, 随着玉带滩沙坝向北发育, 河口逐渐被围拦成泻湖型, 进入的海水量逐渐减少; 在19与20世纪之交, 水体已开始明显淡化, 发展成为今天近乎淡水的泻湖.     

一类带有奇异项的临界椭圆方程正解的存在性

研究了一类带有负指数项和Sobolev-Hardy临界项的半线性椭圆方程，运用变分法证明了正解的存在性。     

卟吩质子化过程结构变化的理论研究

用ＡＭ１ＭＯ方法计算了质子化卟吩的构型，并通过结构分析、电荷布局分析和前线轨道分析，讨论了其质子化过程的构型变化及Ｒａｍａｎ光谱变化的原因。     

Two classes of metabolites fromTheonella swinhoei are localized in distinct populations of bacterial symbionts

The marine spongeTheonella swinhoei (lithistid Family Theonellidae, Order Astrophorida) has yielded many important, bioactive natural products, most of which share structural features with bacterial natural products. The presence of microbial symbionts inT. swinhoei has been reported, and it was originally suggested that the cytotoxic macrolide swinholide A and many of the bioactive cyclic peptides fromT. swinhoei were all produced by symbiotic cyanobacteria. By transmission electron microscopy, we found four distinct cell populations to be consistently present inT. swinhoei: eukaryotic sponge cells, unicellular heterotrophic bacteria, unicellular cyanobacteria and filamentous heterotrophic bacteria. Purification and chemical analyses of each cell type showed the macrolide swinholide A to be limited to the mixed population of unicellular heterotrophic bacteria, and an anti-fungal cyclic peptide occurred only in the filamentous heterotrophic bacteria. Contrary to prior speculation, no major metabolites were located in the cyanobacteria or sponge cells.     

Antioxidant survey to assess antagonism to redox stress using a prokaryotic and an eukaryotic system

Using a prokaryote (Escherichia coli) and a metazoa-resembling eukaryote (Ochromonas danica), we surveyed antioxidants which might overcome redox stress imposed by menadione sodium bisulphite (MD) and buthionine sulphoximine (BSO). BSO oxidant stress was evident only inO. danica; MD oxidant stress was evident in both organisms. Glutathione, its precursors, e.g. cysteine, homocysteine, and 2-oxo-4-thiazolidine carboxylic acid, and red blood cells, emerged as prime antioxidants for relieving BSO and MD oxidant stress. BSO and MD oxidant activity and antioxidant-annulling effect inO. danica were judged comparable to those found in animal cells whereas the resultsE. coli were not entirely equivalent. TheO. danica system emerged as a practical, rapid, and useful system for pinpointing oxidant stressors and antioxidants, and shows promise for studies with mammalian systems.     

矿石与材料发光光谱学

本书属于矿物物理领域，重点是矿物的发光光谱。本书使用的实验手段主要是激光激发矿物质和对其发射和散射结果进行时间分辨的探测。全书共11章。第1章简介，介绍了主要科学术语的定义以及激光诱导时间分辨技术和稳态发光等内容；第2章理论背景，解释了激发能的吸收、辐射跃迁等发光中的主要过程；第3章实验方法，描述了实验设备的主要部分;     

气体水合物研究进展

本书是2003年春季美国化学工程协会召开的“气体水合物讨论会”的论文集，共收录16篇论文。气体水合物是一种非常特殊的化学组成，它是由水分子（主体分子）包裹着气体分子（客体分子）在低温高压条件下形成的一种无化学键的晶体物质。通常的气体水合物是甲烷水合物，在常温常压下，甲烷水合物中包含的甲烷气体是甲烷水化物本身的180倍。作为一种替补能源，气体水合物的研究已经越来越受到人们的重视。