Change and permanence: Reflections on the ethical-social contract of science in the public interest

Summary Modern science, dedicated since its 17th Century origins to the mastery and possession of nature for the relief of man's estate, is a source of great social change, affecting our opinions, practices, and ways of life. It thus exists necessarily in tension with law and morality, our institutions of stability and order. This tension between change and permanence, between science and law or morals, was institutionalized by the American Founders who sought to encourage, under law, the progress in science and the useful arts, by means of the copyright and patent laws. American science and technology have flourished under the patent law, an ingenious ethical and social contract between scientists and the polity, through which private right and interest and public good generally coincide. Nevertheless, this contract has its limitations. Some of these limitations are vividly seen through the recent Supreme Court decision (in the Chakrabarty case) to permit the patenting of living microorganisms. Analysis of this case shows why the contract between science and the polity embodied in the Patent Laws may not always serve the public good and may also be harmful to science itself. Also, permitting ownership of living species shows how close we have come in our thinking to overstepping the sensible limits of the project for the mastery and possession of nature.     

褐藻寡糖生物法制备研究进展 *

褐藻寡糖(alginate oligosaccharides,AOS)是褐藻胶的降解产物,具有抗氧化、调节免疫、调节血脂、促进细胞生长等生理活性,应用范围广泛。现有的AOS 制备法主要分为物理法、化学法和生物法。介绍AOS的生物法制备包括酶解、微生物全细胞发酵和生物合成法,基因工程的应用在改造产褐藻胶裂解酶的菌株以提高生物法效率方面具有重要意义。此外,规模化的AOS生物法制备案例进行了科学引证,并展望了未来 AOS规模化制备的发展方向,以期为 AOS 的工业化制备和应用提供参考。     

Stable integration of foreign DNA into the chromosome of the cyanobacterium Synechococcus R2

The blue-green alga, Synechococcus R2, is transformed to antibiotic resistance by chimeric DNA molecules consisting of Synechococcus R2 chromosomal DNA linked to antibiotic-resistance genes from Escherichia coli. Chimeric DNA integrates into the Synechococcus R2 chromosome by homologous recombination. The efficiency of transformation, as well as the stability of integrated foreign DNA, depends on the position of the foreign genes relative to Synechococcus R2 DNA in the chimeric molecule. When the Synechococcus R2 DNA fragment is interrupted by foreign DNA, integration occurs through replacement of chromosomal DNA by homologous chimeric DNA containing the foreign insert; transformation is efficient and the foreign gene is stable. Mutagenesis in some cases attends integration, depending on the site of insertion. Foreign DNA linked to the ends of Synechococcus R2 DNA in a circular molecule, however, integrates less efficiently. Integration results in duplicate copies of Synechococcus R2 DNA flanking the foreign gene and the foreign DNA is unstable. Transformation in Synechococcus R2 can be exploited to modify precisely and extensively the genome of this photosynthetic microorganism.     

Biotechnology applied to mining of metals

The present review describes the advances achieved during the last two years in the application of biotechnological principles in the extraction of metals from ores and minerals. Despite the fact that this branch of science is very young and many details are yet to be understood, the microbes are applied at commercial levels especially for the extraction of copper and uranium from low-grade ores. The technique is far from being developed to its full potential and it is generally recognized to be a technology of the future. The studies involved are complex and multidisciplinary in nature.     

How various factors influence the CO2/O2 specificity of ribulose-1,5-bisphosphate carboxylase/oxygenase

Temperature, activating metal ions, and amino-acid substitutions are known to influence the CO₂/O₂ specificity of the chloroplast enzyme ribulose-1,5-bisphosphate carboxylase/oxygenase. However, an understanding of the physical basis for enzyme specificity has been elusive. We have shown that the temperature dependence of CO₂/O₂ specificity can be attributed to a difference between the free energies of activation for the carboxylation and oxygenation partial reactions. The reaction between the 2,3-enediolate of ribulose 1,5-bisphosphate and O₂ has a higher free energy of activation than the corresponding reaction of this substrate with CO₂. Thus, oxygenation is more responsive to temperature than carboxylation. We have proposed possible transition-state structures for the carboxylation and oxygenation partial reactions based upon the chemical natures of these two reactions within the active site. Electrostatic forces that stabilize the transition state of the carboxylation reaction will also inevitably stabilize the transition state of the oxygenation reaction, indicating that oxygenase activity may be unavoidable. Furthermore, the reduction in CO₂/O₂ specificity that is observed when activator Mg²⁺ is replaced by Mn²⁺ may be due to Mg²⁺ being more effective in neutralizing the negative charge of the carboxylation transition state, whereas Mn²⁺ is a transition-metal ion that can overcome the triplet character of O₂ to promote the oxygenation reaction.Abbreviations CABP 2-carboxyarabinitol 1,5-bisphosphate - enol-RuBP 2,3-enediolate of ribulose 1,5-bisphosphate - K_c K_mfor CO₂ - K_o K_mfor O₂ - Rubisco ribulose-1,5-bisphosphate carboxylase/oxygenase - RuBP ribulose 1,5-bisphosphate - V_c V _max for carboxylation - V_o V _max for oxygenation     

丝状真菌基因表达系统研究进展

本文是26篇关于丝状真菌基因表达系统的研究论文的综述,包括两部份内容。前一部分叙述1979年开始建立并迅速发展起来的丝状真菌转化系统,着重介绍丝状真菌中转化系统的构建及转化的一般特点。后一部分叙述在转化系统发展基础上产生的丝状真菌基因工程,文中列出了截至1991年9月为止报道的一些成功的实例,说明它在丝状真菌工业育种和作为外源基因产物的生产和分泌系统中的应用。     

DISCOVERY OF MONOGRAPTIDS IN BASAL PART OF LOWER SILURIAN FROM S. ANHUI WITH SPECIAL REFERENCE TO THEIR ORIGIN

For a long time, the evolutionary series of a idoraptids-dimorphograptids-monograptids has been generally recognized by graptolite researchers. In the past years, the akidograptids were found to appear in the Lower Silurian Parakidograptus acuminatus Zone, while the dimorphograptids in the P. acuminatus and Orthograpius vesiculosus Zones, but the monograptids appeared as late as in the O. vesiculosus zone; this evolutionary series can be easily accepted by other people. Chen Xu and Lin Yao-kun (1978) pu...     

Was globin evolution very rapid in its early stages?: A dubious case against the rate-constancy hypothesis

Summary Goodman et al's (1975) claim of accelerated evolution in the early stages of globin evolution is based on an erroneous assignment of the time of divergence of vertebrate myoglobin and hemoglobin. When this is corrected, there is no basis for their claim. The data are much more consistent with the nearly constant rate expected on the neutral mutation-random drift hypothesis than with the uneven rates expected if most amino acid changes were caused by substitution of favorable mutants through Darwinian selection. In addition, the majority of the codons determined by their maximum parsimony method have turned out to be wrong when compared to the actual nucleotide sequences of rabbit and human hemoglobins determined by direct sequencing.Contribution No. 1314 from the National Institute of Genetics, Mishima, 411 Japan.