Construction of Double-Copy Glucose Isomerase Gene Engineering Strain of Streptomyces diastaticus by Homologous Recombination

The plasmid pUT for homologous recombination was constructed by the insertion of the 1.1-kb thiostrepton resistance (tsr ^R) gene into the E. coli plasmid pUB1-GI1. Plasmid pUTK was produced through ligating the cleaved plasmid pUT by KpnI. After pUT and pUTK were introduced into Streptomyces diastaticus No.7 strain M1033 (SM33) by protoplast transformation, a series of tsr^R transformants were obtained, further based on enzyme assays. These results for polymerase chain reaction (PCR), DNA sequencing, restriction enzyme digestion, and recovery of cloned fragments from the transformant chromosome demonstrated the plasmid pUT and pUTK had integrated into the SM33 chromosome in three different patterns of single cross-over by homologous recombination. This directly results in double-copy GI gene in the transformant chromosome, of which one is wild-type GI gene, the other mutant GI (GIG138P, GI1) gene. Among the strains of the three kinds of recombinant patterns, one transformant was chosen and named K1, T2, and T3, respectively. The further identification of the three recombinant strains by PCR, DNA sequencing, restriction enzyme digestion, and Southern hybridization also proved there is a double-copy GI gene within their chromosome. Enzyme activity assay and thermostability analysis indicated that all three engineering strains expressed not only wild-type enzyme but also mutant GI. Received: 9 July 2001 / Accepted: 8 August 2001     

Preliminary Experiments in the Translocation of Organic Substances in Xanthoceras sorbifolia Bunge

Translocation and accumulation of organic substance in Xanthoceras sorbifolia Bunge, an oil tree species widely distributed in North China, have been studied by ringing method and 32P tracer technique. It was found that the organic nutrients for the growth of new shoots, new leaves, flowers and fruitlets all came from the reserves in branches, trunk and root system in the previous year. Foods synthesized in the newly formed mature leaves were translocated partly to fruits and apical bud of the same branch and partly to other branch, trunk and root system. Translocation of foods synthesized in the leaves to the growing fruits stopped about half a month before fruit maturation, they were translocat to other branches, trunk, root system and buds instead. This was apparently necessary for the growth and differentiation of flowers and fruits next year.     

Design and synthesis of aminophenol-based factor Xa inhibitors

A novel potent and selective aminophenol scaffold for fXa inhibitors was developed from a previously reported benzimidazole-based naphthylamidine template. The aminophenol template is more synthetically accessible than the benzimidazole template, which simplified the introduction of carboxylic acid groups. Substitution of a propenyl-para-hydroxy-benzamidine group on the aminophenol template produced selective, sub-nanomolar fXa inhibitors. The potency of the inhibitors is partially explained with the aid of a trypsin complex crystal structure.     

Performance comparison of experimental constructed wetlands with different filter media and macrophytes treating industrial wastewater contaminated with lead and copper

The aim of this study was to investigate the treatment efficiency of passive vertical-flow wetland filters containing different macrophytes (Phragmites and/or Typha) and granular media with different adsorption capacities. Gravel, sand, granular activated carbon, charcoal and Filtralite (light expanded clay) were used as filter media. Different concentrations of lead and copper sulfate were added to polluted urban stream inflow water to simulate pretreated mine wastewater. The relationships between growth media, microbial and plant communities as well as the reduction of predominantly lead, copper and five-day biochemical oxygen demand (BOD5) were investigated. An analysis of variance showed that concentration reductions (mg l(-1)) of lead, copper and BOD5 were significantly similar for the six experimental wetlands. Microbial diversity was low due to metal pollution and similar for all filters. There appears to be no additional benefit in using adsorption media and macrophytes to enhance biomass performance during the first 10 months of operation.     

日本大萝卜引种栽培研究

本文报道日本大萝卜引种栽培的试验结果,并为推广这一蔬菜新品种提供了有效的栽培技术措施。     

采用康宁克通—A治疗鼻息肉的临床疗效观察

鼻息肉与变态反应之间有密切联系。本文拟报道康克通—A用于鼻息肉摘除术前、后以延迟与防止息肉复发的临疗效观察。     

应用XTT法检测白细胞介素—Ⅱ的生物学活性

应用XTT比色法检测IL－2的生物学活性并与MTT法和^3H掺入法进行比较,结果XTT法较上述方法简便易行,结果稳定,重复性好。     

Novel 2D and 3D multiple-quantum bi-directional HCNCH experiments for the correlation of ribose and base protons/carbons in 13C/15N labeled RNA

Multiple-quantum 2D and 3D bi-directional HCNCH experiments are presented for the correlation of base and ribose protons/carbons in ¹³C/¹⁵N labeled HIV-1 TAR RNA. In both 2D and 3D experiments, the magnetization of H1 is transferred to H6/H8 and H1 through H1-C1-N1/9-C6/8-H6/8 and H1-C1-N1/9-C1-H1 pathways, and the magnetization of H6/8 is transferred to H1 and H6/8 through H6/8-C6/8-N1/9-C1-H1 and H6/8-C6/8-N1/9-C6/8-H6/8 pathways. Chemical shifts of four different nuclei (H1, C1, C6/8 and H6/8) are sampled in the 2D experiment. The correlation of base and ribose protons/carbons is established by the rectangular arrangement of crossover and out-and-back peaks in the proton/carbon correlated spectrum. The rectangular connections can be further resolved using the nitrogen dimension in a ¹H/¹³C/¹⁵N 3D experiment. Furthermore, by taking advantage of the well separated chemical shifts of N1 (pyrimidine) and N9 (purine), the 2D spectrum can be simplified into two sub-spectra based on their base type. Both experiments were tested on a ¹³C/¹⁵N labeled 27-mer HIV-1 TAR RNA containing a UUCG hairpin loop.     

Strong-light photoinhibition treatment accelerates the changes of protein secondary structures in triton-treated photosystem I and photosystem II complexes

Changes in the protein secondary structure and electron transport activity of the Triton X-100-treated photosystem I (PSI) and photosystem II (PSII) complexes after strong illumination treatment were studied using Fourier transform-infrared (FT-IR) spectroscopy and an oxygen electrode. Short periods of photoinhibitory treatment led to obvious decreases in the rates of PSI-mediated electron transport activity and PSII-mediated oxygen evolution in the native or Triton-treated PSI and PSII complexes. In the native PSI and PSII complexes, the protein secondary structures had little changes after the photoinhibitory treatment. However, in both Triton-treated PSI and PSII complexes, short photoinhibition times caused significant loss of -helical content and increase of -sheet structure, similar to the conformational changes in samples of Triton-treated PSI and PSII complexes after long periods of dark incubation. Our results demonstrate that strong-light treatment to the Triton-treated PSI and PSII complexes accelerates destruction of the transmembrane structure of proteins in the two photosynthetic membranes.