A novel and conserved salt-induced protein is an important determinant of salt tolerance in yeast.

We have isolated a novel yeast gene, HAL1, which upon overexpression improves growth under salt stress. In addition, disruption of this gene decreases salt tolerance. Therefore HAL1 constitutes a rate-limiting determinant for halotolerance. It encodes a polar protein of 32 kDa located in the yeast cytoplasm and unrelated to sequences in data banks. The expression of this gene is increased by high concentrations of either NaCl, KCl or sorbitol. On the other hand, the growth advantage obtained by overexpression of HAL1 is specific for NaCl stress. In cells overexpressing HAL1, sodium toxicity seems to be counteracted by an increased accumulation of potassium. The HAL1 protein could interact with the transport systems which determine intracellular K+ homeostasis. The HAL1 gene and encoded protein are conserved in plants, being induced in these organisms by salt stress and abscisic acid. These results suggest that yeast serves as a convenient model system for the molecular biology of plant salt tolerance.     

田螺科五种螺的核型研究

以早期胚胎细胞为材料,用火焰干燥法制片,对分布于我国湖北省武汉市近郊的常见田螺科(Viviparidae)五种螺的核型进行了分析。结果:两种圆田螺的染色体数和国外报道的同一属的种类的一致。而三种环棱螺的染色体数,则较国外报道的另两种的少得多。在铜锈环棱螺的核型中,其m组的第一对和sm组的第四对染色体上,具有明显的随体,出现频率甚高。     

中国鲤科鱼类染色体组型的研究 Ⅱ.鲴亚科四种鱼的染色体组型

鲴亚科(Xenocyprininae)鱼类多为中小型鱼类,常见于江河湖泊等较宽阔的水域中,我国长江、黑龙江、黄河及珠江诸流域皆有分布,共有10种,隶属4个属(伍献文等,1964)。迄今尚未见有该亚科鱼类染色体组型的研究报道。本文是对其中三属四种鱼的染色体组型的观察结果。这四种鱼是银鲴(Xenocypris argentea)、黄尾鲴(Xenocypris davidi)、细鳞斜颌鲴(Plagiognathops microlepis)和逆鱼(Acanthobrama simoni)。其中黄尾鲴和细鳞斜颌鲴均为新的淡水养殖鱼(沈德长等,1981;陈楚星,1979)。     

C-terminal deletion analysis of plant plasma membrane H(+)-ATPase: yeast as a model system for solute transport across the plant plasma membrane.

The plasma membrane proton pump (H(+)-ATPase) energizes solute uptake by secondary transporters. Wild-type Arabidopsis plasma membrane H(+)-ATPase (AHA2) and truncated H(+)-ATPase lacking 38, 51, 61, 66, 77, 92, 96, and 104 C-terminal amino acids were produced in yeast. All AHA2 species were correctly targeted to the yeast plasma membrane and, in addition, accumulated in internal membranes. Removal of 38 C-terminal residues from AHA2 produced a high-affinity state of plant H(+)-ATPase with a low Km value (0.1 mM) for ATP. Removal of an additional 12 amino acids from the C terminus resulted in a significant increase in molecular activity of the enzyme. There was a close correlation between molecular activity of the various plant H(+)-ATPase species and their ability to complement mutants of the endogenous yeast plasma membrane H(+)-ATPase (pma1). This correlation demonstrates that, at least in this heterologous host, activation of H(+)-ATPase is a prerequisite for proper energization of the plasma membrane.     

Expression of carbohydrate residues in plasma membrane glycoproteins during the differentiation of amphibian epidermal cells

Summary Expression of various sugar residues on the plasma membrane of frog (Rana perezi) epidermal cells at different stages of differentiation has been monitored with the use of a battery of HRP-conjugated lectins. In paraffin-embedded tissue, mannose residues (stained by Concanavalin A) were detected at the keratinocyte cell surface in all epidermal strata. However,Lens culinaris agglutinin (LCA), also specific for mannose, specifically stained the plasma membrane of cells from the stratum germinativum. Expression of N-acetyl-glucosamine (GlcNAc), labelled with wheat germ agglutinin (WGA), was maximum at the cell surface of basal cells and progressively decreased through the stratum spinosum. Galactose (Gal) and N-acetyl-galactosamine (GalNAc) residues, labelled withGriffonia simplicifolia I (GS I) andGlycine max (SBA) agglutinins, respectively, were expressed according to the degree of differentiation in amphibian epidermal cells. Sialic acid-containing glycoproteins, labelled withLimax flavus agglutinin (LFA), were found in the outermost plasma membrane of the replacement cell layer and stratum corneum. Glycoproteins responsible for the observed lectin-binding patterns have been identified by staining on nitrocellulose filters after electrophoresis of solubilized plasma membrane fractions and Western blotting. Changes at the level of glycosylation of plasma membrane glycoproteins as epidermal cells differentiate are discussed on the basis of a progressive addition of Gal residues. Integral membrane proteins have been solubilized with the non-denaturing detergent CHAPS and glycoproteins containing terminal Gal residues, that are expressed according to the degree of differentiation in frog epidermis, have been partially purified by affinity chromatography on a GS I-Sepharose 4 B column. The purified fraction was composed by four acidic glycoproteins with isoelectric points between 4.6 and 5.2 and, in SDS-gels gave five major protein bands with approximate molecular weights of 148, 140, 102, 60, and 52 kDa in SDS-gels. The 102 and 52 kDa bands correspond to the a and subunits of amphibian epidermal Na⁺,K⁺-ATPase as demonstrated by specific staining with a polyclonal antibody against the catalytic subunit of pig kidney proton pump and staining with lectins GS I, GS II, and WGA. Possible relationships between higher molecular weight proteins and the constituents of intramembranous particles from the outermost plasma membranes of the replacement cell layer and the stratum corneum are also discussed.Abbreviations BSA bovine serum albumin - CHAPS (3-[(cholamidopropyl) dimethyl-ammonio] 1-propanesulfonate) - Con A Canavalia ensiformis agglutinin - DTT dithiothreitol - Gal galactose - GalNAc N-acetyl-D-galactosamine - GlcNAc N-acetyl-D-glucosamine - GS I Griffonia simplicifolia agglutinin I - GS II Griffonia simplicifolia agglutinin II - HRP horseradish peroxidase - LFA Limax flavus agglutinin - LCA Lens culinaris agglutinin - NDPAGIF non-denaturing polyacrylamide gel isoelectric focusing - PAGE polyacrylamide gel electrophoresis - PAP peroxidase-antiperoxidase - PBS phosphate buffered saline - PMSF phenyl methyl sulphonyl fluoride - RCL replacement cell layer - SBA soybean agglutinin (Glycine max) - SB stratum basal - SDS sodium dodecyl sulphate - SG stratum granulosum - SS stratum spinosum - UEA I Ulex europaeus agglutinin I - WGA wheat germ (Triticum vulgaris) agglutinin     

微生物发酵法生产S-腺苷甲硫氨酸的研究进展

S-腺苷甲硫氨酸(S-adenosyl-l-methionine, SAM)广泛存在于生物体内,主要参与生物体内的转甲基过程、转硫过程及转氨丙基过程,具有重要的生理功能,其生产备受重视。目前SAM生产的研究主要集中于微生物发酵法,该方法与化学合成法和酶催化法相比,成本较低且更容易实现工业化生产。随着需求量的迅速增加,通过菌种改良提高SAM产量备受关注。当前SAM生产菌种改良的主要策略包括常规育种和代谢工程。本文综述了提高微生物生产SAM能力的近期研究进展并探讨了SAM生产中的瓶颈问题及解决方法,以期为进一步提高SAM产量提供思路。     

Modified plant plasma membrane H+-ATPase with improved transport coupling efficiency identified by mutant selection in yeast

Transport across the plasma membrane is driven by an electrochemical gradient of H⁺ ions generated by the plasma membrane proton pump (H⁺-ATPase). Random mutants of Arabidopsis H⁺-ATPase AHA1 were isolated by phenotypic selection of growth of transformed yeast cells in the absence of endogenous yeast H⁺-ATPase (PMA1). A Trp-874-Leu substitution as well as a Trp-874 to Lys-935 deletion in the hydrophilic C-terminal domain of AHA1 conferred growth of yeast cells devoid of PMA1. A Trp-874-Phe substitution in AHA1 was produced by site-directed mutagenesis. The modified enzymes hydrolyzed ATP at 200–500% of wild-type level, had a sixfold increase in affinity for ATP (from 1.2 to 0.2 mM; pH 7.0), and had the acidic pH optimum shifted towards neutral pH. AHA1 did not contribute significantly to H⁺ extrusion by transformed yeast cells. The different species of aha1, however, displayed marked differences in initial rates of net H⁺ extrusion and in their ability to sustain an electrochemical H⁺ gradient. These results provide evidence that Trp-874 plays an important role in auto-inhibition of the plant H⁺-ATPase and may be involved in controlling the degree of coupling between ATP hydrolysis and H⁺ pumping. Finally, these results demonstrate the usefulness of yeast as a generalized screening tool for isolating regulatory mutants of plants transporters.     

Vitamin C stabilization as a consequence of the plasma membrane redox system

Summary Ascorbate is stabilized in the presence of HL-60 cells. Our results showed that cAMP derivatives and agents that increase cAMP stimulate the ability of HL-60 cells to stabilize ascorbate. On the other hand, tunicamycin, a glycosilation-interfering agent, inhibited this ability. The ascorbate stabilization in the presence of HL-60 cells has been questioned as a simple chemical effect. Further properties and controls about the enzymatic nature of this stabilization are described and discussed. This data, together with hormonal regulation, support the hypothesis that an enzymatic redox system located at the plasma membrane is responsible of the extracellular ascorbate stabilization by HL-60 cells.Abbreviations AFR ascorbate free radicals - FCS fetal calf serum - Sp-cAMPS Sp-cyclic adenosine monophosphothionate - Rp-cAMPS Rp-cyclic adenosine monophosphothionate     

植被格局对砒砂岩坡地降雨侵蚀的影响

为进一步研究砒砂岩区不同雨型下植被格局对坡面土壤侵蚀特征的影响,基于野外径流小区原位观测试验与景观生态学相结合的方法,通过对比分析不同坡面的植被斑块格局指数与产流产沙之间的相关关系,阐明植被格局对砒砂岩坡地降雨侵蚀的影响。结果表明:(1)该地区降雨可划分为3类,根据各植被坡面产流产沙能力,得出降雨侵蚀力表现为:雨型II(长历时、大雨量、大雨强) ＞ 雨型III(短历时、小雨量、中雨强) ＞ 雨型I(中历时、中雨量、小雨强)。降雨量和最大30min雨强与产流产沙量呈显著或极显著关系,相关系数0.695以上,是预测该区域水土流失的主要降雨因子。(2)各坡面水土保持能力与降雨类型有关,不同雨型下3种植被坡面减流减沙率分别达0.42%、20.8%以上,不同植被格局坡面减沙效益优于减流效益,3种植被坡面的减流能力为:雨型I ＞ 雨型III ＞ 雨型II。(3)3种植被坡面的径流泥沙模数由小到大依次为:均匀分布 ＜ 聚集分布 ＜ 随机分布,对比区域多年平均径流泥沙模数,3种植被坡面能够减少侵蚀达21.33%以上。(4)景观形状指数和分离度指数是影响坡面产流产沙的主要格局因子,相关系数分别达0.884和0.825以上。产流、产沙量与坡面植被斑块分离度呈显著正相关,与景观形状指数呈显著负相关。坡面产流量(Y₁)与斑块分离度(SPLIT)和景观形状指数(LSI)的关系式为Y₁=8.247SPLIT-6.605LSI+38.928,R²=0.905。以上结果表明植被斑块间的分离度越小,形状越复杂,坡面阻力增大,抗侵蚀能力越强。研究成果可为生态恢复过程中植被斑块格局的优化提供理论依据和数据支撑。