盐胁迫对柱胞鱼腥藻细胞结构和固氮作用的影响

在含ＫＣｌ的条件下培养,柱胞鱼腥藻细胞膨大,球形化,色素质靠向细胞一侧,另一侧变成无色透明区。电镜检查,无色透明区形成液泡。此种结构改变是可逆的,ＣａＣｌ２可抵消ＫＣｌ的这种作用。在含ＫＣｌ的无氮培养基中培养,柱胞鱼腥藻生长迟缓,细胞黄化,乙炔还原法测定固氮活性下降９５％。     

满江红鱼腥藻(Anabaena azollae)和柱孢鱼腥藻(A.cylindrica)营养细胞和异形胞色素的种类

满江红鱼腥藻和柱孢鱼腥藻营养细胞和异形胞的液氮低温吸收光谱表明两种细胞含有叶绿素a、藻蓝素和β-胡萝卜素。液氮低温荧光发射光谱表明:柱孢鱼腥藻营养细胞存在藻蓝素、别藻蓝素和两个光系统的叶绿素a,柱孢鱼腥藻异形胞存在藻蓝素和系统Ⅰ叶绿素a。荧光发射光谱的685nm荧光发射仅为微弱突起。满江红鱼腥藻异形胞亦存在藻蓝素和系统Ⅰ叶绿素a,缺少系统Ⅱ叶绿素a。推断满江红鱼腥藻和桩孢鱼腥藻营养细胞分化为异形胞时,伴随光系统Ⅱ的改组。系统Ⅱ叶绿素a消退和藻胆色素含量显著减少。     

满江红鱼腥藻（Anabaena azollae）和柱孢鱼腥藻(A. cylindrica)营养细胞和异形胞色素的种类

满江红鱼腥藻和柱孢鱼腥藻营养细胞和异形胞的液氮低温吸收光谱表明两种细胞含有叶绿素a、藻蓝素和β-胡萝卜素。液氮低温荧光发射光谱表明:柱孢鱼腥藻营养细胞存在藻蓝素、别藻蓝素和两个光系统的叶绿素a,柱孢鱼腥藻异形胞存在藻蓝素和系统Ⅰ叶绿素a。荧光发射光谱的685nm荧光发射仅为微弱突起。满江红鱼腥藻异形胞亦存在藻蓝素和系统Ⅰ叶绿素a,缺少系统Ⅱ叶绿素a。推断满江红鱼腥藻和桩孢鱼腥藻营养细胞分化为异形胞时,伴随光系统Ⅱ的改组。系统Ⅱ叶绿素a消退和藻胆色素含量显著减少。     

KCl诱导柱胞鱼腥藻形成液泡

蓝藻营养细胞的亚显微结构,很早就已进行了深人的研究．人们知道,蓝藻细胞内含DNA微丝、内羹体、核糖体、气泡及贮藏颗粒等[1]．近年来,作者在蓝藻原生质球分离和培养［‘”］中注意到,有些无机盐对蓝藻细胞结构产生很大影响,并对受KO影响的住胞鱼腥藻细胞进行了亚显微结构检查,发现在KO影响下柱胞鱼腥藻细胞内形成液泡,这一发现在国内外尚属首次,为此简报如下．l材料和方法本试验使用住胞鱼腥藻（Anabaenarylindrica）,材料引自中国科学院水生生物研究所,培养条件参见文献［51。试验时,将材料培养于含0．lmoFLKO的液体培养…     

丝状固氮蓝藻柱胞鱼腥藻原生质球的培养再生

丝状固氮蓝藻柱胞鱼腥藻 (Anabaena cylindrica)在含 0 .1mol/ L KCl的 Allen液体培养基中培养7～ 9d,90 %以上细胞转化为原生质球或半原生质球 ,对低渗敏感或抗低渗。此种材料经 0 .1%溶菌酶 ,在 2 8℃下处理 3～ 4h,细胞低渗破裂率约 10 0 % ,成为质量较高的原生质球。用 0 .15mol/ L Ca Cl2 液体无机盐培养基培养 ,原生质球再生和分裂。不同原生质球再生不同步 ,最快培养 3 d分裂。再生分裂的主要方式为均等分裂 ,但有不规则分裂和出芽方式 ,再生率在 2 5%以上。     

蓝藻球形体的分离,培养及再生

在高渗溶液中,用0.05%溶菌酶和2—5mmol·1~(-1)EDTA 处理蓝藻柱孢鱼腥藻、多变鱼腥藻和组囊藻细胞。5—8h 后,70—90%的细胞转为对渗透压敏感的球形体(Spheroplast),又称原生质球。研究了藻的不同培养条件对球形体形成率的影响。测定了 EDTA 处理藻纽胞后外膜脂多糖的释放量。在高渗溶液中,藻细胞和经酶处理获得的球形体的光合放氧活性明显下降,固氮种类的固氮活性失去。饲养层法、固体混合法和含有0.5mg·1~(-1)BA 的液体悬滴培养的柱孢鱼腥藻的球形体,9天后出现再生藻落;在固体混合法培养中获得了组囊藻球形体的再生藻落。在第4天的悬滴培养物中,可以看到球形体发生第一次细胞分裂。再生藻细胞和酶处理物中残留细胞的抗溶菌酶特性有差异。     

四唑（Tetrazolium）对固氮鱼腥藻固氮和氢代谢的影响

固氮鱼腥藻(Anabaena azotica Ley)细胞能还原无色的TTC和NBT分别成为红色或蓝色的甲zan(formazan)沉淀。异形胞还原TTC的速率高于营养细胞。前异形胞及异形胞附近的营养细胞对NBT的还原作用最强。而异形胞对NBT不起还原作用。无论在异形胞形成红色甲zan或在营养细胞形成蓝色甲zan后都抑制固氮酶活性。NBT甲zan对固氮酶活性的抑制作用大于TTC甲zan,因为NBT氧化还原电位低于TTC。TTC和NBT两者都明显地抑制固氮鱼腥藻完整细胞的放氢。因鱼腥藻的放氢是由固氮酶催化的结果。四唑抑制放氢推想是由于它截取了固氮酶催化系统中的电子的缘故。固氮微生物(包括蓝色细菌和根瘤菌)对四唑还原与吸氢酶之间有无相关是一个争论的问题。一些学者认为分离豆科植物体的一些根瘤菌株培养于含有TTC的琼脂培养基,如还原,便可证明这些根瘤菌株能氧化氢;换言之,应用TTC的还原可作为一些根瘤菌的菌落具有吸氢酶的验证。相反,我们发现固氮鱼腥藻还原TTC和NBT之后,都没有影响吸氢的能力。因此,我们推想固氮鱼腥藻对四唑之还原与吸氢酶是没有直接的关系。     

四唑(Tetrazolium)对固氮鱼腥藻固氮和氢代谢的影响

固氮鱼腥藻(Anabaena azotica Ley)细胞能还原无色的TTC和NBT分别成为红色或蓝色的甲(月朁)(formazan)沉淀。异形胞还原TTC的速率高于营养细胞。前异形胞及异形胞附近的营养细胞对NBT的还原作用最强。而异形胞对NBT不起还原作用。无论在异形胞形成红色甲(月朁)或在营养细胞形成蓝色甲(月朁)后都抑制固氮酶活性。NBT甲(月朁)对固氮酶活性的抑制作用大于TTC甲(月朁),因为NBT氧化还原电位低于TTC。 TTC和NBT两者都明显地抑制固氮鱼腥藻完整细胞的放氢。因鱼腥藻的放氢是由固氮酶催化的结果。四唑抑制放氢推想是由于它截取了固氮酶催化系统中的电子的缘故。固氮微生物(包括蓝色细菌和根瘤菌)对四唑还原与吸氢酶之间有无相关是一个争论的问题。一些学者认为分离豆科植物体的一些根瘤菌株培养于含有TTC的琼脂培养基,如还原,便可证明这些根瘤菌株能氧化氢;换言之,应用TTC的还原可作为一些根瘤菌的菌落具有吸氢酶的验证。相反,我们发现固氮鱼腥藻还原TTC和NBT之后,都没有影响吸氢的能力。因此,我们推想固氮鱼腥藻对四唑之还原与吸氢酶是没有直接的关系。     

高固氮酶活性的多变鱼腥藻异形胞的分离

多变鱼腥藻(Anabaena variabilis)是具有异形胞的固氮蓝藻。异形胞是由营养细胞分化而来,异形胞一般为营养细胞的5—10%。在有氮培养中营养细胞不分化为异     

几种固氮蓝藻的固氮酶活性及其某些特性

对三种固氮蓝藻:固氮鱼腥藻(水生686)、柱孢鱼腥藻和鱼腥藻7120的整细胞及无细胞抽提液的固氮酶活性,进行了比较研究。水生686的整细胞酶活虽然不低(51.9毫米乙烯峰高/光密度/30分),仅次于柱孢鱼腥藻,但其无细胞抽提液的酶活却最低。这可能与它含有大量藻胶有关。研究了Mn++、Fe++对蓝藻固氮酶的作用,以及测定其在不同酶浓度下的反应动力学表明:柱孢鱼腥藻中不存在象深红螺菌中所看到的那种激活因子。用甲苯-乙醇溶液处理藻细胞,对固氮酶作原位测定,探索了它的氧损伤及氧保护机理。       

Effects of salts in promoting the adhesion of amphibian gastrula cells

Presumptive ectodermal and endodermal cells were isolated from the gastrula of the newt Cynops pyrrhogaster, and the effects of salts on embryonic cell adhesion were examined. When the concentrations of NaCl, KCl, MgSO4 and Ca (NO3)2 in the culture medium were increased individually, they all effectively promoted ectodermal cell adhesion. MgSO4 and Ca(NO3)2 promoted endodermal cell adhesion, but NaCl and KCl did not. The culture medium containing increased NaCl (90 mM) nonspecifically promoted ectodermal cell adhesion to the four substrata studied--polystyrene dish, glass, collagen, and fibronectin. The effects of drugs that influence the membrane permeability of Na+ and Ca2+ and the replacement of Na+, Cl-, and Ca2+ with other ions were studied. The results show that the flow of Na+ and Ca2+ into the cytoplasm promotes ectodermal cell adhesion but exerts no influence on endodermal cell adhesion.     

Effect of long-term depolarization on the morphological characteristics of rat pheochromocytoma cells

Changes in the morphological characteristics of rat PC12 pheochromocytoma cells caused by incubation in the medium with a high KCl content were studied. On the third day of culturing in the modified medium containing 20 or 30 mM KCl, the proliferating activity of the cells was enhanced, and the total length of the dendrites and their number increased. Culturing of the cells in the medium containing 40 mM KCl resulted in significant suppression of the cell vital functions: retraction of the processes and blocking of proliferation were observed. Thus, chronic depolarization caused by a high potassium content in the extracellular medium activates proliferation of PC12 cells, which is probably related to the change in the level of free cytosolic calcium.     

Protease Formation by a Moderately Halophilic Bacillus Strain

A moderately halophilic strain of Bacillus, isolated from unrefined solar salt, was capable of growth in the presence of 4 M NaCl. Maximal growth was obtained in a medium containing 1 to 2 M NaCl. The organism produced protease when cultivated aerobically in media containing 0 to 3 M NaCl or 0 to 2 M KCl. The protease activity was optimal at 0.5 M NaCl and 0.75 M KCl.     

The decrease of mitochondrial substrate uptake caused by trialkyltin and trialkyl-lead compounds in chloride media and its relevance to inhibition of oxidative phosphorylation.

1. In a 100 mM-KCl medium (pH 6.8) containing ATP, triethyltin (1 muM) causes a decrease in the uptake of pyruvate, malate, citrate or beta-hydroxybutyrate by rat liver mitochondria, but no decrease is observed in a 100 mM-KNO3 medium. This response is not modified by the presence of rotenone in the incubation medium. 2. In the KCl medium at least 1 muM-triethyltin is required to cause maximum inhibition of pyruvate uptake. 3. Trimethyltin, tributyltin and the trialkyl-lead analogues at 1 muM, to varying degrees, also cause a decrease in pyruvate uptake by mitochondria only in the KCl medium. 4. Triethyltin stimulates resting respiration of mitochondria with all the substrates tested in the KCl medium but not in the KNO3 medium, yet this stimulation of O2 uptake occurs under conditions when substrate uptake is decreased. 5. In contrast, both O2 uptake during state 3 respiration and ATP synthesis when linked to the oxidation of pyruvate, malate or citrate are strongly inhibited by 1 muM-triethyltin in a KCl medium, but O2 uptake and ATP synthesis during the oxidation of beta-hydroxybutyrate are only slightly affected. In a KNO3 medium O2 uptake and ATP synthesis linked to the oxidation of all substrates are only slightly affected. 6. The relevance of the decrease in substrate uptake by mitochondria caused by triethyltin in a KCl medium to the greater sensitivity of various mitochondrial functions observed in vitro is discussed. It is concluded that decrease of matrix substrate content is probably not the major cause of the greater sensitivity of oxidative phosphorylation to triethyltin in a KCl medium observed previously.     

Role of NADPH oxidase in the apoptotic death of cultured cerebellar granule neurons

Cerebellar granule neurons (CGN) cultured in a medium containing 25 mM KCl and treated with staurosporine (ST) or transferred to a medium with 5 mM KCl (K5) die apoptotically. CGN death is mediated by an increase in reactive oxygen species (ROS) production. When CGN are treated with antioxidants all apoptotic parameters and cell death are markedly diminished, showing a central role for ROS in this process. Recently, it has been suggested that a possible ROS source involved in cell death is a NADPH oxidase. In that regard, we found expression in CGN of the components of NADPH proteins, p40phox, p47phox and p67phox, and p22phox, as well as three homologues of the catalytic subunit of this complex, NOX1, 2, and 4. The inhibition of NADPH oxidase with diphenylene iodonium or 4-(2-aminoethyl)benzenesulfonyl fluoride significantly reduced ROS production, NADPH oxidase activity, all the apoptotic events, and cell death induced by both K5 and ST. We conclude that ROS could be an early signal of apoptotic neuronal death and that NADPH oxidase, including NOX1, 2, and/or 4, could have a central role in apoptotic death induced by different conditions in these neurons.     

Cell wall and cytoskeleton reorganization as the response to hyperosmotic shock in Saccharomyces cerevisiae

Transfer of exponentially growing cells of the yeast Saccharomyces cerevisiae to hyperosmotic growth medium containing 0.7-1 M KCl, 1 M mannitol, and/or 1 M glycerol caused cessation of yeast growth for about 2 h; thereafter, growth resumed at almost the original rate. During this time, formation of fluorescent patches on the inner surface of cell walls stained with Primulin or Calcofluor white was observed. The fluorescent patches also formed in solutions of KCl or when synthesis of the cell wall was blocked with cycloheximide and/or 2-deoxyglucose. The patches gradually disappeared as the cells resumed growth, and the new buds had smooth cell walls. Electron microscopy of freeze-etched replicas of osmotically stressed cells revealed deep plasma membrane invaginations filled from the periplasmic side with an amorphous cell wall material that appeared to correspond to the fluorescent patches on the cell surface. The rate of incorporation of D-[U-14C]glucose from the growth medium into the individual cell wall polysaccharides during osmotic shock followed the growth kinetics. No differences in cell wall composition between osmotically stressed yeast and control cells were found. Hyperosmotic shock caused changes in cytoskeletal elements, as demonstrated by the disappearance of microtubules and actin microfilaments. After 2-3 h in hyperosmotic medium, both microtubules and microfilaments regenerated to their original polarized forms and the actin patches resumed their positions at the apices of growing buds. The response of S. cerevisiae strains with mutations in the osmosensing pathway genes hog1 and pbs2 to hyperosmotic shock was similar to that of the wild-type strain. We conclude that, besides causing a temporary disassembling of the cytoskeleton, hyperosmotic shock induces a change in the organization of the cell wall, apparently resulting from the displacement of periplasmic and cell wall matrix material into invaginations of the plasma membrane created by the plasmolysis.     

Halophilic and salts tolerant protoplast cultures of mangrove plants, Sonneratia alba and Avicennia alba

The effects of sea salts, NaCl, KCl, MgCl₂, MgSO₄, and CaCl₂, on the growth of protoplast cultures of two mangrove species, Sonneratia alba and Avicennia alba, were investigated using 96-well culture plates. Plants of these two species naturally grow at the seaward side of a mangrove forest. Cotyledon protoplasts of S. alba showed halophilic nature to NaCl, KCl, and MgCl₂ at low concentrations (10–50 mM) when cultured in Murashige and Skoog’s (MS) medium containing 0.6 M mannitol. CaCl₂ at a concentration higher than 25 mM was inhibitory to cell growth. On the other hand, in protoplast culture of A. alba suspension cells, which were induced from cotyledon tissues, in the modified amino acid (mAA) medium containing 1.2 M sorbitol, tolerance to NaCl, MgCl₂ and MgSO₄ were observed at a wide range of concentrations up to 400 mM. CaCl₂ was always inhibitory for cell divisions in A. alba, but stimulatory for spherical enlargement of cells. However, no difference in cell enlargement was observed among other salts. Similarity and difference in reactivity to salts between protoplasts and suspension cells from our previous studies were discussed in relation to the site of salt tolerance or halophilic adaptation within mangrove cells. For protoplast cultures, the site(s) for response of S. alba and A. alba are located in the cytoplasm and/or the cell membrane.     

Effect of taurine on calcium binding to microsomes isolated from rat cerebral cortex

Effects of taurine on Ca⁺⁺ binding to microsomes isolated from rat cerebral cortex were investigated in a medium containing various concentrations of KCl and/or NaCl. Calcium binding to microsomes was inhibited in a dose-dependent fashion by taurine in the incubation medium containing 5 mM KCl and 115 mM NaCl, while there was no inhibition in the medium containing 115 mM KCl and 5 mM NaCl. Taurine also decreased Ca⁺⁺ binding in the medium containing 70 mM KCl without NaCl. A similar tendency toward inhibition of the Ca⁺⁺ binding was observed in the medium with 5 mM or 120 mM KCl without NaCl. Taurine did not influence the Ca⁺⁺ binding in the medium containing different concentrations of NaCl without KCl, or in the medium from which KCl and NaCl were omitted. Isethionate, glycine, γ-aminobutyric acid, β-alanine and L-leucine did not significantly alter the Ca⁺⁺ binding to microsomes in the medium containing 70 mM KCl without NaCl. Thus it would appear that taurine may modulate the binding of calcium to microsomes in conditions which resemble the state of depolarization, while it is inactive in the normal resting state. This effect is apparently specific to taurine amongst a series of putative “inhibitory” amino acids.     

A cytoskeleton-associated plasma membrane heparan sulfate proteoglycan in Schwann cells

Schwann cells cocultured with sensory neurons in a serum-free medium accumulate a single species of radiolabeled heparan sulfate proteoglycan (HS-PG) during incubation in medium containing 35SO4. This HS-PG was poorly extracted from cultures by solutions containing 1% Triton X-100 in low salt buffer or by solutions containing 1 M KCl, 4 M urea plus dithiothreitol, 1 mM Tris-HCl, 5 mM EDTA, or 100 micrograms/ml of heparin. The HS-PG was efficiently extracted, however, by 1% Triton X-100 in the presence of 1 M KCl or by 1% deoxycholate. These treatments solubilize both cell membranes and the Schwann cell cytoskeleton. In intact cells the HS-PG was digested by trypsin, indicating it was at least partially exposed on the cell surface. When solubilized HS-PG was applied to a column of octyl-sepharose CL-4B, more than 90% was retained by the column, but was quantitatively eluted by a solution containing 1% Triton X-100. In addition, the solubilized HS-PG could be incorporated into artificial phospholipid vesicles. These results indicate the HS-PG is an integral plasma membrane protein. The inability of low ionic strength solutions containing Triton X-100 to solubilize the HS-PG suggested it was bound to an additional structure. To determine whether the HS-PG was associated with the cytoskeleton we isolated cytoskeletons by detergent lysis of cells and centrifugation. The major protein components of isolated cytoskeletons were spectrin (Mr 225,000), vimentin (Mr 58,000), and actin (Mr 45,000). When 35SO4-labeled cells were used to prepare cytoskeletons approximately 80% of the total HS-PG was recovered in the cytoskeleton fraction. These results suggest the HS-PG is an externally exposed integral plasma membrane protein that is anchored to the Schwann cell cytoskeleton.     

The influx of calcium ions into human erythrocytes during cold storage. The influences of extracellular pH, intracellular adenosine triphosphate and efflux of univalent cations

1. When human erythrocytes are stored at 3 degrees C for several days as a suspension in iso-osmotic sucrose or KCl, containing CaCl(2), the rates of cellular ATP degradation are similar. 2. During cold storage of erythrocytes in sucrose-CaCl(2) medium, Ca(2+) influx and univalent-cation efflux occur, the pH value of the suspending medium rises and the intracellular pH falls. These pH changes correlate reasonably well with alterations in the membrane potential calculated from Cl(-) distribution. 3. The presence of Ca(2+) in the medium does not increase the rate of univalent-cation efflux from the cells. 4. When the pH of the medium is raised by addition of buffers, the rates of both Ca(2+) influx and univalent-cation efflux increase. 5. Replacement of sucrose by KCl as the main osmotic component of the medium completely suppresses Ca(2+) influx and univalent-cation efflux, although the pH of the KCl medium is higher than that of the sucrose medium. 6. When sucrose is replaced by choline chloride, Ca(2+) influx and univalent-cation efflux still occur, and the pH of the medium is similar to that found in iso-osmotic KCl. 7. When valinomycin, Pb(2+) or Cd(2+) are added to the iso-osmotic sucrose medium, the rate of efflux of univalent cations increases as also does the influx of Ca(2+). 8. From these and other observations, it was concluded that it is univalent-cation efflux rather than ATP depletion or elevated extracellular pH which is the prerequisite for Ca(2+) influx during cold storage.