磷饥饿时番茄幼苗根系质膜H+-ATP酶活性

磷饥饿提高了番茄幼苗质膜H+-ATP酶活性并促进了番茄幼苗根部的H+分泌。动力学分析表明,磷饥饿使番茄幼苗根部质膜H+-ATP酶的Km值明显降低,亦即提高了该酶对其底物的亲和力,但对该酶的Vmax影响不大。另外,磷饥饿并不改变ATP酶的最适pH值(最适pH值为6.5)。钒酸盐显著抑制番茄幼苗根部质膜ATP酶的活性以及H+分泌,也显著抑制番茄幼苗的Pi吸收。与对照相比,上述抑制作用在饥饿处理的植物中表现得更强。以上结果表明,磷饥饿时高亲和性Pi传递系统的诱导很可能包含质膜H+-ATP酶的参与。     

TheRelati磷饥饿时番茄幼苗根系质膜H~ - ATP酶活性的变化与磷吸收的关系(英文)

磷饥饿提高了番茄幼苗质膜H ATP酶活性并促进了番茄幼苗根部的H 分泌。动力学分析表明 ,磷饥饿使番茄幼苗根部质膜H ATP酶的Km 值明显降低 ,亦即提高了该酶对其底物的亲和力 ,但对该酶的Vmax影响不大。另外 ,磷饥饿并不改变ATP酶的最适 pH值 (最适 pH值为 6.5)。钒酸盐显著抑制番茄幼苗根部质膜ATP酶的活性以及H 分泌 ,也显著抑制番茄幼苗的Pi吸收。与对照相比 ,上述抑制作用在饥饿处理的植物中表现得更强。以上结果表明 ,磷饥饿时高亲和性Pi传递系统的诱导很可能包含质膜H ATP酶的参与。     

磷饥饿时番茄幼苗根系质膜H^＋—ATP酶活性的变化与磷吸收的关系

磷饥饿提高了番茄幼苗质膜H^ -ATP酶活性并促进了番茄幼苗根部的H^＋分泌和。动力学分析表明,磷饥饿使番茄功苗根部质膜H^ -ATP酶的K m值明显降低,亦即提高了该酶对其底物的亲和力,但对该酶的Vmax影响不大。另外,磷饥饿并不改变ATP酶的最适pH值（最适pH值为6.5）。钡酸盐显著抑制番茄幼苗根部质膜ATP酶的活性以及H^＋分泌,也显著抑制番茄幼苗的Pi吸收。与对照相比,上述抑制作用在饥饿处理的植物中表现得更强,以上结果表明,磷饥饿时高亲和性Pi传递系统的诱导很可能包含质膜H^ -ATP酶的参与。     

磷酸饥饿时番茄幼苗酸性磷酸酶活性的变化与Pi吸收的关系

磷酸饥饿时,番茄幼苗根部及地上部酸性磷酸酶活性均显著增强,根部细胞表面酸性磷酸酶及根部外泌的酸性磷酸酶活性亦明显提高。动力学分析表明,磷酸饥饿提高了番茄幼苗根部的酸性磷酸酶对其底物的亲和力。另外,磷酸饥饿对番茄幼苗根部酸性磷酸酶活性的最适ｐＨ值没有影响。钼酸对番茄幼苗根部酸性磷酸酶活性有强烈的抑制作用,对番茄幼苗Ｐｉ吸收速率也有十分明显的抑制效果。以上结果表明,磷酸饥饿时,番茄幼苗Ｐｉ吸收的适应性变化可能与根部酸性磷酸酶特别是根部细胞表面酸性磷酸酶及其外泌酸性磷酸酶的参与密切关联。     

磷饥饿下番茄幼苗根系液泡膜H+-ATPase活性的适应性变化

以‘世纪星’番茄为材料。研究了磷饥饿下番茄幼苗的生长状况及其根部液泡膜H^＋-ATPase活性的适应性变化。结果表明：磷饥饿下番茄幼苗的平均高度均低于对照苗,而主根长度均显著长于对照。磷饥饿提高了番茄幼苗根部液泡膜H^＋-ATPase的水解活性,随着磷胁迫时间的延长,该酶的活性逐渐增大,在磷饥饿7d时达到最大,后又略有降低;而对照番茄幼苗根部该酶的活性变化很小。动力学分析表明：磷饥饿使番茄幼苗根部液泡膜H^＋-ATPase的Km值明显降低,但对该酶的Kmax影响不大。这说明磷饥饿提高了该酶对其底物的亲和力。此外,磷饥饿并不改变液泡膜H^＋-ATPase酶的最适pH值（仍为7．5）。     

磷饥饿对番茄幼苗H+分泌及Pi吸收的影响

磷饥饿条件下番茄幼苗的H⁺分泌速率明显提高。质膜质子泵专一性抑制剂钒酸盐能显著抑制番茄幼苗的H⁺分泌,也能显著抑制其Pi吸收。此结果表明,磷饥饿时番茄幼苗Pi吸收速率的变化与H⁺分泌速率的变化之间可能具有一定的相关性,并进一步暗示质膜H⁺-ATPase可能参与其中。本文结果还表明,Pi/H⁺的准量关系约为1:1。     

磷酸盐饥饿时番茄幼苗根部质膜蛋白组分的变化

对处于磷酸盐饥饿条件下的番茄幼苗根部质膜以及去除质膜的其他膜部分的蛋白质含量及组分的变化进行了检测。结果显示,磷酸盐饥饿第７ｄ时,受胁迫苗根部质膜及去除质膜的其他膜蛋白质含量与各自的对照相当。而ＳＤＳ－ＰＡＧＥ的结果表明,磷酸盐饥饿第７ｄ时受胁迫苗根部质膜蛋白质中出现４条对照中所没有的新的多肽（分子量分别为３４ｋＤ,３６ｋＤ,４６ｋＤ和４９ｋＤ）。该结果经浓度梯度电泳得到进一步的证实。本文推测在受     

磷酸饥饿对番茄幼苗生长状况及其磷吸收的影响

本文就磷酸饥饿对番茄幼苗生长状况及共磷吸收的影响进行了研究。结果表明,磷酸饥饿时,番茄幼苗的平均高度下降,而主根的长度却明显长于对照。磷酸饥饿初期对番茄幼苗鲜重累积影响不大,但随着饥饿的继续,受胁迫苗的鲜重累积与对照间的差异加大并且变得明显低于对照。     

磷饥饿对番茄幼苗H^＋分泌及Pi吸收的影响

磷饥饿条件下番茄幼苗的Ｈ＾＋分泌速率明显提高,质膜质子泵专一性抑制剂钒酸盐能显著抑制番茄幼苗的Ｈ＾＋分泌,也能显著抑制其Ｐｉ吸收。此结果表明,磷饥饿时番茄幼苗Ｐｉ吸收速率的变化与Ｈ＾＋分泌速率的变化之间可能具有一定的相关性,并进一步暗示质膜Ｈ＾＋－ＡＴＰａｓｅ可能参与其中,本文结果还表明,Ｐｉ／Ｈ＾＋的准量关系约为１：１。     

质膜H+-ATPase与环境胁迫

植物根系质膜H -ATPase在调节细胞内pH值,促进养分吸收、同化物运输等方面具有重要作用。对质膜H -ATPase的结构、功能和分子机制进行综述,并讨论了质膜H -ATPase在信号传递过程及植物适应环境胁迫中的作用,最后就植物质膜H -ATPase的研究及应用提出几点看法。     

The Relationship Between Growth and Oxygen Uptake in Hypoxic Rice Seedlings

Atwell, B. J. and Green way, H. 1987. The relationship betweengrowth and oxygen uptake in hypoxic rice seedlings.—J.exp. Bot. 38: 454–465. Rice seedlings (Oryza saliva L.) were grown in the dark forup to 4 d in solutions containing various concentrations ofO₂. Compared with seedlings grown at 0·250 mol O₂ m^–3,the dry weight of the growing seedling was 14% lower at 0·110mol O₂ m^–3 and 60% lower at 0 mol O₂ m^–3. Decreasesin fresh weight were similar but not identical to decreasesin dry weight, possibly because leaf growth was suppressed evenabove 0·110 mol O₂ m^–3. Oxygen deficiency inhibitedroot growth more severely than coleoptile growth. Coleoptiles from seedlings grown in aerated solution were exposedto an atmosphere of pure N₂ for 30 min. Anoxia caused a declinein ATP content and energy charge, suggestive of decreased oxidativephosphorylation. It is not clear whether the decline in oxidativephosphorylation was solely responsible for impaired growth inhypoxia. In seedlings growing at O₂ concentrations less than 0·110mol O₂ m^–3, significant amounts of ethanol were synthesized.The rate of O₂ uptake decreased markedly below 0·06 molO₂ m^–3; this was presumably near the external O₂ concentrationat which oxidative phosphorylation became limited by the supplyof O₂. The stage of development of the seedlings appeared toinfluence O₂ uptake, possibly through changes in conductanceof the tissue to O₂. Uncouplers were used to confirm that thecritical O₂ concentration was dependent on O₂ diffusion ratherthan enzyme kinetics. Impaired growth above 0·110 molO₂ m^–3 may have been due to a decreased activity of oxygenasesof relatively low affinity for O₂, which in turn altered cellmetabolism. Key words: Growth, oxygen uptake, rice seedlings, hypoxia     

Hydroxyethylthiazole Uptake in Escherichia coli: General Properties and Relationship Between Uptake and Thiamine Biosynthesis

Uptake of (35)S-hydroxyethylthiazole (4-methyl-5-hydroxyethylthiazole) by Escherichia coli intact cells was studied. Hydroxyethylthiazole was taken up in the presence and absence of glucose at the same rate. The uptake was almost proportional to a hydroxyethylthiazole concentration gradient up to 0.1 mM with no tendency of saturation, and reached a steady state within 2 min. When the cells were treated with 1 mM N-ethylmaleimide, about 50% inhibition of hydroxyethylthiazole uptake was observed. Hydroxyethylthiazole uptake was stimulated by the addition of hydroxymethylpyrimidine (2-methyl-4-amino-5-hydroxymethylpyrimidine), and this effect was further enhanced in the presence of glucose. For full activation of hydroxyethylthiazole uptake, 1 muM hydroxymethylpyrimidine was necessary in the presence of glucose. The rate of hydroxyethylthiazole uptake was almost linear up to 60 min in the presence of hydroxymethylpyrimidine and glucose. Hydroxymethylpyrimidine monophosphate and its pyrophosphate could not stimulate the uptake. Thiamine and 2-amino-hydroxyethylthiazole were inhibitory on hydroxyethylthiazole uptake in the presence of hydroxymethylpyrimidine and glucose. N-ethylmaleimide and 2, 4-dinitrophenol were also inhibitory. No stimulatory effect of hydroxymethylpyrimidine on hydroxyethylthiazole uptake was observed in mutant cells lacking either thiaminephosphate pyrophosphorylase or hydroxymethylpyrimidine monophosphate kinase. The possibility of direct participation of thiamine-synthesizing enzymes in hydroxyethylthiazole uptake was discussed.     

NaCl胁迫下大麦根液泡膜H+-ATPase活性、离子吸收与钙的关系

NaCl胁迫2 d,耐盐大麦(Hordeum vulgare L.cv) ("滩引2号")根系液泡膜H+-ATPase活性增强,H+-PPase活性下降.以质膜Ca2+通道抑制剂La3+ (1 mmol/L)或Ca2+螯合剂EGTA (5 mmol/L)处理大麦幼苗,抑制了NaCl诱导的液泡膜H+-ATPase活性的增强,但提高了H+-PPase活性;用CaM拮抗剂三氟拉嗪(TFP,20 μmol/L)处理,也抑制了液泡膜H+-ATPase活性的增强.NaCl胁迫下,外加La3+,TFP或La3++TFP处理,使Na+吸收增加,K+和Ca2+吸收降低.结果表明,NaCl胁迫下,液泡膜H+-ATPase活性提高和离子吸收的变化可能与Ca-CaM系统有关.     

稻、麦根系H~ 的分泌与介质磷水平的关系

水稻、小麦根系H~ 的分泌量随供磷水平的降低而增加,并存在明显的昼夜变化。在自然光照下H~ 分泌量随光强度增加而增多,同时强光比黑暗时H~ 分泌对磷供应水平更为敏感。磷供应不足还诱导水稻根系柠檬酸分泌量增加,而苹果酸则差异不明显。难溶性磷的溶解率与根系H~ 和柠檬酸分泌所导致的根际pH下降有密切联系。因此,在有效磷不足的条件下可明显提高稻、麦根际土壤中难溶性磷的利用率,其中丰产型小麦和粳稻品种对土壤中磷利用的根际效应更为显著。     

微生物溶解磷矿粉能力与pH及分泌有机酸的关系

从玉米根际和非根际土壤中分离得到的 74株溶解磷矿粉的微生物 ,发现它们的溶磷能力差异很大 ,主要决定于菌株本身的特性 ,与其来源无关 ,真菌普遍比细菌要强。真菌的溶磷能力与其培养介质的 pH之间呈显著的负相关 ,但细菌的这种关系非常弱。二者都产生多种有机酸 ,真菌主要分泌草酸、丙二酸和乳酸 ,而细菌主要分泌草酸、酒石酸、丙二酸、乳酸和乙酸 ,不同菌株分泌有机酸的数量和种类差异很大 ,但溶磷量与有机酸总量或单个有机酸浓度之间 ,没有发现显著的相关性 ,唯独柠檬酸与真菌的溶磷量之间存在显著的相关性。说明不同菌株有完全不同的溶磷机理 ,可能多种机理并存。     

A Relationship between Phosphate Uptake and Membrane Electrical Potential in Excised Roots of Helianthus annuus

Phosphate uptake by excised roots of sunflower (Helianthus annuus)was determined by the disappearance of phosphate from the externalsolution and by the accumulation of phosphate labelled with³²P. Over a 24 h period it was observed that net phosphate uptakedeclined to zero whilst uptake of ³²P continued unabated. Theelectrical PD of the cortical cell membranes declined in parallelwith net phosphate uptake and it was found that both could berestored by creating a pH gradient across the plasmalemma. Itwas concluded that net phosphate uptake was responsible fora component of the membrane PD of the root cortical cells. Key words: Roots, Phosphate, Membranes     

Relationship between Energy-dependent Phosphate Uptake and the Electrical Membrane Potential in Lemna gibba G1

High rates of phosphate uptake into phosphate-starved Lemna gibba L. G1 were correlated with a high membrane potential (pd = −220 millivolts). In plants maintaining a low pd (−110 millivolts), the uptake rate was only 20% of that of high-pd plants. At the onset of phosphate transport, the membrane of high-pd plants was transiently depolarized. This effect was much smaller in low-pd plants. Light stimulated phosphate uptake and the repolarization upon phosphate-induced depolarization, especially in plants grown without sucrose. The phosphate uptake rate was optimal at pH 6 and decreased with increasing pH, corresponding to the phosphate-induced pd changes. Phosphate starvation stimulated the uptake and increased the phosphate-induced depolarization, thus indicating that phosphate uptake depends on the intracellular phosphate level. It is suggested that uptake of monovalent phosphate in Lemna gibba proceeds by an H⁺ cotransport dependent on the proton electrochemical potential difference and, hence, on the activity of an H⁺ -extrusion pump.