盐碱胁迫下碱地肤Na+/H+逆向转运蛋白基因KsNHX1表达分析

利用RACE技术得到碱地肤KsNHX1的3’cDNA序列.分子系统进化分析显示,KsNHX1为液泡膜Na⁺/H⁺逆向转运蛋白编码基因.通过半定量RT-PCR检测了该基因在盐碱胁迫下的表达,结果表明: 200 mmol·L^-1 NaCl胁迫2~24 h,KsNHX1在叶片中表达量持续增加;200 mmol·L^-1 NaCl处理10 h,KsNHX1在根、茎、叶和花中的表达都上调;不同浓度NaCl处理下,叶片中KsNHX1表达上调,160 mmol·L^-1时达到最高;低于400 mmol·L^-1浓度下,根中该基因的表达也都上调.经不同浓度Na₂CO₃胁迫,根中KsNHX1的表达变化趋势与相应浓度NaCl胁迫下的变化相同;但叶片中除160 mmol·L^-1 Na₂CO₃处理下KsNHX1表达略有上调外,其他浓度下KsNHX1的表达都低于对照.KsNHX1的表达模式暗示,在不同盐碱胁迫下,碱地肤能够维持体内相对稳定的K⁺/Na⁺,其耐盐特性可能与Na⁺/H⁺逆向转运蛋白的作用密切相关.     

菌株C8和B4的分离鉴定及其耐盐促生效果和机制

土壤盐渍化是影响农业生产的主要环境因素，合理使用根际促生菌是改良修复盐渍化土壤的有效途径。本研究从东营地区盐渍化土壤中分离筛选到两株耐盐促生菌株C8和B4，经形态学特征、生理生化特性、16S rDNA和gyrB基因序列分析，分别鉴定为氧化微杆菌(Microbacterium oxydans)和嗜麦芽窄食单胞菌(Stenotrophomonas maltophilia)。含盐LB培养基上检测结果显示，菌株C8耐6%NaCl，具有解钾、溶有机磷、溶无机磷和分泌生长素的功能；菌株B4耐8%NaCl，具有溶有机磷和分泌生长素的功能。C8和B4单独施用及配施对盐胁迫下番茄的促生作用及机制的试验结果表明，C8和B4单独施用及配施均显著促进盐胁迫下番茄种子萌发和幼苗生长，提高过氧化氢酶(CAT)和过氧化物酶(POD)活性，上调过氧化氢酶基因CAT1和CAT2表达量，增加植株K⁺含量，降低Na⁺含量和Na⁺/K⁺，上调液泡膜Na⁺/H⁺逆向转运蛋白基因NHX1和NHX3的...     

转AtNHX1基因杨树Tr品系的耐盐性研究

以不同盐分强度处理欧美107杨(Populus × euramericana ‘Neva’) (Wt)和转拟南芥液泡膜Na⁺/H⁺逆向转运蛋白基因AtNHX1欧美107杨新品系(Tr)幼苗, 揭示Tr和Wt两品系幼苗耐盐性的差异, 探索拟南芥液泡膜Na⁺/H⁺逆向转运蛋白基因AtNHX1对提高杨树耐盐能力的效应。结果表明: 低盐处理下, Wt植株生长明显受到抑制, 其干重显著低于对照, 盐分强度加大后, 抑制作用更大, 其干重只有对照的50%; 而Tr植株在低盐处理下干重与对照差异不显著, 高盐处理时其干重为对照的74%。同时, 不同盐度处理下, Tr的干重均显著高于Wt, 且随着盐度升高, 两品系间植株干重差异增大。盐处理后, Tr植株叶片叶绿素和类胡萝卜素的含量均显著高于Wt, 并能维持较高的净光合速率(P_n)和PSII最大光化学效率(F_v/F_m); 在盐处理下虽然Tr叶片和根系均较Wt积累了更多的Na⁺, 但同时也维持了更高的K⁺和K⁺/Na⁺比率, 而且叶片对K⁺选择性的运输明显高于Wt; 同时, Tr叶片MDA含量和电解质渗漏率显著低于Wt。可见, 在盐处理下转AtNHX1植株较未转基因植株维持了更高的生长量、光合色素、光合能力和叶片质膜稳定性, 说明AtNHX1的转入能够显著提高欧美107杨的耐盐性。     

拟南芥液泡膜Na+/H+逆向转运蛋白的研究进展

拟南芥液泡膜Na /H 逆向转运蛋白是由AtNHX1基因编码的一个在盐胁迫中起重要作用的蛋白。本文综述了AtNHX1的基本结构、功能及作用机制,展望其作为有效植物耐盐基因的前景,并对拟南芥液泡膜Na /H 逆向转运蛋白基因家族其他成员的研究,也做了相应的概括。     

植物HKT蛋白耐盐机制研究进展

盐害是限制植物生长发育的重要环境因素, 对植物造成渗透胁迫和离子毒害。维持细胞及整株水平的Na⁺/K⁺平衡是植物重要的耐盐机制。目前, 已报道的高亲和性钾离子转运蛋白(HKT)具有钠、钾离子转运特性, 在植物体钠、钾离子长距离运输及分配过程中发挥重要作用。该文重点总结了淡土植物和盐土植物HKT蛋白的结构、功能及耐盐机理, 并对其在植物耐盐改良育种中的前景做出了展望。     

盐胁迫下盐角草 Na ＋／H ＋转运基因表达分析

Na＋/H＋逆向转运蛋白具有调节细胞内离子浓度及维持pH值稳定的作用,是植物抵御盐胁迫的重要因子。从盐角草RNA-Seq数据中筛选Na＋/H＋逆向转运蛋白序列,利用生物信息学手段,拼接得到5条Na＋/H＋逆向转运蛋白完整cDNA序列,通过与NCBI已有序列比对分析,将其命名为SeNHX1、SeNHX3、SeNHX4、SeNHX5和SeN-haD。考察盐角草Na＋/H＋逆向转运蛋白在两种盐分变化情况下的表达变化：1）从无盐处理转移到200 mM NaCl处理;2）从200 mM NaCl培养基转移到无盐培养基。结果表明：SeNHX4的表达量非常低,在地下部几乎检测不到;SeNhaD在地上部的表达量是地下部的2倍左右,说明NhaD主要在盐角草地上部发挥作用;SeNHX1、SeNHX3和SeNHX5的表达量明显高于其他两个基因,对盐角草的耐盐机制起到更大的作用,并且SeNHX1和SeNHX5受盐分诱导表达,表达量与盐浓度呈正相关,可能在盐角草耐盐调控网络中发挥重要作用。综上,NHX基因家族和NhaD的表达量受到基质中盐分的调控作用,其表达在盐分处理或者盐分去除1～3d后发生变化。研究结果有助于阐明盐角草NHX基因家族和NhaD对盐分的响应特点。     

尖孢镰刀菌亚麻专化型Folprp4基因参与调控菌丝生长和分生孢子发生

目的: 通过对尖孢镰刀菌中Folprp4基因的鉴定,揭示其在尖孢镰刀菌中的功能及致病相关性。方法: 基于同源重组原理,根据测定出的Folprp4基因序列,应用Split-Marker重组技术构建含有潮霉素抗性基因(hph)的基因缺失盒。将基因缺失盒经PEG介导转化到野生型原生质体中,在含有潮霉素B的TCC培养基上筛选转化子,通过PCR正负筛查获得Folprp4基因缺失突变株(ΔFolprp4)。构建含有Folprp4基因的载体pZDH1,并将其转化到敲除突变体中进行互补测验。结果: 与野生型(hm)和异位插入突变体(ecFolprp4)相比,敲除突变体菌丝生长受到严重阻碍,当野生型和异位插入突变体长满整个平板时,敲除突变体菌落呈小点状。敲除突变体的另一个显著变化是ΔFolprp4的分生孢子产量显著下降。侵染实验表明,ΔFolprp4对亚麻幼苗的毒力显著降低。互补实验表明,该互补载体的回复子(Folprp4-C)在菌落形态、生长速率、分生孢子产量和毒力方面均恢复到了野生型菌株。结论: Folprp4基因与尖孢镰刀菌的菌丝生长、分生孢子发生和致病性有关。     

拟南芥AtUNE12基因的耐盐功能初探

bHLH转录因子家族成员在植物生长发育、生理代谢及非生物胁迫响应过程中起重要作用。本研究选取拟南芥抗逆相关bHLH转录因子家族中AtUNE12基因为研究对象,对其进行耐盐功能初探。首先构建AtUNE12基因的植物过表达载体（pROKⅡ-AtUNE12）,通过农杆菌介导的浸花法转化拟南芥,利用qRT-PCR技术检测获得T₃代AtUNE12过表达转基因植株。在盐胁迫下,分析过表达AtUNE12与野生型拟南芥长势、根长及鲜重;比较过表达AtUNE12与野生型植株的电解质渗透率、失水率、MDA含量、POD与SOD活性及H₂O₂含量,鉴定AtUNE12基因是否具有耐盐能力。结果表明：过表达AtUNE12基因降低了拟南芥植株的失水率、电解质渗透率及MDA含量,保护细胞膜结构的完整性;增强了POD与SOD活性,降低了拟南芥植株内的H₂O₂含量,进而增强拟南芥植株的ROS清除能力,从而提高拟南芥的耐盐能力。     

大肠杆菌Zn2+敏感突变株构建及其功能验证

【背景】Zn²⁺在细胞解毒及许多生理过程中发挥着关键作用,Zn²⁺转运蛋白已逐渐引起人们的重视。在大肠杆菌中,zntA和zitB是2个外排Zn²⁺的关键基因。【目的】构建大肠杆菌Zn²⁺敏感突变株,并对其功能进行验证。【方法】以Escherichia coli DH5α为出发菌株,利用λ Red重组系统,通过携带卡那霉素抗性基因的同源重组片段敲除zntA基因。在单基因敲除菌株基础上,利用携带庆大霉素抗性基因的同源重组片段敲除zitB基因,获得一株敲除了zntA和zitB的双基因敲除菌株KZAB04。通过功能互补实验检测基因敲除菌株及对照菌株对不同浓度Zn²⁺的敏感程度。【结果】基因敲除菌株KZAB04比出发菌株E. coli DH5α具有更高的Zn²⁺敏感性。【结论】大肠杆菌Zn²⁺敏感突变株构建成功。该菌株的构建为zntA和zitB基因功能的研究提供了必要条件,同时也为其他Zn²⁺转运蛋白基因的功能鉴定与分析奠...     

新型YdjM超家族成员的钠/氢逆向转运蛋白功能鉴定

在原核生物中,钠/氢逆向转运蛋白具有催化细胞内的Na~+、Li~+或K~+等碱基阳离子的排出,换取外部质子,以降低有毒碱性金属阳离子的细胞质浓度和维持细胞内pH稳态起到了至关重要的作用。为了进一步挖掘中度嗜盐菌Halobacillus Y5中具有盐碱耐受性的钠/氢逆向转运蛋白基因并对其功能进行鉴定,我们首先提取该菌的基因组DNA,然后采用Sau3AI随机酶切及功能互补的方法获得了一个新型的钠/氢逆向转运蛋白基因Ha_ydjM。生物信息学分析表明,该基因属于YdjM超家族成员,是一个未知功能的膜蛋白,系统发育分析证实,其与来自Halobacillus sp. Marseille-P 3789的YdjM(蛋白登录号WP_101846656. 1)家族成员聚在一起但形成独立分支。研究发现,该基因能够恢复大肠杆菌突变株KNabc对0. 2mol/L NaCl和5mmol/L Li Cl的耐受特性,并且耐受碱性pH 8. 0。功能分析显示,该蛋白呈现pH依赖的钠/氢逆向转运蛋白活性,转运动力学分析表明,Na~+、K~+、Li~+在KNabc中K_m值分别是0. 43±0. 05mmol/L、0. 49±0. 06mmol/L、0. 64±0. 06mmol/L,即对Na~+、K~+、Li~+的亲和力分别是Na~+ K~+ Li~+。综上所述,Ha_ydjM代表了一种新型的钠/氢逆向转运蛋白,这丰富了YdjM超家族成员,并为其他未知膜蛋白功能分析提供依据。     

胡杨愈伤组织质膜的两相分离法及其H＋-ATPase的特性

以胡杨愈伤组织为材料,用PEG 3350/DextranT 500构成的两相系统提取质膜微囊,研究质膜H+-ATPase的特性.结果显示由6.3% PEG 3350、6.3% Dextran T500、KCl、磷酸缓冲液(pH 7.8)和蔗糖构成的两相系统提取膜微囊的H+-ATPase活性分别被Na3VO4、KNO3、NaN3抑制了约75%、2.6%和1.3%.方向性检测显示原位膜微囊占提取质膜微囊的90%,翻转膜微囊仅占10%.去垢剂对质膜H+-ATPase活性的影响说明0.015%的Triton X-100和0.01%～0.1%的Brij 58适用于测定质膜H+-ATPase活性.Lineweaver-Burk动力学分析该酶的Km值为0.65 mmol*L-1,Vmax为37.59 μmol Pi*mg-1 protein*h-1.研究结果表明两相法提取的质膜微囊主要是正向密闭的膜微囊;胡杨愈伤组织质膜H+-ATPase的最适pH为6.5,最适温度为37℃左右.     

H+/PPi stoichiometry of a membrane‐bound pyrophosphatase of plant mitochondria

The H⁺/PP_i stoichiometry of the mitochondrial H⁺‐PP_iase from pea ( Pisum sativum L.) stem was determined by two kinetic approaches, and compared with the H⁺/substrate stoichiometries of the mitochondrial H⁺‐ATPase, and the vacuolar H⁺‐PP_iase and H⁺‐ATPase. Using sub‐mitochondrial particles or preparations enriched in vacuolar membranes, the rates of substrate‐dependent H⁺‐transport were evaluated: by a mathematical model, describing the time‐course of H⁺‐gradient (ΔpH) formation; or by determining the rate of H⁺‐leakage following H⁺‐pumping inhibition by EDTA at the steady‐state ΔpH. When the H⁺‐transport rates were divided by those of PP_i or ATP hydrolysis, measured under identical conditions, apparent stoichiometries of ca 2 were determined for the mitochondrial H⁺‐PP_iase and H⁺‐ATPase, and for the vacuolar H⁺‐ATPase. The stoichiometry of the vacuolar H⁺‐PP_iase was found to be ca 1. From these results, it is suggested that the mitochondrial H⁺‐PP_iase may, in theory, function as a primary H⁺‐pump poised towards synthesis of PP_i and, therefore, acting in parallel with the main H⁺‐ATPase.     

[3H]Dopamine Labeling of D3 Dopaminergic Sites in Human, Rat, and Calf Brain

Abstract: The binding of [³H]dopamine to brain regions of calf, rat, and human was investigated. The calf caudate contained the highest density of [³H]dopamine binding sites, with a B_max value of 185 fmol/mg protein, whereas rat and human striatum contained one-third this number of sites. The K_D values for [³H]dopamine in all tissues were 2–3 nM. Dopaminergic catecholamines (dopamine, apomorphine, 6,7-dihydroxy-2-aminotetralin, and N-propylnorapomorphine) inhibited the binding of [³H]dopamine in all three species, at low concentrations, with IC₅₀ values of 1.5 to 6 nM. Neuroleptics, in contrast, inhibited the binding at high concentrations (with IC₅₀ values of 200 to 40,000 nM). The [³H]dopamine binding sites were saturable, heat-labile, and detectable only in dopamine-rich brain regions; these sites differed from D₂ dopamine sites (labeled by [³H]butyrophenone neuroleptics), and from D_l dopamine sites (labeled by [³H]thioxanthene neuroleptics) associated with the dopamine-stimulated adenylate cyclase. We have, therefore, called these high-affinity [³H]dopamine binding sites D₃ sites. [³H]Apomorphine and [³H]ADTN also appeared to label D₃ sites. These ligands however, were less selective than [³H]dopamine, and labeled sites other than D₃ as well. Assay conditions were important in determining the parameters of [³H]dopamine binding. The optimum conditions for selective labeling of the D₃ dopaminergic sites, using [³H]dopamine, required the presence of EDTA and ascorbate.     

Formation of [3H]Inositol Metabolites in Rat Hippocampal Formation Slices Prelabelled with [3H]Inositol and Stimulated with Carbachol

Rat hippocampal formation slices were prelabelled with [3H]inositol and stimulated with carbachol for times between 7 s and 3 min. The [3H]inositol metabolites in an acid extract of the slices were resolved with anion-exchange HPLC. Carbachol dramatically increased the concentration of [3H]inositol monophosphate, [3H]inositol bisphosphate (two isomers), [3H]inositol 1,3,4-trisphosphate, [3H]inositol 1,4,5-trisphosphate, and [3H]inositol 1,3,4,5-tetrakisphosphate. The levels of [3H]inositol 1,4,5-trisphosphate rose most rapidly; they were maximally elevated after only 7 s and declined toward control levels in 1 min followed by a more sustained elevation in levels for up to 3 min. When [3H]inositol 1,4,5-trisphosphate was incubated with hippocampal formation homogenates in an ATP-containing buffer it was very rapidly metabolised. After 5 min [3H]inositol 1,4-bisphosphate, [3H]inositol 1,3,4-trisphosphate, and [3H]inositol 1,3,4,5-tetrakisphosphate could be detected in the homogenates. Under similar experimental conditions [3H]inositol 1,3,4,5-tetrakisphosphate is metabolised to [3H]inositol 1,3,4-trisphosphate and an inositol bisphosphate isomer that is not [3H]inositol 1,4-bisphosphate. We conclude that like other tissues the primary event in the hippocampus following carbachol stimulation is the activation of phosphatidylinositol 4,5-bisphosphate selective phospholipase C.     

Inhibition of GABAB Receptor Binding by Guanyl Nucleotides

Abstract: GTP and GDP decreased the saturable binding of [³H]baclofen or [³H]γ-aminobutyric acid ([³H]GABA) to GABA_B but not GABA_A receptors whereas GMP displayed negligible activity. This effect was specific to guanyl nucleotides and was not mimicked by high concentrations of ATP. The inhibition of ligand binding was the result of a diminished receptor affinity with no change in receptor number. The use of a complete physiological saline solution rather than Tris buffer plus Ca²⁺ or Mg²⁺ increased the potency of GTP at the GABA_B receptor. The results are discussed in relation to the effects of GABA and GTP on adenylate cyclase activity in the brain.     

Tonoplast H+ pumps are activated during callus formation of tuber tissues of Jerusalem artichoke (Helianthus tuberosus)

Changes in tonoplast H⁺-ATPase (EC 3.6.1.3) and H⁺–PPase (EC 3.6.1.1) activities were examined during the early period of callus formation in tuber tissues of Jerusalem artichoke ( Helianthus tuberosus L.). In callus-forming tissues cultured on a medium containing 2,4-D, the ATP-dependent H⁺-translocation activity of tonoplast vesicles increased 3-fold after a 2-day lag phase, while the ATP-hydrolytic activity and amount of tonoplast H⁺-ATPase protein were relatively constant after the lag phase. In the control tissue disks cultured on a medium free of 2,4-D, large declines in ATP-hydrolytic and ATP-dependent H⁺-translocation activities were observed. By contrast, the PP-dependent H⁺-translocation activity of tonoplast vesicles increased about 8-fold during the first 3 days of culture without any lag phase, and regardless of the presence of 2,4-D in the culture medium. However, the PP-hydrolytic activity and amount of H⁺-PPase protein did not change during the culture period, independently of callus formation. Transfer of the control tissue disks to the 2,4-D-containing medium, however, resulted in a further rapid stimulation of PP-dependent H⁺-translocation as well as an activation of ATP-dependent H⁺-translocation. These results suggest that both tonoplast H⁺ pumps are involved in callus formation of tuber tissues of Jerusalem artichoke.     

Comparison of [3H]Choline and d-[3H]Aspartate Efflux from Guinea Pig and Human Neocortex

The outflow of [3H]choline ([3H]Ch) evoked by electrical field stimulation and the efflux of D-[3H]Asp induced by 35 mM KCl and 1-10 microM ouabain were studied in human and guinea pig cortical slices, kept under identical experimental conditions. [3H]Ch outflow was significantly lower whereas D-[3H]Asp efflux was significantly higher in humans than in guinea pigs. This suggests a different proportion of the two neuronal systems in these two species. Blockade of muscarinic autoreceptors with atropine increased, whereas stimulation of alpha 2 receptors with norepinephrine (NE) reduced, the evoked [3H]Ch outflow to the same extent in human and guinea pig cortical slices. Conversely, NE did not affect ouabain-induced D-[3H]Asp efflux, suggesting that an alpha 2-mediated control is not operative in the glutamatergic cortical structures. Desmethylimipramine, 2-5 microM, was able to increase [3H]Ch outflow through atropine-like mechanisms only in the human. This drug at 20-50 microM inhibited [3H]Ch and D-[3H]Asp efflux in both species, through mechanisms unrelated to its monoamine reuptake blocking properties. Thus, similarities and differences can be detected between humans and guinea pigs with regard to (a) the relative potency of the cholinergic and acidic amino acidergic signals and (b) the modulation of neurotransmitter outflow by drugs acting on auto- and the heteroreceptors.     

Ferric iron-reducing Shewanella putrefaciens and N2-fixing Bradyrhizobium japonicum with uptake hydrogenase are unable to oxidize atmospheric H2

Abstract Bradyrhizobium japonicum and Shewanella putrefaciens were unable to oxidize hydrogen at atmospheric concentrations (0.55 ppmv), neither in suspension nor when added to sterile soil. The K _m-value of S. putrefaciens for H₂ (39 ppmv in gas phase, 0.22 μM in aqueous phase), using Fe(III) as electron acceptor, showed a 4–5-fold higher affinity for H₂ than that of B. japonicum (1200 ppmv; 0.84 μM) or other hydrogen-oxidizing bacteria. However, the V _max (4.54 fmol H₂ h⁻¹ cell ⁻¹) and threshold (> 0.5 ppmv; 0.35 nM) of S. putrefaciens and the V _max (7.19 fmol H₂ h⁻¹ cell⁻¹) and threshold (> 0.5 ppmv; 0.35 nM) of B. japonicum were in the same order of magnitude as data for Knallgas bacteria from relevant literature. To enable hydrogen oxidation in soil the soil-samples with S. putrefaciens even had to be supplemented with Fe(III). Fresh soil, on the other hand, oxidized hydrogen very efficiently below atmospheric mixing ratios, demonstrating that there must be other oxidation activities in soil.     

Effect of potassium deficiency on the plasma membrane H+-ATPase of the wood ray parenchyma in poplar

The effect of K⁺ deficiency on the plasma membrane (PM) H⁺‐ATPase was studied in young stems of poplar plants (Populus tremula × tremuloides) grown with low or full‐strength K⁺ supply. Immunological assays using different antibodies were applied to test if K⁺ deficiency affects the amount of immunodetectable PM H⁺‐ATPases in the stem tissue. The monoclonal antibody clone 46 E5 B11 revealed an increased abundance of PM H⁺‐ATPases under conditions of low K⁺ supply, and immunolabelling experiments showed that this increase was restricted to vessel‐associated cells (VACs) of the wood ray parenchyma. Replacement of the monoclonal antibody by a polyclonal antibody against PM H⁺‐ATPase gave a specific immunoreactivity on blots as well as tissue sections too, but the labelling intensity showed no difference between plants with low or full‐strength K⁺ supply. Measurements of extracellular H⁺ concentrations using non‐invasive, H⁺‐selective microelectrodes revealed a lowering of the pH at the surface of VACs and an enhancement of net efflux of H⁺ in plants grown with low K⁺ supply. The present results indicate an up‐regulation of specific isoforms of the PM H⁺‐ATPase in VACs under K⁺‐deficient conditions and suggest a key role for these PM H⁺‐ATPases in unloading K⁺ from the xylem stream.     

Relationship Between [3H]Mazindol Binding to Dopamine Uptake Sites and [3H]Dopamine Uptake in Rat Striatum During Aging

Certain drugs exhibit a remarkable correlation between their ability to inhibit synaptosomal uptake of dopamine and the binding of [3H]mazindol to striatal membranes. To investigate the role of mazindol binding sites in the dopamine uptake process and the fate of these sites (labeling dopaminergic neurons) during aging, we have examined the properties of mazindol binding and dopamine uptake in individual young and old rats. There was a 48% decrease (p = 0.0001) in the Bmax of mazindol binding and a 23% decrease (p = 0.0166) in the Vmax of dopamine uptake with no apparent change in their affinities with age. Regression analysis of the relationship between Bmax and Vmax exhibited a significant correlation in old (p = 0.0156) but not young rats (p = 0.1398). These data suggest that the number of mazindol binding sites decreases with age and that the number of sites on the dopamine transporter complex far exceeds the number required to elicit maximal dopamine uptake.