NaCl胁迫对枳椇各器官Na~+、K~+吸收的影响

以盆栽枳椇的1 a生实生苗为试材,分析了在不同的盐处理0、0.15%、0.3%、0.45%、0.6%下对其根、茎、叶的K+、Na+离子含量和Na+/K+的影响。结果表明:随着盐浓度的增加,植物叶片中Na+含量和Na+/K+明显升高,说明枳椇没有将Na+截留在根、茎中,而较多的运输到了叶片,使枳椇受害较重。     

盐碱胁迫对尼罗罗非鱼鳃Na+/HCO3-共转运子、碳酸酐酶基因表达的影响

为了探讨盐碱胁迫条件下鱼类渗透生理调节机制,以尼罗罗非鱼(Oreochromis niloticus)为实验材料, PCR扩增得到了Na+/3HCO-共转运子(NBCe1)基因cDNA部分序列,比较了单盐(盐度10、盐度15)、单碱(1.5 g/L、3 g/L NaHCO3)、盐碱混合(盐度10,碱度1.5 g/L;盐度15,碱度3 g/L)胁迫后不同时间(0 h、6 h、12 h、24 h、48 h、72 h、96 h)血清渗透压、离子浓度(Na+、K+、Cl–、Ca2+)以及鳃碳酸酐酶(CA)活性、CA与NBCe1基因mRNA表达变化。结果显示,不同胁迫条件下,血清渗透压、离子浓度、鳃组织 CA 酶活、CA 与 NBCe1基因 mRNA 表达变化均与胁迫强度呈正相关。随时间推移,血清渗透压、离子浓度呈现先上升后下降的变化趋势,单盐、盐碱混合组血清渗透压值较单碱组高。单盐、单碱、盐碱混合组中, NBCe1基因mRNA在鳃中均呈略微上调,但不显著(P>0.05)。单碱组和盐碱混合组鳃CA活性较单盐组高,低盐碱胁迫(盐度10,碱度1.5 g/L)下CA活性较晚达最高值;不同胁迫条件下, CA基因mRNA表达均表现上调,单碱、盐碱混合组更为显著(P<0.05),推测CA较NBCe1对体内3HCO-转运作用更为显著。研究结果为尼罗罗非鱼盐碱适应生理调节提供了基础资料。     

偶联钠离子转运草酰乙酸脱羧酶研究进展

偶联钠离子转运草酰乙酸脱羧酶是第一个被发现具有初级钠离子泵活性脱羧酶家族成员,由α,β,γ三个亚基以及生物素组成。由于其脱羧反应对柠檬酸发酵途径具有关键作用,并且在脱羧过程中偶联钠离子输出,该酶已受到学术界广泛关注。目前,该酶已在包括克雷伯菌属(Klebsiella)、沙门氏菌属(Salmonella)和弧菌属(Vibrio)等多个属细菌中被发现,并且其生理学基本特征已被鉴定。在肺炎克雷伯菌(Klebsiella pneumoniae)中,该酶中参与偶联脱羧反应钠离子输出重要氨基酸活性位点通过拓扑学分析、定点突变等方法被深入地进行鉴定,在此基础上能量偶联模型被提出以解释该酶偶联钠离子输出脱羧反应机制。本文对以上研究进展进行综述并对该酶未来研究方向加以展望。     

Response of five tobacco cultivars to sodium phosphate and ammonium polyphosphate

Abstract

Three greenhouse experiments were conducted to compare the response of five tobacco (Nicotiana tabacum L.) cultivars to different levels of NaH₂PO₄ and ammonium polyphosphate (APP) in nutrient media by measuring tissue content of selected nutrient elements (P, Na, K, Ca and Mg). Plants were grown in sand cultures fertilized with nutrient solutions in two experiments and a soil‐sand mix fertilized with solid materials in a third experiment. Plant P and Na content increased as the concentrations of these elements increased in nutrient solution. Plant K content was not generally affected by treatments. Magnesium was reduced in flue‐cured and cigar‐filler tobaccos but was not changed in cigar‐wrapper and Turkish types by increasing amounts of NaH₂PO₄. All of the cultivars responded similarly to NaH₂PO₄ with respect to plant Ca. High levels of P in the nutrient media were consistently related to low levels of Ca in plant tissue.     

Rapid preparation of plant samples for cation analysis

Abstract

In the dry ashing of plant material for chemical analysis, the hot digestion on the steam bath of the ashed sample was replaced by the quantitative addition of dilute HCl and stirring very briefly to dissolve the ash. By waiting a few minutes for the particles to settle, there was no need to filter the solution prior to dilution with an automatic diluter and the determination of K, Na, Ca and Mg by atomic absorption spectrophotometry. The new procedure permits the handling of large batches of samples conveniently, eliminates the use of pipettes and volumetric flasks and decreases the risk of inadvertent contamination by sodium and therefore enhances accuracy. Precision was at least as good as with the standard procedure and the method is expected to be more suitable for use in conjunction with automated analytical techniques.     

纳米ZnO对浮萍（Lemna minor L.）的生态毒性及其聚集性和溶解性分析

纳米颗粒的大量生产和应用增加了其环境释放风险,为此以不同浓度的纳米ZnO（0、1、10mg·L-1和50mg·L-1）处理浮萍（LemnaminorL.）7d,分析了纳米颗粒对植物D665/D665a值（叶绿素与脱镁叶绿素的比率）以及超氧化物歧化酶（SOD）、过氧化氢酶（CAT）、过氧化物酶（POD）和Na＋K＋-ATP酶（Na＋K＋-ATPase）活性的影响,并对纳米ZnO的聚集性与溶解性进行了测试。研究结果显示,浓度为50mg·L-1的纳米颗粒显著抑制D665/D665a值和Na＋K＋-ATPase活性,而抗氧化酶活性则显著升高;纳米颗粒在培养液中易发生聚集作用而沉积,12h后基本上完全沉积到底部。结果说明,50mg·L-1的纳米ZnO对浮萍产生了显著的胁迫作用,其对浮萍的毒性作用主要来源于其溶出的Zn2＋。     

Nutritional characteristics of the leaves of native plants growing in adverse soils of humid tropical lowlands

Acid sulfate, peat, sandy podzolic, and saline soils are widely distributed inthe lowlands of Thailand and Malaysia. The nutrient concentrations in theleaves of plants grown in these type of soils were studied with the aim ofdeveloping a nutritional strategy for adapting to such problem soils. In sagoand oil palms that were well-adapted to peat soil, the N, P, and Kconcentrations were the same in the mature leaves, while the Ca, Mg, Na,and Fe concentrations were higher in the mature leaves of the oil palm thanof the sago palm. Melastoma malabathricum and Melaleuca cajuputi plantsthat were well-adapted to low pH soils, peat, and acid sulfate soils were alsostudied. It was observed that a high amount of Al accumulated in the M.marabathricum leaves, while Al did not accumulate in M. cajuputi leaves.M. cajuputi plants accumulated large amounts of Na in their leaves or stemsregardless of the exchangeable Na concentration in the soil, while M.malabathricum that was growing in saline-affected soils excluded Na.Positive relationships between macronutrients were recognized between Pand N, between K and N, and between P and K. Al showed antagonisticrelationships with P, K, Ca, Mg, Fe, Zn, Cu, and Na. Na also showedantagonistic relationships with P, K, Zn, Mn, Cu, and Al. Fe showed weakantagonistic relationships with Zn, Mn, Cu, and Al.     

猪多能干细胞建系的培养条件及其分子调控网络研究

多能干细胞(pluripotent stem cells,PSCs)作为一类重要的细胞资源,成为目前国内外的研究热点,获得这类细胞在当今医学研究和生物技术的发展及应用中具有重要的意义。猪(Sus scrofa)由于其生理结构和代谢特征与人(Homo sapiens)较为相似,成为动物多能干细胞建系的重点研究对象。然而目前,猪多能干细胞建系工作仍存在很多难题。本文将从猪多能干细胞建系研究的进展和存在的问题入手,对照小鼠(Mus musculus)和人相关研究的成功经验,总结目前已经报道的猪多能干细胞的培养条件、调控因子、信号通路和基因表达特征,以期为建立猪胚胎干细胞和诱导多能干细胞系提供参考。     

γ-氨基丁酸对番茄嫁接苗耐盐性的生理调控效应

[目的]γ-氨基丁酸(GABA)可增强作物品质和抗逆性,但其效果是否受植株根系耐盐性的影响尚不明确。因此,研究添加外源GABA对不同耐盐性番茄嫁接苗的生理调节机制及生长的影响,为小分子氨基酸在蔬菜生产中的应用提供理论依据。[方法]以耐盐性较强的砧用番茄‘OZ-006’为砧木、对盐分较敏感的‘中杂9号’为接穗形成的嫁接苗(RS)为材料,以‘中杂9号’自嫁接苗(SS)为对照材料,进行无土营养液栽培试验。以Hoagland营养液为基础,以调节NaCl浓度至175 mmol/L形成的盐胁迫条件作为对照(CK),在CK基础上设置添加5 mmol/L GABA处理(+G)。从处理后3天起,测定了幼苗生长、Na⁺积累、氨基酸含量及活性氧代谢指标。[结果]随着NaCl胁迫时间的延长,SS和RS幼苗均显著受到盐胁迫伤害,但RS幼苗盐害指数及Na+含量显著低于SS幼苗,其生长速率、叶绿素含量及氨基酸含量显著高于SS幼苗,其O2·-和MDA含量显著低于SS幼苗,表现为耐盐性显著高于SS幼苗。添加外源GABA后,SS和RS幼苗的鲜重、生长速率、叶绿素及氨基酸(GABA、谷氨酸和脯氨酸)含量、抗氧化酶(SOD、POD和CAT)活性均显著提高,根系和叶片内Na+含量、O2·-产生速率及MDA含量均显著降低,且SS幼苗耐盐性提高的效果大于RS幼苗。[结论]盐胁迫显著影响番茄幼苗的生长,尤其对耐盐性弱的品种生长抑制更加显著。γ-氨基丁酸(GABA)可有效提高番茄嫁接苗的耐盐性,主要原因在于GABA为幼苗提供了氮素营养,促进了盐胁迫下植物的生长和叶绿素的合成,同时GABA诱导细胞内多种氨基酸含量上升,叶片渗透调节能力增强,从而抑制了Na⁺过量积累,缓解了细胞内活性氧积累带来的膜伤害。此外,GABA添加对耐盐性弱的番茄嫁接苗耐盐性的提升效果比对耐盐性强的番茄嫁接苗更加明显。因此,在盐胁迫条件下,施用外源小分子氨基酸(如GABA)可能是提高作物耐盐能力的有效措施。     

Absorption of potassium,sodium, calcium,and phosphorus by two date palm cultivars and the effect of Gibberellin treatment

Experiments were conducted to avaluate the K, Na, Ca, and P uptake by seedlings of two date palm (phoenix dactylifera L.) cultivars, Khedhri and Sekkeri as well as the effect of gibberellin (GA₃) treatment, Khedhri cultivar showed a typical hyperbolic curve of absorption of K,N, end low concentration of Ca (up to 5mM) but at higher Ca concentration, there seems to be another phase of absorption. Sekkeri cultivar exhibited similar but lower absorption rate of K and Ca while Na seems to be extruded at lower substrate concentration. The rate of P uptake by Sekkeri was irregular. Applied GA₃ slightly stimulate Na uptake by Sekkeri cultivar but at 10^–4M GA₃ enhancement of both Ca and P accummulation in both cultivars was observed.