CsV03-3 is a member of a novel gene family from citrus that encodes a protein with DNA binding activity and whose expression is responsive to defense signals and abiotic stress

We have identified a novel gene designated CsV03-3 from Citrus sinensis (L.) Osbeck that encodes a 50 amino acid polypeptide with a predicted molecular mass of 5.4 kDa and a pI of 3.7. CsV03-3 expression is up-regulated by application of methyl jasmonate, salicylic acid, and abscisic acid as well as by abiotic stress and insect herbivory. CsV03-3 belongs to a small gene family consisting of at least three other closely related members (CsV03-1, CsV03-2, and CsV03-4) whose expression is also responsive to phytohormone application and abiotic stress. Sequence similarity searches of the public databases were unsuccessful in finding sequence homologs to CsV03-3 or any CsV03 family member; however, structural prediction models coupled with model comparison to Protein Data Bank folds indicated that the predicted polypeptide encoded by CsV03-3 has structural similarity to proteins with nucleic acid binding activity. Gel mobility shift assays performed on recombinant CsV03-3 protein demonstrated active binding with dsDNA and, to a lesser extent, ssDNA. Based on the phytohormone-inducible expression patterns, the ability to bind nucleic acids, and the lack of significant sequence homology to public databases, we propose that CsV03-3 and its related homologs defines a new class of nucleic acid binding proteins that are responsive to defense and stress signaling in woody perennials.     

Interactive effects of salicylic acid and silicon on oxidative damage and antioxidant activity in spinach (<Emphasis Type="Italic">Spinacia oleracea</Emphasis> L. cv. Matador) grown under boron toxicity and salinity

We investigated individual and combined effects of salinity, soil boron (B), silicon (Si) and salicylic acid (SA) on the activities of major antioxidant enzymes (superoxide dismutase, SOD; catalase, CAT and ascorbate peroxidase, APX) and non-enzymatic antioxidants (AA), proline, chlorophyll, anthocyanin, H₂O₂ concentration, stomatal resistance (SR), lipid peroxidation (MDA), membrane permeability (MP), and the uptake of sodium (Na), chloride (Cl), boron and Si of spinach plants. In general, salinity significantly increased H₂O₂ and proline concentrations, antioxidant activity, membrane permeability, lipid peroxidation and SR of the spinach plants, indicating that they were stressed, whereas application of B only increased proline concentration. However, plant fresh weights did not decline with either treatment. The application of Si decreased H₂O₂ and increased the activity of SOD and CAT. The application of SA increased SOD activity. Neither SA nor Si had any effect on the proline concentration, or MP. However, application of Si increased chlorophyll concentration and decreased lipid peroxidation (MDA concentration). Si treatment had no effect on SR. The concentration of B in the tissues, which was strongly increased by B treatment, was decreased by NaCl. As a result of salinity, concentrations of Na⁺ and Cl⁻ ions were increased in the plant tissues, and application of Si slightly increased these concentrations. These results indicate that exogenous Si application increases stress tolerance of spinach, a plant that is naturally reasonably resistant to combined salinity and B toxicity, by the enhancement of antioxidant mechanisms that reduce membrane damage. Exogenous SA has a less obvious effect, although the levels of salinity and boron stress applied were not sufficient in this experiment to reduce plant fresh weight.     

Synergistic effects of sequential treatment with methyl jasmonate, salicylic acid and yeast extract on benzophenanthridine alkaloid accumulation and protein expression in Eschscholtzia californica suspension cultures

To develop an optimal bioprocess for secondary metabolite production and explain the bioprocess at the molecular level, we examine the synergistic effects of sequential treatment with methyl jasmonate (MJ), salicylic acid (SA) and yeast extract (YE) on benzophenanthridine alkaloid accumulation and protein expression in Eschscholtzia californica suspension cultures. Serial treatment of MJ, SA and YE at 24 h intervals enhanced the accumulation of dihydrosanguinarine (2.5 times) and sanguinarine (5.5 times). This sequential treatment using different signal elicitors was more effective than single elicitor or simultaneous treatment of the elicitors; it induced benzophenanthridine alkaloid accumulation to 917.7 ± 42.0 mg/L. Also, (S)-methylcoclaurine-3′-hydroxylase (CYP80B1) and 3′-hydroxy-(S)-N-methylcoclaurine-4′-O-methyltransferase (4′OMT) expressions among enzymes in sanguinarine biosynthetic pathway explained the synergistic effects by sequential treatment of the elicitors. The sequential treatment strategy using elicitors related to different signal transduction pathways can be used to design better processes to increase accumulation of secondary metabolites in plant cell culture. Analysis of protein expression provides the detailed information about metabolite accumulation through the correlated results.     

Salicylic acid production in response to biotic and abiotic stress depends on isochorismate in Nicotiana benthamiana

Salicylic acid (SA) is an important signal involved in the activation of defence responses against abiotic and biotic stress. In tobacco, benzoic acid or glucosyl benzoate were proposed to be precursors of SA. This is in sharp contrast with studies in Arabidopsis thaliana, where SA derives from isochorismate. We have determined the importance of isochorismate for SA biosynthesis in Nicotiana benthamiana using virus-induced gene silencing of the isochorismate synthase (ICS) gene. Plants with silenced ICS expression do not accumulate SA after exposure to UV or to pathogen stress. Plants with silenced ICS expression also exhibit strongly decreased levels of phylloquinone, a product of isochorismate. Our data provide evidence for an isochorismate-derived synthesis of SA in N. benthamiana.     

Plant growth inhibitory activity of Ophiopogon japonicus Ker-Gawler and role of phenolic acids and their analogues: a comparative study

Allelopathic potential of Ophiopogon japonicus was investigated. The methanolic extract of O. japonicus roots strongly inhibited root and hypocotyls growth of lettuce. Sequential partitioning of the methanol extract with organic solvents showed that the diethyl ether and n-butanol extract possess strong plant growth inhibitory activities. The allelopathic constituents of the diethyl ether extract were isolated and identified as salicylic acid and p-hydroxybenzoic acid by NMR spectroscopy. Both of these phenolic acids were found in the aqueous extracts of leaves as well. The concentration of salicylic acid in roots and leaves were estimated as 0.011 and 0.02%, respectively, and it inhibited the root and shoot of tested plants by 50% even at less than 3 ppm. The p-hydroxybenzoic acid on the other hand was in less abundance (0.005%) and inhibited the plant growth to a lesser extent. The biological activity of commercially available O-methyl derivatives of these phenolic acids was also determined to establish structure–activity relationship. Among these, salicylic acid was found to be the most active one. These results suggest that Ophiopogon japonicus produces plant growth inhibitors, which are responsible for its potential allelopathic activity.     

水杨酸诱导美登木悬浮细胞产生脂氧合酶及多羟基脂肪酸的研究

水杨酸 (SA)可诱导云南美登木 (Maytenushookeri)悬浮培养细胞产生 9 脂氧合酶(9 lipoxygenase ,9 LOX)。通过LC ESI MS测定SA诱导下悬浮培养系中多羟基脂肪酸的含量变化 ,发现用浓度为 80 0 μmol L的SA诱导培养 18h ,悬浮细胞产生最大量的三羟基十八碳烯酸。同时 ,通过对比不同羟基十八碳烯酸含量的变化 ,推测在SA诱导下 ,9 LOX介导的十八碳酸途径中有环氧中间体的生成。     

长安麦饭石在月季切花上的保鲜效果

在40g/L蔗糖＋50mg/L SA 100mg/L Vc的保鲜液中,加入37μS/cm的长安麦饭石（CHMS）,能更好的保持月季切花较高的吸水能力,增强切花花朵膜损伤修复能力,增大花朵开放直径,增加盛开前花枝的鲜重,提高切花瓶插期的观赏品质,延长瓶插寿命。本试验也证明了水杨酸（SA）与8－羟基喹啉（8－HQ）对月季切花有相似的保鲜效果。     

Effects of salicylic acid and cold on freezing tolerance in winter wheat leaves

The effects of salicylic acid (SA) (0.01, 0.1 and 1 mM) and cold on freezing tolerance (freezing injury and ice nucleation activity) were investigated in winter wheat (Triticum aestivum cv. Dogu-88) grown under control (20/18 °C for 15, 30 and 45-day) and cold (15/10 °C for 15-day, 10/5 °C for 30-day and 5/3 °C for 45-day) conditions. Cold acclimatisation caused a decrease of injury to leaf segments removed from the plants and subjected to freezing conditions. Exogenous SA also decreased freezing injury in the leaves grown under cold (15/10 °C) and control (15 and 30-day) conditions. Cold conditions (10/5 and 5/3 °C) caused an increase in ice nucleation activity by apoplastic proteins, which were isolated from the leaves. For the first time, it was shown that exogenous SA caused an increase in ice nucleation activity under cold (15/10 and 10/5 °C) and control conditions. These results show that salicylic acid can increase freezing tolerance in winter wheat leaves by affecting apoplastic proteins.     

Salicylic acid induced physiological and biochemical changes in wheat seedlings under water stress

Salicylic acid (SA) is an important signal molecule modulating plantresponses to stress. It is recently reported to induce multiple stresstolerancein plants including drought. An experiment was, therefore, conducted toascertain the effect of salicylic acid on the growth and metabolic profile ofwheat seedlings under water stress. Irrespective of the SA concentration(1–3 mM) and water stress, SA treated plants showed, ingeneral, a higher moisture content, dry mass, carboxylase activity of Rubisco,superoxide dismutase (SOD) activity and total chlorophyll compared to those ofuntreated seedlings. SA treatment, under water stress, protected nitratereductase (NR) activity and maintained, especially at 3 mM SAconcentration, the protein and nitrogen content of leaves compared to watersufficient seedlings. Results signify the role of SA in regulating the droughtresponse of plants and suggest that SA could be used as a potential growthregulator, for improving plant growth under water stress.     

水杨酸处理对采后园艺产品的作用

本文结合作者自己的研究结果 ,综述了水杨酸对园艺产品的采后作用 (包括延长切花保鲜期、减轻果实腐烂、推迟洋葱等产品的发芽和对果蔬产品贮藏期间品质、呼吸速率、乙烯释放、抗逆、活性氧代谢方面影响 )的研究进展 ,并对这些结果进行了分析 ;对高浓度外源SA处理引起的负面作用以及存在的一些问题进行了探讨