The effects of dopamine on antioxidant enzymes activities and reactive oxygen species levels in soybean roots

In the current work, we investigated the effects of dopamine, an neurotransmitter found in several plant species on antioxidant enzyme activities and ROS in soybean (Glycine max L. Merrill) roots. The effects of dopamine on SOD, CAT and POD activities, as well as H₂O₂, O₂^•−, melanin contents and lipid peroxidation were evaluated. Three-day-old seedlings were cultivated in half-strength Hoagland nutrient solution (pH 6.0), without or with 0.1 to 1.0 mM dopamine, in a growth chamber (25°C, 12 h photoperiod, irradiance of 280 μmol m⁻² s⁻¹) for 24 h. Significant increases in melanin content were observed. The levels of ROS and lipid peroxidation decreased at all concentrations of dopamine tested. The SOD activity increased significantly under the action of dopamine, while CT activity was inhibited and POD activity was unaffected. The results suggest a close relationship between a possible antioxidant activity of dopamine and melanin and activation of SOD, reducing the levels of ROS and damage on membranes of soybean roots.     

高纬度地区大豆蛋白含量及氨基酸组分的表型鉴定与聚类分析

对国内外高纬度地区的240份大豆种质资源的蛋白及16个氨基酸组分进行测定,通过遗传多样性、因子和聚类分析,进行了表型鉴定及基因型分类。结果表明,供试大豆种质蛋白及氨基酸组分变异较丰富,遗传多样性程度较高。根据因子分析,将筛选到的3个公因子进行聚类分析,可将供试种质资源分为7类。蛋白含量从高到低的顺序为类群Ⅶ>类群Ⅵ>类群Ⅴ>类群Ⅱ>类群Ⅰ>类群Ⅲ>类群Ⅳ。12个氨基酸组分的变化趋势与蛋白一致。类群Ⅶ和类群Ⅵ为高蛋白遗传群体,可作为高蛋白基因聚合育种的亲本材料。通过前期分析,筛选到24份高蛋氨酸资源,包括有公野04L-141、龙品03-311、Proto、和龙油太、猫眼豆、茶色豆、紫花2号、东农48等,可为高蛋氨酸种质创新提供材料基础。     

黄淮海大豆异黄酮含量分析与特异种质遴选

以黄淮海生态区181份栽培大豆与32份野生大豆为材料,采用高效液相色谱法测定其籽粒异黄酮及组分含量,分析该地区大豆籽粒异黄酮含量遗传变异,遴选高异黄酮特异种质,为相关基因克隆表达、RIL群体构建和专用型品种选育提供资源。结果表明,供试栽培大豆异黄酮含量在1462.6-6115.5 μg/g,平均为3558.2 μg/g,最大差异可达4.2倍;供试野生大豆异黄酮含量在3896.1-7440.4 μg/g,平均为5182.4 μg/g,最大差异可达1.9倍。可见,黄淮海生态区大豆资源异黄酮及组分含量存在较大遗传变异,且野生大豆异黄酮平均含量显著高于栽培大豆。从供试资源中遴选出异黄酮含量超过6000 μg/g特异种质4份（超过7000 μg/g种质1份）。     

Concepts and strategies of soybean seed proteomics using the shotgun proteomics approach

ABSTRACT

Introduction: The last decade has yielded significant developments in the field of proteomics, especially in mass spectrometry (MS) and data analysis tools. In particular, a shift from gel-based to MS-based proteomics has been observed, thereby providing a platform with which to construct proteome atlases for all life forms. Nevertheless, the analysis of plant proteomes, especially those of samples that contain high-abundance proteins (HAPs), such as soybean seeds, remains challenging.

Areas covered: Here, we review recent progress in soybean seed proteomics and highlight advances in HAPs depletion methods and peptide pre-fractionation, identification, and quantification methods. We also suggest a pipeline for future proteomic analysis, in order to increase the dynamic coverage of the soybean seed proteome.

Expert opinion: Because HAPs limit the dynamic resolution of the soybean seed proteome, the depletion of HAPs is a prerequisite of high-throughput proteome analysis, and owing to the use of two-dimensional gel electrophoresis-based proteomic approaches, few soybean seed proteins have been identified or characterized. Recent advances in proteomic technologies, which have significantly increased the proteome coverage of other plants, could be used to overcome the current complexity and limitation of soybean seed proteomics.     

Immobilisation of soybean seed coat peroxidase on its natural support for phenol removal from wastewater

Soybean seed coat peroxidase (SBP; EC 1.11.1.7) was immobilised on its natural support, soybean seed coats, anticipating its use in phenol removal. Periodate and glutaraldehyde chemistries were assayed. Periodate failed to immobilise any SBP, whereas glutaraldehyde was effective. The optimum concentration of glutaraldehyde was found to be 1%. Immobilisation shifted the optimum pH for phenol removal from 4.0 to 6.0. Treated seed coat retained its activity over a 4-week period, and reusability assays showed that treated seed coats could be reused once for phenol removal. Polyethylene glycol (PEG) increased the stability of phenol degradation activity. In addition, the phenolic polymer was adsorbed on to seed coats, thus making removal of the polymeric product easier.     

Antioxidant Activities of Some Extracts of Thymus zygis

The antioxidant activities of methanol and ethyl ether extracts obtained from Thymus zygis, collected during the flowering or non-flowering period, were evaluated and compared. To investigate this potential, extracts were tested on their capacity to react with diphenyl-picrylhydrazyl (DPPH) in a homogeneous medium, and to inhibit Fe²⁺/ascorbate-induced membrane lipid peroxidation, as estimated by the formation of thiobar-bituric acid-reactive substances (TBARS). Although methanol extracts reduce DPPH radicals more efficiently than ethyl ether extracts, suggesting a potent radical scavenger activity, the ethyl ether extracts were found to be most active in inhibiting lipid peroxidation in sarcoplasmic reticulum (SR) membranes. In addition, both extracts present peroxyl and superoxide radical scavenging activities. Peroxyl radicals were generated by the water soluble 2, 2A-azobis(2-amidinopropane) dihydrochloride (AAPH) azoinitiator, and the scavenging activities of the extracts were measured by the inhibition of cis-parinaric acid (PnA) fluorescence decay in SR. Superoxide radicals were generated either by an enzymatic or a non-enzymatic system, and the scavenger ability was evaluated by the inhibition of nitrob-lue tetrazolium reduction. Methanolic extracts are more potent as scavengers of peroxyl and super oxide radicals than the ethyl ether extracts. Apparently, there is a relationship between antioxidant potency and the total phenolic groups content in each extract.     

Inhibition studies of soybean (Glycine max) urease with heavy metals,sodium salts of mineral acids,boric acid,and boronic acids

Various inhibitors were tested for their inhibitory effects on soybean urease. The K_i values for boric acid, 4-bromophenylboronic acid, butylboronic acid, and phenylboronic acid were 0.20?±?0.05?mM, 0.22?±?0.04?mM, 1.50?±?0.10?mM, and 2.00?±?0.11?mM, respectively. The inhibition was competitive type with boric acid and boronic acids. Heavy metal ions including Ag⁺, Hg²⁺, and Cu²⁺ showed strong inhibition on soybean urease, with the silver ion being a potent inhibitor (IC₅₀ = 2.3?×?10^?8 mM). Time-dependent inhibition studies exhibited biphasic kinetics with all heavy metal ions. Furthermore, inhibition studies with sodium salts of mineral acids (NaF, NaCl, NaNO₃, and Na₂SO₄) showed that only F^? inhibited soybean urease significantly (IC₅₀ = 2.9?mM). Competitive type of inhibition was observed for this anion with a K_i value of 1.30?mM.     

Inhibitory effect on soybean lipoxygenase and docking studies of some secondary metabolites,isolated from Origanum vulgare L. ssp. hirtum

In this study, five secondary metabolites (caffeic acid, rosmarinic acid, lithospermic acid B, 12-hydroxyjasmonic acid 12-O-β-glucoside and p-menth-3-ene-1,2-diol 1-O-β-glucopyranoside) isolated from the polar extracts of the plant Origanum vulgare L. ssp. hirtum, were tested in vitro for their ability to inhibit soybean lipoxygenase. Among the examined compounds, lithospermic acid B demonstrated the best inhibitory activity on soybean lipoxygenase with IC₅₀ = 0.1 mM. Docking studies have been undertaken as an attempt for better understanding the interactions of these compounds within the active site of soybean lipoxygenase. The predicted binding energy values correlated well with the observed biological data.     

Overexpression of a soybean salicylic acid methyltransferase gene confers resistance to soybean cyst nematode

Salicylic acid plays a critical role in activating plant defence responses after pathogen attack. Salicylic acid methyltransferase (SAMT) modulates the level of salicylic acid by converting salicylic acid to methyl salicylate. Here, we report that a SAMT gene from soybean (GmSAMT1) plays a role in soybean defence against soybean cyst nematode (Heterodera glycines Ichinohe, SCN). GmSAMT1 was identified as a candidate SCN defence‐related gene in our previous analysis of soybean defence against SCN using GeneChip microarray experiments. The current study started with the isolation of the full‐length cDNAs of GmSAMT1 from a SCN‐resistant soybean line and from a SCN‐susceptible soybean line. The two cDNAs encode proteins of identical sequences. The GmSAMT1 cDNA was expressed in Escherichia coli. Using in vitro enzyme assays, E. coli‐expressed GmSAMT1 was confirmed to function as salicylic acid methyltransferase. The apparent Km value of GmSAMT1 for salicylic acid was approximately 46 μm . To determine the role of GmSAMT1 in soybean defence against SCN, transgenic hairy roots overexpressing GmSAMT1 were produced and tested for SCN resistance. Overexpression of GmSAMT1 in SCN‐susceptible backgrounds significantly reduced the development of SCN, indicating that overexpression of GmSAMT1 in the transgenic hairy root system could confer resistance to SCN. Overexpression of GmSAMT1 in transgenic hairy roots was also found to affect the expression of selected genes involved in salicylic acid biosynthesis and salicylic acid signal transduction.