Effect of abscisic acid application on root isoflavonoid concentration and nodulation of wild-type and nodulation-mutant soybean plants

Isoflavonoids (daidzein, genistein, and coumestrol) are involved in induction of nod genes in Bradyrhizobium japonicum and may be involved in nodule development as well. Abscisic acid (ABA) may also impact nodulation since ABA is reportedly involved in isoflavonoid synthesis. The current study was conducted to evaluate whether ABA plays a role in differential nodulation of a hypernodulated soybean (Glycine max L. Merr.) mutant and the Williams parent. Exogenous ABA application resulted in a decrease in nodule number and weight in both lines. Isoflavonoid concentrations were also markedly decreased in response to ABA application in both inoculated and noninoculated soybean roots. The inoculation treatment itself resulted in a marked increase in isoflavonoid concentrations of NOD1-3, regardless of ABA levels, while only slight increases occurred in Williams. The nodule numbers of both soybean lines across several ABA concentration treatments were highly correlated with the concentration of all three isoflavonoids. However, differences in internal levels of ABA between lines were not detected when grown in the absence of external ABA additions. It is concluded that differential nodule expression between the wild type and the hypernodulated mutant is not likely due to differential ABA synthesis.     

Enhancing crop legume N2 fixation through selection and breeding

Legume N₂ fixation is variable, but nonetheless is a valuable process in world agriculture. There is great potential to increase the contribution by the crop legumes to the world's supply of soil.N. This will be achieved by (i) increasing the area of legumes sown by farmers; (ii) improved management of the crops in order that the major determinants of productivity, e.g. land area, water availability, are converted to harvested product with maximum efficiency; and (iii) genetic modification of the commonly-grown species to ensure high dependence of the legume crop on N₂ fixation at all levels of productivity. Currently-used methods for measuring N₂ fixation and for assessing heritability and repeatability of N₂ fixation in breeding and selection programs are reviewed. Results from research programs to define genetic variation in N₂ fixation and to enhance N₂ fixation through selection and breeding are presented with particular emphasis on common bean (Phaseolus vulgaris) and soybean (Glycine max).     

Biochemical,physiological and molecular characteristics of chickpea rhizobacteria from Kurdistan province,Iran

Kurdistan province of Iran is one of the main places for producing chickpea, and there is no published research on root-nodulating bacteria of this crop. Plant samples were collected and a total of 73 Rhizobium strains were isolated from root nodules. Nodulation test was done on chickpea plants. Phenotypic characteristics of the 16 representative strains were determined based on the standard bacteriological methods. Total soluble cell protein patterns by electrophoresis approach (SDS-PAGE) showed heterogeneity among the tested rhizobia strains. Based on the phenotypic features, Rhizobium strains of three groups belong to different species of the genus Mesorhizobioum including M. ciceri and M. mediterraneum and Mesorhizobium sp. The PCR technique was employed for amplification of 16S rDNA and atpD genes. For further characterisation, amplified fragment of 16S rDNA gene from a representative strain (AK21) using primers 41F and 1488R was subjected to sequencing. Sequences were aligned by BLAST software at NCBI GenBank and results showed 99% similarity with M. mediterraneum strain BKBCF3q.     

根瘤菌与群体感应

细菌在高细胞密度下可以产生群体感应信号分子,调控细菌相关基因的表达,这种信号分子被称为自体诱导物。酰基高丝氨酸内酯类化合物(acyl-HSLs)是在根瘤菌中广泛存在的一类自体诱导物,该群体感应系统与根瘤菌和植物的共生作用密切相关。本文概述了AHLs介导的群体感应系统的组成及调控机制和不同根瘤菌中群体感应调节对根瘤菌生理行为及共生固氮的影响。     

花生根瘤菌Bradyrhizobium sp.MZ5 III型分泌系统调节基因ttsI突变体的功能分析

[目的]探究慢生型花生根瘤菌III型分泌系统在花生-根瘤菌互作的功能。[方法]本研究采用同源重组和三亲本接合转移的方法,构建Bradyrhizobium sp.MZ5的III型分泌系统调节基因ttsI突变体;荧光定量PCR检测添加大豆苷元（Daidzein）和染料木黄酮（Genistein）诱导物后野生型和突变株转录水平上ttsI的表达量变化及其差异;蛭石结瘤实验分析ttsI基因突变对花生结瘤能力的影响。[结果]在转录水平上,大豆苷元和染料木黄酮对MZ5的III型分泌系统调节基因ttsI的表达具有显著的抑制作用（P<0.05）。在MZ5△ttsI突变体中ttsI基因的表达量都明显下调,与野生型菌株的相比都达到极显著水平（P<0.001）。蛭石结瘤实验表明,与野生型菌株相比,MZ5△ttsI突变体在不同花生品种的结瘤数和地上部干重都显著性降低。根瘤石蜡切片表明,MZ5△ttsI突变体在根瘤内的含菌量少于野生型菌株。[结论]Bradyrhizobium sp.MZ5菌株中的III型分泌系统在花生-根瘤菌互作中对结瘤有积极的促进作用。     

Competition for alfalfa nodulation under metal stress by the metal‐tolerant strain Ochrobactrum cytisi Azn6.2

Legume plants, in association with rhizobia, are gaining increasing interest for heavy metal rhizoremediation. This symbiotic interaction combines the advantages of rhizoremediation and soil nitrogen enrichment. In metal polluted soils, Ochrobactrum cytisi can elicit non‐fixing nodules on legumes, including Medicago sativa. Nodulation kinetics was much slower when M. sativa plants were inoculated with O. cytisi Azn6.2 compared with the natural symbiont Ensifer meliloti 1021 and nodules were ineffective in nitrogen fixation. A competition experiment was performed using alfalfa grown on heavy metals, and co‐inoculated with equal amounts of the metal‐sensitive E. meliloti 1021 and the metal‐resistant O. cytisi Azn6.2. When plants were inoculated in non‐polluted substrates, all nodules were formed by E. meliloti 1021. Nevertheless, under increasing metal concentrations, the number of nodules occupied by O. cytisi grew. At the highest metal concentration, all nodules were elicited by O. cytisi, suggesting that the resistant species can take the place of the natural symbiont. This fact has important ecological and environmental implications when proposing legume–rhizobia symbioses for rhizoremediation and highlights the need of selecting highly resistant rhizobia in order to be competitive in polluted soils.     

Alleviating the inhibitory effect of salinity stress on nod gene expression in Rhizobium tibeticum – fenugreek (Trigonella foenum graecum) symbiosis by isoflavonoids treatment

Rhizobia-legume symbiosis depends on molecular dialog, which involves the production of specific plant flavonoid compounds as signal molecules. Rhizobium tibeticum was recovered from the root nodule of fenugreek and identified by sequencing the 16S rRNA gene. The effect of salinity stress on nod gene expression was measured in terms of β-galactosidase activity. R. tibeticum containing Escherichia coli lacZ gene fusions to specific nodulation (nod) genes were used to determine β-galactosidase activity. Combination of hesperetin (7.5 µM) and apigenin (7.5 µM) significantly increased β-galactosidase activity more than the single application of hesperetin or apigenin. Preincubation of R. tibeticum with hesperetin and apigenin combination significantly alleviates the adverse effect of salinity on nod gene expression and therefore, enhances nodulation and nitrogen fixation of fenugreek.