The growth-promoting and disease-suppressing mechanisms of inoculation on peanut seedlings.

spp. is known for its ability to enhance plant growth and suppress disease, but the mechanisms for its interaction with host plants and pathogens remain unclear. This study investigated the transcriptomics and metabolomics of peanut plants ( L.

miR394 modulates brassinosteroid signaling to regulate hypocotyl elongation in Arabidopsis.

The interplay between microRNAs (miRNAs) and phytohormones allows plants to integrate multiple internal and external signals to optimize their survival of different environmental conditions. Here, we report that miR394 and its target gene LEAF CURLING RESPONSIVENESS (LCR), which are transcriptionally responsive to BR, participate in BR signaling to regulate hypocotyl elongation in Arabidopsis thaliana. Phenotypic analysis of various transgenic and mutant lines revealed that miR394 negatively regulates BR signaling during hypocotyl elongation, whereas LCR positively regulates this process.

Antagonistic effects of TM28 against Fusarium crown rot of wheat caused by .

Fusarium crown rot (FCR) caused by is a serious threat to wheat production worldwide. This study aimed to assess the effects of strain TM28 isolated from root of against . The strain of TM28 inhibited mycelial growth of by 87.

inoculation promotes sweet sorghum growth in the saline soil by modulating rhizosphere available nutrients and bacterial community.

As one of the major abiotic stresses, salinity can affect crop growth and plant productivity worldwide. The inoculation of rhizosphere or endophytic microorganisms can enhance plant tolerance to salt stresses, but the potential mechanism is not clear. In this study, ST02 was applied on sweet sorghum [ (L.

Rhizosphere Microbiome and Phenolic Acid Exudation of the Healthy and Diseased American Ginseng Were Modulated by the Cropping History.

The infection of soil-borne diseases has the potential to modify root exudation and the rhizosphere microbiome. However, the extent to which these modifications occur in various monocropping histories remains inadequately explored. This study sampled healthy and diseased American ginseng ( L.

Metabolomics reveal metabolic variation caused by co-culture of Arthrobacter ureafaciens and Trichoderma harzianum and their impacts on wheat germination.

Arthrobacter ureafaciens DnL1-1 is a bacterium used for atrazine degradation, while Trichoderma harzianum LTR-2 is a widely used biocontrol fungus. In this study, a liquid co-cultivation of these two organisms was initially tested. The significant changes in the metabolome of fermentation liquors were investigated based on cultivation techniques (single-cultured and co-cultured DnL1-1 and LTR-2) using an UPLC-QTOF-MS in an untargeted metabolomic approach.

Chromosome doubling influences the morphological, physiological, biochemical and genetic traits related to essential oil biosynthesis of peppermint (Mentha piperita) under salinity stress.

Peppermint (Mentha piperita L.) is an important medicinal aromatic plant. In this study, the morphology, physiology, biochemistry and gene expression of chromosomes doubling peppermint (D1 lines) were analyzed.

MAPK-mediated regulation of growth and essential oil composition in a salt-tolerant peppermint (Mentha piperita L.) under NaCl stress.

Peppermint (Mentha × piperita L.) is an important and commonly used flavoring agent worldwide, and salinity is a major stress that limits plant growth and reduces crop productivity. This work demonstrated the metabolic responses of essential oil production including the yield and component composition, gene expression, enzyme activity, and protein activation in a salt-tolerant peppermint Keyuan-1 with respect to NaCl stress.

An Intronless β-amyrin Synthase Gene is More Efficient in Oleanolic Acid Accumulation than its Paralog in Gentiana straminea.

Paralogous members of the oxidosqualene cyclase (OSC) family encode a diversity of enzymes that are important in triterpenoid biosynthesis. This report describes the isolation of the Gentiana straminea gene GsAS2 that encodes a β-amyrin synthase (βAS) enzyme. Unlike its previously isolated paralog GsAS1, GsAS2 lacks introns.

Proper regeneration from in vitro cultured Arabidopsis thaliana requires the microRNA-directed action of an auxin response factor.

MicroRNAs (miRNAs) are important for the regulation of gene expression, and are involved in many developmental processes. A set of miRNAs which were differentially expressed between cells of totipotent (C1) and non-totipotent (C2) Arabidopsis thaliana calli was identified, some of which were affected during callus formation or shoot regeneration. One of those down-regulated after 10 days' incubation in shoot induction medium (SIM) was MIR160a, for which transcript abundance was lower in C1 than in C2.

Cloning and Functional Analysis of a beta-amyrin synthase gene associated with oleanolic acid biosynthesis in Gentiana straminea MAXIM.

Phytosterols and triterpenes are synthesized by oxidosqualene cyclases (OSCs) via the isoprenoid pathway. Here, GsAS1--a full-length beta-amyrin synthase cDNA isolated from Gentiana straminea MAXIM.--was characterized.