Project description:E.coli metabolomics under treatment of different concentrations of siderophore-conjugate, LP-600.

Project description:E.coli metabolomics under treatment of different concentrations of siderophore-conjugate, LP-600.

Project description:E.coli metabolomics under treatment of different concentrations of siderophore-conjugate, LP-600.

Project description:We investigated a paradoxical re-growth of E. coli upon treatment of a novel siderophore-conjugate, LP-600, at concentrations 16-32 times above the minimum inhibitory concentration (MIC).Transcriptome analysis revealed that LP-600 induced the expression of genes involved in SOS response and e14 prophage upon regrowth conditions.

Project description:The aim of the experiment was to identify genes differentially expressed between the susceptible wild type strain P. aeruginosa PAO1 (PT5) and a mutant resistant to a drug-siderophore conjugate, in order to obtain information on the resistance mechanism(s). A mutant of PT5 able to grow at 4 mg/l BAL30072, a drug-siderophore conjugate, was selected in vitro . The susceptible wild type strain PT5 and the mutant (BAL6) were grown in LB medium and the mutant also in the presence of 4 mg/l BAL30072 to mid-exponential growth phase (OD600 =2) in triplicate cultures. RNA was extracted using the RNeasy Kit (Qiagen). A total of nine Affymterix P. aeruginosa arrays were hybridized (one for each replicate) under standard conditions.

Project description:The development of new antibiotics against Gram-negative bacteria has to deal with the low permeability of the outer membrane. This obstacle can be overcome by utilizing siderophore-dependent iron uptake pathways as gates for antibiotic uptake. Iron-chelating siderophores are actively imported by bacteria, and their conjugation to antibiotics allows smuggling the latter into bacterial cells. Synthetic siderophore mimetics based on MECAM and DOTAM cores, both chelating iron via catechol groups, have been recently applied as versatile carriers of functional cargo. In the present study, we show that MECAM and the MECAM-ampicillin conjugate 3 transport iron into Pseudomonas aeruginosa cells via the catechol-type outer membrane transporters PfeA and PirA, and DOTAM solely via PirA. Differential proteomics and RTqPCR showed that MECAM import induced the expression of pfeA, whereas 3 led to an increase in the expression of pfeA and ampc, a gene conferring ampicillin resistance. The presence of DOTAM did not induce the expression of pirA, but upregulated the expression two zinc transporters (cntO and PA0781), pointing out that bacteria become zinc starved in the presence of this compound. Kinetic experiments with radioactive 55Fe demonstrated that iron uptake was as efficient as with the natural prototype siderophore enterobactin. The study provides a mechanistic and functional validation for DOTAM- and MECAM-based artificial siderophore mimetics as vehicles for the delivery of cargo into Gram-negative bacteria.

Project description:Auxin amino acid conjugates are considered storage forms of auxins available as a source of active auxins on the plant demand. We treated Brassica rapa seedlings with 0.01 mM indole-3-acetyl-L-alanine (IAA-Ala), indole-3-propionyl-L-alanine (IPA-Ala), and indole- 3-butyryl-L-alanine (IBA-Ala) and examined their effects on the transcriptome. All auxin conjugate treatments caused similar patterns in transcription profiles compared to the control, but with different intensities of over- and under-expression depending on the treatment. Most auxin-related DEGs were identified after IBA-Ala treatment, followed by IPA-Ala and IAA-Ala, respectively.

Project description:The present study aims to evaluate the response of the three Mediterranean local grapevines ‘Garnacha Blanca’, ‘Garnacha Tinta’, and ‘Macabeo’ to treatments with biocontrol products (BPs), a botanical extract (Akivi, Dittrichia viscosa extract) and a beneficial microorganism (Bacillus UdG, Bacillus velezensis). A combination of transcriptomics and metabolomics approaches were chosen in order to study grapevine gene expression and to identify gene marker candidates, as well as, to determine grapevine metabolites differentially concentrated in response to BPs treatments. Grapevine plants were cultivated in greenhouse controlled conditions and submitted to the treatments, and thereafter, leaves were sampled 24h after treatment to conduct gene expression study by RNA-sequencing for ‘Garnacha Blanca’ leaves extract and by RT-qPCR for the three cultivars. Differentially expressed genes (DEGs) were investigated for both treatments and highly influenced DEGs were selected to be tested in the three cultivars as treatment gene markers. In addition, extraction of leaf components was performed to quantify metabolites such as phytohormones, organic acids, and phenols. Considering all the upregulated and downregulated genes and enhanced metabolites concentrations, the treatments had an effect on jasmonic acid, ethylene, and phenylpropanoids defense pathways. In addition, several DEG markers were identified presenting a stable overexpression after the treatments in the three grapevine cultivars. These gene markers could be used to monitor the activity of the products in field treatments in future research. Further research will be necessary to confirm these first results under field conditions.

Project description:Rice sample under stress treatments

Project description:litter bacterial under AM treatments