Project description:Two synthetic bacterial consortia (SC) composed by bacterial strains isolated from a natural phenanthrene-degrading consortium (CON), Sphingobium sp. AM, Klebsiella aerogenes B, Pseudomonas sp. Bc-h and T, Burkholderia sp. Bk and Inquilinus limosus Inq were grown in LMM supplemented with 200 mg/L of phenanthrene (PHN) during 72 hours in triplicate.
Project description:To support our molecular hypothesis of the effect of rpoS and inrR genes over the activation of the ICEclc genome in Pseudomonas knackmussii B13, we have employed Agilent DNA custom microarray in the 8X15K format.
Project description:In this research a high-throughput RNA sequencing based transcriptome analysis technique (RNA-Seq) was used to evaluate differentially expressed genes (DEGs) in the wild type Arabidopsis seedling in response to flg22, a well-known microbe-associated molecular patterns (MAMP), and AtPep1, a well-known peptide representing an endogenous damage-associated molecular patterns (DAMP). The results of our study revealed that 1895 (1634 up-regulated and 261 down-regulated) and 2271 (1706 up-regulated and 565 down-regulated) significant differentially expressed genes in response to flg22 and AtPep1 treatment, respectively. Among significant DEGs, we observed that a number of hitherto overlooked genes have been found to be induced upon treatment with either flg22 or with AtPep1, indicating their possible involvement in innate immunity. Here, we characterized two of them, namely PP2-B13 and ACLP1. PP2-B13 contains an F-box domain and shows similarity to carbohydrate binding proteins. ACLP1 is a protein of unknown function with highest similarity to actin cross linking proteins and includes a fascin domain. Using qPCR, we verified that the genes encoding PP2-B13, and ACLP1 were highly induced upon treatment of leaf disks with flg22. We obtained T-DNA insertion mutants and generated homozygous mutant lines. None of the mutants showed a phenotype in the absence of infection. pp2-b13 and aclp1 mutants showed an increased susceptibility to infection by the virulent pathogen Pseudomomas syringae pv tomato mutant hrcC-, as evidenced by an increased growth of the pathogen in planta. Further we present evidence that aclp1 was deficient in ethylene production upon flg22 treatment, while pp2-b13, was deficient in ROS production. In conclusion, the products of these genes contribute to plant immunity against bacterial pathogens, although there is currently no clue for their mechanism of action. The results from this research provide new information to a better understanding of the immune system in Arabidopsis.
