Titre :	Understanding phenols function during tripartite interaction between legume- rhizobia and endophytic bacteria
Type de document :	document multimédia
Auteurs :	Maroua Makhloufi, Auteur ; Fathi Berrabah, Directeur de thèse ; Véronique Gruber, Directeur de thèse
Editeur :	Laghouat : Université Amar Telidji - Département de biologie
Année de publication :	2024
Importance :	42 p.
Accompagnement :	1 disque optique numérique (CD-ROM)
Note générale :	Option : Microbiologie appliquée
Langues :	Anglais
Mots-clés :	Nodule  immunity  Phenols  Sinorhizobium  Symbiosis
Résumé :	Rhizobia can live inside the nodule plant under the control of several genes that regulate immunity. Five genes were identified that have a crucial role in immunity repression including RSD, SymCRK, NAD1 and NIN-16. A mutation in these genes results in the formation of necrotic nodules characterised by the activation of the immune response and the induction of defence related proteins and with the accumulation of phenolic compounds (PCs). Little is known about phenolic accumulation during nodule defence response, our study aims to understand the regulation of these phenols inside the nodule and the role of PCs during the legume-rhizobium symbiosis. Analysis of RNAseq data was performed to identify the genes involved in the biosynthesis of PCs. As result, many gene families were determined to be up-regulated, and a conserved up-regulated PCs metabolic pathway was identified between rsd, symCRK, nad1 and nin-16 mutants. The phylogenetic analysis of two up-regulated genes family; chalcone synthase and caffeic acid O methyltransferase, indicates that probably one group of each family evolved to control the immune response in nodules. In addition, an alignment of three nucleotide sequences of three genes, two genes from the chalcone synthase family and one gene from the PR10 family in the 5’-UTR upstream region shows the presence of a conserved nucleotide block, indicating the presence of common transcription factors regulating PCs biosynthetic genes. To understand the role of PCs during immunity response, antimicrobial activity of selected PCs was tested on Sinorhzibium medicae WSM419 and endophytic bacteria. The results show significant inhibition of S. medicae WSM419, which indicates high sensitivity of the symbionte to PCs. Our data support the hypothesis that PCs accumulation compromises the symbionte survival inside the nodule.
note de thèses :	Mémoire de master en sciences biologiques

Understanding phenols function during tripartite interaction between legume- rhizobia and endophytic bacteria [document multimédia] / Maroua Makhloufi, Auteur ; Fathi Berrabah, Directeur de thèse ; Véronique Gruber, Directeur de thèse . - Laghouat : Université Amar Telidji - Département de biologie, 2024 . - 42 p. + 1 disque optique numérique (CD-ROM).
Option : Microbiologie appliquée
Langues : Anglais

Mots-clés :	Nodule  immunity  Phenols  Sinorhizobium  Symbiosis
Résumé :	Rhizobia can live inside the nodule plant under the control of several genes that regulate immunity. Five genes were identified that have a crucial role in immunity repression including RSD, SymCRK, NAD1 and NIN-16. A mutation in these genes results in the formation of necrotic nodules characterised by the activation of the immune response and the induction of defence related proteins and with the accumulation of phenolic compounds (PCs). Little is known about phenolic accumulation during nodule defence response, our study aims to understand the regulation of these phenols inside the nodule and the role of PCs during the legume-rhizobium symbiosis. Analysis of RNAseq data was performed to identify the genes involved in the biosynthesis of PCs. As result, many gene families were determined to be up-regulated, and a conserved up-regulated PCs metabolic pathway was identified between rsd, symCRK, nad1 and nin-16 mutants. The phylogenetic analysis of two up-regulated genes family; chalcone synthase and caffeic acid O methyltransferase, indicates that probably one group of each family evolved to control the immune response in nodules. In addition, an alignment of three nucleotide sequences of three genes, two genes from the chalcone synthase family and one gene from the PR10 family in the 5’-UTR upstream region shows the presence of a conserved nucleotide block, indicating the presence of common transcription factors regulating PCs biosynthetic genes. To understand the role of PCs during immunity response, antimicrobial activity of selected PCs was tested on Sinorhzibium medicae WSM419 and endophytic bacteria. The results show significant inhibition of S. medicae WSM419, which indicates high sensitivity of the symbionte to PCs. Our data support the hypothesis that PCs accumulation compromises the symbionte survival inside the nodule.
note de thèses :	Mémoire de master en sciences biologiques