E. Szegedi

Inhibition of quorum‐sensing signals by essential oils

The role of quorum sensing (QS) is well known in microbial pathogenicity and antibiotic resistance. QS is responsible for motility, swarming, and biofilm production based on the signal molecules, e.g., acylated homoserine lactones (AHLs) produced by micro‐organisms above certain population density. The inhibition of QS may reduce pathogenicity, antibiotic resistance and biofilm formation in systemic and local infections. The homoserine lactones and other transmitters contribute to antibiotic resistance and pathogenicity of several bacteria; consequently the inhibition of QS signals reduces the problem of resistance and virulence. Due to the increasing number of persistent non‐treatable infections, there is an urgent need to develop new strategies to combat infections that destabilize bacterial communities in the host.

Quorum‐sensing signal production by Agrobacterium vitis strains and their tumor‐inducing and tartrate‐catabolic plasmids

Agrobacterium vitis strains, their tumor-inducing (pTi) and tartrate utilization (pTr) plasmid transconjugants and grapevine tumors were analyzed for the presence of N-acyl-homoserine lactones (AHLs). All wild-type A. vitis strains produced long-chain signals. PCR analysis of the A. vitis long-chain AHL synthase gene, avsI, showed the predicted amplicon. Agrobacterium tumefaciens UBAPF2 harboring various A. vitis pTi plasmids produced N-(3-oxo-octanoyl)-l-homoserine lactone encoded also by pTis of A. tumefaciens. UBAPF2 transconjugants carrying pTrs except for pTrTm4 and pTrAB3, also produced an AHL. UBAPF2 transconjugants carrying pTrAT6, pTrAB4 and pTrRr4 or pTiNi1 produced two additional AHLs not observed in the corresponding wild-type strains. We also provide evidence for in situ production of AHLs in grapevine crown gall tumors of greenhouse and field origin.

Candidate plant gene homologues in grapevine involved in Agrobacterium transformation

The grapevine (Vitis vinifera) genome was analyzed in silico for homologues of plant genes involved in Agrobacterium transformation in Arabidopsis thaliana and Nicotiana spp. Grapevine homologues of the glucomannan 4-betamannosyltransferase 9 gene CslA-09 involved in bacterial attachment to the cell wall, homologues of reticulon-like proteins BTI1, 2, 3 and RAB8 GTPases, both involved in T-DNA transfer to the host cell, homologues of VirE2 interacting protein VIP1 that contributes to the targeting of T-DNA into the nucleus and to its integration, and homologues of the histone protein H2A, which promotes the expression of T-DNA encoded genes, were selected. Sequences homologous to the arabinogalactan-protein AtAGP17 were not found in the grape genome. Seventeen selected candidates were tested by semiquantitative RT-PCR analysis for changes in their expression levels upon inoculation with Agrobacterium tumefaciens C58. Of the tested homologues, the expression of VvRab8a, VvVip1a and two histone genes (VvHta2 and VvHta10) increased significantly, therefore we hypothesize that these might be involved in Agrobacterium transformation of V. vinifera.

Use of an intron containing grapevine gene as internal control for validation of cDNA synthesis in virus detection by RT-PCR

Detection of viruses in grapevine plants is important to prevent their spreading with propagating stocks. For this purpose PCR based protocols are commonly and routinely used. Since most grapevine viruses are RNA viruses, the detection procedure starts with RNA purification followed by cDNA synthesis prior to PCR. The cDNAs should be validated by an internal control for which usually constitutively expressed housekeeping genes are used. Here we publish a new set of primers designed in the Vitis vinifera phosphoenolpyruvate carboxylase gene to encompass two or three introns. PCR products amplified from remaining genomic DNA in the RNA samples and from cDNA can be clearly distinguished since cDNA-derived products are smaller in size compared to those amplified from genomic DNA. Thus these primers may be useful reference markers in RT-PCR-based virus detection assays both for the validation of cDNA synthesis and the detection of trace amounts of genomic DNA.