Search for Partner Proteins of Immunophilins Involved in the Control of Plant Immunity.

The involvement of plant immunophilins in multiple essential processes such as development, various ways of adapting to biotic and abiotic stresses, and photosynthesis has already been established. Previously, research has demonstrated the involvement of three immunophilin genes (, , and ) in the control of plant response to invasion by various pathogens. Current research attempts to identify host target proteins for each of the selected immunophilins.

Characterization of three Arabidopsis thaliana immunophilin genes involved in the plant defense response against Pseudomonas syringae.

Plant immunophilins are a broadly conserved family of proteins, which carry out a variety of cellular functions. In this study, we investigated three immunophilin genes involved in the Arabidopsis thaliana response to Pseudomonas syringae infection: a cytoplasmic localized AtCYP19, a cytoplasmic and nuclear localized AtCYP57, and one nucleus directed FKBP known as AtFKBP65. Arabidopsis knock-out mutations in these immunophilins result in an increased susceptibility to P.

Identification of ICE2, a gene involved in cold acclimation which determines freezing tolerance in Arabidopsis thaliana.

Several transcription factors are presently known to regulate the response to cold stress. Here we describe a new positive regulator, ICE2, which is a transcription factor of the bHLH family that participates in the response to deep freezing through the cold acclimation-dependent pathway in Arabidopsis thaliana plants. An overexpression of ICE2 (as we named the At1g12860 locus) in transgenic Arabidopsis plants results in increased tolerance to deep freezing stress after cold acclimation.

A highly efficient miPCR method for isolating FSTs from transgenic Arabidopsis thaliana plants.

The exact localization of an insertion in the genome of transgenic plants obtained by Agrobacterium-mediated transformation is an integral part of most experiments aimed at studying these types of mutants. There are several methods for isolating unknown nucleotide sequences of genomic DNA which flank the borders of T-DNA integrated in the genome of plants. However, all the methods based on PCR have limitations which in some cases do not permit the desired objective to be achieved.

A new technique for activation tagging in Arabidopsis.

We have created and applied to Arabidopsis thaliana a new system of two vectors. The first vector (pEnLox) is intended for activation tagging and contains a multimerized transcriptional enhancer from the cauliflower mosaic virus (CaMV) 35S gene in T-DNA flanked by two loxP-sites and the second vector (pCre) contains the cre gene. Using pEnLox we have generated more than a hundred mutants resistant to the herbicide ammonium glufosinate, and about ten helper-lines resistant to the antibiotic hygromycin obtained with the use of pCre vector and also more than ten double mutants resistant to both selective markers.