Mechanisms of abiotic stress responses in tomato (Solanum lycopersicum)

Basic data for this project

Type of projectIndividual project
Duration at the University of Münster01/01/2017 - 31/12/2019 | 2nd Funding period

Description

Plants as sessile organisms have to efficiently cope with adverse environmental conditions. Abiotic stresses like drought, cold and heat crucially involve the function of the plant hormone abscisic acid (ABA). Extensive research during the past years especially in the model plant Arabidopsis thaliana has uncovered and characterized central modules of ABA and abiotic stress signaling. Such signaling components involve protein phosphatases type 2C (PP2Cs), PYL/RCAR ABA receptors, ROP GTPases that all function in ABA signaling and Calcineurin B-like proteins (CBLs) that together with CBL-interacting protein kinases (CIPKs) function in calcium signaling. Most recent research points to extensive interconnections and cross-regulation of ABA and calcium signaling. However, mechanistic details of these interactions are largely unknown. Tomato represents a crop plant that has been intensively studied with regard to hormone and stress signaling. The above mentioned signal components that function in Arabidopsis are present in this species. However, their specific function and especially their functional interconnections need to be explored. This has so far prevented comparisons of signaling mechanisms between Arabidopsis and tomato and leaves open the question to which extend findings from Arabidopsis hold true for tomato.Consequently, this project addresses three major aims. (i) We want to comparatively investigate the function of the ROP10/ROP11 GTPase pair that has likely resulted from a recent duplication in Arabidopsis since the corresponding ROP10 in tomato is encoded by a single gene. (ii) We want to investigate the function and interactions of selected tomato CBL/CIPK/PP2C/ROP modules. Here we will put emphasis on their role in fruit ripening as well as heat and drought tolerance. (iii) We aim to identify the molecular basis for the heat tolerance in fruit set of a Palestinian tomato variety that has been identified at Bethlehem University. To achieve these goals we will pursue a combination of genetic, cell-biological, biochemical, and molecular biological approaches. For an efficient implementation of this research program we have assembled a team of Palestinian, Israeli, and German researchers that provide special and complementary expertise. The Palestinian Partner has ample experience in tomato characterization and transformation as well as in the analysis of phenotypic traits under open field conditions. The Israeli partner is an expert for ROP GTPases and has special expertise in developmental biology as well as in cell-biological methods. The German partner has a longstanding interest in calcium signaling and abiotic stress responses and is an expert in protein interaction studies. By mutually combining our research interests and expertise we intend to advance our understanding of abiotic stress tolerance in tomato and to provide approaches that help to improve these agronomically important traits.

Keywordsabiotische Stressantwort; Solanum lycopersicum; biologische Chemie
Funding identifierKU 931/13-2
Funder / funding scheme
  • DFG - Individual Grants Programme

Project management at the University of Münster

Kudla, Jörg
Molecular Genetics and Cell Biology of Plants - Group Prof. Jörg Kudla

Applicants from the University of Münster

Kudla, Jörg
Molecular Genetics and Cell Biology of Plants - Group Prof. Jörg Kudla

Project partners outside the University of Münster

  • Tel Aviv University (TAU)Israel
  • Bethlehem UniversityPalestine