Browsing by Subject "Protein accumulation"
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Publication Expression and functional domains of Arabidopsis and tobacco NIM1-INTERACTING (NIMIN) genes(2021) Saur, Mathias; Pfitzner, Artur J. P.Systemic acquired resistance (SAR) is an important defense mechanism in plants initiated after exposure to biotrophic pathogens. SAR is characterized by accumulation of PR proteins in non-infected tissues, as well as increased concentrations of the phytohormone salicylic acid (SA). SA is directly perceived by NPR1, the key regulator of SAR. Through interaction with TGA transcription factors and NIM1-INTERACTING (NIMIN) proteins, NPR1 mediates the SA-dependent induction of PR1 gene expression. The Arabidopsis genome contains four NIMIN genes – NIMIN1 (N1), N1b, N2, and N3 – but members of the NIMIN family can also be found in other higher plants. While NIMIN proteins share their general domain architecture and a C-terminal EAR motif, they differ in other aspects. NIMIN genes are expressed differentially during pathogen infection and development. NIMIN proteins can be subdivided based on their NPR1-interaction motifs, the DXFFK and the EDF motif. N1-type proteins harbor both domains, while N2-type and N3-type proteins carry only the DXFFK or the EDF motif, respectively. Accordingly, NIMIN proteins interact differentially with NPR1: N1, N1b and N2 bind to the C-terminal moiety while N3 binds to the N-terminus. Overexpression studies revealed a role for the N1 and N3 proteins in the transcriptional repression of PR1 gene induction. Strikingly, infiltrated plants overexpressing Arabidopsis N1 and N3 or tobacco N2c also manifest significantly accelerated cell death. These numerous differences indicate diverse functions of NIMIN proteins during SAR establishment and beyond. The objective of this work was to further characterize differences between NIMIN proteins from Arabidopsis and tobacco regarding biochemical properties and biological functions with special emphasis on their cell death promoting activity. For this purpose, reporter constructs harboring promoter and coding regions from Arabidopsis and tobacco NIMIN genes were analyzed in transient gene expression experiments in Nicotiana benthamiana and in transgenic tobacco plants. Functional domains were examined using the introduction of targeted mutations to study their significance for NIMIN protein function. The following results were obtained: 1. The N1b 1135 promoter region is functional and two reporter genes under its control, GUS and the proapoptotic Bax, are active during transient overexpression. In transgenic tobacco plants the N1b promoter is not responsive to chemical induction by SA or its functional analog BTH and phenotypical studies showed no expression during plant development. To what extent the N1b gene is expressed in plants must therefore remain open. 2. Transient overexpression of Arabidopsis N1 and N3 and tobacco N2 type genes N2c and N2-like (FS) results in accelerated cell death. This enhanced emergence of cell death is associated with strong protein accumulation. In transgenic tobacco plants overexpression of the N1, N2c and FS genes is also accompanied by emergence of cell death, especially in the flower area, and low seed production. The affected plants often display defects in growth and leaf morphology. 3. The ability to promote cell death requires the C-terminal EAR motif, a transcriptional repression domain. Mutation of the EAR motif in N1, N2c and FS significantly reduces the emergence of cell death. In yeast the EAR motifs of N1 and N3 interact with a N-terminal fragment of the transcriptional co-repressor TOPLESS (TPL). Transient overexpression of this TPL1/333 fragment also induces cell death but coexpression with N1 or N3 reduces cell death emergence, indicating that NIMIN proteins not only affect NPR1 but also modulate the activity of TPL. 4. The enhanced emergence of cell death mediated by overexpression of NIMIN genes and Bax interferes with measurement of SA induced activity of the PR1 promoter. However, using EAR motif mutans with reduced cell death emergence, like the N1 F49/50S E94A D95V EAR mutant, which is also unable to bind NPR1, allows the analysis of the transcriptional repression of the PR1 promoter mediated by cell-death promoting NIMIN proteins. 5. N1 contains a conserved N-terminal domain (N1nT) of 15 amino acids which regulates its accumulation. In N-terminal position, this domain functions autonomously with other NIMIN proteins and Venus, increasing their accumulation. Mutational analysis has not yet revealed reliance on certain sequences. Presence of the N-terminal methionine is not required for function of the N1nT domain hinting at a function at the mRNA level. NIMIN proteins are multifunctional and could perform different functions through their conserved domains. The results indicate that NIMIN proteins, through their interaction with TOPLESS, could also affect other hormone-dependent signal pathways. While the exact mechanism remains unclear, the enhanced protein accumulation bestowed by the N1nT domain of N1 could allow for more effective study of poorly accumulating proteins.