Abstract
Members of the plant-specific LSU (RESPONSE TO LOW SULFUR) family are strongly induced during sulfur starvation. The molecular functions of these proteins are unknown; however, they were identified as important stress-related hubs in several studies. In Arabidopsis thaliana, there are four members of the LSU family (LSU1–4). These proteins are small (approximately 100 amino acids), with coiled-coil structures. In this work, we investigated interactions between different monomers of LSU1–4. Differences in homo- and heterodimer formation were observed. Our structural models of LSU1–4 homo- and heterodimers were in agreement with our experimental observations and may help understand their binding properties. LSU proteins are involved in multiple protein–protein interactions, with the literature suggesting they can integrate abiotic and biotic stress responses. Previously, LSU partners were identified using the yeast two hybrid approach, therefore we sought to determine proteins co-purifying with LSU family members using protein extracts isolated from plants ectopically expressing TAP-tagged LSU1–4 constructs. These experiments revealed 46 new candidates for LSU partners. We tested four of them (and two other proteins, CAT2 and NBR1) for interaction with LSU1–4 by other methods. Binding of all six proteins with LSU1–4 was confirmed by Bimolecular Fluorescence Complementation, while only three of them were interacting with LSUs in yeast-two-hybrid. Additionally, we conducted network analysis of LSU interactome and revealed novel clues for the possible cellular function of these proteins.
Highlights
The A. thaliana genome encodes four LSU proteins, LSU1 (At3g49580), LSU2 (At5g24660), LSU3 (At3g49570), and LSU4 (At5g24655)
The presented results could be divided into three main groups: (i) Analysis of LSU–LSU dimer formation, molecular modeling, and targeted mutagenesis of LSU1 and dimerization tests of the mutants in Y2H, (ii) Analysis of LSU interaction with other targets, including search for additional candidates for LSU partners by Tandem Affinity Purification-mass spectrometry analyses (TAP-MS), verification of some candidates by Bimolecular Fluorescent Complementation (BiFC) and Y2H, and testing the effects of targeted mutagenesis of LSU1 on its binding to three targets in Y2H, (iii) Analysis of LSU interactome
No information on LSU–LSU oligomerization formations was available so far. We addressed this problem by focusing on the LSU family from A. thaliana
Summary
The A. thaliana genome encodes four LSU proteins, LSU1 (At3g49580), LSU2 (At5g24660), LSU3 (At3g49570), and LSU4 (At5g24655). Besides some high-throughput studies suggesting LSU function as immune-related hubs (Arabidopsis Interactome Mapping Consortium, 2011; Mukhtar et al, 2011), several reports describe other partners, including MYB51 as partner to LSU3 (Frerigmann et al, 2014), iron (Fe)-dependent superoxide dismutase (SOD) FSD2 as partner to LSU1 (Garcia-Molina et al, 2017), and 1-aminocyclopropane-1-carboxylic acid (ACC) oxidase (Moniuszko et al, 2013), and selective autophagy cargo receptor Joka2/NtNBR1 as partner to UP9C (a homolog of LSU1– 4) in tobacco plants (Zientara-Rytter et al, 2011). We have analyzed the LSU’s interaction network expecting to gain more info about their possible function
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