Arabidopsis LTP12, A Homolog of SIP470, As a Key Player in Biotic and Abiotic Stress Response Signaling Pathway

Giri, Bikram, Mr., Kumar, Dhirendra, Dr.

25 April 2023

Lipid transfer proteins (LTPs) belong to the pathogenesis-related protein family (PR-14) and are thought to participate in plant defense mechanisms. In this study, we characterize the function of an Arabidopsis thaliana mutant ltp12 (AT3G51590), a homologous lipid transfer protein to SIP470 from Nicotiana tabacum for its role in abiotic and biotic stress. SIP470, a lipid transfer protein, was found to interact with SABP2 in a yeast-two hybrid screen. SABP2 in tobacco is required for inducing a robust SAR response. The objective of this research is to understand the role of LTP12 in mediating abiotic stress as salicylic acid plays an important role in both abiotic and biotic stress in plants. For this research, stressor chemicals, NaCl (salinity), mannitol (osmotic stress), and drought (no water or PEG) will be used. Seedlings were initially germinated and grown on artificial plant growth MS media. The similar-sized young seedlings were transferred to MS media plates supplemented with or without stressor chemicals. Oxidative stress analysis of various antioxidant enzymes, such as catalase (CAT), superoxide dismutase (SOD), and peroxidase (POD) will be performed. The Na+ homeostasis for salinity stress will be studied using CoroNaTM dye and confocal microscopy. Our lab has T-DNA insertion knockout mutants of LTP12 that we will be used in the proposed studies. Here, we hypothesize that mutant ltp12 plants will be hypersensitive to abiotic stressors like NaCl, mannitol, and drought, while wildtype Col-0 will be markedly more tolerant. Reports also suggest that knockout lines of other lipid transfer proteins show a defective growth phenotype and lower expression of systemic acquired resistance (SAR). Moreover, to gain a better understanding of both lines' responses to abiotic stress, we need to carry out further studies on the soil as well. The study will also discuss the subcellular localization of ltp12 in Arabidopsis, which will provide an idea of its functional mechanism. Understanding the role of lipid transfer proteins can lead to the development of transgenic plants that are more tolerant to abiotic stresses and climate change.

Plant resistance

Abiotic stress

Lipid transfer protein(ltp)

Arabidopsis thaliana

Molecular Biology

Localization of SIP470, a Plant Lipid Transfer Protein in Nicotiana tabacum

Andrews, Shantaya

01 December 2018

SABP2-interacting protein 470 (SIP470), a non-specific lipid transfer protein (nsLTP), was discovered in a yeast two-hybrid screening using SABP2 as bait and tobacco leaf proteins as prey. SABP2 is an important enzyme in systemic acquired resistance that converts salicylic acid to methyl salicylate. Localization studies are an important aspect to understanding the biological function of proteins. nsLTPs are generally considered apoplastic proteins and has been localized intracellularly and extracellularly. Transient expression shows highest expression of SIP470-eGFP at 2 days post infiltration into Nicotiana benthamiana. Confocal microscopy showed localization near the periphery of the cell. Subcellular localization using differential centrifugation showed that SIP470 is localized in the mitochondria. Mitochondria membranes are rich in lipids and have shown lipid exchange with the endoplasmic reticulum in mammalian systems. Co-localization of SIP470-eGFP+mCherry did not express complete co-localization in the targeted organelles. Co-localization pattern suggests possible localization in the endoplasmic reticulum.

SABP2

SIP470

Lipid transfer protein (LTP)

Subcellular localization

Co-localization

LTP12

Biochemistry

Biology

Molecular Biology

Plant Sciences