Natale, Roberto
(2021)
PROSYSTEMIN: A HUB OF TOMATO PLANT DEFENSE RESPONSES.
[Tesi di dottorato]
Item Type: |
Tesi di dottorato
|
Resource language: |
English |
Title: |
PROSYSTEMIN: A HUB OF TOMATO PLANT DEFENSE RESPONSES |
Creators: |
Creators | Email |
---|
Natale, Roberto | roberto.natale@unina.it |
|
Date: |
13 July 2021 |
Number of Pages: |
236 |
Institution: |
Università degli Studi di Napoli Federico II |
Department: |
Biologia |
Dottorato: |
Biotecnologie |
Ciclo di dottorato: |
33 |
Coordinatore del Corso di dottorato: |
nome | email |
---|
Moracci, Marco | marco.moracci@unina.it |
|
Tutor: |
nome | email |
---|
Rao, Rosa | UNSPECIFIED |
|
Date: |
13 July 2021 |
Number of Pages: |
236 |
Keywords: |
Prosystemin, Tomato defense, Protein-Protein interactions, Bio-pesticide |
Settori scientifico-disciplinari del MIUR: |
Area 07 - Scienze agrarie e veterinarie > AGR/07 - Genetica agraria |
[error in script]
[error in script]
Date Deposited: |
22 Jul 2021 16:12 |
Last Modified: |
07 Jun 2023 10:43 |
URI: |
http://www.fedoa.unina.it/id/eprint/13648 |
Collection description
Plants live in a complex environment suffering various stress constraints. To counteract stress condition plants have evolved sophisticated defense systems. In tomato plants a key role in defense is played by systemin (Sys), an octadecapeptide, released upon leaf damage from a larger precursor, prosystemin (Prosys). Considering the need to reduce the agro-chemicals we investigated foliar and hydroponic application of Sys to tomato plants that increased both direct and indirect defenses (Chapter 1): treated plants strongly reduce growth and vitality of Spodoptera littoralis larvae also damaging the development of future insect generations. In addition, Sys treated plants reduce leaves colonization of the necrotrophic fungus Botrytis cinerea and have an increased level of attractiveness of natural herbivores antagonists. In order to investigate the molecular mechanism underpinning Prosys' defence activation, a prediction study of protein-protein interactions (PPIs) was done (Chapter 2). More than 16000 interactions were captured from the interactome query and, among them, 98 Prosys direct interactors were catalogued using GO terms. Prosys sub-network evidenced that Prosys links with two large groups of kinases and transcription factors confirming that the precursor is associated with the very early steps of plant stress perception. Prosys PPIs were also investigated in vitro and in vivo (Chapter 3). Affinity Purification Mass Spectrometry (AP-MS) detected more than 300 Prosys interactors, including two molecular partners identified in silico, a heat shock protein 70 (Sl-HSP70-1), which plays a key role in stress responses, and NAD-dependent epimerase\dehydratase (NaDED), likely associated with both sugar and hormonal plant defense signalling. Some PPIs were validated through BiFC that confirmed the interaction with an ATP-dependent clp protease, detected with AP-MS, and with the NaDED, detected both in silico and in vitro. BiFC also confirmed two interactors of the in silico network, MYB transcription factor and a MAP-Kinase. Overall, the results proved that Sys is a very effective plant protectant, and its use could reduce the application of chemical pesticide while Prosys is involved in a large number of interactions possibly due to its ID structure and consequent biological function.
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