TY - JOUR
T1 - Integrative transcript to proteome analysis of barley during
Ramularia collo-cygni leaf spot development identified several proteins that are related to fungal recognition and infection responses.
AU - Lemcke, René
AU - Kamble, Manoj
AU - Schneider, Sebastian
AU - Lyngkjær, Michael F
AU - Radutoiu, Simona
AU - Wienkoop, Stefanie
N1 - Copyright © 2024 Lemcke, Kamble, Schneider, Lyngkjær, Radutoiu and Wienkoop.
PY - 2024
Y1 - 2024
N2 - INTRODUCTION:
Ramularia leaf spot (RLS) disease is a growing threat to barley cultivation, but with no substantial resistance identified to date. Similarly, the understanding of the lifestyle of
Ramularia collo-cygni (
Rcc) and the prediction of RLS outbreak severity remain challenging, with
Rcc displaying a rather untypical long endophytic phase and a sudden change to a necrotrophic lifestyle. The aim of this study was to provide further insights into the defense dynamics during the different stages of colonization and infection in barley in order to identify potential targets for resistance breeding.
METHODS: Utilizing the strength of proteomics in understanding plant-pathogen interactions, we performed an integrative analysis of a published transcriptome dataset with a parallel generated proteome dataset. Therefore, we included two spring barley cultivars with contrasting susceptibilities to
Rcc and two fungal isolates causing different levels of RLS symptoms.
RESULTS: Interestingly, early responses in the pathogen recognition phase of the host were driven by strong responses differing between isolates. An important enzyme in this process is a xylanase inhibitor, which protected the plant from cell wall degradation by the fungal xylanase. At later time points, the differences were driven by cultivar-specific responses, affecting mostly features contributing to the pathogenesis- and senescence-related pathways or photosynthesis.DISCUSSION: This supports the hypothesis of a hemibiotrophic lifestyle of
Rcc, with slight differences in trophism of the two analyzed isolates. The integration of these data modalities highlights a strength of protein-level analysis in understanding plant-pathogen interactions and reveals new features involved in fungal recognition and susceptibility in barley cultivars.
AB - INTRODUCTION:
Ramularia leaf spot (RLS) disease is a growing threat to barley cultivation, but with no substantial resistance identified to date. Similarly, the understanding of the lifestyle of
Ramularia collo-cygni (
Rcc) and the prediction of RLS outbreak severity remain challenging, with
Rcc displaying a rather untypical long endophytic phase and a sudden change to a necrotrophic lifestyle. The aim of this study was to provide further insights into the defense dynamics during the different stages of colonization and infection in barley in order to identify potential targets for resistance breeding.
METHODS: Utilizing the strength of proteomics in understanding plant-pathogen interactions, we performed an integrative analysis of a published transcriptome dataset with a parallel generated proteome dataset. Therefore, we included two spring barley cultivars with contrasting susceptibilities to
Rcc and two fungal isolates causing different levels of RLS symptoms.
RESULTS: Interestingly, early responses in the pathogen recognition phase of the host were driven by strong responses differing between isolates. An important enzyme in this process is a xylanase inhibitor, which protected the plant from cell wall degradation by the fungal xylanase. At later time points, the differences were driven by cultivar-specific responses, affecting mostly features contributing to the pathogenesis- and senescence-related pathways or photosynthesis.DISCUSSION: This supports the hypothesis of a hemibiotrophic lifestyle of
Rcc, with slight differences in trophism of the two analyzed isolates. The integration of these data modalities highlights a strength of protein-level analysis in understanding plant-pathogen interactions and reveals new features involved in fungal recognition and susceptibility in barley cultivars.
KW - plant pathogen interaction
KW - pathogen infection
KW - transcript to protein
KW - fungus
KW - Hordeum vulgare
KW - pathogenesis related (PR) proteins
UR - http://www.scopus.com/inward/record.url?scp=85189969738&partnerID=8YFLogxK
U2 - 10.3389/fpls.2024.1367271
DO - 10.3389/fpls.2024.1367271
M3 - Article
C2 - 38606065
SN - 1664-462X
VL - 15
JO - Frontiers in Plant Science
JF - Frontiers in Plant Science
M1 - 1367271
ER -