Secretome Analysis of <i>Clavibacter nebraskensis</i> Strains Treated with Natural Xylem Sap In Vitro Predicts Involvement of Glycosyl Hydrolases and Proteases in Bacterial Aggressiveness

Secretome Analysis of <i>Clavibacter nebraskensis</i> Strains Treated with Natural Xylem Sap In Vitro Predicts Involvement of Glycosyl Hydrolases and Proteases in Bacterial Aggressiveness

The Gram-positive bacterium <i>Clavibacter nebraskensis</i> (Cn) causes Goss’s wilt and leaf blight on corn in the North American Central Plains with yield losses as high as 30%. Cn strains vary in aggressiveness on corn, with highly aggressive strains causing much more serious symptoms...

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Main Authors: Atta Soliman, Christof Rampitsch, James T. Tambong, Fouad Daayf
Format: Article
Language:English
Published: MDPI AG 2021-01-01
Series:Proteomes
Subjects:
secretome
<i>Clavibacter</i>
xylem sap
corn
mass spectrometry
Online Access:https://www.mdpi.com/2227-7382/9/1/1
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spelling doaj-1688b85d9dd94b188671ec68d316667d2021-01-10T00:03:12ZengMDPI AGProteomes2227-73822021-01-0191110.3390/proteomes9010001Secretome Analysis of <i>Clavibacter nebraskensis</i> Strains Treated with Natural Xylem Sap In Vitro Predicts Involvement of Glycosyl Hydrolases and Proteases in Bacterial AggressivenessAtta Soliman0Christof Rampitsch1James T. Tambong2Fouad Daayf3Department of Plant Science, University of Manitoba, Winnipeg, MB R3T 2N2, CanadaMorden Research and Development Centre, Agriculture and Agri-Food Canada, Morden, MB R6M 1Y5, CanadaAgriculture and Agri-Food Canada, Ottawa, ON K1A 0C6, CanadaDepartment of Plant Science, University of Manitoba, Winnipeg, MB R3T 2N2, CanadaThe Gram-positive bacterium <i>Clavibacter nebraskensis</i> (Cn) causes Goss’s wilt and leaf blight on corn in the North American Central Plains with yield losses as high as 30%. Cn strains vary in aggressiveness on corn, with highly aggressive strains causing much more serious symptoms and damage to crops. Since Cn inhabits the host xylem, we investigated differences in the secreted proteomes of Cn strains to determine whether these could account for phenotypic differences in aggressiveness. Highly and a weakly aggressive Cn strains (Cn14-15-1 and DOAB232, respectively) were cultured, in vitro, in the xylem sap of corn (CXS; host) and tomato (TXS; non-host). The secretome of the Cn strains were extracted and processed, and a comparative bottom-up proteomics approach with liquid chromatography–tandem mass spectrometry (LC–MS/MS) was used to determine their identities and concentration. Relative quantitation of peptides was based on precursor ion intensities to measure protein abundances. In total, 745 proteins were identified in xylem sap media. In CXS, a total of 658 and 396 proteins were identified in strains Cn14-5-1 and DOAB232, respectively. The unique and the differentially abundant proteins in the secretome of strain Cn14-5-1 were higher in either sap medium compared to DOAB232. These proteins were sorted using BLAST2GO and assigned to 12 cellular functional processes. Virulence factors, e.g., cellulase, β-glucosidase, β-galactosidase, chitinase, β-1,4-xylanase, and proteases were generally higher in abundance in the aggressive Cn isolate. This was corroborated by enzymatic activity assays of cellulase and protease in CXS. These proteins were either not detected or detected at significantly lower abundance levels in Cn strains grown in non-host xylem sap (tomato), suggesting potential factors involved in Cn–host (corn) interactions.https://www.mdpi.com/2227-7382/9/1/1secretome<i>Clavibacter</i>xylem sapcornmass spectrometry
collection DOAJ
language English
format Article
sources DOAJ
author Atta Soliman
Christof Rampitsch
James T. Tambong
Fouad Daayf
spellingShingle Atta Soliman
Christof Rampitsch
James T. Tambong
Fouad Daayf
Secretome Analysis of <i>Clavibacter nebraskensis</i> Strains Treated with Natural Xylem Sap In Vitro Predicts Involvement of Glycosyl Hydrolases and Proteases in Bacterial Aggressiveness
Proteomes
secretome
<i>Clavibacter</i>
xylem sap
corn
mass spectrometry
author_facet Atta Soliman
Christof Rampitsch
James T. Tambong
Fouad Daayf
author_sort Atta Soliman
title Secretome Analysis of <i>Clavibacter nebraskensis</i> Strains Treated with Natural Xylem Sap In Vitro Predicts Involvement of Glycosyl Hydrolases and Proteases in Bacterial Aggressiveness
title_short Secretome Analysis of <i>Clavibacter nebraskensis</i> Strains Treated with Natural Xylem Sap In Vitro Predicts Involvement of Glycosyl Hydrolases and Proteases in Bacterial Aggressiveness
title_full Secretome Analysis of <i>Clavibacter nebraskensis</i> Strains Treated with Natural Xylem Sap In Vitro Predicts Involvement of Glycosyl Hydrolases and Proteases in Bacterial Aggressiveness
title_fullStr Secretome Analysis of <i>Clavibacter nebraskensis</i> Strains Treated with Natural Xylem Sap In Vitro Predicts Involvement of Glycosyl Hydrolases and Proteases in Bacterial Aggressiveness
title_full_unstemmed Secretome Analysis of <i>Clavibacter nebraskensis</i> Strains Treated with Natural Xylem Sap In Vitro Predicts Involvement of Glycosyl Hydrolases and Proteases in Bacterial Aggressiveness
title_sort secretome analysis of <i>clavibacter nebraskensis</i> strains treated with natural xylem sap in vitro predicts involvement of glycosyl hydrolases and proteases in bacterial aggressiveness
publisher MDPI AG
series Proteomes
issn 2227-7382
publishDate 2021-01-01
description The Gram-positive bacterium <i>Clavibacter nebraskensis</i> (Cn) causes Goss’s wilt and leaf blight on corn in the North American Central Plains with yield losses as high as 30%. Cn strains vary in aggressiveness on corn, with highly aggressive strains causing much more serious symptoms and damage to crops. Since Cn inhabits the host xylem, we investigated differences in the secreted proteomes of Cn strains to determine whether these could account for phenotypic differences in aggressiveness. Highly and a weakly aggressive Cn strains (Cn14-15-1 and DOAB232, respectively) were cultured, in vitro, in the xylem sap of corn (CXS; host) and tomato (TXS; non-host). The secretome of the Cn strains were extracted and processed, and a comparative bottom-up proteomics approach with liquid chromatography–tandem mass spectrometry (LC–MS/MS) was used to determine their identities and concentration. Relative quantitation of peptides was based on precursor ion intensities to measure protein abundances. In total, 745 proteins were identified in xylem sap media. In CXS, a total of 658 and 396 proteins were identified in strains Cn14-5-1 and DOAB232, respectively. The unique and the differentially abundant proteins in the secretome of strain Cn14-5-1 were higher in either sap medium compared to DOAB232. These proteins were sorted using BLAST2GO and assigned to 12 cellular functional processes. Virulence factors, e.g., cellulase, β-glucosidase, β-galactosidase, chitinase, β-1,4-xylanase, and proteases were generally higher in abundance in the aggressive Cn isolate. This was corroborated by enzymatic activity assays of cellulase and protease in CXS. These proteins were either not detected or detected at significantly lower abundance levels in Cn strains grown in non-host xylem sap (tomato), suggesting potential factors involved in Cn–host (corn) interactions.
topic secretome
<i>Clavibacter</i>
xylem sap
corn
mass spectrometry
url https://www.mdpi.com/2227-7382/9/1/1
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AT christoframpitsch secretomeanalysisoficlavibacternebraskensisistrainstreatedwithnaturalxylemsapinvitropredictsinvolvementofglycosylhydrolasesandproteasesinbacterialaggressiveness
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