Characterization of the Xylella fastidiosa PD1311 gene mutant and its suppression of Pierce's disease on grapevines

Characterization of the Xylella fastidiosa PD1311 gene mutant and its suppression of Pierce's disease on grapevines

Summary Xylella fastidiosa causes Pierce's disease (PD) on grapevines, leading to significant economic losses in grape and wine production. To further our understanding of X. fastidiosa virulence on grapevines, we examined the PD1311 gene, which encodes a putative acyl‐coenzyme A (acyl‐CoA) syn...

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Veröffentlicht in:Molecular plant pathology 2017-06, Vol.18 (5), p.684-694
Hauptverfasser: Hao, Lingyun, Johnson, Kameka, Cursino, Luciana, Mowery, Patricia, Burr, Thomas J.
Format: Artikel
Sprache:eng
Schlagworte:
avirulence
biological control
Deletion mutant
Fruit crops
Fruits
Gene therapy
Genetics
Grapes
Mutation
Mutation - genetics
Original
Pest Control, Biological
Pierce's disease
Plant diseases
Plant Diseases - genetics
Plant Diseases - microbiology
Plant Diseases - prevention & control
Vineyards
Virulence - genetics
Virulence - physiology
Viruses
Vitis - microbiology
Wineries & vineyards
Wines
Xylella - genetics
Xylella - pathogenicity
Xylella fastidiosa
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container_issue 5
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container_title Molecular plant pathology
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creator Hao, Lingyun
Johnson, Kameka
Cursino, Luciana
Mowery, Patricia
Burr, Thomas J.
description Summary Xylella fastidiosa causes Pierce's disease (PD) on grapevines, leading to significant economic losses in grape and wine production. To further our understanding of X. fastidiosa virulence on grapevines, we examined the PD1311 gene, which encodes a putative acyl‐coenzyme A (acyl‐CoA) synthetase, and is highly conserved across Xylella species. It was determined that PD1311 is required for virulence, as the deletion mutant, ΔPD1311, was unable to cause disease on grapevines. The ΔPD1311 strain was impaired in behaviours known to be associated with PD development, including motility, aggregation and biofilm formation. ΔPD1311 also expressed enhanced sensitivity to H2O2 and polymyxin B, and showed reduced survival in grapevine sap, when compared with wild‐type X. fastidiosa Temecula 1 (TM1). Following inoculation, ΔPD1311 could not be detected in grape shoots, which may be related to its altered growth and sensitivity phenotypes. Inoculation with ΔPD1311 2 weeks prior to TM1 prevented the development of PD in a significant fraction of vines and eliminated detectable levels of TM1. In contrast, vines inoculated simultaneously with TM1 and ΔPD1311 developed disease at the same level as TM1 alone. In these vines, TM1 populations were distributed similarly to populations in TM1‐only inoculated plants. These findings suggest that, through an indirect mechanism, pretreatment of vines with ΔPD1311 suppresses pathogen population and disease.
doi_str_mv 10.1111/mpp.12428
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To further our understanding of X. fastidiosa virulence on grapevines, we examined the PD1311 gene, which encodes a putative acyl‐coenzyme A (acyl‐CoA) synthetase, and is highly conserved across Xylella species. It was determined that PD1311 is required for virulence, as the deletion mutant, ΔPD1311, was unable to cause disease on grapevines. The ΔPD1311 strain was impaired in behaviours known to be associated with PD development, including motility, aggregation and biofilm formation. ΔPD1311 also expressed enhanced sensitivity to H2O2 and polymyxin B, and showed reduced survival in grapevine sap, when compared with wild‐type X. fastidiosa Temecula 1 (TM1). Following inoculation, ΔPD1311 could not be detected in grape shoots, which may be related to its altered growth and sensitivity phenotypes. Inoculation with ΔPD1311 2 weeks prior to TM1 prevented the development of PD in a significant fraction of vines and eliminated detectable levels of TM1. In contrast, vines inoculated simultaneously with TM1 and ΔPD1311 developed disease at the same level as TM1 alone. In these vines, TM1 populations were distributed similarly to populations in TM1‐only inoculated plants. 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To further our understanding of X. fastidiosa virulence on grapevines, we examined the PD1311 gene, which encodes a putative acyl‐coenzyme A (acyl‐CoA) synthetase, and is highly conserved across Xylella species. It was determined that PD1311 is required for virulence, as the deletion mutant, ΔPD1311, was unable to cause disease on grapevines. The ΔPD1311 strain was impaired in behaviours known to be associated with PD development, including motility, aggregation and biofilm formation. ΔPD1311 also expressed enhanced sensitivity to H2O2 and polymyxin B, and showed reduced survival in grapevine sap, when compared with wild‐type X. fastidiosa Temecula 1 (TM1). Following inoculation, ΔPD1311 could not be detected in grape shoots, which may be related to its altered growth and sensitivity phenotypes. Inoculation with ΔPD1311 2 weeks prior to TM1 prevented the development of PD in a significant fraction of vines and eliminated detectable levels of TM1. In contrast, vines inoculated simultaneously with TM1 and ΔPD1311 developed disease at the same level as TM1 alone. In these vines, TM1 populations were distributed similarly to populations in TM1‐only inoculated plants. 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To further our understanding of X. fastidiosa virulence on grapevines, we examined the PD1311 gene, which encodes a putative acyl‐coenzyme A (acyl‐CoA) synthetase, and is highly conserved across Xylella species. It was determined that PD1311 is required for virulence, as the deletion mutant, ΔPD1311, was unable to cause disease on grapevines. The ΔPD1311 strain was impaired in behaviours known to be associated with PD development, including motility, aggregation and biofilm formation. ΔPD1311 also expressed enhanced sensitivity to H2O2 and polymyxin B, and showed reduced survival in grapevine sap, when compared with wild‐type X. fastidiosa Temecula 1 (TM1). Following inoculation, ΔPD1311 could not be detected in grape shoots, which may be related to its altered growth and sensitivity phenotypes. Inoculation with ΔPD1311 2 weeks prior to TM1 prevented the development of PD in a significant fraction of vines and eliminated detectable levels of TM1. In contrast, vines inoculated simultaneously with TM1 and ΔPD1311 developed disease at the same level as TM1 alone. In these vines, TM1 populations were distributed similarly to populations in TM1‐only inoculated plants. These findings suggest that, through an indirect mechanism, pretreatment of vines with ΔPD1311 suppresses pathogen population and disease.</abstract><cop>England</cop><pub>John Wiley &amp; Sons, Inc</pub><pmid>27388152</pmid><doi>10.1111/mpp.12428</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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subjects avirulence
biological control
Deletion mutant
Fruit crops
Fruits
Gene therapy
Genetics
Grapes
Mutation
Mutation - genetics
Original
Pest Control, Biological
Pierce's disease
Plant diseases
Plant Diseases - genetics
Plant Diseases - microbiology
Plant Diseases - prevention & control
Vineyards
Virulence - genetics
Virulence - physiology
Viruses
Vitis - microbiology
Wineries & vineyards
Wines
Xylella - genetics
Xylella - pathogenicity
Xylella fastidiosa
title Characterization of the Xylella fastidiosa PD1311 gene mutant and its suppression of Pierce's disease on grapevines
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