Computational biology tools in design of an agrochemical against Xyllela fastidiosa.

Computational biology tools in design of an agrochemical against Xyllela fastidiosa.

Xylella fastidiosa is a Gram-negative, non-flagellated bacterium that causes CVC in citrus and Pierce?s disease in grapevines. The CVC affects 40% of the 200 million orange trees in São Paulo state. It colonizes the xylem vessels of the plants, blocking the water and nutrient flows. PilT protein is a part of the motility system and very important for Xyllela pathogenicity and our protein target for drug design. Computational biology tools were used to design the compound able to inhibit the formation of the PilT hexamer, leading to loss of Xyllela pathogenicity. This approach could be employed in the development of new inhibitors against different targets belonging to the same protein family of PilT.

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Bibliographic Details
Main Authors: FULAZ, S. F., CABRINI, F., TASIC, L., BORRO, L., NESHICH, G.
Other Authors: STEPHANIE F. FULAZ; FLÁVIA CABRINI; LJUBICA TASIC; LUIZ BORRO; GORAN NESHICH, CNPTIA.
Format: Anais e Proceedings de eventos biblioteca
Language:English
eng
Published: 2015-12-22
Subjects:Bioinformática, PilT, Ferramentas de biologia computacional, Computational biology tools, Biology., Xylella Fastidiosa., Bioinformatics.,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/1032282
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spelling dig-alice-doc-10322822017-08-16T03:27:15Z Computational biology tools in design of an agrochemical against Xyllela fastidiosa. FULAZ, S. F. CABRINI, F. TASIC, L. BORRO, L. NESHICH, G. STEPHANIE F. FULAZ; FLÁVIA CABRINI; LJUBICA TASIC; LUIZ BORRO; GORAN NESHICH, CNPTIA. Bioinformática PilT Ferramentas de biologia computacional Computational biology tools Biology. Xylella Fastidiosa. Bioinformatics. Xylella fastidiosa is a Gram-negative, non-flagellated bacterium that causes CVC in citrus and Pierce?s disease in grapevines. The CVC affects 40% of the 200 million orange trees in São Paulo state. It colonizes the xylem vessels of the plants, blocking the water and nutrient flows. PilT protein is a part of the motility system and very important for Xyllela pathogenicity and our protein target for drug design. Computational biology tools were used to design the compound able to inhibit the formation of the PilT hexamer, leading to loss of Xyllela pathogenicity. This approach could be employed in the development of new inhibitors against different targets belonging to the same protein family of PilT. 2015-12-22T11:11:11Z 2015-12-22T11:11:11Z 2015-12-22 2015 2020-01-21T11:11:11Z Anais e Proceedings de eventos In: CONGRESSO DE INICIAÇÃO CIENTIFICA DA UNICAMP, 33., 2015, Campinas. [Proceedings...]. Campinas: Unicamp, 2015. http://www.alice.cnptia.embrapa.br/alice/handle/doc/1032282 10.19146/pibic-2015-38174 en eng openAccess 1 pôster.
institution EMBRAPA
collection DSpace
country Brasil
countrycode BR
component Bibliográfico
access En linea
databasecode dig-alice
tag biblioteca
region America del Sur
libraryname Sistema de bibliotecas de EMBRAPA
language English
eng
topic Bioinformática
PilT
Ferramentas de biologia computacional
Computational biology tools
Biology.
Xylella Fastidiosa.
Bioinformatics.
Bioinformática
PilT
Ferramentas de biologia computacional
Computational biology tools
Biology.
Xylella Fastidiosa.
Bioinformatics.
spellingShingle Bioinformática
PilT
Ferramentas de biologia computacional
Computational biology tools
Biology.
Xylella Fastidiosa.
Bioinformatics.
Bioinformática
PilT
Ferramentas de biologia computacional
Computational biology tools
Biology.
Xylella Fastidiosa.
Bioinformatics.
FULAZ, S. F.
CABRINI, F.
TASIC, L.
BORRO, L.
NESHICH, G.
Computational biology tools in design of an agrochemical against Xyllela fastidiosa.
description Xylella fastidiosa is a Gram-negative, non-flagellated bacterium that causes CVC in citrus and Pierce?s disease in grapevines. The CVC affects 40% of the 200 million orange trees in São Paulo state. It colonizes the xylem vessels of the plants, blocking the water and nutrient flows. PilT protein is a part of the motility system and very important for Xyllela pathogenicity and our protein target for drug design. Computational biology tools were used to design the compound able to inhibit the formation of the PilT hexamer, leading to loss of Xyllela pathogenicity. This approach could be employed in the development of new inhibitors against different targets belonging to the same protein family of PilT.
author2 STEPHANIE F. FULAZ; FLÁVIA CABRINI; LJUBICA TASIC; LUIZ BORRO; GORAN NESHICH, CNPTIA.
author_facet STEPHANIE F. FULAZ; FLÁVIA CABRINI; LJUBICA TASIC; LUIZ BORRO; GORAN NESHICH, CNPTIA.
FULAZ, S. F.
CABRINI, F.
TASIC, L.
BORRO, L.
NESHICH, G.
format Anais e Proceedings de eventos
topic_facet Bioinformática
PilT
Ferramentas de biologia computacional
Computational biology tools
Biology.
Xylella Fastidiosa.
Bioinformatics.
author FULAZ, S. F.
CABRINI, F.
TASIC, L.
BORRO, L.
NESHICH, G.
author_sort FULAZ, S. F.
title Computational biology tools in design of an agrochemical against Xyllela fastidiosa.
title_short Computational biology tools in design of an agrochemical against Xyllela fastidiosa.
title_full Computational biology tools in design of an agrochemical against Xyllela fastidiosa.
title_fullStr Computational biology tools in design of an agrochemical against Xyllela fastidiosa.
title_full_unstemmed Computational biology tools in design of an agrochemical against Xyllela fastidiosa.
title_sort computational biology tools in design of an agrochemical against xyllela fastidiosa.
publishDate 2015-12-22
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/1032282
work_keys_str_mv AT fulazsf computationalbiologytoolsindesignofanagrochemicalagainstxyllelafastidiosa
AT cabrinif computationalbiologytoolsindesignofanagrochemicalagainstxyllelafastidiosa
AT tasicl computationalbiologytoolsindesignofanagrochemicalagainstxyllelafastidiosa
AT borrol computationalbiologytoolsindesignofanagrochemicalagainstxyllelafastidiosa
AT neshichg computationalbiologytoolsindesignofanagrochemicalagainstxyllelafastidiosa
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