Performing Gene Constructs for the Silencing of Tristeza and Psorosis Viruses in Citrus

Performing Gene Constructs for the Silencing of Tristeza and Psorosis Viruses in Citrus

Show other versions (1)

The citrus sector is the most important horticultural crop in Uruguay, accounting for the 95% of the fruit exports and being the third agricultural product in order of importance. Citrus Tristeza virus (CTV) and Citrus Psorosis virus (CPsV), together with the viroid for Exocortis and other viroids associated with this disease, are the viral and viroidal agents of highest incidence on citrus crops in our country. A highly effective strategy to control viral diseases is the induction of resistance by means of methods based on RNA silencing. RNA silencing is a mechanism based on the specific degradation of RNA, which is triggered by the presence of double-stranded RNA inside the cells. Recently, strategies to effectively silence any chosen RNA sequence have been described. Using constructs which are inserted into the plant genome and promote the formation of double-stranded RNA, it is possible to silence the expression of both endogenous genes and viral gene sequences. In this study, partial sequences of CTV and CPsV capsids were isolated and used to produce gene contructs that promote the formation of double-stranded RNA. These constructs consist on the insertion of sense and antisense viral sequences, separated by intron. The resulting constructs will be used in the genetic transformation of citrus in order to obtain plants resistant to these pathogens.

Saved in:
Bibliographic Details
Main Authors: Gallino, J. Pablo, Vidal, Sabina, Welin, Björn, Pagliano, Gabriela
Format: Digital revista
Language:spa
Published: Coeditada entre Facultad de Agronomía - Udelar y el Instituto Nacional de Investigación Agropecuaria (INIA) 2011
Online Access:https://agrocienciauruguay.uy/index.php/agrociencia/article/view/588
Tags: Add Tag
No Tags, Be the first to tag this record!
id oai:oai.agrocienciauruguay.uy:article-588
record_format ojs
spelling oai:oai.agrocienciauruguay.uy:article-5882023-12-26T15:59:31Z Performing Gene Constructs for the Silencing of Tristeza and Psorosis Viruses in Citrus Realización de construcciones génicas para el silenciamiento de los virus de citrus Tristeza y Psorosis Gallino, J. Pablo Vidal, Sabina Welin, Björn Pagliano, Gabriela citrus virus silencing constructs citrus virus silenciamiento construcciones The citrus sector is the most important horticultural crop in Uruguay, accounting for the 95% of the fruit exports and being the third agricultural product in order of importance. Citrus Tristeza virus (CTV) and Citrus Psorosis virus (CPsV), together with the viroid for Exocortis and other viroids associated with this disease, are the viral and viroidal agents of highest incidence on citrus crops in our country. A highly effective strategy to control viral diseases is the induction of resistance by means of methods based on RNA silencing. RNA silencing is a mechanism based on the specific degradation of RNA, which is triggered by the presence of double-stranded RNA inside the cells. Recently, strategies to effectively silence any chosen RNA sequence have been described. Using constructs which are inserted into the plant genome and promote the formation of double-stranded RNA, it is possible to silence the expression of both endogenous genes and viral gene sequences. In this study, partial sequences of CTV and CPsV capsids were isolated and used to produce gene contructs that promote the formation of double-stranded RNA. These constructs consist on the insertion of sense and antisense viral sequences, separated by intron. The resulting constructs will be used in the genetic transformation of citrus in order to obtain plants resistant to these pathogens. El sector citrícola es el de mayor importancia dentro del área hortifrutícola del país, constituyendo el 95% de las exportaciones de frutas y siendo el tercer producto agrícola. Los virus de Tristeza y Psorosis, junto con el viroide de Exocortis y otros viroides asociados a esta enfermedad son los agentes virales y viroidales de mayor incidencia en los cultivos citrícolas de nuestro país. Una estrategia altamente eficaz para el control de enfermedades virales en plantas es la producción de resistencia a través de mecanismos basados en el silenciamiento del ARN. El silenciamiento del ARN es un mecanismo basado en la degradación específica del ARN que es desencadenado por la presencia de ARN de doble hebra dentro de las células. Recientemente se han descrito estrategias para silenciar eficazmente cualquier secuencia de ARN deseada. Utilizando construcciones que se insertan en el genoma de la planta y que promueven la formación de ARN de doble hebra es posible silenciar tanto la expresión de genes endógenos como de secuencias génicas virales. En este trabajo se aislaron secuencias parciales de la cápside de los virus de Tristeza y Psorosis y con ellas se realizaron construcciones génicas que promueven la formación de ARN de doble hebra. Estas construcciones consisten en la inserción de las secuencias virales orientadas en sentido y en antisentido, separadas entre sí por un intrón. Las construcciones obtenidas serán utilizadas para la transformación genética de citrus a efectos de obtener plantas resistentes a estos patógenos. Coeditada entre Facultad de Agronomía - Udelar y el Instituto Nacional de Investigación Agropecuaria (INIA) 2011-12-01 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion application/pdf https://agrocienciauruguay.uy/index.php/agrociencia/article/view/588 10.31285/AGRO.15.588 Agrociencia Uruguay; Vol. 15 No. 2 (2011); 11- 18 Agrociencia Uruguay; Vol. 15 Núm. 2 (2011); 11- 18 Agrociencia Uruguay; v. 15 n. 2 (2011); 11- 18 2730-5066 spa https://agrocienciauruguay.uy/index.php/agrociencia/article/view/588/610 Copyright (c) 2021 Agrociencia Uruguay https://creativecommons.org/licenses/by/4.0
institution UDELAR
collection OJS
country Uruguay
countrycode UY
component Revista
access En linea
databasecode rev-agrociencia-uy
tag revista
region America del Sur
libraryname Biblioteca de la Facultad de Agronomía de la UDELAR de UY
language spa
format Digital
author Gallino, J. Pablo
Vidal, Sabina
Welin, Björn
Pagliano, Gabriela
spellingShingle Gallino, J. Pablo
Vidal, Sabina
Welin, Björn
Pagliano, Gabriela
Performing Gene Constructs for the Silencing of Tristeza and Psorosis Viruses in Citrus
author_facet Gallino, J. Pablo
Vidal, Sabina
Welin, Björn
Pagliano, Gabriela
author_sort Gallino, J. Pablo
title Performing Gene Constructs for the Silencing of Tristeza and Psorosis Viruses in Citrus
title_short Performing Gene Constructs for the Silencing of Tristeza and Psorosis Viruses in Citrus
title_full Performing Gene Constructs for the Silencing of Tristeza and Psorosis Viruses in Citrus
title_fullStr Performing Gene Constructs for the Silencing of Tristeza and Psorosis Viruses in Citrus
title_full_unstemmed Performing Gene Constructs for the Silencing of Tristeza and Psorosis Viruses in Citrus
title_sort performing gene constructs for the silencing of tristeza and psorosis viruses in citrus
description The citrus sector is the most important horticultural crop in Uruguay, accounting for the 95% of the fruit exports and being the third agricultural product in order of importance. Citrus Tristeza virus (CTV) and Citrus Psorosis virus (CPsV), together with the viroid for Exocortis and other viroids associated with this disease, are the viral and viroidal agents of highest incidence on citrus crops in our country. A highly effective strategy to control viral diseases is the induction of resistance by means of methods based on RNA silencing. RNA silencing is a mechanism based on the specific degradation of RNA, which is triggered by the presence of double-stranded RNA inside the cells. Recently, strategies to effectively silence any chosen RNA sequence have been described. Using constructs which are inserted into the plant genome and promote the formation of double-stranded RNA, it is possible to silence the expression of both endogenous genes and viral gene sequences. In this study, partial sequences of CTV and CPsV capsids were isolated and used to produce gene contructs that promote the formation of double-stranded RNA. These constructs consist on the insertion of sense and antisense viral sequences, separated by intron. The resulting constructs will be used in the genetic transformation of citrus in order to obtain plants resistant to these pathogens.
publisher Coeditada entre Facultad de Agronomía - Udelar y el Instituto Nacional de Investigación Agropecuaria (INIA)
publishDate 2011
url https://agrocienciauruguay.uy/index.php/agrociencia/article/view/588
work_keys_str_mv AT gallinojpablo performinggeneconstructsforthesilencingoftristezaandpsorosisvirusesincitrus
AT vidalsabina performinggeneconstructsforthesilencingoftristezaandpsorosisvirusesincitrus
AT welinbjorn performinggeneconstructsforthesilencingoftristezaandpsorosisvirusesincitrus
AT paglianogabriela performinggeneconstructsforthesilencingoftristezaandpsorosisvirusesincitrus
AT gallinojpablo realizaciondeconstruccionesgenicasparaelsilenciamientodelosvirusdecitrustristezaypsorosis
AT vidalsabina realizaciondeconstruccionesgenicasparaelsilenciamientodelosvirusdecitrustristezaypsorosis
AT welinbjorn realizaciondeconstruccionesgenicasparaelsilenciamientodelosvirusdecitrustristezaypsorosis
AT paglianogabriela realizaciondeconstruccionesgenicasparaelsilenciamientodelosvirusdecitrustristezaypsorosis
_version_ 1792504311657267200

Similar Items