In vitro expression and antiserum production against the movement protein of Citrus leprosis virus C (CiLV-C)

Calegario, Renata Faier; Labate, Mônica Teresa Veneziano; Peroni, L; Stach-Machado, Dagmar Ruth; Andrade, Maxuel O.; Freitas-Astúa, Juliana; Labate, Carlos Alberto; Machado, Marcos Antônio; Kitajima, Elliot Watanabe

doi:10.1590/s1982-56762012000200006

Cited by 3 publications

(4 citation statements)

References 21 publications

(22 reference statements)

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“…However, in this case, they were ground in 0.5 M tris buffer, pH 6.8 at 1:7 ratio (w/v). The procedure was carried out as described by Calegario et al (2012) using the CiLV-C p29 antibody diluted at 1:1000 (v/v).…”

Section: Western Blotmentioning

confidence: 99%

“…Because CiLV-C virions have been elusive to purify probably due to their labile nature, a strategy would be to express viral proteins in vitro and produce antibodies, Polyclonal antibodies to the putative coat protein of Citrus leprosis virus C... either mono-or polyclonal, after their purification. An attempt to express the MP (ORF 3, RNA 2) of CiLV-C and produce antibody was successful, but possibly due to the distinct folding pattern of the expressed protein, this antibody reacted poorly with native MP and was not suitable for immunoassays (Calegario et al, 2012). Another approach was then attempted, expressing the p29 protein, a structural putative coat protein of the virion (ORF 2, RNA 1).…”

Section: Introductionmentioning

confidence: 99%

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Polyclonal antibodies to the putative coat protein of Citrus leprosis virus C expressed in Escherichia coli: production and use in immunodiagnosis

Calegario¹,

Locali²,

Stach-Machado³

et al. 2013

Trop. plant pathol.

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This work reports the in vitro expression of Citrus leprosis virus C (CiLV-C) putative coat protein (p29) and the production of a polyclonal antibody to be used as a tool for serological diagnosis of citrus leprosis. The ORF2/RNA1, corresponding to p29, was cloned in pET28a and transformed into Escherichia coli cells (BL21). Expression of p29 was induced in vitro and the protein was purified and used for immunization of rabbits to produce the polyclonal antibody. The anti p29 serum was shown to be highly specific to CiLV-C detection by immunological methods (Western blot, PTA-ELISA, tissue blot and in situ immunolocalization), without cross reaction with healthy citrus plants or other cytoplasmic and nuclear viruses transmitted by Brevipalpus mites. These results demonstrate that the antibody against CiLV-C p29 protein is highly specific for CiLV-C detection. In situ immunogold labeling assays on thin sections of sweet orange leaf cells infected by CiLV-C demonstrated that short, bacilliform particles present within cisternae of the endoplasmic reticulum were specifically labeled, confirming their viral nature. The dense cytoplasmic viroplasm was also heavily labeled indicating that it represents a site of p29 accumulation.

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Section: Western Blotmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Polyclonal antibodies to the putative coat protein of Citrus leprosis virus C expressed in Escherichia coli: production and use in immunodiagnosis

Calegario¹,

Locali²,

Stach-Machado³

et al. 2013

Trop. plant pathol.

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“…Most plant viruses contain MP genes in their genome that are associated with cell-to-cell movement of the virus through the plasmodesmata (Wolf et al 1989;Haupt et al 2005;Akamatsu et al 2007). Anti-MP antisera used to detect these MPs in different plant viruses have been reported (Xie et al 2007;Calegario et al 2012;Li et al 2015;Koolivand et al 2016). As far as we know, there is no report on the preparation of PLRV-MP antiserum used for the detection of PLRV and its MP.…”

Section: Introductionmentioning

confidence: 99%

Development of polyclonal antiserum against movement protein from Potato leafroll virus and its application for the virus detection

et al. 2019

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The serological method is one of the most important techniques extensively used in crop production to detect different pathogens, especially plant viruses. An antiserum is essential for serological tests. The 17 kDa movement protein (MP) of Potato leafroll virus (PLRV) is related to the membranous structures and localized to the plasmodesmata, but there is no report on preparation of PLRV-MP antiserum for detection of PLRV. To prepare PLRV-MP antiserum, reverse transcription polymerase chain reaction (RT-PCR) was carried out to amplify the PLRV-MP gene, which was constructed into a prokaryotic vector to express the protein in Escherichia coli for immunization of rabbits, after purification. Western blotting revealed that this developed antiserum could effectively detect PLRV, but with better results from the perspective of color development and economics by using antiserum at the ratio range of 1:10000 to 1:40000, presenting high sensitivity and specificity to PLRV. The serological detection results for PLRV of the field samples were identical to the RT-PCR detection. This is the first report on the development of PLRV-MP antiserum that has been successfully used for both laboratory and field detection of PLRV. The results provide a fundamental tool for further research on the function of PLRV-MP.

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“…Most of the studies on virus MPs are focused on their function or loss of function through mutations, production of transgenic MP-expressing resistant plants, cellular localization, increase in the size exclusion limit of plasmodesmata, and interactions between MP and other cell proteins ( Akamatsu et al, 2007 ; Deom et al, 1990 ; Haupt et al, 2005 ; Wolf et al, 1989 ). Also, MPs as non-structural proteins have contributed to antibody production and in vivo virus detection ( Calegario et al, 2012 ; Cerovska et al, 2012 ; Salimi et al, 2010 ).…”

mentioning

confidence: 99%

Production of Polyclonal Antibody against Grapevine fanleaf virus Movement Protein Expressed in Escherichia coli

Koolivand

Bashir

Behjatnia

et al. 2016

The Plant Pathology Journal

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The genomic region of Grapevine fanleaf virus (GFLV) encoding the movement protein (MP) was cloned into pET21a and transformed into Escherichia coli strain BL21 (DE3) to express the protein. Induction was made with a wide range of isopropyl-β-D-thiogalactopyranoside (IPTG) concentrations (1, 1.5, and 2 mM) each for duration of 4, 6, or 16 h. However, the highest expression level was achieved with 1 mM IPTG for 4 h. Identity of the expressed protein was confirmed by sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE) followed by Western blotting. The expressed 41 kDa protein was purified under denaturing condition by affinity chromatography, reconfirmed by Western blotting and plate-trapped antigen enzyme-linked immunosorbent assay (PTA-ELISA) before being used as a recombinant antigen to raise polyclonal antibodies in rabbits. Purified anti-GFLV MP immunoglobulines (IgGs) and conjugated IgGs detected the expressed MP and GFLV virions in infected grapevines when used in PTA-ELISA, double antibody sandwich-ELISA, and Western blotting. This is the first report on the production of anti-GFLV MP polyclonal antibodies and application for the virus detection.

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In vitro expression and antiserum production against the movement protein of Citrus leprosis virus C (CiLV-C)

Cited by 3 publications

References 21 publications

Polyclonal antibodies to the putative coat protein of Citrus leprosis virus C expressed in Escherichia coli: production and use in immunodiagnosis

Polyclonal antibodies to the putative coat protein of Citrus leprosis virus C expressed in Escherichia coli: production and use in immunodiagnosis

Development of polyclonal antiserum against movement protein from Potato leafroll virus and its application for the virus detection

Production of Polyclonal Antibody against Grapevine fanleaf virus Movement Protein Expressed in Escherichia coli

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