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1.
Virology ; 384(1): 38-50, 2009 Feb 05.
Article in English | MEDLINE | ID: mdl-19046592

ABSTRACT

The Sugarcane yellow leaf virus (SCYLV) P0, a member of the highly heterologous proteins of poleroviruses, is a suppressor of posttranscriptional gene silencing (PTGS) and has additional activities not seen in other P0 proteins. The P0 protein in previously tested poleroviruses (Beet western yellows virus and Cucurbit aphid-borne yellows virus), suppresses local, but not systemic, PTGS induced by both sense GFP and inverted repeat GF using its F-box-like domain to mediate destabilization of the Argonaute1 protein. We now report that the SCYLV P0 protein not only suppressed local PTGS induced by sense GFP and inverted repeat GF in Nicotiana benthamiana, but also triggered a dosage dependent cell death phenotype in infiltrated leaves and suppressed systemic sense GFP-PTGS. Deletion of the first 15 N-terminal amino acid residues of SCYLV P0 abolished suppression of both local and systemic PTGS and the induction of cell death. In contrast, only systemic PTGS and cell death were lost when the 15 C-terminal amino acid residues were deleted. We conclude that the 15 C-terminal amino acid residue region of SCYLV P0 is necessary for suppressing systemic PTGS and inducing cell death, but is not required for suppression of local PTGS.


Subject(s)
Luteoviridae/genetics , RNA Interference , RNA, Viral/genetics , Viral Proteins/genetics , Genes, Reporter , Green Fluorescent Proteins/genetics , Open Reading Frames , Plant Leaves/genetics , Plant Leaves/virology , Plasmids , RNA, Small Interfering/genetics , Recombination, Genetic , Transfection
2.
Plant Biotechnol J ; 5(6): 759-67, 2007 Nov.
Article in English | MEDLINE | ID: mdl-17924935

ABSTRACT

In this article, we report transgene-derived resistance in maize to the severe pathogen maize streak virus (MSV). The mutated MSV replication-associated protein gene that was used to transform maize showed stable expression to the fourth generation. Transgenic T2 and T3 plants displayed a significant delay in symptom development, a decrease in symptom severity and higher survival rates than non-transgenic plants after MSV challenge, as did a transgenic hybrid made by crossing T2 Hi-II with the widely grown, commercial, highly MSV-susceptible, white maize genotype WM3. To the best of our knowledge, this is the first maize to be developed with transgenic MSV resistance and the first all-African-produced genetically modified crop plant.


Subject(s)
Maize streak virus/immunology , Plants, Genetically Modified/virology , Viral Nonstructural Proteins/genetics , Zea mays/virology , Plant Diseases/immunology , Plants, Genetically Modified/immunology , Transgenes , Zea mays/genetics , Zea mays/immunology
3.
J Gen Virol ; 88(Pt 1): 325-336, 2007 Jan.
Article in English | MEDLINE | ID: mdl-17170465

ABSTRACT

Maize streak disease is a severe agricultural problem in Africa and the development of maize genotypes resistant to the causal agent, Maize streak virus (MSV), is a priority. A transgenic approach to engineering MSV-resistant maize was developed and tested in this study. A pathogen-derived resistance strategy was adopted by using targeted deletions and nucleotide-substitution mutants of the multifunctional MSV replication-associated protein gene (rep). Various rep gene constructs were tested for their efficacy in limiting replication of wild-type MSV by co-bombardment of maize suspension cells together with an infectious genomic clone of MSV and assaying replicative forms of DNA by quantitative PCR. Digitaria sanguinalis, an MSV-sensitive grass species used as a model monocot, was then transformed with constructs that had inhibited virus replication in the transient-expression system. Challenge experiments using leafhopper-transmitted MSV indicated significant MSV resistance--from highly resistant to immune--in regenerated transgenic D. sanguinalis lines. Whereas regenerated lines containing a mutated full-length rep gene displayed developmental and growth defects, those containing a truncated rep gene both were fertile and displayed no growth defects, making the truncated gene a suitable candidate for the development of transgenic MSV-resistant maize.


Subject(s)
Maize streak virus/physiology , Viral Proteins/physiology , Virus Replication/physiology , Gene Expression , Maize streak virus/chemistry , Maize streak virus/genetics , Plants, Genetically Modified
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