Oxalate decarboxylase from Collybia velutipes: molecular cloning and its overexpression to confer resistance to fungal infection in transgenic tobacco and tomato

Oxalic acid is present as nutritional stress in many crop plants like Amaranth and Lathyrus. Oxalic acid has also been found to be involved in the attacking mechanism of several phytopathogenic fungi. A full-length cDNA for oxalate decarboxylase, an oxalate-catabolizing enzyme, was isolated by using...

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Bibliographic Details
Published in:The Journal of biological chemistry 2000-03, Vol.275 (10), p.7230-7238
Main Authors: Kesarwani, M, Azam, M, Natarajan, K, Mehta, A, Datta, A
Format: Article
Language:English
Subjects:
Amino Acid Sequence
amino acid sequences
Ascomycota - metabolism
Base Sequence
carboxy-lyases
Carboxy-Lyases - genetics
Carboxy-Lyases - physiology
cloning
Cloning, Molecular
Collybia velutipes
complementary DNA
disease resistance
enzyme activity
experimental infections
Flammulina velutipes
fungal diseases of plants
genbank/af200683
gene expression
gene overexpression
inheritance (genetics)
introns
Lycopersicon esculentum
Molecular Sequence Data
Nicotiana
Nicotiana - microbiology
Nicotiana tabacum
nucleotide sequences
Oxalic Acid - metabolism
oxdc gene
Plants - enzymology
Plants, Genetically Modified
Plants, Toxic
Polymerase Chain Reaction
Sclerotinia sclerotiorum
Solanum lycopersicum - microbiology
transgenic plants
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Summary:Oxalic acid is present as nutritional stress in many crop plants like Amaranth and Lathyrus. Oxalic acid has also been found to be involved in the attacking mechanism of several phytopathogenic fungi. A full-length cDNA for oxalate decarboxylase, an oxalate-catabolizing enzyme, was isolated by using 5'-rapid amplification of cDNA ends-polymerase chain reaction of a partial cDNA as cloned earlier from our laboratory (Mehta, A., and Datta, A. (1991) J. Biol. Chem. 266, 23548-23553). By screening a genomic library from Collybia velutipes with this cDNA as a probe, a genomic clone has been isolated. Sequence analyses and comparison of the genomic sequence with the cDNA sequence revealed that the cDNA is interrupted with 17 small introns. The cDNA has been successfully expressed in cytosol and vacuole of transgenic tobacco and tomato plants. The transgenic plants show normal phenotype, and the transferred trait is stably inherited to the next generation. The recombinant enzyme is partially glycosylated and shows oxalate decarboxylase activity in vitro as well as in vivo. Transgenic tobacco and tomato plants expressing oxalate decarboxylase show remarkable resistance to phytopathogenic fungus Sclerotinia sclerotiorum that utilizes oxalic acid during infestation. The result presented in the paper represents a novel approach to develop transgenic plants resistant to fungal infection.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.275.10.7230