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Biochemical properties of CumA multicopper oxidase from plant pathogen, Pseudomonas syringae

Biosci Biotechnol Biochem. 2021-08; 
Konan Ishida, Yuya Tsukamoto, Masaki Horitani, Tomohisa Ogawa, Yoshikazu Tanaka
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Codon Optimization … Nucleotide sequence-coding PsCumA, without a signal peptide, was synthesized by a commercial service (GenScript, New Jersey, USA) with codons that were optimized for Escherichia coli for a higher protein yield. The DNA fragment was then inserted into BamHI and BglII … Get A Quote

摘要

Multicopper oxidases have a wide range of substrate specificity to be involved in various physiological reactions. Pseudomonas syringae, a plant pathogenic bacterium, has a multicopper oxidase, CumA. Multicopper oxidases have ability to degrade plant cell wall component, lignin. Once P. syringae enter apoplast and colonize, they start to disrupt plant immunity. Therefore, deeper understanding of multicopper oxidases from plant pathogens helps to invent measures to prevent invasion into plant cell, which brings agricultural benefits. Several biochemical studies have reported lower activity of CumA compared with other multicopper oxidase called CotA. However, the mechanisms underlying the difference in activity h... More

关键词

Pseudomonas syringae, CotA, CumA, multicopper oxidase
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