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Dual functioning of plant arginases provides a third route for putrescine synthesis

Plant Sci.. 2017-09; 
PatelJigar, AriyaratneMenaka, AhmedSheaza, GeLingxiao, PhuntumartVipaporn, KalinoskiAndrea, MorrisPa
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Codon Optimization … Phusion ® high fidelity DNA polymerase. The sequence of Glyma.03g028000 (GmARGAH) was codon-optimized for expression in yeast and synthesized by GenScript, Pistcataway, NJ. AtADC1 was amplified from genomic … Get A Quote

摘要

Two biosynthetic routes are known for putrescine, an essential plant metabolite. Ornithine decarboxylase (ODC) converts ornithine directly to putrescine, while a second route for putrescine biosynthesis utilizes arginine decarboxylase (ADC) to convert arginine to agmatine, and two additional enzymes, agmatine iminohydrolase (AIH) and N-carbamoyl putrescine aminohydrolase (NLP1) to complete this pathway. Here we show that plants can use ADC and arginase/agmatinase (ARGAH) as a third route for putrescine synthesis. Transformation of Arabidopsis thaliana ADC2, and any of the arginases from A. thaliana (ARGAH1, or ARGHA2) or the soybean gene Glyma.03g028000 (GmARGAH) into a yeast strain deficient in ODC... More

关键词

Agmatinase,Chloroplast,Compartmentation,Primary metabolism,Putrescine synth