Abstract
Lipo-chitinoligosaccharides (LCOs) are key molecules for the establishment of plant-microorganisms symbiosis. Interactions of leguminous crops with nitrogen-fixing rhizobial bacteria involve Nod factors, while Myc-LCOs improve the association of most plants with arbuscular mycorrhizal fungi. Both Nod factors and Myc-LCOs are composed of a chitinoligosaccharide fatty acylated at the non-reducing end accompanied with various substituting groups. One straightforward way to access LCOs is starting from chitin hydrolysate, an abundant polysaccharide found in crustacean shells, followed by regioselective enzymatic cleavage of an acetyl group from the non-reducing end of chitin tetra- or pentaose, and subsequent chemical introduction of N-acyl group. In the present work, we describe the in vitro synthesis of LCO precursors on preparative scale. To this end, Sinorhizobium meliloti chitin deacetylase NodB was produced in high yield in E. coli as a thioredoxin fusion protein. The recombinant enzyme was expressed in soluble and catalytically active form and used as an efficient biocatalyst for N-deacetylation of chitin tetra- and pentaose.
Highlights
The Rhizobium-legume symbiosis, formed by legume plants and rhizobial bacteria [1], promotes the assimilation of atmospheric nitrogen in legumes
Only two reports describe the overexpression of NodB chitin deacetylase (CD) in E. coli
Sinorhizobium meliloti NodB CD was produced as inactive protein aggregates from which the enzyme could be refolded [9]
Summary
The Rhizobium-legume symbiosis, formed by legume plants and rhizobial bacteria [1], promotes the assimilation of atmospheric nitrogen in legumes. Another kind of symbiosis, arbuscular mycorrhiza, is formed between a wide range of plants and mycorrhizal fungi [2]. Arbuscular mycorrhiza, is formed between a wide range of plants and mycorrhizal fungi [2] It improves uptake of water and mineral nutrients in 80% of plant species. Both root endosymbiosis are established as a result of signals exchange in which there is mutual recognition of diffusible molecules produced by plants and microbial partners [3]. Nod factors and Myc-LCOs trigger profound modifications in plant-root ending intimate communications between symbionts [4]
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