M Lourdes Velázquez-Hernández scite author profile

Summary Microbial fructosyltransferases are polymerases that are involved in microbial fructan (levan, inulin and fructo‐oligosaccharide) biosynthesis. Structurally, microbial fructosyltransferase proteins share the catalytic domain of glycoside hydrolases 68 family and are grouped in seven phylogenetically related clusters. Fructosyltransferase‐encoding genes are organized in operons or in clusters associated with other genes related to carbohydrate metabolism or fructosyltransferase secretion. Fructosyltransferase gene expression is mainly regulated by two‐component systems or phosphorelay mechanisms that respond to sucrose availability or other environmental signals. Microbial fructans are involved in conferring resistance to environmental stress such as water deprivation, nutrient assimilation, biofilm formation, and as virulence factors in colonization. As a result of the biological and industrial importance of fructans, fructosyltransferases have been the subject of extensive research, conducted to improve their enzymatic activity or to elucidate their biological role in nature.

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Gluconacetobacter diazotrophicus levansucrase is involved in tolerance to NaCl, sucrose and desiccation, and in biofilm formation

Velázquez-Hernández

Baizabal-Aguirre

Cruz-Vázquez

et al. 2010

Arch Microbiol

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Gluconacetobacter diazotrophicus is a nitrogen-fixing bacterium and endophyte of sugarcane, which expresses levansucrase, a fructosyltransferase exoenzyme with sucrose hydrolytic and levan biosynthetic activities. As a result of their physical properties, the levan can provide protection against stress caused by abiotic or biotic factors and participate in the formation of biofilms. In this study, we investigated the construction and function of a levansucrase-defective mutant of G. diazotrophicus. The lsdA mutant showed a decreased tolerance (65.5%) to 50-150 mM NaCl and a decrease of 89% in 876 mM (30%) sucrose, a reduction (99%) in tolerance to desiccation after 18 h, and a decrease (36.9-58.5%) in the ability to form cell aggregates on abiotic surfaces. Complementation of the mutant with the complete lsdA gene leads to a recovery of the ability to grow on sucrose-containing medium and to form slimy colonies, the ability to form the cell aggregates on abiotic surfaces and the tolerance to NaCl. This report demonstrates the importance of levansucrase in environmental adaptation of G. diazotrophicus under high osmotic stress and in biofilm formation.

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M Lourdes Velázquez-Hernández

Microbial fructosyltransferases and the role of fructans

Gluconacetobacter diazotrophicus levansucrase is involved in tolerance to NaCl, sucrose and desiccation, and in biofilm formation

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