Thermoadaptation of -Galactosidase AgaB1 in Thermus thermophilus
نویسندگان
چکیده
The evolutionary potential of a thermostable -galactosidase, with regard to improved catalytic activity at high temperatures, was investigated by employing an in vivo selection system based on thermophilic bacteria. For this purpose, hybrid -galactosidase genes of agaA and agaB from Bacillus stearothermophilus KVE39, designated agaA1 and agaB1, were cloned into an autonomously replicating Thermus vector and introduced into Thermus thermophilus OF1053GD ( agaT) by transformation. This selector strain is unable to metabolize melibiose ( -galactoside) without recombinant -galactosidases, because the native -galactosidase gene, agaT, has been deleted. Growth conditions were established under which the strain was able to utilize melibiose as a single carbohydrate source when harboring a plasmid-encoded agaA1 gene but unable when harboring a plasmid-encoded agaB1 gene. With incubation of the agaB1 plasmid-harboring strain under selective pressure at a restrictive temperature (67°C) in a minimal melibiose medium, spontaneous mutants as well as N-methylN -nitro-N-nitrosoguanidine-induced mutants able to grow on the selective medium were isolated. The mutant -galactosidase genes were amplified by PCR, cloned in Escherichia coli, and sequenced. A single-base substitution that replaces glutamic acid residue 355 with glycine or valine was found in the mutant agaB1 genes. The mutant enzymes displayed the optimum hydrolyzing activity at higher temperatures together with improved catalytic capacity compared to the wild-type enzyme and furthermore showed an enhanced thermal stability. To our knowledge, this is the first report of an in vivo evolution of glycoside-hydrolyzing enzyme and selection within a thermophilic host cell.
منابع مشابه
Development of a gene expression vector for Thermus thermophilus based on the promoter of the respiratory nitrate reductase.
A specific expression system for Thermus spp. is described. Plasmid pMKE1 contains replicative origins for Escherichia coli and Thermus spp., a selection gene encoding a thermostable resistance to kanamycin, and a 720 bp DNA region containing the promoter (Pnar), and the regulatory sequences of the respiratory nitrate reductase operon of Thermus thermophilus HB8. Two genes, encoding a thermophi...
متن کاملThermus thermophilus as source of thermozymes for biotechnological applications: homologous expression and biochemical characterization of an α-galactosidase
BACKGROUND The genus Thermus, which has been considered for a long time as a fruitful source of biotechnological relevant enzymes, has emerged more recently as suitable host to overproduce thermozymes. Among these, α-galactosidases are widely used in several industrial bioprocesses that require high working temperatures and for which thermostable variants offer considerable advantages over thei...
متن کاملInvolvement of the arginine repressor in lysine biosynthesis of Thermus thermophilus.
Lysine biosynthesis of Thermus thermophilus proceeds in a similar way to arginine biosynthesis, and some lysine biosynthetic enzymes from T. thermophilus so far investigated have the potential to function in arginine biosynthesis. These observations suggest that arginine might regulate the expression of genes for lysine biosynthesis. To test this hypothesis, the argR gene encoding the regulator...
متن کاملShu¥inggenesaround in hot environments: theuniqueDNA transporterof Thermusthermophilus
Natural transformation permits the transport of DNA through bacterial membranes and represents a dominant mode for the transfer of genetic information between bacteria and between microorganisms of distant evolutionary lineages and even between members of different domains. This phenomenon, known as horizontal, or lateral, gene transfer, has been a major force for genome plasticity over evoluti...
متن کاملImproving Soluble Expression of β-Galactosidase in Escherichia coli by Fusion with Thioredoxin*
Recombinant heterologous proteins can be produced as insoluble aggregates partially or perfectly inactive in Escherichia coli. One of the strateges to improve the solubility of recombinant proteins is fusion with a partner that is excellent in producing soluble fusion proteins. To improve the production of soluble β-galactosidase, the gene of Thermus thermophilus KNOUC112 β-galactosidase (KNOUC...
متن کامل