Co-expression of the Thermotoga neapolitana aglB gene with an upstream 3′-coding fragment of the malG gene improves enzymatic characteristics of recombinant AglB cyclomaltodextrinase

A cluster of Thermotoga neapolitana genes participating in starch degradation includes the malG gene of sugar transport protein and the aglB gene of cyclomaltodextrinase. The start and stop codons of these genes share a common overlapping sequence, a TGAtg. Here, we compared properties of expression...

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Bibliographic Details
Published in:Protein expression and purification 2007-07, Vol.54 (1), p.18-23
Main Authors: Lunina, Natalia A., Agafonova, Elena V., Chekanovskaya, Lyudmila A., Dvortsov, Igor A., Berezina, Oksana V., Shedova, Ekaterina N., Kostrov, Sergey V., Velikodvorskaya, Galina A.
Format: Article
Language:English
Subjects:
ATP-Binding Cassette Transporters - genetics
Cyclomaltodextrinase
Escherichia coli - genetics
Extra N-terminal Met residue
Glycoside Hydrolases - biosynthesis
Glycoside Hydrolases - chemistry
Glycoside Hydrolases - genetics
Glycosyl hydrolase
Hyperthermophiles
Maltodextrin utilization gene cluster
Protein Folding
Recombinant Fusion Proteins - biosynthesis
Recombinant Fusion Proteins - chemistry
Recombinant Fusion Proteins - genetics
Sequence Analysis, Protein
Simultaneous expression
Thermotoga neapolitana
Thermotoga neapolitana - enzymology
Thermotoga neapolitana - genetics
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Summary:A cluster of Thermotoga neapolitana genes participating in starch degradation includes the malG gene of sugar transport protein and the aglB gene of cyclomaltodextrinase. The start and stop codons of these genes share a common overlapping sequence, a TGAtg. Here, we compared properties of expression products of three different constructs with aglB from T. neapolitana. The first expression vector contained the aglB gene linked to an upstream 90-bp 3′-terminal region of the malG gene with the stop codon overlapping with the start codon of aglB. The second construct included the isolated coding sequence of aglB with two tandem potential start codons. The expression product of this construct in Escherichia coli had two tandem Met residues at its N terminus and was characterized by low thermostability and high tendency to aggregate. In contrast, co-expression of aglB and the 3′-terminal region of malG (the first construct) resulted in AglB with only one N-terminal Met residue and a much higher specific activity of cyclomaltodextrinase. Moreover, the enzyme expressed by such a construct was more thermostable and less prone to aggregation. The third construct was the same as the second one except that it contained only one ATG start codon. The product of its expression had kinetic and other properties similar to those of the enzyme with only one N-terminal Met residue.
ISSN:1046-5928
1096-0279
DOI:10.1016/j.pep.2007.02.014