Abstract: Methods and compositions are provided for increasing at least one of: (i) binding affinity of a target protein for a maltodextrin substrate and/or (ii) solubility of a target protein. The methods and compositions relate to a modified maltose-binding protein.

Abstract: Methods and compositions are provided for increasing at least one of: (i) binding affinity of a target protein for a maltodextrin substrate and/or (ii) solubility of a target protein. The methods and compositions relate to a modified maltose-binding protein.

Abstract: Methods and compositions are provided for increasing at least one of: (i) binding affinity of a target protein for a maltodextrin substrate and/or (ii) solubility of a target protein. The methods and compositions relate to a modified maltose-binding protein.

Abstract: Methods and compositions are provided that relate to obtaining a recombinant DNA and RNA cleaving nuclease. This involves the over-expression of a fusion protein between maltose-binding protein and a truncated nuclease in a soluble form in the cytoplasm of a host cell from which it can be readily extracted.

Abstract: Methods and compositions are provided that achieve depletion of a nucleotide pool by means of a phosphate-transferring enzyme such as a nucleoside phosphate or a polyphosphate glucokinase. Depletion of a nucleotide pool using a nucleoside kinase may additionally utilize a phosphotransferase in a second phosphate-transferring reaction.

Abstract: A method is described for increasing the activity of restriction endonuclease mutants that have altered binding or cleavage activities. Restriction endonuclease variants can carry one or more amino acid substitutions that change substrate specificity and at the same time decrease the enzyme catalytic activity. A method is described for isolating derivatives of the endonuclease variants by subjecting them to additional rounds of mutagenesis and screening in a dinD::lacZ indicator strain, such that second-site mutations within the nucleotide coding sequence of the endonuclease are obtained that increased the enzyme specific activity.

Abstract: A genomic DNA library of Thermus filiformis was constructed using pBR322 as a cloning vector. The methylase selection method was used to clone the TfiI methylase gene (tfiIM). A clone carrying an active TfiI methylase was identified. After sequencing the complete TfiI methylase gene and its downstream DNA sequence, a recombinase homolog was found. Because the methylase and its cognate endonuclease gene are located in proximity to each other in a particular restriction-modification system, efforts were made to clone the upstream DNA by inverse PCR. After two rounds of inverse PCR, one open reading frame (ORF1) was found upstream of the TfiI methylase gene. This ORF1, containing a Shine-Dalgarno sequence and a TATA box on the upstream side, was cloned and expressed, and TfiI endonuclease activity was detected in crude cell extracts. It is concluded that ORF1 encodes TfiI restriction endonuclease.