SwaI, a unique restriction endonuclease from Staphylococcus warneri, which recognizes 5'-ATTTAAAT-3'.

A novel class-II restriction endonuclease designated SwaI was purified from Staphylococcus warneri. This enzyme cleaves adenovirus 2 DNA, SV40 DNA and M13mp7 at one site each, but does not cleave lambda, PhiX174, pBR322 or pBR328 DNA. SwaI recognizes the octanucleotide sequence 5'-ATTTAAAT-3', cleaving in the center of the recognition sequence creating blunt ended DNA fragments. SwaI was used to digest chromosomal DNA from various microorganisms and human cells.

Nonradioactive labeling of oligonucleotides in vitro with the hapten digoxigenin by tailing with terminal transferase.

A procedure for the nonradioactive labeling of oligonucleotides with the hapten digoxigenin (DIG) has been developed. The label is introduced by enzymatic tailing of the 3'-end. Two different modified nucleotides were applied. DIG-dUTP allows the synthesis of hapten-modified oligonucleotides with longer tails containing several DIG molecules, whereas the novel compound DIG-ddUTP leads to the addition of only a single DIG hapten. The efficiency of the labeling reactions with respect to variation of the different parameters was analyzed and data on application of labeled oligonucleotide probes to different blot formats are shown.

MamI, a novel class-II restriction endonuclease from Microbacterium ammoniaphilum recognizing 5'-GATNN decreases NNATC-3'.

A new site-specific class-II restriction endonuclease, MamI, has been discovered in the nonsporulating Gram+ Microbacterium ammoniaphilum. MamI recognition sequence and cleavage positions were deduced using experimental and computer-assisted mapping and sequencing approaches. MamI cleavage specificity corresponds to: [formula: see text] The novel 43-kD enzyme recognizes a palindromic hexanucleotide interrupted by four ambiguous nucleotides. MamI cleavage positions are located in the center of the recognition sequence resulting in blunt-ended fragments after cleavage in the presence of Mg2+ ions. MamI is inhibited by N6-methyladenine residues. In case of overlapping sequences of MamI and Escherichia coli-coded DNA modification methyltransferase M.EcodamI (5'-[formula: see text]-3'), cleavage of DNA isolated from E. coli wild-type cells will be inhibited. By applying incubation conditions forcing star activity, relaxing of MamI sequence specificity is observed (MamI*).

Ksp632I, a novel class-IIS restriction endonuclease from Kluyvera sp. strain 632 with the asymmetric hexanucleotide recognition sequence: 5'-CTCTTC(N)1-3' 3'-GAGAAG(N)4-5'.

A new class-IIS restriction endonuclease, Ksp632I, with novel sequence specificity has been discovered in a non-pathogenic species of Kluyvera. The presence of only a single site-specific activity in this Kluyvera sp. strain 632 enables Ksp632I to be isolated in highly purified form free of contaminating nucleases. Ksp632I recognition sites and cleavage positions were deduced using experimental and computer-assisted mapping and sequencing. The cleavage specificity corresponds to the sequence 5'-CTCTTCN decreases NNN-N-3' 3'-GAGAAGN-NNN increases N-5'. The enzyme recognizes an asymmetric hexanucleotide sequence and cleaves in the presence of Mg2+ ions specific phosphodiester bonds in both DNA strands, 1 and 4 nucleotides distal to the recognition sequence. The staggered cuts generate 5'-protruding ends with single-stranded 5'-phosphorylated trinucleotides. Several slow cleavage sites for Ksp632I were observed on lambda cI857Sam7 DNA. Ksp632I may complement other class-IIS enzymes in the universal restriction approach and may serve as a tool for generating defined unidirectional deletions or insertions.