Programmable cleavage of linear double-stranded DNA by combined action of Argonaute CbAgo from Clostridium butyricum and nuclease deficient RecBC helicase from E. coli.

Prokaryotic Argonautes (pAgos) use small nucleic acids as specificity guides to cleave single-stranded DNA at complementary sequences. DNA targeting function of pAgos creates attractive opportunities for DNA manipulations that require programmable DNA cleavage. Currently, the use of mesophilic pAgos as programmable endonucleases is hampered by their limited action on double-stranded DNA (dsDNA).

Probing the run-on oligomer of activated SgrAI bound to DNA.

SgrAI is a type II restriction endonuclease with an unusual mechanism of activation involving run-on oligomerization. The run-on oligomer is formed from complexes of SgrAI bound to DNA containing its 8 bp primary recognition sequence (uncleaved or cleaved), and also binds (and thereby activates for DNA cleavage) complexes of SgrAI bound to secondary site DNA sequences which contain a single base substitution in either the 1st/8th or the 2nd/7th position of the primary recognition sequence. This modulation of enzyme activity via run-on oligomerization is a newly appreciated phenomenon that has been shown for a small but increasing number of enzymes.

Biochemical characterization of a Naegleria TET-like oxygenase and its application in single molecule sequencing of 5-methylcytosine.

Modified DNA bases in mammalian genomes, such as 5-methylcytosine ((5m)C) and its oxidized forms, are implicated in important epigenetic regulation processes. In human or mouse, successive enzymatic conversion of (5m)C to its oxidized forms is carried out by the ten-eleven translocation (TET) proteins. Previously we reported the structure of a TET-like (5m)C oxygenase (NgTET1) from Naegleria gruberi, a single-celled protist evolutionarily distant from vertebrates.

Evaluation of UDP-GlcN derivatives for selective labeling of 5-(hydroxymethyl)cytosine.

5-(hydroxymethyl)cytosine (5-hmC) is a newly identified oxidative product of 5-methylcytosine (5-mC) in the mammalian genome, and is believed to be an important epigenetic marker influencing a variety of biological processes. In addition to its relatively low abundance, the fluctuation of 5-hmC levels over time during cell development poses a formidable challenge for its accurate mapping and quantification. Here we describe a specific chemoenzymatic approach to 5-hmC detection in DNA samples by using new uridine 5'-diphosphoglucosamine (UDP-GlcN) probes.

Gene synthesis by assembly of deoxyuridine-containing oligonucleotides.

Gene synthesis is an invaluable technique in synthetic and molecular biology for synthesis of artificial genes, operons, and even genomes. In many cases the traditional methods for obtaining functional DNA sequences through cloning are not applicable due to the novelty of genetic material. Here, we describe the simple and economical DNA synthesis method based on USER™ technology.