Realizing directional cloning using sticky ends produced by 3′-5′ exonuclease of Klenow fragment.

The Klenow fragment (KF) has been used to make the blunt end as a tool enzyme. Its 5′-3′ polymerase activity can extend the 5′ overhanging sticky end to the blunt end, and 3′-5′ exonuclease activity can cleave the 3′ overhanging sticky end to the blunt end. The blunt end is useful for cloning. Here, we for the first time determined that a sticky end can be made by using the 3′-5′ exonuclease activity of KF. We found that KF can cleave the blunt end into certain sticky ends under controlled conditions. We optimized enzyme cleavage conditions, and characterized the cleaved sticky ends to be mainly 2 nt 5′ overhang. By using these sticky ends, we realized ligation reaction in vitro, and accomplished cloning short oligonucleotides directionally with high cloning efficiency. In some cases, this method can provide sticky end fragments in large scale for subsequent convenient cloning at low cost.

Identification of a premature termination of DNA polymerization in vitro by Klenow fragment mutants.

DNA polymerization products by Klenow fragment (KF) are blunt-ended. In the present study, we found that the Klenow fragment mutants with partial deletions of thumb subdomain were unable to extend primers to the 5′ terminal of templates, thus creating 5′ overhanging sticky ends 2 nt long. We termed this phenomenon as PmTP (premature termination of polymerization). The KF mutants produced homogenous sticky-ended products only under mild reaction conditions, whereas under vigorous reaction conditions, the sticky ends were prone to be blunt-ended. It was also identified that deletions of more than four residues of KF thumb subdomain could induce PmTP, and tworesidue deletion of KF thumb subdomain only induced PmTP in a lower-concentration situation. Structure modelling analysis suggested that shortening or destruction of α helix H1 at the tip of the thumb subdomain was crucial to PmTP, while the conserved residues in front of α helix was less important. PmTP might be caused by the reduced DNAbinding affinity of the mutants. The sticky ends made by PmTP have potential applications in gene splicing and molecular cloning techniques.