Characterizing seamless ligation cloning extract for synthetic biological applications |
| |
Authors: | Katrin Messerschmidt Lena Hochrein Daniel Dehm Karina Schulz Bernd Mueller-Roeber |
| |
Affiliation: | 1. University of Potsdam, Cell2Fab Research Unit, Karl-Liebknecht-Str. 24-25, 14476 Potsdam, Germany;2. University of Potsdam, Department of Molecular Biology, Karl-Liebknecht-Str. 24-25, 14476 Potsdam, Germany;3. Center of Plant Systems Biology and Biotechnology (CPSBB), Ruski Blvd. 139, Plovdiv 4000, Bulgaria |
| |
Abstract: | Synthetic biology aims at designing and engineering organisms. The engineering process typically requires the establishment of suitable DNA constructs generated through fusion of multiple protein coding and regulatory sequences. Conventional cloning techniques, including those involving restriction enzymes and ligases, are often of limited scope, in particular when many DNA fragments must be joined or scar-free fusions are mandatory. Overlap-based-cloning methods have the potential to overcome such limitations. One such method uses seamless ligation cloning extract (SLiCE) prepared from Escherichia coli cells for straightforward and efficient in vitro fusion of DNA fragments. Here, we systematically characterized extracts prepared from the unmodified E. coli strain DH10B for SLiCE-mediated cloning and determined DNA sequence-associated parameters that affect cloning efficiency. Our data revealed the virtual absence of length restrictions for vector backbone (up to 13.5 kbp) and insert (90 bp to 1.6 kbp). Furthermore, differences in GC content in homology regions are easily tolerated and the deletion of unwanted vector sequences concomitant with targeted fragment insertion is straightforward. Thus, SLiCE represents a highly versatile DNA fusion method suitable for cloning projects in virtually all molecular and synthetic biology projects. |
| |
Keywords: | SLiCE Seamless ligation cloning Homologous recombination Synthetic biology |
本文献已被 ScienceDirect 等数据库收录! |
|