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- Title
DNASynth: A Computer Program for Assembly of Artificial Gene Parts in Decreasing Temperature.
- Authors
Nowak, Robert M.; Wojtowicz-Krawiec, Anna; Plucienniczak, Andrzej
- Abstract
Artificial gene synthesis requires consideration of nucleotide sequence development as well as long DNA molecule assembly protocols. The nucleotide sequence of the molecule must meet many conditions including particular preferences of the host organism for certain codons, avoidance of specific regulatory subsequences, and a lack of secondary structures that inhibit expression. The chemical synthesis of DNA molecule has limitations in terms of strand length; thus, the creation of artificial genes requires the assembly of long DNA molecules from shorter fragments. In the approach presented, the algorithm and the computer program address both tasks: developing the optimal nucleotide sequence to encode a given peptide for a given host organism and determining the long DNA assembly protocol. These tasks are closely connected; a change in codon usage may lead to changes in the optimal assembly protocol, and the lack of a simple assembly protocol may be addressed by changing the nucleotide sequence. The computer program presented in this study was tested with real data from an experiment in a wet biological laboratory to synthesize a peptide. The benefit of the presented algorithm and its application is the shorter time, compared to polymerase cycling assembly, needed to produce a ready synthetic gene.
- Subjects
ALGORITHMS; COMPUTER simulation; COMPUTER software; DNA; GENETIC engineering; RESEARCH methodology; NUCLEOTIDES; POLYMERASE chain reaction; PROTEOLYTIC enzymes; RESEARCH funding; SYSTEMS design; YEAST; DATA analysis software
- Publication
BioMed Research International, 2015, Vol 2015, p1
- ISSN
2314-6133
- Publication type
Article
- DOI
10.1155/2015/413262