Experimental analysis of gene assembly with TopDown one-step real-time gene synthesis

Herein we present a simple, cost-effective TopDown (TD) gene synthesis method that eliminates the interference between the polymerase chain reactions (PCR) assembly and amplification in one-step gene synthesis. The method involves two key steps: (i) design of outer primers and assembly oligonucleoti...

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Bibliographic Details
Published in:Nucleic acids research 2009-04, Vol.37 (7), p.e51-e51
Main Authors: Ye, Hongye, Huang, Mo Chao, Li, Mo-Huang, Ying, Jackie Y
Format: Article
Language:English
Subjects:
DNA Primers
Electrophoresis, Agar Gel
Fluorescent Dyes
Genes, Synthetic
Humans
Kinetics
Methods Online
Polymerase Chain Reaction - methods
S100 Calcium-Binding Protein A4
S100 Proteins - genetics
Temperature
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Summary:Herein we present a simple, cost-effective TopDown (TD) gene synthesis method that eliminates the interference between the polymerase chain reactions (PCR) assembly and amplification in one-step gene synthesis. The method involves two key steps: (i) design of outer primers and assembly oligonucleotide set with a melting temperature difference of >10°C and (ii) utilization of annealing temperatures to selectively control the efficiencies of oligonucleotide assembly and full-length template amplification. In addition, we have combined the proposed method with real-time PCR to analyze the step-wise efficiency and the kinetics of the gene synthesis process. Gel electrophoresis results are compared with real-time fluorescence signals to investigate the effects of oligonucleotide concentration, outer primer concentration, stringency of annealing temperature, and number of PCR cycles. Analysis of the experimental results has led to insights into the gene synthesis process. We further discuss the conditions for preventing the formation of spurious DNA products. The TD real-time gene synthesis method provides a simple and efficient method for assembling fairly long DNA sequence, and aids in optimizing gene synthesis conditions. To our knowledge, this is the first report that utilizes real-time PCR for gene synthesis.
ISSN:0305-1048
1362-4962
DOI:10.1093/nar/gkp118