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Simultaneous splicing of multiple DNA fragments in one PCR reaction

Biological Procedures Online (2013) 15(1)
DOI: 10.1186/1480-9222-15-9
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Abstract

Background: Rapid and simultaneous splicing of multiple DNA fragments is frequently required in many recombinant DNA projects. However, former overlap extension PCRs, the most common methods for splicing DNA fragments, are not really simultaneous fusing of multiple DNA fragments. Results: We performed an optimized method which allowed simultaneous splicing of multiple DNA fragments in one PCR reaction. Shorter outermost primers were prior mixed with other PCR components at the same time. A sequential thermo cycling program was adopted for overlap extension reaction and amplification of spliced DNA. Annealing temperature was relatively higher in the overlap extension reaction stage than in the fused DNA amplification. Finally we successfully harvested target PCR products deriving from fusion of two to seven DNA fragments after 5-10 cycles for overlap extension reaction and then 30 cycles for fused DNA amplification. Conclusions: Our method provides more rapid, economical and handy approach to accurately splice multiple DNA fragments. We believe that our simultaneous splicing overlap extension PCR can be used to fuse more than seven DNA fragments as long as the DNA polymerase can match. © 2013 Luo et al.; licensee BioMed Central Ltd.

Figures

  • Figure 1 Principles of our simultaneous splicing overlap extension PC amplified by normal PCR after choosing better outmost primers (Forward p five cycles is employed at higher annealing temperature after correctly mix outermost primers and Pfu DNA polymerase as well as adding water to ce Step 3, a continuous program of 30 cycles following step 2 is edited and ru
  • Table 1 Comparison between classical overlap extension PCR (OE-PCR) and our simultaneous splicing overlap extension PCR (SSOE-PCR)
  • Figure 2 Hypothetical principle of multiple DNA fragments fusion by overlap extension PCR. Stage 1: designing primers and amplifying DNA1 to DNAn with overlap sequences respectively through normal PCR; Stage 2: One chain of a fragment matched with another one. Stage 3: Single chain matching with another one extended along 5′ to 3′ at higher annealing temperature and then a series of double splicing DNAs might come into being after one cycles. Step 4: One double splicing DNA could continuously match with another one and then extend, and so forth. Finally, some full multiple splicing DNAs would always be synthetized after more several cycles in the former condition. Stage 5: Amplifying full multiple fusion DNAs at lower annealing temperature through normal PCR.
  • Figure 3 PCR products of seven different fragments. Lanes from left to right represented DNA molecular weight marker, DNA fragment D1 (2000 bp), D2 (1500 bp), D3 (1000 bp), D4 (750 bp), D5 (500 bp), D6 (200 bp) and D7 (100 bp).
  • Figure 4 Electrophoretic analysis of different number of DNA fragme fusion: lane 1 (800 bp), D5:D6:D7 fusion; lane 2, DNA molecular weight mar (B) Four DNA fragments fusion (D4-D7): lane 1 (1550 bp), unpurified PCR p templates; lane 3, DNA molecular weight marker. (C) Five DNA fragments f unpurified PCR products as templates; lane 3 (2550 bp), purified PCR produ (4050 bp, arrow), unpurified PCR products as templates; lane 2(4050 bp, arr marker. (E) Seven DNA fragments fusion (D1-D7): lane 1, DNA molecular w lane 3(6050 bp), purified PCR products as templates.
  • Table 2 Components of PCR solution for splicing of different numbers of DNA fragments
  • Figure 5 Detecting the digestion product of fusion DNAs by EcoRI in of Figure 2C; Lane 2: five fusion (D3-D7, 2550 bp) from lane 3 of Figure 4C; L four fusion (D4-D7, 1550 bp) from lane 2 of Figure 4B; Lane 5: DNA molecula were not fully digested. (B) The PCR products were digested by EcoRI after p lane 2 of Figure 4E) by gel extraction kit and then amplifying them by PCR. L molecular weight markers.
  • Table 3 Name of the DNA fragments, the nucleotide sequence used for designing the PCR primers and product length

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CITATION STYLE

APA

Luo, W. G., Liu, H. Z., Lin, W. H., Kabir, M. H., & Su, Y. (2013). Simultaneous splicing of multiple DNA fragments in one PCR reaction. Biological Procedures Online, 15(1). https://doi.org/10.1186/1480-9222-15-9

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