Reliable fusion PCR mediated by GC-rich overlap sequences

Recombinant DNA technology largely depends upon Escherichia coli plasmid construction via restriction enzyme digestion and DNA ligation. Overlap extension PCR is another simple technique for constructing recombinant DNA but is not commonly used. This is likely due to the inefficiency of fusion after...

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Published inGene Vol. 434; no. 1; pp. 43 - 49
Main Authors Cha-aim, Kamonchai, Fukunaga, Tomoaki, Hoshida, Hisashi, Akada, Rinji
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.04.2009
Subjects
Annealing
Base Sequence
Escherichia coli
GC Rich Sequence - genetics
Gene Targeting
Molecular Sequence Data
Overlap extension
Polymerase Chain Reaction - methods
Recombinant DNA
Reproducibility of Results
Saccharomyces cerevisiae
Saccharomyces cerevisiae - genetics
GFP
Annealing
SDS
Gene targeting
nt
kb
Overlap extension
Recombinant DNA
Saccharomyces cerevisiae
E. coli
RNase
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Abstract Recombinant DNA technology largely depends upon Escherichia coli plasmid construction via restriction enzyme digestion and DNA ligation. Overlap extension PCR is another simple technique for constructing recombinant DNA but is not commonly used. This is likely due to the inefficiency of fusion after the annealing of overlaps that are generally designed from authentic sequences in the DNA fragments. In our current study, we describe the development of novel overlap sequences that can be used for the construction of fusion DNA fragments, including the one-step fusion of three fragments in a single PCR and also for in-frame fusions. Novel poly G or C stretches showed strong and also specific annealing to the complementary sequences in the fusion PCR. This DNA fusion method is thus both a simple and versatile recombinant DNA technique.
AbstractList Recombinant DNA technology largely depends upon Escherichia coli plasmid construction via restriction enzyme digestion and DNA ligation. Overlap extension PCR is another simple technique for constructing recombinant DNA but is not commonly used. This is likely due to the inefficiency of fusion after the annealing of overlaps that are generally designed from authentic sequences in the DNA fragments. In our current study, we describe the development of novel overlap sequences that can be used for the construction of fusion DNA fragments, including the one-step fusion of three fragments in a single PCR and also for in-frame fusions. Novel poly G or C stretches showed strong and also specific annealing to the complementary sequences in the fusion PCR. This DNA fusion method is thus both a simple and versatile recombinant DNA technique.
Recombinant DNA technology largely depends upon Escherichia coli plasmid construction via restriction enzyme digestion and DNA ligation. Overlap extension PCR is another simple technique for constructing recombinant DNA but is not commonly used. This is likely due to the inefficiency of fusion after the annealing of overlaps that are generally designed from authentic sequences in the DNA fragments. In our current study, we describe the development of novel overlap sequences that can be used for the construction of fusion DNA fragments, including the one-step fusion of three fragments in a single PCR and also for in-frame fusions. Novel poly G or C stretches showed strong and also specific annealing to the complementary sequences in the fusion PCR. This DNA fusion method is thus both a simple and versatile recombinant DNA technique.
Author Cha-aim, Kamonchai
Hoshida, Hisashi
Akada, Rinji
Fukunaga, Tomoaki
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Keywords GFP
Annealing
SDS
Gene targeting
nt
kb
Overlap extension
Recombinant DNA
Saccharomyces cerevisiae
E. coli
RNase
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Snippet Recombinant DNA technology largely depends upon Escherichia coli plasmid construction via restriction enzyme digestion and DNA ligation. Overlap extension PCR...
Recombinant DNA technology largely depends upon Escherichia coli plasmid construction via restriction enzyme digestion and DNA ligation. Overlap extension PCR...
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StartPage 43
SubjectTerms Annealing
Base Sequence
Escherichia coli
GC Rich Sequence - genetics
Gene Targeting
Molecular Sequence Data
Overlap extension
Polymerase Chain Reaction - methods
Recombinant DNA
Reproducibility of Results
Saccharomyces cerevisiae
Saccharomyces cerevisiae - genetics
Title Reliable fusion PCR mediated by GC-rich overlap sequences
URI https://dx.doi.org/10.1016/j.gene.2008.12.014
https://www.ncbi.nlm.nih.gov/pubmed/19159667
https://search.proquest.com/docview/20379752
https://search.proquest.com/docview/66979855
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