Fluorescence recovery assay

A continuous assay for processive DNA polymerases applied specifically to DNA polymerase III holoenzyme

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15 Citations (Scopus)

Abstract

A continuous assay was developed for processive DNA polymerases. The specific enzyme used to develop the assay was the most processive polymerase known, Escherichia coliDNA polymerase III holoenzyme. The assay was based upon the recovery of the intrinsic fluorescence of single-stranded DNA binding protein (SSB) as it was displaced from the DNA template during DNA synthesis. The intrinsic fluorescence of SSB was quenched by as much as 80% when it bound to single-stranded DNA. As the DNA was replicated, SSB was displaced and recovered its fluorescence. The amount of fluorescence recovered was directly proportional to the amount of DNA synthesized and was used to quantitate the rate of DNA synthesis. However, since 50 to 60 nucleotides must be replicated for every SSB tetramer released, the assay is expected to work best for processive DNA polymerases. The only requirement for using this assay with other DNA polymerases is that they be able to synthesize DNA on a template coated with SSB. The replication SSBs do not pose an obstacle to the assay because they all appear to have intrinsic fluorescence that is sensitive to their ssDNA-bound state.

Original languageEnglish (US)
Pages (from-to)180-189
Number of pages10
JournalAnalytical Biochemistry
Volume232
Issue number2
DOIs
StatePublished - Dec 10 1995

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DNA Polymerase III
Holoenzymes
DNA-Directed DNA Polymerase
Assays
Fluorescence
Recovery
DNA
Escherichia
Single-Stranded DNA
DNA-Binding Proteins
Nucleotides
Enzymes

ASJC Scopus subject areas

  • Biophysics
  • Biochemistry
  • Molecular Biology
  • Cell Biology

Cite this

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title = "Fluorescence recovery assay: A continuous assay for processive DNA polymerases applied specifically to DNA polymerase III holoenzyme",
abstract = "A continuous assay was developed for processive DNA polymerases. The specific enzyme used to develop the assay was the most processive polymerase known, Escherichia coliDNA polymerase III holoenzyme. The assay was based upon the recovery of the intrinsic fluorescence of single-stranded DNA binding protein (SSB) as it was displaced from the DNA template during DNA synthesis. The intrinsic fluorescence of SSB was quenched by as much as 80{\%} when it bound to single-stranded DNA. As the DNA was replicated, SSB was displaced and recovered its fluorescence. The amount of fluorescence recovered was directly proportional to the amount of DNA synthesized and was used to quantitate the rate of DNA synthesis. However, since 50 to 60 nucleotides must be replicated for every SSB tetramer released, the assay is expected to work best for processive DNA polymerases. The only requirement for using this assay with other DNA polymerases is that they be able to synthesize DNA on a template coated with SSB. The replication SSBs do not pose an obstacle to the assay because they all appear to have intrinsic fluorescence that is sensitive to their ssDNA-bound state.",
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N2 - A continuous assay was developed for processive DNA polymerases. The specific enzyme used to develop the assay was the most processive polymerase known, Escherichia coliDNA polymerase III holoenzyme. The assay was based upon the recovery of the intrinsic fluorescence of single-stranded DNA binding protein (SSB) as it was displaced from the DNA template during DNA synthesis. The intrinsic fluorescence of SSB was quenched by as much as 80% when it bound to single-stranded DNA. As the DNA was replicated, SSB was displaced and recovered its fluorescence. The amount of fluorescence recovered was directly proportional to the amount of DNA synthesized and was used to quantitate the rate of DNA synthesis. However, since 50 to 60 nucleotides must be replicated for every SSB tetramer released, the assay is expected to work best for processive DNA polymerases. The only requirement for using this assay with other DNA polymerases is that they be able to synthesize DNA on a template coated with SSB. The replication SSBs do not pose an obstacle to the assay because they all appear to have intrinsic fluorescence that is sensitive to their ssDNA-bound state.

AB - A continuous assay was developed for processive DNA polymerases. The specific enzyme used to develop the assay was the most processive polymerase known, Escherichia coliDNA polymerase III holoenzyme. The assay was based upon the recovery of the intrinsic fluorescence of single-stranded DNA binding protein (SSB) as it was displaced from the DNA template during DNA synthesis. The intrinsic fluorescence of SSB was quenched by as much as 80% when it bound to single-stranded DNA. As the DNA was replicated, SSB was displaced and recovered its fluorescence. The amount of fluorescence recovered was directly proportional to the amount of DNA synthesized and was used to quantitate the rate of DNA synthesis. However, since 50 to 60 nucleotides must be replicated for every SSB tetramer released, the assay is expected to work best for processive DNA polymerases. The only requirement for using this assay with other DNA polymerases is that they be able to synthesize DNA on a template coated with SSB. The replication SSBs do not pose an obstacle to the assay because they all appear to have intrinsic fluorescence that is sensitive to their ssDNA-bound state.

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