Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.7 (DNA polymerase)
 17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The DnaX complex of the DNA polymerase holoenzyme assembles the beta(2) processivity factor onto the primed template enabling highly processive replication. The key ATPases within this complex are tau and gamma, alternative frameshift products of the dnaX gene. Of the five domains of tau, I-III are shared with gamma In vivo, gamma binds the auxiliary subunits deltadelta' and chipsi (Glover, B. P., and McHenry, C. S. (2000) J. Biol. Chem. 275, 3017-3020). To localize deltadelta' and chipsi binding domains within gamma domains I-III, we measured the binding of purified biotin-tagged DnaX proteins lacking specific domains to deltadelta' and chipsi by surface plasmon resonance. Fusion proteins containing either DnaX domains I-III or domains III-V bound deltadelta' and chipsi subunits. A DnaX protein only containing domains I and II did not bind deltadelta' or chipsi. The binding affinity of chipsi for DnaX domains I-III and domains III-V was the same as that of chipsi for full-length tau, indicating that domain III contained all structural elements required for chipsi binding. Domain III of tau also contained deltadelta' binding sites, although the interaction between deltadelta' and domains III-V of tau was 10-fold weaker than the interaction between deltadelta' and full length tau. The presence of both delta and chipsi strengthened the delta'-C(0)tau interaction by at least 15-fold. Domain III was the only domain common to all of tau fusion proteins whose interaction with delta' was enhanced in the presence of delta and chipsi. Thus, domain III of the DnaX proteins not only contains the deltadelta' and chipsi binding sites but also contains the elements required for the positive cooperative assembly of the DnaX complex.
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PMID:Tau binds and organizes Escherichia coli replication proteins through distinct domains. Domain III, shared by gamma and tau, binds delta delta ' and chi psi. 1107 42

In addition to the well characterized processive replication reaction catalyzed by the DNA polymerase III holoenzyme on single-stranded DNA templates, the enzyme possesses an intrinsic strand displacement activity on flapped templates. The strand displacement activity is distinguished from the single-stranded DNA-templated reaction by a high dependence upon single-stranded DNA binding protein and an inability of gamma-complex to support the reaction in the absence of tau. However, if gamma-complex is present to load beta(2), a truncated tau protein containing only domains III-V will suffice. This truncated protein is sufficient to bind both the alpha subunit of DNA polymerase (Pol) III and chipsi. This is reminiscent of the minimal requirements for Pol III to replicate short single-stranded DNA-binding protein (SSB)-coated templates where tau is only required to serve as a scaffold to hold Pol III and chi in the same complex (Glover, B., and McHenry, C. (1998) J. Biol. Chem. 273, 23476-23484). We propose a model in which strand displacement by DNA polymerase III holoenzyme depends upon a Pol III-tau-psi-chi-SSB binding network, where SSB is bound to the displaced strand, stabilizing the Pol III-template interaction. The same interaction network is probably important for stabilizing the leading strand polymerase interactions with authentic replication forks. The specificity constant (k(cat)/K(m)) for the strand displacement reaction is approximately 300-fold less favorable than reactions on single-stranded templates and proceeds with a slower rate (150 nucleotides/s) and only moderate processivity (approximately 300 nucleotides). PriA, the initiator of replication restart on collapsed or misassembled replication forks, blocks the strand displacement reaction, even if added to an ongoing reaction.
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PMID:Strand displacement by DNA polymerase III occurs through a tau-psi-chi link to single-stranded DNA-binding protein coating the lagging strand template. 1974 91