Literature DB >> 7524099

A transcribing RNA polymerase molecule survives DNA replication without aborting its growing RNA chain.

B Liu1, M L Wong, B Alberts.   

Abstract

We have demonstrated elsewhere that a precisely placed, stalled Escherichia coli RNA polymerase ternary transcription complex (polymerase-RNA-DNA) stays on the DNA template after passage of a DNA replication fork. Moreover, the bypassed complex remains competent to resume elongation of its bound RNA chain. But the simplicity of our experimental system left several important questions unresolved: in particular, might the observation be relevant only to the particular ternary complex that we studied, and can the finding be generalized to a transcribing instead of a stalled RNA polymerase? To address these issues, we have created three additional ternary transcription complexes and examined their fates after passage of a replication fork. In addition, we have examined the fate of moving RNA polymerase molecules during DNA replication. The results suggest that our previous finding applies to all transcription intermediates of the E. coli RNA polymerase.

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Year:  1994        PMID: 7524099      PMCID: PMC45081          DOI: 10.1073/pnas.91.22.10660

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  23 in total

1.  SEQUENTIAL REPLICATION OF THE BACILLUS SUBTILIS CHROMOSOME. 3. REGULATION OF INITIATION.

Authors:  H YOSHIKAWA; A O'SULLIVAN; N SUEOKA
Journal:  Proc Natl Acad Sci U S A       Date:  1964-10       Impact factor: 11.205

2.  Purification of gene 41 protein of bacteriophage T4.

Authors:  C F Morris; L A Moran; B M Alberts
Journal:  J Biol Chem       Date:  1979-07-25       Impact factor: 5.157

3.  Purification of the gene 43, 44, 45, and 62 proteins of the bacteriophage T4 DNA replication apparatus.

Authors:  C F Morris; H Hama-Inaba; D Mace; N K Sinha; B Alberts
Journal:  J Biol Chem       Date:  1979-07-25       Impact factor: 5.157

4.  In vitro complementation as an assay for new proteins required for bacteriophage T4 DNA replication: purification of the complex specified by T4 genes 44 and 62.

Authors:  J Barry; B Alberts
Journal:  Proc Natl Acad Sci U S A       Date:  1972-09       Impact factor: 11.205

5.  A new preparation method for dark-field electron microscopy of biomacromolecules.

Authors:  J Dubochet; M Ducommun; M Zollinger; E Kellenberger
Journal:  J Ultrastruct Res       Date:  1971-04

6.  DNA synthesis during the division cycle of rapidly growing Escherichia coli B/r.

Authors:  C E Helmstetter
Journal:  J Mol Biol       Date:  1968-02-14       Impact factor: 5.469

7.  Properties of the T4 bacteriophage DNA replication apparatus: the T4 dda DNA helicase is required to pass a bound RNA polymerase molecule.

Authors:  P Bedinger; M Hochstrasser; C V Jongeneel; B M Alberts
Journal:  Cell       Date:  1983-08       Impact factor: 41.582

Review 8.  Protein-nucleic acid interactions in transcription: a molecular analysis.

Authors:  P H von Hippel; D G Bear; W D Morgan; J A McSwiggen
Journal:  Annu Rev Biochem       Date:  1984       Impact factor: 23.643

9.  Cleavage site of bacteriophage fd gene II-protein in the origin of viral strand replication.

Authors:  T F Meyer; K Geider; C Kurz; H Schaller
Journal:  Nature       Date:  1979-03-22       Impact factor: 49.962

10.  RNA priming of DNA replication by bacteriophage T4 proteins.

Authors:  N G Nossal
Journal:  J Biol Chem       Date:  1980-03-10       Impact factor: 5.157
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  16 in total

1.  Characterization of DNA synthesis catalyzed by bacteriophage T4 replication complexes reconstituted on synthetic circular substrates.

Authors:  Farid A Kadyrov; John W Drake
Journal:  Nucleic Acids Res       Date:  2002-10-15       Impact factor: 16.971

2.  Bacteriophage phi29 DNA replication arrest caused by codirectional collisions with the transcription machinery.

Authors:  M Elías-Arnanz; M Salas
Journal:  EMBO J       Date:  1997-09-15       Impact factor: 11.598

3.  Reversible stalling of transcription elongation complexes by high pressure.

Authors:  L Erijman; R M Clegg
Journal:  Biophys J       Date:  1998-07       Impact factor: 4.033

Review 4.  Rescuing Replication from Barriers: Mechanistic Insights from Single-Molecule Studies.

Authors:  Bo Sun
Journal:  Mol Cell Biol       Date:  2019-04-30       Impact factor: 4.272

5.  Sequential eviction of crowded nucleoprotein complexes by the exonuclease RecBCD molecular motor.

Authors:  Tsuyoshi Terakawa; Sy Redding; Timothy D Silverstein; Eric C Greene
Journal:  Proc Natl Acad Sci U S A       Date:  2017-07-17       Impact factor: 11.205

6.  A structural feature of Dda helicase which enhances displacement of streptavidin and trp repressor from DNA.

Authors:  Alicia K Byrd; Emory G Malone; Lindsey Hazeslip; Maroof Khan Zafar; David K Harrison; Matthew D Thompson; Jun Gao; Senthil K Perumal; John C Marecki; Kevin D Raney
Journal:  Protein Sci       Date:  2021-11-22       Impact factor: 6.725

Review 7.  Visualizing protein movement on DNA at the single-molecule level using DNA curtains.

Authors:  Timothy D Silverstein; Bryan Gibb; Eric C Greene
Journal:  DNA Repair (Amst)       Date:  2014-03-02

8.  Single-molecule imaging reveals mechanisms of protein disruption by a DNA translocase.

Authors:  Ilya J Finkelstein; Mari-Liis Visnapuu; Eric C Greene
Journal:  Nature       Date:  2010-11-24       Impact factor: 49.962

9.  Rep provides a second motor at the replisome to promote duplication of protein-bound DNA.

Authors:  Colin P Guy; John Atkinson; Milind K Gupta; Akeel A Mahdi; Emma J Gwynn; Christian J Rudolph; Peter B Moon; Ingeborg C van Knippenberg; Chris J Cadman; Mark S Dillingham; Robert G Lloyd; Peter McGlynn
Journal:  Mol Cell       Date:  2009-11-25       Impact factor: 17.970

10.  Interference between DNA replication and transcription as a cause of genomic instability.

Authors:  Yea-Lih Lin; Philippe Pasero
Journal:  Curr Genomics       Date:  2012-03       Impact factor: 2.236
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