BIOMAT Database Logo BIOMAT Database Logo

Functional domains of Rts1 and P1 RepA proteins for initiation of replication. 1998

Y F Li, and T Hayashi, and Y Terawaki
Department of Bacteriology, Shinshu University School of Medicine, Matsumoto, Japan.

Rts1 RepA and P1 RepA are trans-acting proteins essential for initiation of replication of Rts1 and P1 plasmids, respectively. We recently found that P1 RepA bound in vitro to the Rts1 replication origin as strongly as Rts1 RepA and activated the origin in vivo. However, the ori activation was quite inefficient. This study shows that by replacing a small region of P1 RepA with the corresponding region of Rts1 RepA, the efficiency of Rts1 ori activation increased markedly. Interestingly, the same subregion of P1 RepA was found to be important for in vivo activation of the P1 origin. Thus, a region essential for efficient activation of the replication origin was assigned to the P1 RepA molecule as well as to the Rts1 RepA molecule. The region was distinct from a domain necessary for in vitro binding to the origin, although both regions were required for in vivo activation of the respective origin.

UI MeSH Term Description Entries
D011506 Proteins Linear POLYPEPTIDES that are synthesized on RIBOSOMES and may be further modified, crosslinked, cleaved, or assembled into complex proteins with several subunits. The specific sequence of AMINO ACIDS determines the shape the polypeptide will take, during PROTEIN FOLDING, and the function of the protein. Gene Products, Protein,Gene Proteins,Protein,Protein Gene Products,Proteins, Gene
D004261 DNA Replication The process by which a DNA molecule is duplicated. Autonomous Replication,Replication, Autonomous,Autonomous Replications,DNA Replications,Replication, DNA,Replications, Autonomous,Replications, DNA
D004265 DNA Helicases Proteins that catalyze the unwinding of duplex DNA during replication by binding cooperatively to single-stranded regions of DNA or to short regions of duplex DNA that are undergoing transient opening. In addition, DNA helicases are DNA-dependent ATPases that harness the free energy of ATP hydrolysis to translocate DNA strands. ATP-Dependent DNA Helicase,DNA Helicase,DNA Unwinding Protein,DNA Unwinding Proteins,ATP-Dependent DNA Helicases,DNA Helicase A,DNA Helicase E,DNA Helicase II,DNA Helicase III,ATP Dependent DNA Helicase,ATP Dependent DNA Helicases,DNA Helicase, ATP-Dependent,DNA Helicases, ATP-Dependent,Helicase, ATP-Dependent DNA,Helicase, DNA,Helicases, ATP-Dependent DNA,Helicases, DNA,Protein, DNA Unwinding,Unwinding Protein, DNA,Unwinding Proteins, DNA
D004268 DNA-Binding Proteins Proteins which bind to DNA. The family includes proteins which bind to both double- and single-stranded DNA and also includes specific DNA binding proteins in serum which can be used as markers for malignant diseases. DNA Helix Destabilizing Proteins,DNA-Binding Protein,Single-Stranded DNA Binding Proteins,DNA Binding Protein,DNA Single-Stranded Binding Protein,SS DNA BP,Single-Stranded DNA-Binding Protein,Binding Protein, DNA,DNA Binding Proteins,DNA Single Stranded Binding Protein,DNA-Binding Protein, Single-Stranded,Protein, DNA-Binding,Single Stranded DNA Binding Protein,Single Stranded DNA Binding Proteins
D004926 Escherichia coli A species of gram-negative, facultatively anaerobic, rod-shaped bacteria (GRAM-NEGATIVE FACULTATIVELY ANAEROBIC RODS) commonly found in the lower part of the intestine of warm-blooded animals. It is usually nonpathogenic, but some strains are known to produce DIARRHEA and pyogenic infections. Pathogenic strains (virotypes) are classified by their specific pathogenic mechanisms such as toxins (ENTEROTOXIGENIC ESCHERICHIA COLI), etc. Alkalescens-Dispar Group,Bacillus coli,Bacterium coli,Bacterium coli commune,Diffusely Adherent Escherichia coli,E coli,EAggEC,Enteroaggregative Escherichia coli,Enterococcus coli,Diffusely Adherent E. coli,Enteroaggregative E. coli,Enteroinvasive E. coli,Enteroinvasive Escherichia coli
D014764 Viral Proteins Proteins found in any species of virus. Gene Products, Viral,Viral Gene Products,Viral Gene Proteins,Viral Protein,Protein, Viral,Proteins, Viral
D015534 Trans-Activators Diffusible gene products that act on homologous or heterologous molecules of viral or cellular DNA to regulate the expression of proteins. Nuclear Trans-Acting Factor,Trans-Acting Factors,Trans-Acting Factor,Trans-Activator,Transactivator,Transactivators,Factor, Nuclear Trans-Acting,Factor, Trans-Acting,Factors, Trans-Acting,Nuclear Trans Acting Factor,Trans Acting Factor,Trans Acting Factors,Trans Activator,Trans Activators,Trans-Acting Factor, Nuclear
D017101 Bacteriophage P1 A species of temperate bacteriophage in the genus P1-like viruses, family MYOVIRIDAE, which infects E. coli. It is the largest of the COLIPHAGES and consists of double-stranded DNA, terminally redundant, and circularly permuted. Coliphage P1,Enterobacteria phage P1,P1 Phage,Phage P1,P1 Phages,Phage, P1,Phages, P1
D018741 Replication Origin A unique DNA sequence of a replicon at which DNA REPLICATION is initiated and proceeds bidirectionally or unidirectionally. It contains the sites where the first separation of the complementary strands occurs, a primer RNA is synthesized, and the switch from primer RNA to DNA synthesis takes place. (Rieger et al., Glossary of Genetics: Classical and Molecular, 5th ed) Origin of Replication,ori Region,Origin, Replication,Origins, Replication,Region, ori,Regions, ori,Replication Origins,ori Regions

Related Publications

Y F Li, and T Hayashi, and Y Terawaki
Analysis of functional domains of Rts1 RepA by means of a series of hybrid proteins with P1 RepA.
July 1995, Journal of bacteriology,
Y F Li, and T Hayashi, and Y Terawaki
Interaction of P1 RepA with replication origin of plasmid Rts1: capability of an initiator protein inducing replication from a foreign origin.
December 1997, Biochemical and biophysical research communications,
Y F Li, and T Hayashi, and Y Terawaki
Replication of mini-P1 plasmid DNA in vitro requires two initiation proteins, encoded by the repA gene of phage P1 and the dnaA gene of Escherichia coli.
June 1987, Proceedings of the National Academy of Sciences of the United States of America,
Y F Li, and T Hayashi, and Y Terawaki
P1 plasmid replication. Purification and DNA-binding activity of the replication protein RepA.
March 1986, The Journal of biological chemistry,
Y F Li, and T Hayashi, and Y Terawaki
Importance of the C terminus of plasmid Rts1 RepA protein for replication and incompatibility of the plasmid.
March 1988, Journal of bacteriology,
Y F Li, and T Hayashi, and Y Terawaki
Purification of Rts1 RepA protein and binding of the protein to mini-Rts1 DNA.
September 1988, Journal of bacteriology,
Y F Li, and T Hayashi, and Y Terawaki
Monomers and dimers of the RepA protein in plasmid pSC101 replication: domains in RepA.
October 1992, Proceedings of the National Academy of Sciences of the United States of America,
Y F Li, and T Hayashi, and Y Terawaki
Investigating the role of Rts1 in DNA replication initiation.
January 2018, Wellcome open research,
Y F Li, and T Hayashi, and Y Terawaki
Effects of mutations in the repA gene of plasmid Rts1 on plasmid replication and autorepressor function.
February 1990, Journal of bacteriology,
Y F Li, and T Hayashi, and Y Terawaki
P1 plasmid replication: multiple functions of RepA protein at the origin.
May 1985, Proceedings of the National Academy of Sciences of the United States of America,
Copied contents to your clipboard!