2 Rolling Circle Replication
Mostrando 1-12 de 52 artigos, teses e dissertações.
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1. Sequência completa e caracterização do plasmídeo crípico pVCM1 isolado de Salmonella enterica / Complete sequence and carachterization of cryptic plasmid isoladed from Salmonella enterica
Salmonellas ssp são bactérias Gram negativas pertencente a família das enterobácterias. A S. entérica compreende cerca de 2.500 sorovares. Esses sorovares podem infectar vários hospedeiros incluindo aves, bovinos, suínos e humanos, e são os agentes causais das salmoneloses, um importante problema de saúde pública em todo mundo. Múltiplas cópias d
IBICT - Instituto Brasileiro de Informação em Ciência e Tecnologia. Publicado em: 26/03/2009
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2. Effects of 2'-deoxy-2'-azidocytidine on polyoma virus DNA replication: evidence for rolling circle-type mechanism.
Rolling circle-type molecules were found in polyoma virus-infected cells after inhibition of DNA synthesis with 2'-deoxy-2'-azidocytidine. The circular DNA molecules were always relaxed and of polyoma length. Most of the attached tails were less than two times the length of the polyoma genome, but tails with a length of up to 4.75 times the genome were also
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3. Intermediates in plasmid pT181 DNA replication.
Staphylococcus aureus plasmid pT181 is thought to replicate via an asymmetric rolling-circle mechanism. By studying pulse labeled replicative intermediates, here we report that pT181 replication involves: (1) a post-replicative hypersupercoiled monomer and (2) a partially replicated intermediate which lacks superhelicity but is unlike a typical rolling-circl
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4. The Arcanobacterium (Actinomyces) pyogenes Plasmid pAP1 Is a Member of the pIJ101/pJV1 Family of Rolling Circle Replication Plasmids
The 2.4-kb plasmid pAP1 from Arcanobacterium (Actinomyces) pyogenes had sequence similarity within the putative replication protein and double-stranded origin with the pIJ101/pJV1 family of plasmids. pJGS84, a derivative of pAP1 containing a kanamycin resistance gene, was able to replicate in Escherichia coli and Corynebacterium pseudotuberculosis, as well a
American Society for Microbiology.
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5. Real-time monitoring of rolling-circle amplification using a modified molecular beacon design
We describe a method to monitor rolling-circle replication of circular oligonucleotides in dual-color and in real-time using molecular beacons. The method can be used to study the kinetics of the polymerization reaction and to amplify and quantify circularized oligonucleotide probes in a rolling-circle amplification (RCA) reaction. Modified molecular beacons
Oxford University Press.
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6. Molecular analysis of the rolling-circle replicating plasmid pA1 of Lactobacillus plantarum A112.
Lactobacillus plantarum A112 has four different plasmids. Plus-origin-specific probes were used to determine that the smallest, cryptic plasmid, pA1 (2,820 bp), showed homology to the pE194 plasmid family. This subclass of plasmids uses the rolling-circle mode of replication. Subsequent analysis of plasmid pA1 demonstrated that it generates single-stranded D
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7. Isolation and Characterization of a Rolling-Circle-Type Plasmid from Rhodococcus erythropolis and Application of the Plasmid to Multiple-Recombinant-Protein Expression
We isolated, sequenced, and characterized the cryptic plasmid pRE8424 from Rhodococcus erythropolis DSM8424. Plasmid pRE8424 is a 5,987-bp circular plasmid; it carries six open reading frames and also contains cis-acting elements, specifically a single-stranded origin and a double-stranded origin, which are characteristic of rolling-circle-replication plasmi
American Society for Microbiology.
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8. A small plasmid, pCA2.4, from the cyanobacterium Synechocystis sp. strain PCC 6803 encodes a rep protein and replicates by a rolling circle mechanism.
Different cryptic plasmids are widely distributed in many strains of cyanobacteria. A small cryptic plasmid, pCA2.4, from Synechocystis strain PCC 6803 was completely sequenced, and its replication mode was determined. pCA2.4 contained 2,378 bp and encoded a replication (Rep) protein, designated RepA. An analysis of the deduced amino acid sequence revealed t
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9. Rolling-circle transposons in eukaryotes
All eukaryotic DNA transposons reported so far belong to a single category of elements transposed by the so-called “cut-and-paste” mechanism. Here, we report a previously unknown category of eukaryotic DNA transposons, Helitron, which transpose by rolling-circle replication. Autonomous Helitrons encode a 5′-to-3′ DNA helicase and nuclease/ligase simi
The National Academy of Sciences.
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10. A novel gene amplification system in yeast based on double rolling-circle replication
Gene amplification is involved in various biological phenomena such as cancer development and drug resistance. However, the mechanism is largely unknown because of the complexity of the amplification process. We describe a gene amplification system in Saccharomyces cerevisiae that is based on double rolling-circle replication utilizing break-induced replicat
Nature Publishing Group.
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11. Rolling Circle Replication of Hepatitis Delta Virus RNA Is Carried Out by Two Different Cellular RNA Polymerases
Hepatitis delta virus (HDV) contains a viroid-like circular RNA that is presumed to replicate via a rolling circle replication mechanism mediated by cellular RNA polymerases. However, the exact mechanism of rolling circle replication for HDV RNA and viroids is not clear. Using our recently described cDNA-free transfection system (L. E. Modahl and M. M. Lai,
American Society for Microbiology.
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12. Unique features of the mitochondrial rolling circle-plasmid mp1 from the higher plant Chenopodium album (L.).
We analyzed the structure and replication of the mitochondrial (mt) circular DNA plasmid mp1 (1309 bp) from the higher plant Chenopodium album(L.). Two dimensional gel electrophoresis (2DE) revealed the existence of oligomers of up to a decamer in addition to the prevailing monomeric form. The migration behavior of cut replication intermediates during 2DE wa