Search

Your search keyword '"Rolling circle"' showing total 97 results
Start Over Descriptor "Rolling circle"
97 results on '"Rolling circle"'

1. New cycloid rotor profiles design under different rolling circle radii for Roots vacuum pumps

Author

Zhengqing Li and Xiaojun Wang

Subjects
Roots vacuum pump, Cycloid, Conjugate, Rotor, Profile, Rolling circle, Science, Technology
Abstract

Article highlights 1. Two new rotor profiles are proposed and designed to improve the performance for Roots vacuum pump. 2. For the new rotor profile formed by a large rolling circle, its volume utilization rate is greater than 60%, which can pump more gas in a cycle and significantly better than that of traditional profile, such as arc profile. 3. For the new rotor profile formed by a small rolling circle, its pressure ratio is greater than traditional rotor profiles because its length of minimum gap between rotor profile and chamber is critical increased to decrease the back flow.

Published
2022
Full Text
View/download PDF

2. Rolling Circles as a Means of Encoding Genes in the RNA World.

Author

Rivera-Madrinan, Felipe, Di Iorio, Katherine, and Higgs, Paul G.

Abstract

The rolling circle mechanism found in viroids and some RNA viruses is a likely way that replication could have begun in the RNA World. Here, we consider simulations of populations of protocells, each containing multiple copies of rolling circle RNAs that can replicate non-enzymatically. The mechanism requires the presence of short self-cleaving ribozymes such as hammerheads, which can cleave and re-circularize RNA strands. A rolling circle must encode a hammerhead and the complement of a hammerhead, so that both plus and minus strands can cleave. Thus, the minimal functional length is twice the length of the hammerhead sequence. Selection for speed of replication will tend to reduce circles to this minimum length. However, if sequence errors occur when copying the hammerhead sequence, this prevents cleavage at one point, but still allows cleavage on the next passage around the rolling circle. Thus, there is a natural doubling mechanism that creates strands that are multiple times the length of the minimal sequence. This can provide space for the origin of new genes with beneficial functions. We show that if a beneficial gene appears in this new space, the longer sequence with the beneficial function can be selected, even though it replicates more slowly. This provides a route for the evolution of longer circles encoding multiple genes. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

3. Characterization and functional insights of the novel RC-type plasmid pAnox1 from Anoxybacillus gonensis 05S15.

Author

Cubukci, Gamze, Ayyildiz, Hatice, Inan Bektas, Kadriye, Belduz, Ali Osman, and Guler, Halil Ibrahim

Subjects
*PALINDROMIC DNA, *SOUTHERN blot, *BIOTECHNOLOGY, *BASE pairs, *PROTEIN engineering
Abstract

The plasmid pAnox1, isolated from Anoxybacillus gonensis 05S15, was sequenced and characterized as a circular, double-stranded DNA molecule of 1592 base pairs with a GC content of 40.01 %. Despite its cryptic nature and small genome, bioinformatic analyses identified conserved motifs associated with replication-related proteins, though BLAST searches revealed no significant homology with other plasmids. The plasmid genome contains five putative Open Reading Frames (ORFs), four palindromic sequences, and two direct repeats on both strands, suggesting regulatory roles. Electron microscopy and Southern hybridization studies confirmed that pAnox1 follows a Rolling Circle (RC) replication mode. The study further demonstrated that the plasmid encodes three distinct transcripts: ORF-1 and ORF-3 are oriented in the same direction, while ORF-5 is on the opposite strand. RACE and LACE analyses revealed transcript lengths of 903 bp for ORF1, 499 bp for ORF3, and 211 bp for ORF5. Quantitative real-time PCR estimated the relative copy number of pAnox1 at 127 ± 2 copies per chromosomal equivalent. This novel RC-type plasmid in the Anoxybacillus genome holds promise as a cloning and expression vector for biotechnological applications and in vivo protein engineering. • A novel and cryptic plasmid from Anoxybacillus gonensis 05S15. • pAnox1 is a small, double stranded and 1562 bp circular molecule with 40.01 % GC content. • pAnox1 replicates via Rolling Circle (RC) Replication mechanism. • The copy number of pAnox1 was calculated by qPCR as 127 ± 2 copies per chromosome. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

4. Rolling circle RNA synthesis catalyzed by RNA

Author

Emil Laust Kristoffersen, Matthew Burman, Agnes Noy, and Philipp Holliger

Subjects
origin of life, rolling circle, circular RNA, ribozymes, Medicine, Science, Biology (General), QH301-705.5
Abstract

RNA-catalyzed RNA replication is widely considered a key step in the emergence of life’s first genetic system. However, RNA replication can be impeded by the extraordinary stability of duplex RNA products, which must be dissociated for re-initiation of the next replication cycle. Here, we have explored rolling circle synthesis (RCS) as a potential solution to this strand separation problem. We observe sustained RCS by a triplet polymerase ribozyme beyond full-length circle synthesis with strand displacement yielding concatemeric RNA products. Furthermore, we show RCS of a circular Hammerhead ribozyme capable of self-cleavage and re-circularization. Thus, all steps of a viroid-like RNA replication pathway can be catalyzed by RNA alone. Finally, we explore potential RCS mechanisms by molecular dynamics simulations, which indicate a progressive build-up of conformational strain upon RCS with destabilization of nascent strand 5′- and 3′-ends. Our results have implications for the emergence of RNA replication and for understanding the potential of RNA to support complex genetic processes.

Published
2022
Full Text
View/download PDF

6. Rolling Circles as a Means of Encoding Genes in the RNA World

Author

Felipe Rivera-Madrinan, Katherine Di Iorio, and Paul G. Higgs

Subjects
rolling circle, RNA world, computer simulation, error threshold, Science
Abstract

The rolling circle mechanism found in viroids and some RNA viruses is a likely way that replication could have begun in the RNA World. Here, we consider simulations of populations of protocells, each containing multiple copies of rolling circle RNAs that can replicate non-enzymatically. The mechanism requires the presence of short self-cleaving ribozymes such as hammerheads, which can cleave and re-circularize RNA strands. A rolling circle must encode a hammerhead and the complement of a hammerhead, so that both plus and minus strands can cleave. Thus, the minimal functional length is twice the length of the hammerhead sequence. Selection for speed of replication will tend to reduce circles to this minimum length. However, if sequence errors occur when copying the hammerhead sequence, this prevents cleavage at one point, but still allows cleavage on the next passage around the rolling circle. Thus, there is a natural doubling mechanism that creates strands that are multiple times the length of the minimal sequence. This can provide space for the origin of new genes with beneficial functions. We show that if a beneficial gene appears in this new space, the longer sequence with the beneficial function can be selected, even though it replicates more slowly. This provides a route for the evolution of longer circles encoding multiple genes.

Published
2022
Full Text
View/download PDF

7. Rolling circle replication and bypass of damaged nucleotides

Author

Forslund, Josefin M. E., Stojkovič, Gorazd, Wanrooij, Sjoerd, Forslund, Josefin M. E., Stojkovič, Gorazd, and Wanrooij, Sjoerd

Abstract

Faithful mitochondrial DNA (mtDNA) replication is critical for the proper function of the oxidative phosphorylation system. Problems with mtDNA maintenance, such as replication stalling upon encountering DNA damage, impair this vital function and can potentially lead to disease. An in vitro reconstituted mtDNA replication system can be used to investigate how the mtDNA replisome deals with, for example, oxidatively or UV-damaged DNA. In this chapter, we provide a detailed protocol on how to study the bypass of different types of DNA damage using a rolling circle replication assay. The assay takes advantage of purified recombinant proteins and can be adapted to the examination of various aspects of mtDNA maintenance.

Published
2023
Full Text
View/download PDF

13. 滚圆法用于空间点聚类的研究.

Author

职露, 余旭初, and 李光强

Abstract

As a main tool of spatial data mining, spatial point clustering does offer interesting methods to address data effectively. At present, the study of spatial point clustering is mature and current methods may divide the initial data into different clusters. However, few methods consider geographi-cal features by linear distribution. Here, a novel spatial point clustering using the rolling circle (SPCURC) is proposed, which derives from the rolling sphere method. SPCURC uses a circle with a known radius is used to roll from the initial point to another point. The rolling does not stop until the condition is met. Then, a polygon cluster or a linear cluster will be generated with points contacted by the rolling circle.This paper also introduces the theory, the detailed calculation procedure and the algorithm complexity. In order to verify the proposed method, the simulated and actual experiments have been performed respectively. DBSCAN algorithm and hierarchical clustering method were employed as the comparative clustering methods. With two synthetic data sets, simulated experiments show that SPCURC is superior to the comparative methods in acquiring linear clusters and can get different types of clusters no matter whether the areas are low-density or high-density. With two real datasets, which contain a residential area in the south and some global seismic data, the actual experiments confirm that SPCURC has the advantages and the applicability to find the clusters that are in a linear way by comparison to DBSCAN and hierarchical clustering. The results indicate that the proposed algorithm is feasible, effective and practical providing the linear clusters and the clustering maps tallying with the initial data [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
View/download PDF

14. Dynamics in Copy Numbers of Five Plasmids of a Dairy Lactococcus lactis Strain under Dairy-Related Conditions Including Near-Zero Growth Rates.

Author

van Mastrigt, Oscar, Lommers, Marcel M. A. N., de Vries, Yorick C., Abee, Tjakko, and Smid, Eddy J.

Subjects
*DNA copy number variations, *LACTOCOCCUS lactis, *DNA replication, *CITRATES, *PLASMIDS
Abstract

Lactic acid bacteria can carry multiple plasmids affecting their performance in dairy fermentations. The expression of plasmid-borne genes and the activity of the corresponding proteins are severely affected by changes in the numbers of plasmid copies. We studied the impact of growth rate on the dynamics of plasmid copy numbers at high growth rates in chemostat cultures and down to nearzero growth rates in retentostat cultures. Five plasmids of the dairy strain Lactococcus lactis FM03-V1 were selected, and these varied in size (3 to 39 kb), in replication mechanism (theta or rolling circle), and in putative (dairy-associated) functions. The copy numbers ranged from 1.5 to 40.5, and the copy number of theta-type replicating plasmids was negatively correlated to the plasmid size. Despite the extremely wide range of growth rates (0.0003 h-1 to 0.6 h-1), the copy numbers of the five plasmids were stable and only slightly increased at near-zero growth rates, showing that the plasmid replication rate was strictly controlled. One low-copy-number plasmid, carrying a large exopolysaccharide gene cluster, was segregationally unstable during retentostat cultivations, reflected in a complete loss of the plasmid in one of the retentostat cultures. The copy number of the five plasmids was also hardly affected by varying the pH value, nutrient limitation, or the presence of citrate (maximum 2.2-fold), signifying the stability in copy number of the plasmids. [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
View/download PDF

23. Unveiling the mystery of mitochondrial DNA replication in yeasts.

Author

Chen, Xin Jie and Clark-Walker, George Desmond

Subjects
*MITOCHONDRIAL DNA, *DNA replication, *CHEMICAL synthesis, *MITOCHONDRIA, *DNA primers
Abstract

Conventional DNA replication is initiated from specific origins and requires the synthesis of RNA primers for both the leading and lagging strands. In contrast, the replication of yeast mitochondrial DNA is origin-independent. The replication of the leading strand is likely primed by recombinational structures and proceeded by a rolling circle mechanism. The coexistent linear and circular DNA conformers facilitate the recombination-based initiation. The replication of the lagging strand is poorly understood. Re-evaluation of published data suggests that the rolling circle may also provide structures for the synthesis of the lagging-strand by mechanisms such as template switching. Thus, the coupling of recombination with rolling circle replication and possibly, template switching, may have been selected as an economic replication mode to accommodate the reductive evolution of mitochondria. Such a replication mode spares the need for conventional replicative components, including those required for origin recognition/remodelling, RNA primer synthesis and lagging-strand processing. [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
View/download PDF

24. Rolling circle RNA synthesis catalyzed by RNA

Author

Kristoffersen, Emil Laust, Burman, Matthew, Noy, Agnes, Holliger, Philipp, Kristoffersen, Emil Laust [0000-0001-8965-8201], Noy, Agnes [0000-0003-0673-8949], Holliger, Philipp [0000-0002-3440-9854], and Apollo - University of Cambridge Repository

Subjects
Recombination, Genetic, General Immunology and Microbiology, none, General Neuroscience, chemical biology, circular RNA, macromolecular substances, General Medicine, ribozymes, Virus Replication, origin of life, Catalysis, Viroids, General Biochemistry, Genetics and Molecular Biology, rolling circle, biochemistry, RNA, RNA, Viral
Abstract

RNA-catalyzed RNA replication is widely considered a key step in the emergence of life's first genetic system. However, RNA replication can be impeded by the extraordinary stability of duplex RNA products, which must be dissociated for re-initiation of the next replication cycle. Here, we have explored rolling circle synthesis (RCS) as a potential solution to this strand separation problem. We observe sustained RCS by a triplet polymerase ribozyme beyond full-length circle synthesis with strand displacement yielding concatemeric RNA products. Furthermore, we show RCS of a circular Hammerhead ribozyme capable of self-cleavage and re-circularization. Thus, all steps of a viroid-like RNA replication pathway can be catalyzed by RNA alone. Finally, we explore potential RCS mechanisms by molecular dynamics simulations, which indicate a progressive build-up of conformational strain upon RCS with destabilization of nascent strand 5'- and 3'-ends. Our results have implications for the emergence of RNA replication and for understanding the potential of RNA to support complex genetic processes.Many organisms today rely on a trio of molecules for their survival: DNA, to store their genetic information; proteins, to conduct the biological processes required for growth or replication; and RNA, to mainly act as an intermediary between DNA and proteins

Published
2022
Full Text
View/download PDF

27. Non-canonical Helitrons in Fusarium oxysporum.

Author

Chellapan, Biju Vadakkemukadiyil, van Dam, Peter, Rep, Martijn, Cornelissen, Ben J. C., and Fokkens, Like

Subjects
*FUSARIUM oxysporum, *GENOMES, *TRANSPOSONS, *BIOINFORMATICS, *FUNGI
Abstract

Background: Helitrons are eukaryotic rolling circle transposable elements that can have a large impact on host genomes due to their copy-number and their ability to capture and copy genes and regulatory elements. They occur widely in plants and animals, and have thus far been relatively little investigated in fungi. Results: Here, we comprehensively survey Helitrons in several completely sequenced genomes representing the F. oxysporum species complex (FOSC). We thoroughly characterize 5 different Helitron subgroups and determine their impact on genome evolution and assembly in this species complex. FOSC Helitrons resemble members of the Helitron2 variant that includes Helentrons and DINEs. The fact that some Helitrons appeared to be still active in FOSC provided the opportunity to determine whether Helitrons occur as a circular intermediate in FOSC. We present experimental evidence suggesting that at least one Helitron subgroup occurs with joined ends, suggesting a circular intermediate. We extend our analyses to other Pezizomycotina and find that most fungal Helitrons we identified group phylogenetically with Helitron2 and probably have similar characteristics. Conclusions: FOSC genomes harbour non-canonical Helitrons that are characterized by asymmetric terminal inverted repeats, show hallmarks of recent activity and likely transpose via a circular intermediate. Bioinformatic analyses indicate that they are representative of a large reservoir of fungal Helitrons that thus far has not been characterized. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

28. Immobilized rolling circle amplification on extended-gate field-effect transistors with integrated readout circuits for early detection of platelet-derived growth factor.

Author

Lin, Ming-Yu, Hsu, Wen-Yang, Yang, Yuh-Shyong, Huang, Jo-Wen, Chung, Yueh-Lin, and Chen, Hsin

Subjects
*PLATELET-derived growth factor, *NUCLEIC acid amplification techniques, *COMPLEMENTARY metal oxide semiconductors, *PROTEIN analysis, *EARLY detection of cancer, *FIELD-effect transistors, *DNA nanotechnology, *INTEGRATED circuits
Abstract

Detection of tumor-related proteins with high specificity and sensitivity is important for early diagnosis and prognosis of cancers. While protein sensors based on antibodies are not easy to keep for a long time, aptamers (single-stranded DNA) are found to be a good alternative for recognizing tumor-related protein specifically. This study investigates the feasibility of employing aptamers to recognize the platelet-derived growth factor (PDGF) specifically and subsequently triggering rolling circle amplification (RCA) of DNAs on extended-gate field-effect transistors (EGFETs) to enhance the sensitivity. The EGFETs are fabricated by the standard CMOS technology and integrated with readout circuits monolithically. The monolithic integration not only avoids the wiring complexity for a large sensor array but also enhances the sensor reliability and facilitates massive production for commercialization. With the RCA primers immobilized on the sensory surface, the protein signal is amplified as the elongation of DNA, allowing the EGFET to achieve a sensitivity of 8.8 pM, more than three orders better than that achieved by conventional EGFETs. Moreover, the responses of EGFETs are able to indicate quantitatively the reaction rates of RCA, facilitating the estimation on the protein concentration. Our experimental results demonstrate that immobilized RCA on EGFETs is a useful, label-free method for early diagnosis of diseases related to low-concentrated tumor makers (e.g., PDGF) for serum sample, as well as for monitoring the synthesis of various DNA nanostructures in real time. [Figure not available: see fulltext.] [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

30. Rolling Circle Replication and Bypass of Damaged Nucleotides.

Author

Forslund JME, Stojkovič G, and Wanrooij S

Subjects
Mitochondria metabolism, DNA Damage, DNA Replication, DNA, Mitochondrial genetics
Abstract

Faithful mitochondrial DNA (mtDNA) replication is critical for the proper function of the oxidative phosphorylation system. Problems with mtDNA maintenance, such as replication stalling upon encountering DNA damage, impair this vital function and can potentially lead to disease. An in vitro reconstituted mtDNA replication system can be used to investigate how the mtDNA replisome deals with, for example, oxidatively or UV-damaged DNA. In this chapter, we provide a detailed protocol on how to study the bypass of different types of DNA damage using a rolling circle replication assay. The assay takes advantage of purified recombinant proteins and can be adapted to the examination of various aspects of mtDNA maintenance., (© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2023
Full Text
View/download PDF

31. An Inside Look into Biological Miniatures: Molecular Mechanisms of Viroids

Author

Srividhya Venkataraman, Mounir G. AbouHaidar, Ghyda Murad Hashim, Kathleen Hefferon, Uzma Badar, and Erum Shoeb

Subjects
0106 biological sciences, 0301 basic medicine, replication, Viroid, viruses, viroids, viroid-host interactions, Computational biology, Review, Biology, Virus Replication, 01 natural sciences, Catalysis, Inorganic Chemistry, lcsh:Chemistry, 03 medical and health sciences, gene silencing, Circular RNA, trafficking, evolution, pathogenicity, Physical and Theoretical Chemistry, Molecular Biology, lcsh:QH301-705.5, Spectroscopy, Disease Resistance, Plant Diseases, Models, Genetic, Virulence, Organic Chemistry, General Medicine, RNA, Circular, Plants, Pathogenicity, biology.organism_classification, Computer Science Applications, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, rolling circle, classification, Rolling circle replication, Host-Pathogen Interactions, RNA, Viral, identification, 010606 plant biology & botany
Abstract

Viroids are tiny single-stranded circular RNA pathogens that infect plants. Viroids do not encode any proteins, yet cause an assortment of symptoms. The following review describes viroid classification, molecular biology and spread. The review also discusses viroid pathogenesis, host interactions and detection. The review concludes with a description of future prospects in viroid research.

Published
2020

32. A novel role for RAD54: this host protein modulates geminiviral DNA replication.

Author

Kaliappan, Kosalai, Choudhury, Nirupam Roy, Suyal, Geetika, and Mukherjee, Sunil Kumar

Subjects
*DNA replication, *DNA synthesis, *GENES, *ELECTRON microscopy, *DNA helicases
Abstract

Geminiviruses primarily encode only few factors, such as replication initiator protein (Rep), and need various host cellular machineries for rolling-circle replication (RCR) and/or recombination-dependent replication (RDR). We have identified a host factor, RAD54, in a screen for Repinteracting partners and observed its role in DNA replication of the geminivirus mungbean yellow mosaic India virus (MYMIV). We identified the interacting domains ScRAD54 and MYMIV-Rep and observed that ScRAD54 enhanced MYMIV-Rep nicking, ATPase, and helicase activities. An in vitro replication assay demonstrated that the geminiviral DNA replication reaction depends on the viral Rep protein, viral origin of replication sequences, and host cell-cycle proteins. Rad54-deficient yeast nuclear extract did not support in vitro viral DNA replication, while exogenous addition of the purified ScRAD54 protein enhanced replication. The role of RAD54 in in planta replication was confirmed by the transient replication assay; i.e., agroinoculation studies. RAD54 is a well-known recombination/repair protein that uses its DNA-dependent ATPase activity in conjunction with several other host factors. However, this study demonstrates for the first time that the eukaryotic rolling-circle replicon depends on the RAD54 protein. [ABSTRACT FROM AUTHOR]

Published
2012
Full Text
View/download PDF

33. Detection of the rapid emergence of the H275Y mutation associated with oseltamivir resistance in severe pandemic influenza virus A/H1N1 09 infections

Author

Wang, Bin, Dwyer, Dominic E., Blyth, Christopher C., Soedjono, Maly, Shi, Haijing, Kesson, Alison, Ratnamohan, Mala, McPhie, Ken, Cunningham, Anthony L., and Saksena, Nitin K.

Subjects
*ANTIVIRAL agents, *MICROBIAL mutation, *INFLUENZA treatment, *H1N1 influenza, *DRUG resistance in microorganisms, *PANDEMICS, *NEURAMINIDASE, *ENZYME inhibitors, *POLYMERASE chain reaction, *GENE amplification
Abstract

Abstract: In 2009 a new swine-origin influenza virus A/H1N1 (A/H1N1 09) emerged, causing the century''s first pandemic. Most isolates of the new A/H1N1 09 virus are susceptible to neuraminidase inhibitors, but the H275Y mutation in the neuraminidase gene region associated with high-level oseltamivir resistance has been detected. Using rolling circle amplification (RCA) technology, 96 A/H1N1 09-specific RT-PCR positive clinical samples collected from 80 oseltamivir-treated and untreated patients were screened for the presence of the H275Y mutation. Samples positive for 275Y mutation by RCA were cloned and sequenced for confirmation. From 25 patients who had been treated with oseltamivir and remained A/H1N1 09 RT-PCR positive, we identified three (12%) individuals with the H275Y mutation: one immuno-suppressed adult, one immuno-competent adult and one child. Samples collected at multiple time points from the two adults showed a switch from wild-type oseltamivir-sensitive 275H to oseltamivir-resistant 275Y population after 9 days of treatment. The child had the 275Y mutation detected after being persistently A/H1N1 09 RT-PCR positive while receiving oseltamivir treatment. Resistance was not detected in 17 pre-treatment samples and 54 A/H1N1 09 RT-PCR positive outpatients. RCA demonstrates the rapid emergence of the H275Y resistance mutation in individuals with severe A/H1N1 09 infection receiving neuraminidase inhibitors. Rapid detection of oseltamivir resistance in severe infection is essential for patients to receive maximum therapeutic benefit. In the light of emerging resistance, close monitoring and understanding of the nature and dynamics of resistance mutations in newly emerging strains should be a priority. [Copyright &y& Elsevier]

Published
2010
Full Text
View/download PDF

34. Small rolling circle plasmids in Bacillus subtilis and related species: Organization, distribution, and their possible role in host physiology

Author

Guglielmetti, S., Mora, D., and Parini, C.

Subjects
*BACILLUS subtilis, *BACILLUS (Bacteria), *PLASMIDS, *GENETIC research
Abstract

Abstract: Bacillus subtilis and related species (Bacillus licheniformis, Bacillus pumilus, Bacillus amyloliquefaciens, and Bacillus mojavensis) represent a group of bacteria largely studied and widely employed by industry. Small rolling circle replicating plasmids of this group of bacteria have been intensively studied as they represent a convenient model for genetic research and for the construction of molecular tools for the genetic modification of their hosts. Through the computational analysis of the available plasmid sequences to date, the first part of this review focuses on the main stages that the present model for rolling circle replication involves, citing the research data which helped to elucidate the mechanism by which these molecules replicate. Analysis of the distribution and phylogeny of the small RC plasmids inside the Bacillus genus is then considered, emphasizing the low level of diversity observed among these plasmids through the in silico analysis of their organization and the sequence divergence of their replication module. Finally, the parasitic vs. mutualistic nature of small rolling circle plasmids is briefly discussed. [Copyright &y& Elsevier]

Published
2007
Full Text
View/download PDF

35. Intra-specific variability and unusual organization of the repetitive units in a satellite DNA from Rana dalmatina: Molecular evidence of a new mechanism of DNA repair acting on satellite DNA

Author

Feliciello, Isidoro, Picariello, Orfeo, and Chinali, Gianni

Subjects
*DNA repair, *CARRIER proteins, *VITAMIN B complex, *GENETICS
Abstract

Abstract: We have characterized the S1 satellite from eight European populations of Rana dalmatina by Southern blot, cloning and a new method that determines the sequence variability of repetitive units in the genome. This report completes our previous studies on this satellite DNA family, thus providing the first characterization of the overall variability of the structure and genomic organization of a satellite DNA within a species and among related species. The S1 satellite from R. dalmatina has a pericentromeric location on ten chromosome pairs and presents two homologous repeats S1a (494 bp) and S1b (332 bp), mostly organized as composite S1a–S1b repetitive units. In other brown frog species, both repeats have different sequences and locations, and are usually organized as separate arrays, although composite S1a–S1b repeats represent a minor, widely variable component in Rana italica. The average genomic sequences indicate that the species contains an enormous number of variants of each repeat derived from a unique, species-specific common sequence. The repeat variability is restricted to specific base changes in specific sequence positions in all population samples. Our data show that the structure and evolution of S1 satellite family is not due to crossing-over and gene conversion, but to a mechanism that maintains the ability of the satellite DNA to assemble in constitutive heterochromatin by replacing altered satellite segments with new arrays generated by rolling circle amplification. The mode of action of this repair process not only directly explains the intra- and inter-specific variability of the structure and organization of the S1 satellite repeats from European brown frogs, but also accounts for all general features of satellite DNA in eukaryotes, including its discontinuous evolution. This repair mechanism can maintain the satellite structure in a species indefinitely, but also promote a rapid generation of new variants or types of satellite DNA when environmental conditions favor the formation of new species. [Copyright &y& Elsevier]

Published
2006
Full Text
View/download PDF

36. Detection of infectious haematopoietic necrosis virus and infectious salmon anaemia virus by molecular padlock amplification.

Author

Millard, P. J., Bickerstaff, L. E., LaPatra, S. E., and Kim, C. H.

Subjects
*INFECTIOUS hematopoietic necrosis virus, *PATHOGENIC microorganisms, *SALMON, *BLOOD diseases, *BIOSENSORS, *DIAGNOSIS
Abstract

A new method for the molecular detection of the fish pathogens, infectious haematopoietic necrosis virus (IHNV) and infectious salmon anaemia virus (ISAV), is described. By employing molecular padlock probe (MPP) technology combined with rolling circle amplification (RCA) and hyperbranching (Hbr), it is possible to detect RNA target sequence from these viruses at levels comparable with those detected by the polymerase chain reaction (PCR), but without prior reverse transcription. The use of MPP technology combined with RCA and Hbr for the detection of IHNV and ISAV in fish exhibited selectivity comparable with that of PCR while potentially reducing the time and cost required for analysis. The method described was used to detect as few as 104 DNA oligonucleotide targets and was sequence-specific at the single base level. Viral RNA could be detected directly, either alone or in the presence of non-viral RNA from fish tissue. This technology is applicable for detecting a variety of microbes, in addition to IHNV and ISAV, and is ideal for further integration into a biosensor platform for on-site diagnosis of pathogen infection in fish. [ABSTRACT FROM AUTHOR]

Published
2006
Full Text
View/download PDF

37. The first characterisation of the overall variability of repetitive units in a species reveals unexpected features of satellite DNA

Author

Feliciello, Isidoro, Picariello, Orfeo, and Chinali, Gianni

Subjects
*SATELLITE DNA, *GENOMES, *NUCLEIC acids, *CHROMOSOMES
Abstract

Abstract: We investigated the overall variability of the S1a satellite DNA repeats in ten European populations of Rana temporaria by a new procedure that determines the average sequence of the repeats in a genome. The average genomic sequences show that only 17% of the S1a repeat sequence (494 bp) is variable. The variable positions contain the same major and minor bases in all or many of the population samples tested, but the percentages of these bases can greatly vary among populations. This indicates the presence in the species of an enormous number of repeats having a different distribution of bases in these variable positions. Individual genomes contain thousands of repeat variants, but these mixtures have very similar characteristics in all populations because they present the same type of restricted and species-specific variability. Southern blots analyses and sequences of cloned S1a repeats fully support this conclusion. The S1 satellite DNA of other European brown frog species also presents properties indicating the same type of variability. This first characterisation of the overall repeat variability of a satellite DNA in a species has revealed features that cannot be determined by gene conversion and crossing over. Our results suggest that a specific directional process based on rolling circle amplification should play a relevant role in the evolution of satellite DNA. [Copyright &y& Elsevier]

Published
2005
Full Text
View/download PDF

38. Molecular characterization of three plasmids from Bifidobacterium longum

Author

Corneau, Nathalie, Émond, Éric, and LaPointe, Gisèle

Subjects
*PLASMIDS, *BIFIDOBACTERIUM, *PROTEINS, *CHROMOSOME replication
Abstract

The complete nucleotide sequences for pNAC1 (3538 bp) from strain RW048 as well as for pNAC2 (3684 bp) and pNAC3 (10,224 bp) from strain RW041 of Bifidobacterium longum were determined. The largest ORF (repB) of pNAC1 encodes a putative protein similar to those involved in a rolling-circle (RC) replication mechanism, which was confirmed by demonstration of single-strand intermediates in the host cell. The putative RepB gene product of pNAC2 is most similar to the replication protein of pDOJH10L and pKJ36. A second gene (mob) is similar to mobilization proteins involved in conjugation. Plasmid pNAC3 is the largest bifidobacterial plasmid to be sequenced to date. Of the eight putative gene products coded by pNAC3, one is similar to replication proteins (RepB), and another (Orf2) to putative transfer proteins (Tra). Bifidobacterial plasmids were divided into five groups based on Rep amino acid sequence homology and the results suggest a new plasmid family for B. longum. [Copyright &y& Elsevier]

Published
2004
Full Text
View/download PDF

39. Bacillus subtilis soil isolates: plasmid replicon analysis and construction of a new theta-replicating vector

Author

Titok, M.A., Chapuis, J., Selezneva, Y.V., Lagodich, A.V., Prokulevich, V.A., Ehrlich, S.D., and Jannière, L.

Subjects
*PLASMIDS, *BACILLUS subtilis
Abstract

We have searched for plasmids in a collection of 55 Bacillus subtilis strains isolated from various natural sources of the territory of Belarus. Twenty percent of the strains contained one or two plasmids of either 6–8 or ∼90 kb. Small plasmids were shown to carry a rolling circle replicon of the pC194 type. Four out of the eight large plasmids contained a related theta replicon that has no homolog in databases as shown by sequence determination. A B. subtilis/Escherichia coli shuttle vector based on this replicon was constructed. It has a low copy number (6 units per chromosome) and is stably inherited in B. subtilis. It might thus be a useful tool for DNA cloning. These data extend previous observations, indicating that most of the small plasmids of B. subtilis replicate as rolling circles and belong to the pC194 family. On the contrary, large plasmids appear to form a large pool of theta-replicating determinants, since three different replicons have already been isolated from them. [Copyright &y& Elsevier]

Published
2003
Full Text
View/download PDF

40. Rolling-circle and strand-displacement mechanisms for non-enzymatic RNA replication at the time of the origin of life.

Author

Tupper, Andrew S. and Higgs, Paul G.

Subjects
*ORIGIN of life, *DOUBLE-stranded RNA, *RNA, *RNA synthesis, *VIRAL replication
Abstract

[Display omitted] • Non-enzymatic replication may have preceded ribozyme-catalyzed replication in the RNA World. • Reannealing inhibits replication driven by temperature cycling at low concentrations. • Strand-displacement mechanisms are not inhibited by reannealing. • Rolling circle replication is the most likely first mechanism in the RNA World. It is likely that RNA replication began non-enzymatically, and that polymerases were later selected to speed up the process. We consider replication mechanisms in modern viruses and ask which of these is possible non-enzymatically, using mathematical models and experimental data found in the literature to estimate rates of RNA synthesis and replication. Replication via alternating plus and minus strands is found in some single-stranded RNA viruses. However, if this occurred non-enzymatically it would lead to double-stranded RNA that would not separate. With some form of environmental cycling, such as temperature, salinity, or pH cycling, double-stranded RNA can be melted to form single-stranded RNA, although re-annealing of existing strands would then occur much faster than synthesis of new strands. We show that re-annealing blocks this form of replication at a very low concentration of strands. Other kinds of viruses synthesize linear double strands from single strands and then make new single strands from double strands via strand-displacement. This does not require environmental cycling and is not blocked by re-annealing. However, under non-enzymatic conditions, if strand-displacement occurs from a linear template, we expect the incomplete new strand to be almost always displaced by the tail end of the old strand through toehold-mediated displacement. A third kind of replication in viruses and viroids is rolling-circle replication which occurs via strand-displacement on a circular template. Rolling-circle replication does not require environmental cycling and is not prevented by toehold-mediated displacement. Rolling-circle replication is therefore expected to occur non-enzymatically and is a likely starting point for the evolution of polymerase-catalysed replication. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

41. Geminivirus DNA replication.

Author

Gutierrez, C.

Abstract

Geminiviruses are DNA viruses which infect plants. They have a small genome and encode only a few proteins. Therefore, their DNA replication cycle relies largely on the use of cellular DNA replication proteins. The strategy used by geminiviruses to replicate their single-stranded DNA (ssDNA) genome consists of a first stage of conversion of ssDNA into double-stranded DNA (dsDNA) intermediates and, then, the use of dsDNA as a template to amplify viral dsDNA and to produce mature ssDNA genomes by a rolling-circle replication mechanism. In addition, the accumulating evidence indicates that viral DNA replication is somehow coupled to the cell cycle regulatory network of the infected cell. For these reasons, geminiviruses are excellent model systems to understand the regulation of DNA replication and cell cycle in plant cells. Recent years have witnessed significant progress in the identification of cis-acting signals and their interaction with trans-acting factors that contribute to geminivirus origin function. These and other aspects of the geminivirus DNA replication cycle will be reviewed. [ABSTRACT FROM AUTHOR]

Published
1999
Full Text
View/download PDF

42. Computational design and characterization of a temperature-sensitive plasmid replicon for gram positive thermophiles

Author

Olson Daniel G and Lynd Lee R

Subjects
Temperature sensitive, Rolling circle, Plasmid, Clostridium thermocellum, Gram positive, Thermophile, Biology (General), QH301-705.5
Abstract

Abstract Background Temperature-sensitive (Ts) plasmids are useful tools for genetic engineering, but there are currently none compatible with the gram positive, thermophilic, obligate anaerobe, Clostridium thermocellum. Traditional mutagenesis techniques yield Ts mutants at a low frequency, and therefore requires the development of high-throughput screening protocols, which are also not available for this organism. Recently there has been progress in the development of computer algorithms which can predict Ts mutations. Most plasmids currently used for genetic modification of C. thermocellum are based on the replicon of plasmid pNW33N, which replicates using the RepB replication protein. To address this problem, we set out to create a Ts plasmid by mutating the gene coding for the RepB replication protein using an algorithm designed by Varadarajan et al. (1996) for predicting Ts mutants based on the amino-acid sequence of the protein. Results A library of 34 mutant plasmids was designed, synthesized and screened, resulting in 6 mutants which exhibited a Ts phenotype. Of these 6, the one with the most temperature-sensitive phenotype (M166A) was compared with the original plasmid. It exhibited lower stability at 48°C and was completely unable to replicate at 55°C. Conclusions The plasmid described in this work could be useful in future efforts to genetically engineer C. thermocellum, and the method used to generate this plasmid may be useful for others trying to make Ts plasmids.

Published
2012
Full Text
View/download PDF

43. Why is the initiation nick site of an AT-rich rolling circle plasmid at the tip of a GC-rich cruciform?

Author

Ruzhong Jin, Fernandez-Beros, Maria-Elena, and Novick, Richard P.

Subjects
*PLASMIDS, *DNA replication, *DNA, *BINDING sites, *PROTEINS, *OLIGONUCLEOTIDES
Abstract

pT181 and other closely related rolling circle plasmids have the nicking site for initiation of replication between the arms of a GC-rich inverted repeat sequence adjacent to the binding site for the dimeric initiator protein. Replication is initiated by the initiator-induced extrusion of this sequence as a cruciform, creating a single-stranded region for nicking by the protein. Nicking is followed by assembly of the replisome without relaxation of the secondary structure. Following termination, the initiator protein is released with a short oligonucleotide attached to one subunit, which prevents it from being recycled, a necessary feature of the plasmid's replication control system. The modified initiator can cleave single-stranded substrates and can nick and relax supercoiled plasmid DNA weakly. Although it can bind to its recognition sequence in the leading strand origin, the modified protein cannot induce cruciform extrusion, and it is proposed that this inability is the key to understanding the biological rationale for having the nicking site at the tip of a cruciform: the need to provide the functional initiator with a catalytic advantage over the modified one sufficient to offset the numerical advantage and metabolic stability of the latter. [ABSTRACT FROM AUTHOR]

Published
1997
Full Text
View/download PDF

44. Identification of the Region Required for Monomerization of the Rolling Circle Plasmid pKYM.

Author

Yasukawa, Hiroo, Viller, Eric, and Masamune, Yukito

Abstract

Plasmid pKYM, isolated from the Gram-negative bacterium Shigella sonnei, is a small multicopy plasmid which replicates by a rolling circle mechanism. The formation of multimers has been observed in a derivative of pKYM which lost a part of the origin region, and the loss of the monomerization mechanism would have led to these multimers. By analyzing the constructs of several mutants, we discovered that a DNA region required for monomerization was present upstream of the RepK binding site in the replication origin. As either of the T-rich sequence or the inverted repeat sequences which were seen in that region have been lost in the multimer-forming plasmids, these sequences may be necessary for monomerization. [ABSTRACT FROM PUBLISHER]

Published
1998
Full Text
View/download PDF

45. Synthesis of RepK of Rolling Circle Plasmid pKYM is Regulated by Countertranscript and HU Protein.

Author

Nakahama, Keiko, Yasukawa, Hiroo, Kimura, Tastuya, Mizuno, Ken-ichi, Hiraiwa, Testuya, Ozaki, Eijiro, and Masamune, Yukito

Abstract

Replication of rolling circle plasmid pKYM was regulated by RepK, a plasmid-encoded initiator protein, with HU protein and antisense RNA (copRNA) that block the expression of RepK. HU protein bound to the repK promoter in the presence of RepK protein and inhibited the transcription of repK mRNA. The copRNA would hybridize to repK mRNA and induce a stem-loop structure in which the repK Shine-Dalgarno sequence is sequestered by base pairing. Sequence substitution experiments demonstrated that this stem-loop not only inhibits translation but induces premature termination. [ABSTRACT FROM PUBLISHER]

Published
1997
Full Text
View/download PDF

46. Dynamics in Copy Numbers of Five Plasmids of a Dairy Lactococcus lactis Strain under Dairy-Related Conditions Including Near-Zero Growth Rates

Author

Yorick C. de Vries, Eddy J. Smid, Marcel M. A. N. Lommers, Oscar van Mastrigt, and Tjakko Abee

Subjects
DNA Replication, 0301 basic medicine, DNA Copy Number Variations, 030106 microbiology, Replication, Chemostat, Protein degradation, Applied Microbiology and Biotechnology, Levensmiddelenmicrobiologie, Citric Acid, Bacteriophage, 03 medical and health sciences, Plasmid, Cheese, Gene cluster, Plasmid copy number, Rolling circle, Gene, VLAG, Genetics, Ecology, biology, Lactococcus lactis, Nutrients, Hydrogen-Ion Concentration, Retentostat, Theta, biology.organism_classification, Dairying, 030104 developmental biology, Rolling circle replication, Multigene Family, Fermentation, Food Microbiology, Segregational stability, Plasmids, Food Science, Biotechnology
Abstract

Lactic acid bacteria can carry multiple plasmids affecting their performance in dairy fermentations. The expression of plasmid-borne genes and the activity of the corresponding proteins are severely affected by changes in the numbers of plasmid copies. We studied the impact of growth rate on the dynamics of plasmid copy numbers at high growth rates in chemostat cultures and down to near-zero growth rates in retentostat cultures. Five plasmids of the dairy strain Lactococcus lactis FM03-V1 were selected, and these varied in size (3 to 39 kb), in replication mechanism (theta or rolling circle), and in putative (dairy-associated) functions. The copy numbers ranged from 1.5 to 40.5, and the copy number of theta-type replicating plasmids was negatively correlated to the plasmid size. Despite the extremely wide range of growth rates (0.0003 h −1 to 0.6 h −1 ), the copy numbers of the five plasmids were stable and only slightly increased at near-zero growth rates, showing that the plasmid replication rate was strictly controlled. One low-copy-number plasmid, carrying a large exopolysaccharide gene cluster, was segregationally unstable during retentostat cultivations, reflected in a complete loss of the plasmid in one of the retentostat cultures. The copy number of the five plasmids was also hardly affected by varying the pH value, nutrient limitation, or the presence of citrate (maximum 2.2-fold), signifying the stability in copy number of the plasmids. IMPORTANCE Lactococcus lactis is extensively used in starter cultures for dairy fermentations. Important traits for the growth and survival of L. lactis in dairy fermentations are encoded by genes located on plasmids, such as genes involved in lactose and citrate metabolism, protein degradation, oligopeptide uptake, and bacteriophage resistance. Because the number of plasmid copies could affect the expression of plasmid-borne genes, it is important to know the factors that influence the plasmid copy numbers. We monitored the plasmid copy numbers of L. lactis at near-zero growth rates, characteristic for cheese ripening. Moreover, we analyzed the effects of pH, nutrient limitation, and the presence of citrate. This showed that the plasmid copy numbers were stable, giving insight into plasmid copy number dynamics in dairy fermentations.

Published
2018
Full Text
View/download PDF

47. Viroid RNA turnover: characterization of the subgenomic RNAs of potato spindle tuber viroid accumulating in infected tissues provides insights into decay pathways operating in vivo

Author

Beatriz Navarro, Sonia Delgado, Ricardo Flores, Francesco Di Serio, and Sofia Minoia

Subjects
Host interactions, Viroid, RNA Stability, viruses, Pospiviroidae, Replication, Nicotiana benthamiana, Genome, Viral, hammerhead ribozymes, Virus Replication, Systemic trafficking, Secondary structure, Sequence, Genetics, Rolling circle, Solanum melongena, Potato spindle tuber viroid, Plant Diseases, Subgenomic mRNA, Cell Nucleus, Self cleavage, biology, RNA, biology.organism_classification, Molecular biology, Viroids, RNA silencing, Rolling circle replication, RNA, Viral, Situ hybridization
Abstract

[EN] While biogenesis of viroid RNAs is well-known, how they decay is restricted to data involving host RNA silencing. Here we report an alternative degradation pathway operating on potato spindle tuber viroid (PSTVd), the type species of nuclear-replicating viroids (family Pospiviroidae). Northern-blot hybridizations with full-and partial-length probes revealed a set of PSTVd (+) subgenomic (sg) RNAs in early-infected eggplant, some partially overlapping and reaching levels comparable to those of the genomic circular and linear forms. Part of the PSTVd (+) sgRNAs were also observed in Nicotiana benthamiana (specifically in the nuclei) and tomato, wherein they have been overlooked due to their low accumulation. Primer extensions of representative (+) sgRNAs failed to detect a common 5' terminus, excluding that they could result from aborted transcription initiated at one specific site. Supporting this view, 5'- and 3'-RACE indicated that the (+) sgRNAs have 5'-OH and 3'-P termini most likely generated by RNase-mediated endonucleolytic cleavage of longer precursors. These approaches also unveiled PSTVd (-) sgRNAs with features similar to their (+) counterparts. Our results provide a mechanistic insight on how viroid decay may proceed in vivo during replication, and suggest that synthesis and decay of PSTVd strands might be coupled as in mRNA., Ministerio de Economia y Competitividad (MINECO) [BFU2011-28443 to R. F. laboratory]; MINECO [to S.M. and S.D.]. Funding for open access charge: MINECO (BFU2011-28443 to R. F.); Ministero dell'Economia e Finanze Italiano to the CNR (CISIA, Legge 191/2009 to B.N. and F.D.S.).

Published
2015
Full Text
View/download PDF

48. An Inside Look into Biological Miniatures: Molecular Mechanisms of Viroids.

Author

Venkataraman, Srividhya, Badar, Uzma, Shoeb, Erum, Hashim, Ghyda, AbouHaidar, Mounir, Hefferon, Kathleen, and Sano, Teruo

Subjects
*VIROIDS, *CIRCULAR RNA, *MINIATURE craft, *GENE silencing, *MOLECULAR biology, *SYMPTOMS
Abstract

Viroids are tiny single-stranded circular RNA pathogens that infect plants. Viroids do not encode any proteins, yet cause an assortment of symptoms. The following review describes viroid classification, molecular biology and spread. The review also discusses viroid pathogenesis, host interactions and detection. The review concludes with a description of future prospects in viroid research. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

49. A simple method for cloning the complete begomovirus genome using the bacteriophage φ29 DNA polymerase

Author

Inoue-Nagata, Alice K., Albuquerque, Leonardo C., Rocha, Wesley B., and Nagata, Tatsuya

Subjects
*BACTERIOPHAGES, *DNA polymerases, *GENOMES, *INFECTION
Abstract

The bacteriophage φDNA polymerase amplifies circular DNA in a rolling circle amplification mechanism. This characteristic was applied to amplify and clone the complete circular DNA genome of a begomovirus. Total DNA extracted from infected tissue was used as the template of an amplification reaction using the commercial kit TempliPhi (Amersham Biosciences). The amplified DNA could be used for direct sequencing and was cloned after digestion with a single cutting restriction endonuclease. The use of this enzyme simplified the cloning steps and increased the cloning efficiency of the complete genome of a circular plant DNA virus. [Copyright &y& Elsevier]

Published
2004
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results