| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S0092-8674(03)01034-1 |
| P698 | PubMed publication ID | 14718164 |
| P50 | author | Stephen D. Bell | Q44013247 |
| Nicholas P Robinson | Q59666239 | ||
| P2093 | author name string | Rolf Bernander | |
| Isabelle Dionne | |||
| Magnus Lundgren | |||
| Victoria L Marsh | |||
| P2860 | cites work | Biochemical analysis of components of the pre-replication complex of Archaeoglobus fulgidus | Q38351623 |
| Cell cycle arrest in archaea by the hypusination inhibitor N(1)-guanyl-1,7-diaminoheptane | Q39499154 | ||
| Autophosphorylation of archaeal Cdc6 homologues is regulated by DNA. | Q39504873 | ||
| Regulation of eukaryotic DNA replication. | Q40643067 | ||
| The archaeal TFIIEalpha homologue facilitates transcription initiation by enhancing TATA-box recognition | Q42246217 | ||
| Mechanism of autoregulation by an archaeal transcriptional repressor | Q42490833 | ||
| Multiple replication origins of the archaeon Halobacterium species NRC-1. | Q43032665 | ||
| DNA replication-dependent formation of joint DNA molecules in Physarum polycephalum | Q43628396 | ||
| Role for a Xenopus Orc2-related protein in controlling DNA replication | Q46209118 | ||
| Interaction between the origin recognition complex and the replication licensing system in Xenopus. | Q48058865 | ||
| Bacterial Mode of Replication with Eukaryotic-Like Machinery in a Hyperthermophilic Archaeon | Q60134797 | ||
| A Heterotrimeric PCNA in the Hyperthermophilic Archaeon Sulfolobus solfataricus | Q63362920 | ||
| Chromosome replication patterns in the hyperthermophilic euryarchaea Archaeoglobus fulgidus and Methanocaldococcus (Methanococcus) jannaschii | Q64127871 | ||
| The Xenopus origin recognition complex is essential for DNA replication and MCM binding to chromatin | Q71824303 | ||
| The complete genome of the crenarchaeon Sulfolobus solfataricus P2 | Q22066249 | ||
| Identification of short 'eukaryotic' Okazaki fragments synthesized from a prokaryotic replication origin | Q24534576 | ||
| Functional analysis of mutant and wild-type Drosophila origin recognition complex | Q24555148 | ||
| Structure and function of Cdc6/Cdc18: implications for origin recognition and checkpoint control | Q27627450 | ||
| The structure of bacterial DnaA: implications for general mechanisms underlying DNA replication initiation | Q27639653 | ||
| DNA replication in eukaryotic cells | Q28131747 | ||
| The origin recognition complex: from simple origins to complex functions | Q28210087 | ||
| ATP-dependent recognition of eukaryotic origins of DNA replication by a multiprotein complex | Q28241786 | ||
| The localization of replication origins on ARS plasmids in S. cerevisiae | Q29618310 | ||
| The Methanobacterium thermoautotrophicum MCM protein can form heptameric rings | Q30309678 | ||
| Identification and properties of the crenarchaeal single-stranded DNA binding protein from Sulfolobus solfataricus | Q30978559 | ||
| Chromosome replication, nucleoid segregation and cell division in archaea | Q33934202 | ||
| Archaeal dominance in the mesopelagic zone of the Pacific Ocean | Q33934862 | ||
| In vivo interactions of archaeal Cdc6/Orc1 and minichromosome maintenance proteins with the replication origin | Q33944339 | ||
| The Schizosaccharomyces pombe origin recognition complex interacts with multiple AT-rich regions of the replication origin DNA by means of the AT-hook domains of the spOrc4 protein | Q33949872 | ||
| Site-specific DNA binding of the Schizosaccharomyces pombe origin recognition complex is determined by the Orc4 subunit | Q34012854 | ||
| Hda, a novel DnaA-related protein, regulates the replication cycle in Escherichia coli | Q34085669 | ||
| Bacterial replication initiator DnaA. Rules for DnaA binding and roles of DnaA in origin unwinding and helicase loading | Q34187344 | ||
| An Archaeal Chromosomal Autonomously Replicating Sequence Element from an Extreme Halophile,Halobacteriumsp. Strain NRC-1 | Q34267329 | ||
| Mapping Polycomb-repressed domains in the bithorax complex using in vivo formaldehyde cross-linked chromatin | Q34321793 | ||
| Archaea: an archetype for replication initiation studies? | Q34532849 | ||
| The fission yeast homologue of Orc4p binds to replication origin DNA via multiple AT-hooks | Q35058094 | ||
| Drosophila ORC specifically binds to ACE3, an origin of DNA replication control element | Q35208336 | ||
| Phenotypic characterization of the archaebacterial genus Sulfolobus: comparison of five wild-type strains | Q36184598 | ||
| Cell cycle characteristics of thermophilic archaea | Q36876824 | ||
| DNA helical stability accounts for mutational defects in a yeast replication origin | Q36914362 | ||
| A double-hexamer archaeal minichromosome maintenance protein is an ATP-dependent DNA helicase | Q37107587 | ||
| Discrete start sites for DNA synthesis in the yeast ARS1 origin. | Q38340747 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Sulfolobus solfataricus | Q3503466 |
| P304 | page(s) | 25-38 | |
| P577 | publication date | 2004-01-01 | |
| P1433 | published in | Cell | Q655814 |
| P1476 | title | Identification of two origins of replication in the single chromosome of the archaeon Sulfolobus solfataricus | |
| P478 | volume | 116 |
| Q59658399 | 9 Functional Genomics of the Thermo-Acidophilic Archaeon Sulfolobus solfataricus |
| Q28239990 | A Brief Review: The Z-curve Theory and its Application in Genome Analysis |
| Q38338152 | A CDC6-like factor from the archaea Sulfolobus solfataricus promotes binding of the mini-chromosome maintenance complex to DNA. |
| Q34681851 | A conserved hexanucleotide motif is important in UV-inducible promoters in Sulfolobus acidocaldarius |
| Q21184109 | A genomic analysis of the archaeal system Ignicoccus hospitalis-Nanoarchaeum equitans |
| Q28305431 | A rebuttal to the comments on the genome order index and the Z-curve |
| Q24814965 | A study on the correlation of nucleotide skews and the positioning of the origin of replication: different modes of replication in bacterial species |
| Q52332039 | A transcriptional factor B paralog functions as an activator to DNA damage-responsive expression in archaea. |
| Q34233413 | AT-rich region and repeated sequences - the essential elements of replication origins of bacterial replicons. |
| Q36128731 | Activation of a dormant replication origin is essential for Haloferax mediterranei lacking the primary origins |
| Q54425098 | An easier method for locating replication origins based on real-time polymerase chain reaction. |
| Q43020370 | Analysis of the complete genome of Fervidococcus fontis confirms the distinct phylogenetic position of the order Fervidicoccales and suggests its environmental function. |
| Q24815281 | Archaeal Hel308 helicase targets replication forks in vivo and in vitro and unwinds lagging strands |
| Q38366852 | Archaeal chromosome biology |
| Q37194838 | Archaeal eukaryote-like Orc1/Cdc6 initiators physically interact with DNA polymerase B1 and regulate its functions |
| Q34381254 | Archaeal genetics - the third way. |
| Q34862043 | Archaeology of eukaryotic DNA replication |
| Q41981022 | Architecture of bacterial replication initiation complexes: orisomes from four unrelated bacteria |
| Q35635698 | Association between the dynamics of multiple replication origins and the evolution of multireplicon genome architecture in haloarchaea |
| Q35489402 | Bacteria may have multiple replication origins |
| Q48091723 | Bidirectional eukaryotic DNA replication is established by quasi-symmetrical helicase loading |
| Q40068469 | Biochemical characterization of Cdc6/Orc1 binding to the replication origin of the euryarchaeon Methanothermobacter thermoautotrophicus |
| Q38320696 | Biochemical characterization of two Cdc6/ORC1-like proteins from the crenarchaeon Sulfolobus solfataricus |
| Q34216918 | Cdv-based cell division and cell cycle organization in the thaumarchaeon Nitrosopumilus maritimus |
| Q41341370 | Cell cycle characteristics of crenarchaeota: unity among diversity |
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| Q46283674 | Characterization of Copy Number Control of Two Haloferax volcanii Replication Origins Using Deletion Mutants and Haloarchaeal Artificial Chromosomes |
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| Q43878147 | Characterization of the minimal replicon of pHM300 and independent copy number control of major and minor chromosomes of Haloferax mediterranei |
| Q34382272 | Characterization of the replication initiator Orc1/Cdc6 from the Archaeon Picrophilus torridus |
| Q26781545 | Choosing a suitable method for the identification of replication origins in microbial genomes |
| Q37981513 | Chromosome dynamics in multichromosome bacteria |
| Q36954955 | Chromosome replication dynamics in the archaeon Sulfolobus acidocaldarius |
| Q93388159 | Comparative genomics of HORMA domain-containing proteins in prokaryotes and eukaryotes |
| Q40746585 | Comparative genomics reveals conserved positioning of essential genomic clusters in highly rearranged Thermococcales chromosomes. |
| Q22065477 | Complete Genome Sequence of the Anaerobic, Protein-Degrading Hyperthermophilic Crenarchaeon Desulfurococcus kamchatkensis |
| Q22064357 | Complete genome sequence of Archaeoglobus profundus type strain (AV18) |
| Q92086449 | Complete genome sequence of the Sulfodiicoccus acidiphilus strain HS-1T, the first crenarchaeon that lacks polB3, isolated from an acidic hot spring in Ohwaku-dani, Hakone, Japan |
| Q39505364 | Context based computational analysis and characterization of ARS consensus sequences (ACS) of Saccharomyces cerevisiae genome |
| Q27653173 | Crystal structure of a novel archaeal AAA+ ATPase SSO1545 fromSulfolobus solfataricus |
| Q35202495 | Crystal structure of the eukaryotic origin recognition complex |
| Q41670228 | DNA binding by the Methanothermobacter thermautotrophicus Cdc6 protein is inhibited by the minichromosome maintenance helicase |
| Q40751678 | DNA replication and strand asymmetry in prokaryotic and mitochondrial genomes |
| Q24672512 | DNA replication in the archaea |
| Q33569155 | DNA replication origins in archaea |
| Q37197487 | DNA replication origins. |
| Q35272215 | Defining components of the chromosomal origin of replication of the hyperthermophilic archaeon Pyrococcus furiosus needed for construction of a stable replicating shuttle vector. |
| Q36262997 | Discovering novel biology by in silico archaeology |
| Q34414784 | Diversity and evolution of multiple orc/cdc6-adjacent replication origins in haloarchaea |
| Q39113443 | Diversity of DNA Replication in the Archaea |
| Q38208817 | Diversity of the DNA replication system in the Archaea domain |
| Q89713318 | Do Archaea Need an Origin of Replication? |
| Q36491411 | DoriC 5.0: an updated database of oriC regions in both bacterial and archaeal genomes. |
| Q36442569 | Editorial: DNA Replication Origins in Microbial Genomes |
| Q64448565 | Effect of UV irradiation on Sulfolobus acidocaldarius and involvement of the general transcription factor TFB3 in the early UV response |
| Q33287225 | Essential and non-essential DNA replication genes in the model halophilic Archaeon, Halobacterium sp. NRC-1 |
| Q33728009 | Evidence for a Xer/dif system for chromosome resolution in archaea |
| Q34399488 | Evolutionary rates and gene dispensability associate with replication timing in the archaeon Sulfolobus islandicus |
| Q36993576 | Expression profiles and physiological roles of two types of molecular chaperonins from the hyperthermophilic archaeon Thermococcus kodakarensis |
| Q63383566 | Extra-chromosomal elements and the evolution of cellular DNA replication machineries |
| Q35749512 | Extrachromosomal element capture and the evolution of multiple replication origins in archaeal chromosomes |
| Q34108405 | Functional genomic and advanced genetic studies reveal novel insights into the metabolism, regulation, and biology of Haloferax volcanii. |
| Q34683040 | GINS, a central nexus in the archaeal DNA replication fork |
| Q28469214 | Genetic and physical mapping of DNA replication origins in Haloferax volcanii |
| Q22065480 | Genome Analyses of Icelandic Strains of Sulfolobus islandicus, Model Organisms for Genetic and Virus-Host Interaction Studies |
| Q22065478 | Genome Sequence of Thermofilum pendens Reveals an Exceptional Loss of Biosynthetic Pathways without Genome Reduction |
| Q35669823 | Genome-wide transcription map of an archaeal cell cycle |
| Q35035783 | GenomeFingerprinter: the genome fingerprint and the universal genome fingerprint analysis for systematic comparative genomics |
| Q35865311 | Genomewide and biochemical analyses of DNA-binding activity of Cdc6/Orc1 and Mcm proteins in Pyrococcus sp. |
| Q24609337 | Genomic analysis of Acidianus hospitalis W1 a host for studying crenarchaeal virus and plasmid life cycles |
| Q33821638 | Genomic and proteomic comparisons between bacterial and archaeal genomes and related comparisons with the yeast and fly genomes |
| Q37100344 | Genomic context analysis in Archaea suggests previously unrecognized links between DNA replication and translation |
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| Q22065946 | Genomics and genetics of Sulfolobus islandicus LAL14/1, a model hyperthermophilic archaeon |
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| Q43027654 | Localized melting of duplex DNA by Cdc6/Orc1 at the DNA replication origin in the hyperthermophilic archaeon Pyrococcus furiosus. |
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| Q38040099 | Measures of compositional strand bias related to replication machinery and its applications |
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| Q41874528 | Modular organization of a Cdc6-like protein from the crenarchaeon Sulfolobus solfataricus |
| Q35220626 | Molecular characterization of the minimal replicon and the unidirectional theta replication of pSCM201 in extremely halophilic archaea |
| Q34946975 | Molecular determinants of origin discrimination by Orc1 initiators in archaea |
| Q37302010 | Multiple replication origins of Halobacterium sp. strain NRC-1: properties of the conserved orc7-dependent oriC1. |
| Q37606875 | Multiple replication origins with diverse control mechanisms in Haloarcula hispanica |
| Q36684736 | Nanobody(R)-based chromatin immunoprecipitation/micro-array analysis for genome-wide identification of transcription factor DNA binding sites |
| Q35881147 | New criteria for selecting the origin of DNA replication in Wolbachia and closely related bacteria |
| Q42559394 | New insights into replication origin characteristics in metazoans |
| Q41886114 | Novel RepA-MCM proteins encoded in plasmids pTAU4, pORA1 and pTIK4 from Sulfolobus neozealandicus |
| Q42398799 | One-way PCR-based mapping of a replication initiation point (RIP). |
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