| Q30435484 | A winding road to origin discovery |
| Q34233413 | AT-rich region and repeated sequences - the essential elements of replication origins of bacterial replicons. |
| Q39446781 | Activity of the c-myc replicator at an ectopic chromosomal location |
| Q47130148 | Analysis of DNA topology of EBV minichromosomes in HEK 293 cells |
| Q33964966 | Architecture of the replication fork stalled at the 3' end of yeast ribosomal genes |
| Q38245512 | Best practices for mapping replication origins in eukaryotic chromosomes |
| Q33688903 | Bi-directional replication and random termination. |
| Q28573281 | Binding of AlF-C, an Orc1-binding transcriptional regulator, enhances replicator activity of the rat aldolase B origin |
| Q30430861 | Bubble-chip analysis of human origin distributions demonstrates on a genomic scale significant clustering into zones and significant association with transcription |
| Q30413341 | Bubble-seq analysis of the human genome reveals distinct chromatin-mediated mechanisms for regulating early- and late-firing origins |
| Q35197268 | Cdc6p modulates the structure and DNA binding activity of the origin recognition complex in vitro |
| Q27938163 | Cell cycle dependent topological changes of chromosomal replication origins in Saccharomyces cerevisiae |
| Q40174771 | Characterizing and controlling intrinsic biases of lambda exonuclease in nascent strand sequencing reveals phasing between nucleosomes and G-quadruplex motifs around a subset of human replication origins |
| Q26781545 | Choosing a suitable method for the identification of replication origins in microbial genomes |
| Q77406641 | Chromosomal ARS1 has a single leading strand start site |
| Q39887690 | CpG methylation of DNA restricts prereplication complex assembly in Xenopus egg extracts. |
| Q27938332 | DNA polymerase delta is highly processive with proliferating cell nuclear antigen and undergoes collision release upon completing DNA. |
| Q37212976 | DNA replication origins-where do we begin? |
| Q37197487 | DNA replication origins. |
| Q34607131 | DNA sequence and functional analysis of homologous ARS elements of Saccharomyces cerevisiae and S. carlsbergensis |
| Q37731999 | Defined sequence modules and an architectural element cooperate to promote initiation at an ectopic mammalian chromosomal replication origin |
| Q34443550 | Developmental changes in the Sciara II/9A initiation zone for DNA replication |
| Q35805068 | Did an early version of the eukaryal replisome enable the emergence of chromatin? |
| Q47820545 | Dynamic alterations of replication timing in mammalian cells |
| Q38900918 | Effect of minichromosome maintenance protein 2 deficiency on the locations of DNA replication origins |
| Q28294754 | Emerging mechanisms of eukaryotic DNA replication initiation |
| Q34278873 | Enigmatic variations: divergent modes of regulating eukaryotic DNA replication |
| Q37723984 | G4 motifs affect origin positioning and efficiency in two vertebrate replicators |
| Q37593098 | Gene targeting in yeast is initiated by two independent strand invasions. |
| Q38323597 | Genome-scale identification of active DNA replication origins |
| Q35493806 | Genome-wide depletion of replication initiation events in highly transcribed regions |
| Q33257091 | Genome-wide hierarchy of replication origin usage in Saccharomyces cerevisiae |
| Q37473013 | Genome-wide identification and characterisation of human DNA replication origins by initiation site sequencing (ini-seq). |
| Q30436435 | Genomic study of replication initiation in human chromosomes reveals the influence of transcription regulation and chromatin structure on origin selection |
| Q36035868 | High-resolution profiling of Drosophila replication start sites reveals a DNA shape and chromatin signature of metazoan origins |
| Q38833501 | How and why multiple MCMs are loaded at origins of DNA replication |
| Q34081126 | Human origin recognition complex binds to the region of the latent origin of DNA replication of Epstein-Barr virus |
| Q24537498 | Identification of a binding region for human origin recognition complex proteins 1 and 2 that coincides with an origin of DNA replication |
| Q47989807 | Identification of a compound origin of replication at the HMR-E locus in Saccharomyces cerevisiae |
| Q33773499 | Identification of primary initiation sites for DNA replication in the hamster dihydrofolate reductase gene initiation zone. |
| Q47270717 | Identification of two origins of replication in the single chromosome of the archaeon Sulfolobus solfataricus |
| Q36846065 | In Xenopus egg extracts, DNA replication initiates preferentially at or near asymmetric AT sequences |
| Q33842984 | In the simian virus 40 in vitro replication system, start site selection by the polymerase alpha-primase complex is not significantly altered by changes in the concentration of ribonucleotides |
| Q34694757 | In vitro DNA replication assays in yeast extracts |
| Q24816957 | Initiation of DNA replication at the human beta-globin 3' enhancer |
| Q33665641 | Initiation of DNA replication in eukaryotes: questioning the origin. |
| Q62721690 | Initiation of Eukaryotic DNA Replication |
| Q30309197 | Initiation sites are distributed at frequent intervals in the Chinese hamster dihydrofolate reductase origin of replication but are used with very different efficiencies |
| Q27936036 | Interaction between PCNA and diubiquitinated Mcm10 is essential for cell growth in budding yeast |
| Q41457868 | Intrinsic coupling of lagging-strand synthesis to chromatin assembly. |
| Q38782287 | Isolation and sequencing of active origins of DNA replication by nascent strand capture and release (NSCR) |
| Q39728540 | Long range cooperative interactions regulate the initiation of replication in the Tetrahymena thermophila rDNA minichromosome |
| Q47743093 | MCM proteins: evolution, properties, and role in DNA replication |
| Q34761522 | Mapping replication origin sequences in eukaryotic chromosomes |
| Q61446988 | Mechanism of Bidirectional Leading-Strand Synthesis Establishment at Eukaryotic DNA Replication Origins |
| Q34046401 | Mechanisms of DNA replication. |
| Q35220626 | Molecular characterization of the minimal replicon and the unidirectional theta replication of pSCM201 in extremely halophilic archaea |
| Q99706572 | Molecular mechanisms of eukaryotic origin initiation, replication fork progression, and chromatin maintenance |
| Q39940361 | Mutations in Yeast Replication Proteins That Increase CAG/CTG Expansions Also Increase Repeat Fragility |
| Q63965586 | New systems for replicating DNA in vitro |
| Q47693928 | Nucleotide-dependent prereplicative complex assembly by Cdc6p, a homolog of eukaryotic and prokaryotic clamp-loaders |
| Q42398799 | One-way PCR-based mapping of a replication initiation point (RIP). |
| Q43744026 | Origin recognition complex binding to a metazoan replication origin |
| Q40017361 | Overreplication of short DNA regions during S phase in human cells |
| Q26829115 | Peaks cloaked in the mist: the landscape of mammalian replication origins |
| Q24791456 | Prediction of Saccharomyces cerevisiae replication origins |
| Q40888694 | Premature structural changes at replication origins in a yeast minichromosome maintenance (MCM) mutant |
| Q45857285 | Preventing gene silencing with human replicators |
| Q34440668 | Replication initiation patterns in the beta-globin loci of totipotent and differentiated murine cells: evidence for multiple initiation regions |
| Q48018615 | Replication origins in yeast versus metazoa: separation of the haves and the have nots |
| Q30718522 | Replication protein A modulates its interface with the primed DNA template during RNA-DNA primer elongation in replicating SV40 chromosomes |
| Q73151265 | Replisome assembly at oriC, the replication origin of E. coli, reveals an explanation for initiation sites outside an origin |
| Q36846885 | Short DNA fragments without sequence similarity are initiation sites for replication in the chromosome of the yeast Yarrowia lipolytica |
| Q54710492 | Specification of a DNA replication origin by a transcription complex. |
| Q39683061 | Stable replication of papillomavirus genomes in Saccharomyces cerevisiae |
| Q35835346 | Stepwise assembly of initiation proteins at budding yeast replication origins in vitro |
| Q36274726 | Tetrahymena ORC contains a ribosomal RNA fragment that participates in rDNA origin recognition. |
| Q34812174 | The Cdc6p nucleotide-binding motif is required for loading mcm proteins onto chromatin |
| Q39526756 | The Chinese hamster dihydrofolate reductase replication origin beta is active at multiple ectopic chromosomal locations and requires specific DNA sequence elements for activity |
| Q59810213 | The Protective Role of Dormant Origins in Response to Replicative Stress |
| Q40541137 | The dynamics of eukaryotic replication initiation: origin specificity, licensing, and firing at the single-molecule level. |
| Q37276589 | The human beta-globin replication initiation region consists of two modular independent replicators |
| Q35210893 | The hunt for origins of DNA replication in multicellular eukaryotes |
| Q39445569 | The one-kilobase DNA fragment upstream of the ardC actin gene of Physarum polycephalum is both a replicator and a promoter |
| Q37189689 | The origin recognition complex: a biochemical and structural view |
| Q37518201 | The path from student to mentor and from chromosomes to replication to genomics |
| Q33540092 | The regulation of replication origin activation |
| Q39080446 | The spatial arrangement of ORC binding modules determines the functionality of replication origins in budding yeast |
| Q38316503 | Three different proteins recognize a multifunctional determinant that controls replication initiation, fork arrest and transcription in Tetrahymena |
| Q40240263 | Thymine-rich single-stranded DNA activates Mcm4/6/7 helicase on Y-fork and bubble-like substrates |
| Q39458877 | Two compound replication origins in Saccharomyces cerevisiae contain redundant origin recognition complex binding sites |