DNA replication/ af 412079 Kornberg, Arthur

Regulation of eukaryotic DNA replication: genome architecture and polymerase switching af Oldach, P

Fag: “...DNA replication...”

Molecular machines in archaeal DNA replication. af Beattie, T, Bell, S

“...The archaeal DNA replication apparatus is a simplified version of that of eukaryotes and has attracted attention as a tractable model system for the orthologous, but significantly more complex eukaryal machinery. ...”

Dynamics of DNA replication: an ultrastructural study. af Philimonenko, A, Jackson, D, Hodný, Z, Janácek, J, Cook, P, Hozák, P

“...DNA replication in cells takes place in domains scattered throughout the nucleoplasm. ...”

DNA replication: archaeal oriGINS. af Bell, S

“...GINS is an essential eukaryotic DNA replication factor that is found in a simplified form in Archaea. ...”

The regulation of DNA replication during Drosophila development af Carminati, Janet Lynn

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Developmental regulation of DNA replication in Drosophila melanogaster af Park, Eugenia Agnes

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Developmental regulation of DNA replication initiation in Drosophila af Xie, Fang, Ph. D. Massachusetts Institute of Technology

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Developmental control of the DNA replication and transcription programs af Nordman, Jared T., Li, Sharon, Eng, Thomas, MacAlpine, David M.

“...Here, we use genome-wide array-based comparative genomic hybridization (aCGH) to profile differential DNA replication in isolated and purified larval fat body and midgut tissues of Drosophila, and we compare them with recent aCGH profiles of the larval salivary gland. ...”
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DNA replication licensing in somatic and germ cells. af Eward, K, Obermann, E, Shreeram, S, Loddo, M, Fanshawe, T, Williams, C, Jung, H, Prevost, A, Blow, J, Stoeber, K, Williams, G

“...The DNA replication (or origin) licensing system ensures precise duplication of the genome in each cell cycle and is a powerful regulator of cell proliferation in metazoa. ...”

TEX264 in DNA replication and genome stability af Fielden, JC

“...Thus, TEX264 promotes DNA replication fork progression and preserves genome stability. ...”

The sub-cellular localization of Sulfolobus DNA replication. af Gristwood, T, Duggin, I, Wagner, M, Albers, S, Bell, S

“...Analyses of the DNA replication-associated proteins of hyperthermophilic archaea have yielded considerable insight into the structure and biochemical function of these evolutionarily conserved factors. ...”

DNA replication licensing in somatic and germ cells af Eward, K, Obermann, E, Shreeram, S, Loddo, M, Fanshawe, T, Williams, C, Jung, H, Prevost, A, Blow, J, Stoeber, K, Williams, G

“...The DNA replication (or origin) licensing system ensures precise duplication of the genome in each cell cycle and is a powerful regulator of cell proliferation in metazoa. ...”

Mechanism of Mcm10 function during DNA replication af Maloney, Michael F. (Michael Finnan)

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Okazaki fragment processing during eukaryotic DNA replication af Cox, L

Regulation of DNA replication during meiosis in fission yeast af Hua, H

“...<p>The interval between meiotic nuclear divisions can be regarded as a modified mitotic cell cycle where DNA replication is blocked. Mechanisms regulating this critical aspect of meiosis that allows haploid cells to be generated from a diploid progenitor were investigated in this project. ...”

Investigating the role of Rts1 in DNA replication initiation af Wallis, A, Nieduszynski, C

“...DNA replication initiates from DNA replication origins. ...”

DNA replication timing influences gene expression level af Müller, C, Nieduszynski, C

Essential role of MCM proteins in premeiotic DNA replication. af Lindner, K, Gregán, J, Montgomery, S, Kearsey, S

“...A critical event in eukaryotic DNA replication involves association of minichromosome maintenance (MCM2-7) proteins with origins, to form prereplicative complexes (pre-RCs) that are competent for initiation. ...”

Essential role of MCM proteins in premeiotic DNA replication af Lindner, K, Gregán, J, Montgomery, S, Kearsey, S

“...A critical event in eukaryotic DNA replication involves association of minichromosome maintenance (MCM2-7) proteins with origins, to form prereplicative complexes (pre-RCa) that are competent for initiation. ...”