Human Topoisomerase I Promotes Initiation of Simian Virus 40 DNA Replication In Vitro

Trowbridge, Pamela W.; Roy, Rupa; Simmons, Daniel T.

doi:10.1128/mcb.19.3.1686

Cited by 34 publications

(47 citation statements)

References 78 publications

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“…Thus, topo I plays an important role in different aspects of DNA metabolism such as DNA replication, DNA recombination, transcription, and, possibly, DNA repair (2)(3)(4). In addition to its catalytic activity on DNA, the enzyme has been shown to have other activities functioning as a ribonuclease and a kinase (5-7); its kinase activity has been shown to phosphorylate RNA splicing factors (5).…”

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confidence: 99%

A Novel Nuclear Localization Signal in Human DNA Topoisomerase I

Mo¹,

Wang²,

Beck³

2000

Journal of Biological Chemistry

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DNA topoisomerase (topo) I is a nuclear enzyme that plays an important role in DNA metabolism. Based on conserved nuclear targeting sequences, four classic nuclear localization signals (NLSs) have been proposed at the N terminus of human topo I, but studies with yeast have suggested that only one of them (amino acids (aa) 150 -156) is sufficient to direct the enzyme to the nucleus. In this study, we expressed human topo I fused to enhanced green fluorescent protein (EGFP) in mammalian cells and demonstrated that whereas aa 150 -156 are sufficient for nuclear localization, the nucleolar localization requires aa 157-199. More importantly, we identified a novel NLS within aa 117-146. In contrast to the classic NLSs that are rich in basic amino acids, the novel NLS identified in this study is rich in acidic amino acids. Furthermore, this novel NLS alone is sufficient to direct not only EGFP into the nucleus but also topo I; and the EGFP⅐topo I fusion driven by the novel NLS is as active in vivo as the wild-type topo I in response to the topo I inhibitor topotecan. Together, our results suggest that human topo I carries two independent NLSs that have opposite amino acid compositions.

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confidence: 99%

A Novel Nuclear Localization Signal in Human DNA Topoisomerase I

Mo¹,

Wang²,

Beck³

2000

Journal of Biological Chemistry

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“…Among them, DNA polymerase ␣/primase, replication protein A (RPA), and topoisomerase I (topo I) are believed to participate in DNA replication at a very early stage (19,21,37,40,41,51,57,59,63,64,65,67). Topo I is a critical enzyme needed to release the topological stress created by DNA unwinding.…”

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confidence: 99%

Topoisomerase I Associates Specifically with Simian Virus 40 Large-T-Antigen Double Hexamer–Origin Complexes

Gai

Roy

et al. 2000

J Virol

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Topoisomerase I (topo I) is required for releasing torsional stress during simian virus 40 (SV40) DNA replication. Recently, it has been demonstrated that topo I participates in initiation of replication as well as in elongation. Although T antigen and topo I can bind to one another in vitro, there is no direct evidence that topo I is a component of the replication initiation complex. We demonstrate in this report that topo I associates with T-antigen double hexamers bound to SV40 origin DNA (T DH ) but not to single hexamers. This association has the same nucleotide and DNA requirements as those for the formation of double hexamers on DNA. Interestingly, topo I prefers to bind to fully formed T DH complexes over other oligomerized forms of T antigen associated with the origin. High ratios of topo I to origin DNA destabilize T DH . The partial unwinding of a smallcircular-DNA substrate is dependent on the presence of both T antigen and topo I but is inhibited at high topo I concentrations. Competition experiments with a topo I-binding fragment of T antigen indicate that an interaction between T antigen and topo I occurs during the unwinding reaction. We propose that topo I is recruited to the initiation complex after the assembly of T DH and before unwinding to facilitate DNA replication.The mechanism of initiation of eukaryotic DNA replication is not yet clearly understood. To study this process, currently the best model systems are those of simian virus 40 (SV40) and other small DNA tumor viruses. SV40 DNA replication initiates from a well-defined single origin. The core of the origin consists of three parts, a central region known as site II (which consists of four GAGGC pentanucleotide repeats), an AT-rich track, and an early palindrome (EP) region (14). This 64-bplong core is sufficient for SV40 DNA replication (15), but the efficiency of replication is enhanced by auxiliary regions on both sides of the core, especially in vivo (23).The large tumor (T) antigen is the only viral protein essential for SV40 DNA replication, while the host cells provide all other required factors (33,34,56,62). The initiation of SV40 DNA replication is a multistep event. In the presence of ATP, T antigen specifically interacts with the core of the origin and assembles into a double-hexamer structure (T DH ) (12,30,36,61). This causes partial melting of the EP region and untwisting at the AT track of the origin (3,4,5,7,13,45,47). This T DH complex appears to be the basic frame around which the replication initiation complex forms, and T DH is the functional helicase during elongation (53,54,61).At least 10 cellular proteins have been identified to be essential for complete replication of SV40 DNA (33,34,56,62). Among them, DNA polymerase ␣/primase, replication protein A (RPA), and topoisomerase I (topo I) are believed to participate in DNA replication at a very early stage (19,21,37,40,41,51,57,59,63,64,65,67). Topo I is a critical enzyme needed to release the topological stress created by DNA unwinding. RPA is required to stab...

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“…Although RPA and pol/prim are absolutely essential for DNA synthesis (Simmons 2000), some DNA synthesis can take place in vitro in the absence of topo I (Simmons, Trowbridge et al 1998). However, topo I stimulates replication by up to 10-folds (Trowbridge, Roy et al 1999). This observation holds for assays performed with crude cell extracts depleted of topo I as well as for in vitro assays with purified proteins.…”

Section: Initiation Of Dna Synthesismentioning

confidence: 99%

“…This observation holds for assays performed with crude cell extracts depleted of topo I as well as for in vitro assays with purified proteins. Topo I is needed for the efficient formation of completed form I DNA molecules as well as for the formation of replicative intermediates (Trowbridge, Roy et al 1999). The cellular enzyme is needed from the beginning of DNA synthesis and is most likely a component of the replication initiation machine (Halmer, Vestner et al 1998;Trowbridge, Roy et al 1999).…”

Section: Initiation Of Dna Synthesismentioning

confidence: 99%

“…Topo I is needed for the efficient formation of completed form I DNA molecules as well as for the formation of replicative intermediates (Trowbridge, Roy et al 1999). The cellular enzyme is needed from the beginning of DNA synthesis and is most likely a component of the replication initiation machine (Halmer, Vestner et al 1998;Trowbridge, Roy et al 1999). This was demonstrated in a number of ways, but the most convincing was that reactions started with catalytically inactive mutants of topo I could not be rescued by the later addition of WT topo I suggesting that once topo I becomes incorporated into the initiation complex, it cannot be substituted by soluble enzyme.…”

Section: Initiation Of Dna Synthesismentioning

confidence: 99%

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