The Saccharomyces retrotransposon Ty5 integrates preferentially into regions of silent chromatin at the telomeres and mating loci.

Zou, Sige; Ning, Ke; Kim, Jin M.; Voytas, Daniel F.

doi:10.1101/gad.10.5.634

Cited by 186 publications

(231 citation statements)

References 57 publications

(70 reference statements)

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“…Consider that the preference of HIV for active transcription units is an approximately two-fold effect, albeit one established with incontrovertible rigor due to the large number of independent events in the samples. In contrast, fully 90-95% of Ty5 retrotransposon insertions occur within confined heterochromatic regions at yeast telomeres or at the silent mating loci [180]. This process is mediated by a direct tethering interaction between Ty5 IN and a heterochromatinassociated protein, Sir4p [181].…”

Section: Targeting Lentiviral Vectorsmentioning

confidence: 99%

Integrase, LEDGF/p75 and HIV replication

Poeschla

2008

Cell. Mol. Life Sci.

115

104

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HIV integrates a DNA copy of its genome into a host cell chromosome in each replication cycle. The essential DNA cleaving and joining chemistry of integration is known, but there is less understanding of the process as it occurs in a cell, where two complex and dynamic macromolecular entities are joined: the viral pre-integration complex and chromatin. Among implicated cellular factors, much recent attention has coalesced around LEDGF/p75, a nuclear protein that may act as a chromatin docking factor or receptor for lentiviral pre-integration complexes. LEDGF/p75 tethers HIV integrase to chromatin, protects it from degradation, and strongly influences the genome-wide pattern of HIV integration. Depleting the protein from cells and/or over-expressing its integrase-binding domain blocks viral replication. Current goals are to establish the underlying mechanisms and to determine whether this knowledge can be exploited for antiviral therapy or for targeting lentiviral vector integration in human gene therapy.

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Section: Targeting Lentiviral Vectorsmentioning

confidence: 99%

Integrase, LEDGF/p75 and HIV replication

Poeschla

2008

Cell. Mol. Life Sci.

115

104

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“…The ability of these elements to selectively integrate into specific target sequences has been paramount to their success because the employment of specific targeting mechanisms has allowed these retrotransposons to propagate within host genomes without disrupting genes and compromising the host's survival (Levin and Moran 2011). The long terminal repeat (LTR) retrotransposons Ty1, Ty3, and Ty5 of Saccharomyces cerevisiae avoid causing damage to the host by targeting noncoding genomic regions; Ty1 and Ty3 integrate upstream of RNA polemerase III-transcribed genes, while Ty5 integrates into heterochromatin (Chalker and Sandmeyer 1990;1992;Ji et al 1993;Kirchner et al 1995;Devine and Boeke 1996;Zou et al 1996;Zou and Voytas 1997;Yieh et al 2000;Sandmeyer 2003;Lesage and Todeschini 2005).In Schizosaccharomyces pombe, the LTR retrotransposon Tf1 has a unique targeting mechanism that directs integration to promoters of RNA polymerase II-transcribed genes with a bias for the promoters of stress-response genes (Behrens et al 2000;Singleton and Levin 2002;Bowen et al 2003;Leem et al 2008;Guo and Levin 2010). Surprisingly, insertion of Tf1 into promoters rarely reduces the expression of their downstream genes, and in approximately 40% of cases, it enhances it (Feng et al 2013).…”

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confidence: 99%

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confidence: 99%

Single-Nucleotide-Specific Targeting of the Tf1 Retrotransposon Promoted by the DNA-Binding Protein Sap1 of Schizosaccharomyces pombe

et al. 2015

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Transposable elements (TEs) constitute a substantial fraction of the eukaryotic genome and, as a result, have a complex relationship with their host that is both adversarial and dependent. To minimize damage to cellular genes, TEs possess mechanisms that target integration to sequences of low importance. However, the retrotransposon Tf1 of Schizosaccharomyces pombe integrates with a surprising bias for promoter sequences of stress-response genes. The clustering of integration in specific promoters suggests that Tf1 possesses a targeting mechanism that is important for evolutionary adaptation to changes in environment. We report here that Sap1, an essential DNA-binding protein, plays an important role in Tf1 integration. A mutation in Sap1 resulted in a 10-fold drop in Tf1 transposition, and measures of transposon intermediates support the argument that the defect occurred in the process of integration. Published ChIP-Seq data on Sap1 binding combined with high-density maps of Tf1 integration that measure independent insertions at single-nucleotide positions show that 73.4% of all integration occurs at genomic sequences bound by Sap1. This represents high selectivity because Sap1 binds just 6.8% of the genome. A genome-wide analysis of promoter sequences revealed that Sap1 binding and amounts of integration correlate strongly. More important, an alignment of the DNA-binding motif of Sap1 revealed integration clustered on both sides of the motif and showed high levels specifically at positions +19 and 29. These data indicate that Sap1 contributes to the efficiency and position of Tf1 integration. KEYWORDS Sap1; Tf1; integration; transposition; Schizosaccharomyces pombe R ETROTRANSPOSONS are pervasive among eukaryotes and, in many cases, account for a substantial portion of the host genome (Moore et al. 2004;Scheifele et al. 2009;Levin and Moran 2011). The ability of these elements to selectively integrate into specific target sequences has been paramount to their success because the employment of specific targeting mechanisms has allowed these retrotransposons to propagate within host genomes without disrupting genes and compromising the host's survival (Levin and Moran 2011). The long terminal repeat (LTR) retrotransposons Ty1, Ty3, and Ty5 of Saccharomyces cerevisiae avoid causing damage to the host by targeting noncoding genomic regions; Ty1 and Ty3 integrate upstream of RNA polemerase III-transcribed genes, while Ty5 integrates into heterochromatin (Chalker and Sandmeyer 1990;1992;Ji et al. 1993;Kirchner et al. 1995;Devine and Boeke 1996;Zou et al. 1996;Zou and Voytas 1997;Yieh et al. 2000;Sandmeyer 2003;Lesage and Todeschini 2005).In Schizosaccharomyces pombe, the LTR retrotransposon Tf1 has a unique targeting mechanism that directs integration to promoters of RNA polymerase II-transcribed genes with a bias for the promoters of stress-response genes (Behrens et al. 2000;Singleton and Levin 2002;Bowen et al. 2003;Leem et al. 2008;Guo and Levin 2010). Surprisingly, insertion of Tf1 into promoters rarel...

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“…As reported in this issue of PNAS, investigators have produced active retroviruslike elements with synthetic insertion specificities (2). Dan Voytas and colleagues at Iowa State University (Ames) study the Saccharomyces long terminal repeat (LTR)-retrotransposon Ty5, which targets heterochromatic regions (3). Now, in an elegant adaptation of the two-hybrid system, the 6-aa Ty5 targeting domain (TD) was exchanged for two heterologous domains shown to mediate interaction of their respective proteins with protein partners.…”

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confidence: 99%

Integration by design

Sandmeyer

2003

Proc. Natl. Acad. Sci. U.S.A.

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The Saccharomyces retrotransposon Ty5 integrates preferentially into regions of silent chromatin at the telomeres and mating loci.

Cited by 186 publications

References 57 publications

Integrase, LEDGF/p75 and HIV replication

Integrase, LEDGF/p75 and HIV replication

Single-Nucleotide-Specific Targeting of the Tf1 Retrotransposon Promoted by the DNA-Binding Protein Sap1 of Schizosaccharomyces pombe

Integration by design

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