Sameez Hasan scite author profile

We describe a role for the transcriptional coactivator p300 in DNA metabolism. p300 formed a complex with flap endonuclease-1 (Fen1) and acetylated Fen1 in vitro. Furthermore, Fen1 acetylation was observed in vivo and was enhanced upon UV treatment of human cells. Remarkably, acetylation of the Fen1 C terminus by p300 significantly reduced Fen1's DNA binding and nuclease activity. Proliferating cell nuclear antigen (PCNA) was able to stimulate both acetylated and unacetylated Fen1 activity to the same extent. Our results identify acetylation as a novel regulatory modification of Fen1 and implicate that p300 is not only a component of the chromatin remodeling machinery but might also play a critical role in regulating DNA metabolic events.

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Transcription coactivator p300 binds PCNA and may have a role in DNA repair synthesis

Hasan

Hassa

Imhof

et al. 2001

Nature

154

138

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The transcriptional coactivator p300 interacts with many transcription factors that participate in a broad spectrum of biological activities, such as cellular differentiation, homeostasis and growth control. Mouse embryos lacking both p300 alleles die around mid-gestation, with pleiotropic defects in morphogenesis, in cell differentiation and, unexpectedly, in cell proliferation because of reduced DNA synthesis. Here we show that p300 may have a role in DNA repair synthesis through its interaction with proliferating cell nuclear antigen (PCNA). We show that in vitro and in vivo p300 forms a complex with PCNA that does not depend on the S phase of cell cycle. A large fraction of both p300 and PCNA colocalize to speckled structures in the nucleus. Furthermore, the endogenous p300-PCNA complex stimulates DNA synthesis in vitro. Chromatin immunoprecipitation experiments indicate that p300 is associated with freshly synthesized DNA after ultraviolet irradiation. Our results suggest that p300 may participate in chromatin remodelling at DNA lesion sites to facilitate PCNA function in DNA repair synthesis.

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Involvement of an ABC Transporter in a Developmental Pathway Regulating Hypocotyl Cell Elongation in the Light

et al. 1998

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In the dark, plant seedlings follow the skotomorphogenetic developmental program, which results in hypocotyl cell elongation. When the seedlings are exposed to light, a switch to photomorphogenetic development occurs, and hypocotyl cell elongation is inhibited. We have manipulated the expression of the AtPGP1 (for Arabidopsis thaliana P glycoprotein1) gene in transgenic Arabidopsis plants by using sense and antisense constructs. We show that within a certain light fluence rate window, overexpression of the AtPGP1 gene under the control of the cauliflower mosaic virus 35S promoter causes plants to develop longer hypocotyls, whereas expression of the gene in antisense orientation results in hypocotyls shorter than those occurring in the wild type. In the dark, hypocotyls of transgenic and wild-type plants are indistinguishable. Because the AtPGP1 gene encodes a member of the superfamily of ATP binding cassette-containing (ABC) transporters, these results imply that a transport process is involved in a hypocotyl cell elongation pathway active in the light. The AtPGP1 transporter is localized in the plasmalemma, as indicated by immunohistochemical techniques and biochemical membrane separation methods. Analysis of the AtPGP1 expression pattern by using reporter gene constructs and in situ hybridization shows that in wild-type seedlings, AtPGP1 is expressed in both the root and shoot apices.

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Acetylation Regulates the DNA End-Trimming Activity of DNA Polymerase β

et al. 2002

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We describe a novel regulatory mechanism for DNA polymerase beta (Polbeta), a protein involved in DNA base excision repair (BER). Polbeta colocalized in vivo and formed a complex with the transcriptional coactivator p300. p300 interacted with Polbeta through distinct domains and acetylated Polbeta in vitro. Polbeta acetylation was furthermore observed in vivo. Lysine 72 of Polbeta was identified as the main target for acetylation by p300. Interestingly, acetylated Polbeta showed a severely reduced ability to participate in a reconstituted BER assay. This was due to an impairment of the dRP-lyase activity of Polbeta. Acetylation of Polbeta thus acts as an intranuclear regulatory mechanism and implies that p300 plays a critical regulatory role in BER.

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Sameez Hasan

The Enzymatic and DNA Binding Activity of PARP-1 Are Not Required for NF-κB Coactivator Function

Regulation of Human Flap Endonuclease-1 Activity by Acetylation through the Transcriptional Coactivator p300

Transcription coactivator p300 binds PCNA and may have a role in DNA repair synthesis

Involvement of an ABC Transporter in a Developmental Pathway Regulating Hypocotyl Cell Elongation in the Light

Acetylation Regulates the DNA End-Trimming Activity of DNA Polymerase β

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