Barry Milavetz scite author profile

We suggest that both succinyl-CoA synthetases catalyze the reverse reaction in the citric acid cycle in which the ADP-forming enzyme augments ATP production, whereas the GDP-forming enzyme supports GTPdependent anabolic processes. Widely accepted shuttle mechanisms are invoked to explain how transport of P-enolpyruvate across mitochondrial membranes can transfer high energy phosphate between the cytosol and mitochondrial matrix.

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Reorganization of RNA polymerase II on the SV40 genome occurs coordinately with the early to late transcriptional switch

Balakrishnan

Milavetz

2006

Virology

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The pattern of organization of RNA polymerase II (RNAPII) in wild-type and mutant cs1085 SV40 chromosomes isolated between 30 min and 48 h post-infection was determined using a combination of chromatin immunoprecipitation (ChIP) techniques. During the course of a wild-type infection, we observed a slow but significant decline in the relative occupancy of RNAPII at the early region and a corresponding increase in occupation in the late region. In the promoter, occupancy began high, decreased to a minimum at 8 h post-infection, and then increased to a high level by 48 h post-infection. In the mutant cs1085, which does not down-regulate early transcription, we observed high occupancy of the early region and the promoter throughout the infection. The changing organization of RNAPII on the wild-type SV40 but not the mutant cs1085 genome appears to be a result of the switch from early to late transcription.

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Histone Hyperacetylation in the Coding Region of Chromatin Undergoing Transcription in SV40 Minichromosomes Is a Dynamic Process Regulated Directly by the Presence of RNA Polymerase II

Balakrishnan

Milavetz

2007

Journal of Molecular Biology

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SV40 chromosomes undergoing transcription operationally defined by the presence of RNA Polymerase II (RNAPII) were immune-selected with antibody to RNAPII and subjected to secondary chromatin immunoprecipitation with antibodies to hyperacetylated or unacetylated H4 or H3. Immune Selection Fragmentation and Immunoprecipitation (ISFIP) was used to determine the hyperacetylation status of histones independent of the location of the RNAPII and ReChromatin Immunoprecipitation (ReChIP) was used to determine their hyperacetylation status when associated with RNAPII. While hyperacetylated H4 and H3 were found in the coding regions regardless of the location of RNAPII, unacetylated H4 and H3 were only found at sites lacking RNAPII. The absence of unacetylated H4 and H3 at sites containing RNAPII was correlated with the specific association of the Histone Acetyl Transferase (HAT) p300 with the RNAPII. In contrast, the presence of unacetylated H4 and H3 at sites lacking RNAPII was shown to result from the action of a histone deacetylase (HDAC) based upon the effects of the inhibitor sodium butyrate. These results suggest that the extent of hyperacetylation of H4 and H3 during transcription alternates between hyperacetylation directed by an RNAPII associated HAT and deacetylation directed by an HDAC at other sites.

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Viral Epigenetics

Milavetz

Balakrishnan

2014

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DNA tumor viruses including members of the polyomavirus, adenovirus, papillomavirus, and herpes virus families are presently the subject of intense interest with respect to the role that epigenetics plays in control of the virus life cycle and the transformation of a normal cell to a cancer cell. To date, these studies have primarily focused on the role of histone modification, nucleosome location, and DNA methylation in regulating the biological consequences of infection. Using a wide variety of strategies and techniques ranging from simple ChIP to ChIP-chip and ChIP-seq to identify histone modifications, nuclease digestion to genome wide next generation sequencing to identify nucleosome location, and bisulfite treatment to MeDIP to identify DNA methylation sites, the epigenetic regulation of these viruses is slowly becoming better understood. While the viruses may differ in significant ways from each other and cellular chromatin, the role of epigenetics appears to be relatively similar. Within the viral genome nucleosomes are organized for the expression of appropriate genes with relevant histone modifications particularly histone acetylation. DNA methylation occurs as part of the typical gene silencing during latent infection by herpesviruses. In the simple tumor viruses like the polyomaviruses, adenoviruses, and papillomaviruses, transformation of the cell occurs via integration of the virus genome such that the virus's normal regulation is disrupted. This results in the unregulated expression of critical viral genes capable of redirecting cellular gene expression. The redirected cellular expression is a consequence of either indirect epigenetic regulation where cellular signaling or transcriptional dysregulation occurs or direct epigenetic regulation where epigenetic cofactors such as histone deacetylases are targeted. In the more complex herpersviruses transformation is a consequence of the expression of the viral latency proteins and RNAs which again can have either a direct or indirect effect on epigenetic regulation of cellular expression. Nevertheless, many questions still remain with respect to the specific mechanisms underlying epigenetic regulation of the viruses and transformation.

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Barry Milavetz

Genetic Evidence for the Expression of ATP- and GTP-specific Succinyl-CoA Synthetases in Multicellular Eucaryotes

Expression of Two Succinyl-CoA Synthetases with Different Nucleotide Specificities in Mammalian Tissues

Reorganization of RNA polymerase II on the SV40 genome occurs coordinately with the early to late transcriptional switch

Histone Hyperacetylation in the Coding Region of Chromatin Undergoing Transcription in SV40 Minichromosomes Is a Dynamic Process Regulated Directly by the Presence of RNA Polymerase II

Viral Epigenetics

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