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Items: 1 to 20 of 77

1.

PGC-1 Coactivators: Shepherding the Mitochondrial Biogenesis of Tumors.

Luo C, Widlund HR, Puigserver P.

Trends Cancer. 2016 Oct;2(10):619-631. doi: 10.1016/j.trecan.2016.09.006.

PMID:
28607951
2.

Coregulator-mediated control of skeletal muscle plasticity - A mini-review.

Schnyder S, Kupr B, Handschin C.

Biochimie. 2017 May;136:49-54. doi: 10.1016/j.biochi.2016.12.011. Epub 2017 Jan 3. Review.

3.

HnRNPA2 is a novel histone acetyltransferase that mediates mitochondrial stress-induced nuclear gene expression.

Guha M, Srinivasan S, Guja K, Mejia E, Garcia-Diaz M, Johnson FB, Ruthel G, Kaufman BA, Rappaport EF, Glineburg MR, Fang JK, Szanto AK, Nakagawa H, Basha J, Kundu T, Avadhani NG.

Cell Discov. 2016 Dec 6;2:16045. eCollection 2016.

4.

Inhibition of Adhesion Molecule Gene Expression and Cell Adhesion by the Metabolic Regulator PGC-1α.

Minsky N, Roeder RG.

PLoS One. 2016 Dec 16;11(12):e0165598. doi: 10.1371/journal.pone.0165598. eCollection 2016.

5.

A Role for Peroxisome Proliferator-Activated Receptor Gamma Coactivator-1α in Nucleus Accumbens Neuron Subtypes in Cocaine Action.

Chandra R, Engeln M, Francis TC, Konkalmatt P, Patel D, Lobo MK.

Biol Psychiatry. 2017 Apr 1;81(7):564-572. doi: 10.1016/j.biopsych.2016.10.024. Epub 2016 Oct 28.

PMID:
27939396
6.

Long noncoding RNA Tug1 regulates mitochondrial bioenergetics in diabetic nephropathy.

Long J, Badal SS, Ye Z, Wang Y, Ayanga BA, Galvan DL, Green NH, Chang BH, Overbeek PA, Danesh FR.

J Clin Invest. 2016 Nov 1;126(11):4205-4218. doi: 10.1172/JCI87927. Epub 2016 Oct 17.

7.

Bromodomain Inhibitors Correct Bioenergetic Deficiency Caused by Mitochondrial Disease Complex I Mutations.

Barrow JJ, Balsa E, Verdeguer F, Tavares CD, Soustek MS, Hollingsworth LR 4th, Jedrychowski M, Vogel R, Paulo JA, Smeitink J, Gygi SP, Doench J, Root DE, Puigserver P.

Mol Cell. 2016 Oct 6;64(1):163-175. doi: 10.1016/j.molcel.2016.08.023. Epub 2016 Sep 22.

PMID:
27666594
8.

Peroxisome Proliferator-activated Receptor γ Coactivator-1 α Isoforms Selectively Regulate Multiple Splicing Events on Target Genes.

Martínez-Redondo V, Jannig PR, Correia JC, Ferreira DM, Cervenka I, Lindvall JM, Sinha I, Izadi M, Pettersson-Klein AT, Agudelo LZ, Gimenez-Cassina A, Brum PC, Dahlman-Wright K, Ruas JL.

J Biol Chem. 2016 Jul 15;291(29):15169-84. doi: 10.1074/jbc.M115.705822. Epub 2016 May 26.

PMID:
27231350
9.

Deposition of 5-Methylcytosine on Enhancer RNAs Enables the Coactivator Function of PGC-1α.

Aguilo F, Li S, Balasubramaniyan N, Sancho A, Benko S, Zhang F, Vashisht A, Rengasamy M, Andino B, Chen CH, Zhou F, Qian C, Zhou MM, Wohlschlegel JA, Zhang W, Suchy FJ, Walsh MJ.

Cell Rep. 2016 Jan 26;14(3):479-92. doi: 10.1016/j.celrep.2015.12.043. Epub 2016 Jan 7.

10.

p300 is not required for metabolic adaptation to endurance exercise training.

LaBarge SA, Migdal CW, Buckner EH, Okuno H, Gertsman I, Stocks B, Barshop BA, Nalbandian SR, Philp A, McCurdy CE, Schenk S.

FASEB J. 2016 Apr;30(4):1623-33. doi: 10.1096/fj.15-281741. Epub 2015 Dec 28.

11.

Complex Coordination of Cell Plasticity by a PGC-1α-controlled Transcriptional Network in Skeletal Muscle.

Kupr B, Handschin C.

Front Physiol. 2015 Nov 9;6:325. doi: 10.3389/fphys.2015.00325. eCollection 2015. Review.

12.

Direct link between metabolic regulation and the heat-shock response through the transcriptional regulator PGC-1α.

Minsky N, Roeder RG.

Proc Natl Acad Sci U S A. 2015 Oct 20;112(42):E5669-78. doi: 10.1073/pnas.1516219112. Epub 2015 Oct 5.

13.

Transcriptional control of circadian metabolic rhythms in the liver.

Li S, Lin JD.

Diabetes Obes Metab. 2015 Sep;17 Suppl 1:33-8. doi: 10.1111/dom.12520. Review.

14.

The LIM protein Ajuba promotes adipogenesis by enhancing PPARγ and p300/CBP interaction.

Li Q, Peng H, Fan H, Zou X, Liu Q, Zhang Y, Xu H, Chu Y, Wang C, Ayyanathan K, Rauscher FJ, Zhang K, Hou Z.

Cell Death Differ. 2016 Jan;23(1):158-68. doi: 10.1038/cdd.2015.83. Epub 2015 Jun 26.

15.

G Protein-coupled Receptor 40 (GPR40) and Peroxisome Proliferator-activated Receptor γ (PPARγ): AN INTEGRATED TWO-RECEPTOR SIGNALING PATHWAY.

Wang S, Awad KS, Elinoff JM, Dougherty EJ, Ferreyra GA, Wang JY, Cai R, Sun J, Ptasinska A, Danner RL.

J Biol Chem. 2015 Aug 7;290(32):19544-57. doi: 10.1074/jbc.M115.638924. Epub 2015 Jun 23.

16.

Muscle as a "mediator" of systemic metabolism.

Baskin KK, Winders BR, Olson EN.

Cell Metab. 2015 Feb 3;21(2):237-48. doi: 10.1016/j.cmet.2014.12.021. Review.

17.

PRDM16 enhances nuclear receptor-dependent transcription of the brown fat-specific Ucp1 gene through interactions with Mediator subunit MED1.

Iida S, Chen W, Nakadai T, Ohkuma Y, Roeder RG.

Genes Dev. 2015 Feb 1;29(3):308-21. doi: 10.1101/gad.252809.114.

18.

PRDM16 binds MED1 and controls chromatin architecture to determine a brown fat transcriptional program.

Harms MJ, Lim HW, Ho Y, Shapira SN, Ishibashi J, Rajakumari S, Steger DJ, Lazar MA, Won KJ, Seale P.

Genes Dev. 2015 Feb 1;29(3):298-307. doi: 10.1101/gad.252734.114.

19.

Reconstitution of active human core Mediator complex reveals a critical role of the MED14 subunit.

Cevher MA, Shi Y, Li D, Chait BT, Malik S, Roeder RG.

Nat Struct Mol Biol. 2014 Dec;21(12):1028-34. doi: 10.1038/nsmb.2914. Epub 2014 Nov 10.

20.

Understanding the acetylome: translating targeted proteomics into meaningful physiology.

Philp A, Rowland T, Perez-Schindler J, Schenk S.

Am J Physiol Cell Physiol. 2014 Nov 1;307(9):C763-73. doi: 10.1152/ajpcell.00399.2013. Epub 2014 Sep 3. Review.

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