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Items: 1 to 20 of 103

1.

Acetylome analysis reveals the involvement of lysine acetylation in biosynthesis of antibiotics in Bacillus amyloliquefaciens.

Liu L, Wang G, Song L, Lv B, Liang W.

Sci Rep. 2016 Jan 29;6:20108. doi: 10.1038/srep20108.

2.

Global analysis of lysine acetylation in strawberry leaves.

Fang X, Chen W, Zhao Y, Ruan S, Zhang H, Yan C, Jin L, Cao L, Zhu J, Ma H, Cheng Z.

Front Plant Sci. 2015 Sep 15;6:739. doi: 10.3389/fpls.2015.00739. eCollection 2015.

3.

Systematic Analysis of Mycobacterial Acylation Reveals First Example of Acylation-mediated Regulation of Enzyme Activity of a Bacterial Phosphatase.

Singhal A, Arora G, Virmani R, Kundu P, Khanna T, Sajid A, Misra R, Joshi J, Yadav V, Samanta S, Saini N, Pandey AK, Visweswariah SS, Hentschker C, Becher D, Gerth U, Singh Y.

J Biol Chem. 2015 Oct 23;290(43):26218-34. doi: 10.1074/jbc.M115.687269. Epub 2015 Sep 8.

PMID:
26350458
4.

Observed surface lysine acetylation of human carbonic anhydrase II expressed in Escherichia coli.

Mahon BP, Lomelino CL, Salguero AL, Driscoll JM, Pinard MA, McKenna R.

Protein Sci. 2015 Nov;24(11):1800-7. doi: 10.1002/pro.2771. Epub 2015 Sep 15.

PMID:
26266677
5.

Protein acetylation dynamics in response to carbon overflow in Escherichia coli.

Schilling B, Christensen D, Davis R, Sahu AK, Hu LI, Walker-Peddakotla A, Sorensen DJ, Zemaitaitis B, Gibson BW, Wolfe AJ.

Mol Microbiol. 2015 Dec;98(5):847-63. doi: 10.1111/mmi.13161. Epub 2015 Sep 10.

PMID:
26264774
6.

Acylation of Biomolecules in Prokaryotes: a Widespread Strategy for the Control of Biological Function and Metabolic Stress.

Hentchel KL, Escalante-Semerena JC.

Microbiol Mol Biol Rev. 2015 Sep;79(3):321-46. doi: 10.1128/MMBR.00020-15. Epub 2015 Jul 15. Review.

PMID:
26179745
7.

Changes in the Acetylome and Succinylome of Bacillus subtilis in Response to Carbon Source.

Kosono S, Tamura M, Suzuki S, Kawamura Y, Yoshida A, Nishiyama M, Yoshida M.

PLoS One. 2015 Jun 22;10(6):e0131169. doi: 10.1371/journal.pone.0131169. eCollection 2015.

8.

Quantitative Profiling of Lysine Acetylation Reveals Dynamic Crosstalk between Receptor Tyrosine Kinases and Lysine Acetylation.

Bryson BD, White FM.

PLoS One. 2015 May 15;10(5):e0126242. doi: 10.1371/journal.pone.0126242. eCollection 2015.

9.

High-Resolution Metabolomics with Acyl-CoA Profiling Reveals Widespread Remodeling in Response to Diet.

Liu X, Sadhukhan S, Sun S, Wagner GR, Hirschey MD, Qi L, Lin H, Locasale JW.

Mol Cell Proteomics. 2015 Jun;14(6):1489-500. doi: 10.1074/mcp.M114.044859. Epub 2015 Mar 20.

PMID:
25795660
10.

The lysine acetyltransferase activator Brpf1 governs dentate gyrus development through neural stem cells and progenitors.

You L, Yan K, Zou J, Zhao H, Bertos NR, Park M, Wang E, Yang XJ.

PLoS Genet. 2015 Mar 10;11(3):e1005034. doi: 10.1371/journal.pgen.1005034. eCollection 2015 Mar. Erratum in: PLoS Genet. 2015 Jun;11(6):e1005329. Zhou, Jinfeng [corrected to Zou, Jinfeng].

11.

Metabolic Regulation by Lysine Malonylation, Succinylation, and Glutarylation.

Hirschey MD, Zhao Y.

Mol Cell Proteomics. 2015 Sep;14(9):2308-15. doi: 10.1074/mcp.R114.046664. Epub 2015 Feb 25.

PMID:
25717114
12.

Isolation and Characterization of Acetylated Derivative of Recombinant Insulin Lispro Produced in Escherichia coli.

Szewczak J, Bierczyńska-Krzysik A, Piejko M, Mak P, Stadnik D.

Pharm Res. 2015 Jul;32(7):2450-7. doi: 10.1007/s11095-015-1637-y. Epub 2015 Feb 7.

14.

Engineered bromodomains to explore the acetylproteome.

Bryson BD, Del Rosario AM, Gootenberg JS, Yaffe MB, White FM.

Proteomics. 2015 May;15(9):1470-5. doi: 10.1002/pmic.201400401. Epub 2015 Mar 5.

PMID:
25641834
15.

Succinylome analysis reveals the involvement of lysine succinylation in metabolism in pathogenic Mycobacterium tuberculosis.

Yang M, Wang Y, Chen Y, Cheng Z, Gu J, Deng J, Bi L, Chen C, Mo R, Wang X, Ge F.

Mol Cell Proteomics. 2015 Apr;14(4):796-811. doi: 10.1074/mcp.M114.045922. Epub 2015 Jan 20.

PMID:
25605462
16.

Protein acetylation affects acetate metabolism, motility and acid stress response in Escherichia coli.

Castaño-Cerezo S, Bernal V, Post H, Fuhrer T, Cappadona S, Sánchez-Díaz NC, Sauer U, Heck AJ, Altelaar AF, Cánovas M.

Mol Syst Biol. 2014 Nov 27;10:762. doi: 10.15252/msb.20145227.

17.

The E. coli sirtuin CobB shows no preference for enzymatic and nonenzymatic lysine acetylation substrate sites.

AbouElfetouh A, Kuhn ML, Hu LI, Scholle MD, Sorensen DJ, Sahu AK, Becher D, Antelmann H, Mrksich M, Anderson WF, Gibson BW, Schilling B, Wolfe AJ.

Microbiologyopen. 2015 Feb;4(1):66-83. doi: 10.1002/mbo3.223. Epub 2014 Nov 22.

18.

The Porphyromonas gingivalis ferric uptake regulator orthologue binds hemin and regulates hemin-responsive biofilm development.

Butler CA, Dashper SG, Zhang L, Seers CA, Mitchell HL, Catmull DV, Glew MD, Heath JE, Tan Y, Khan HS, Reynolds EC.

PLoS One. 2014 Nov 6;9(11):e111168. doi: 10.1371/journal.pone.0111168. eCollection 2014.

19.

Metabolism leaves its mark on the powerhouse: recent progress in post-translational modifications of lysine in mitochondria.

Papanicolaou KN, O'Rourke B, Foster DB.

Front Physiol. 2014 Sep 2;5:301. doi: 10.3389/fphys.2014.00301. eCollection 2014. Review.

20.

Alternate deacylating specificities of the archaeal sirtuins Sir2Af1 and Sir2Af2.

Ringel AE, Roman C, Wolberger C.

Protein Sci. 2014 Dec;23(12):1686-97. doi: 10.1002/pro.2546. Epub 2014 Oct 1.

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