Articles - 4cmv mentioned but not cited (3)
- Molecular profiling of Mycobacterium tuberculosis identifies tuberculosinyl nucleoside products of the virulence-associated enzyme Rv3378c. Layre E, Lee HJ, Young DC, Martinot AJ, Buter J, Minnaard AJ, Annand JW, Fortune SM, Snider BB, Matsunaga I, Rubin EJ, Alber T, Moody DB. Proc. Natl. Acad. Sci. U.S.A. 111 2978-2983 (2014)
- A Molecular Dynamics Investigation of Mycobacterium tuberculosis Prenyl Synthases: Conformational Flexibility and Implications for Computer-aided Drug Discovery. Kim MO, Feng X, Feixas F, Zhu W, Lindert S, Bogue S, Sinko W, de Oliveira C, Rao G, Oldfield E, McCammon JA. Chem Biol Drug Des 85 756-769 (2015)
- Intermolecular disulfide bond in the dimerization of S-periaxin mediated by Cys88 and Cys139. Yang Y, Ren Y, Shi Y. Acta Biochim. Biophys. Sin. (Shanghai) 48 326-333 (2016)
Reviews citing this publication (16)
- Bacterial terpene cyclases. Dickschat JS. Nat Prod Rep 33 87-110 (2016)
- Resistance-resistant antibiotics. Oldfield E, Feng X. Trends Pharmacol. Sci. 35 664-674 (2014)
- Building a better bacillus: the emergence of Mycobacterium tuberculosis. Wang J, Behr MA. Front Microbiol 5 139 (2014)
- Host Cell Targets of Released Lipid and Secreted Protein Effectors of Mycobacterium tuberculosis. Augenstreich J, Briken V. Front Cell Infect Microbiol 10 595029 (2020)
- Bacterial terpenome. Rudolf JD, Alsup TA, Xu B, Li Z. Nat Prod Rep 38 905-980 (2021)
- Assessing the progress of Mycobacterium tuberculosis H37Rv structural genomics. Fang Z, van der Merwe RG, Warren RM, Schubert WD, Gey van Pittius NC. Tuberculosis (Edinb) 95 131-136 (2015)
- Comparative genomics of mycobacteria: some answers, yet more new questions. Behr MA. Cold Spring Harb Perspect Med 5 a021204 (2014)
- Diagnosis of Tuberculosis in HIV Co-infected Individuals: Current Status, Challenges and Opportunities for the Future. Méndez-Samperio P. Scand. J. Immunol. 86 76-82 (2017)
- Emerging Approaches to Tuberculosis Drug Development: At Home in the Metabolome. Jansen RS, Rhee KY. Trends Pharmacol. Sci. 38 393-405 (2017)
- Metabolomics: a window into the adaptive physiology of Mycobacterium tuberculosis. Eoh H. Tuberculosis (Edinb) 94 538-543 (2014)
- Fighting Persistence: How Chronic Infections with Mycobacterium tuberculosis Evade T Cell-Mediated Clearance and New Strategies To Defeat Them. Ankley L, Thomas S, Olive AJ. Infect Immun 88 (2020)
- Reshaping Lipid Biochemistry by Pushing Barriers in Structural Lipidomics. Porta Siegel T, Ekroos K, Ellis SR. Angew. Chem. Int. Ed. Engl. 58 6492-6501 (2019)
- Actinomycetes as Producers of Biologically Active Terpenoids: Current Trends and Patents. Tarasova EV, Luchnikova NA, Grishko VV, Ivshina IB. Pharmaceuticals (Basel) 16 872 (2023)
- Antibacterial Natural Halimanes: Potential Source of Novel Antibiofilm Agents. Tobal IE, Roncero AM, Moro RF, Díez D, Marcos IS. Molecules 25 (2020)
- Chemical Synthesis of Cell Wall Constituents of Mycobacterium tuberculosis. Holzheimer M, Buter J, Minnaard AJ. Chem Rev 121 9554-9643 (2021)
- Halimane diterpenoids: sources, structures, nomenclature and biological activities. Roncero AM, Tobal IE, Moro RF, Díez D, Marcos IS. Nat Prod Rep 35 955-991 (2018)
Articles citing this publication (35)
- Antiinfectives targeting enzymes and the proton motive force. Feng X, Zhu W, Schurig-Briccio LA, Lindert S, Shoen C, Hitchings R, Li J, Wang Y, Baig N, Zhou T, Kim BK, Crick DC, Cynamon M, McCammon JA, Gennis RB, Oldfield E. Proc. Natl. Acad. Sci. U.S.A. 112 E7073-82 (2015)
- Extreme promiscuity of a bacterial and a plant diterpene synthase enables combinatorial biosynthesis. Jia M, Potter KC, Peters RJ. Metab. Eng. 37 24-34 (2016)
- Identification of a new diterpene biosynthetic gene cluster that produces O-methylkolavelool in Herpetosiphon aurantiacus. Nakano C, Oshima M, Kurashima N, Hoshino T. Chembiochem 16 772-781 (2015)
- Microbial metabolomics: innovation, application, insight. Aldridge BB, Rhee KY. Curr. Opin. Microbiol. 19 90-96 (2014)
- Identification of specific metabolites in culture supernatant of Mycobacterium tuberculosis using metabolomics: exploration of potential biomarkers. Lau SK, Lam CW, Curreem SO, Lee KC, Lau CC, Chow WN, Ngan AH, To KK, Chan JF, Hung IF, Yam WC, Yuen KY, Woo PC. Emerg Microbes Infect 4 e6 (2015)
- In vivo biosynthesis of terpene nucleosides provides unique chemical markers of Mycobacterium tuberculosis infection. Young DC, Layre E, Pan SJ, Tapley A, Adamson J, Seshadri C, Wu Z, Buter J, Minnaard AJ, Coscolla M, Gagneux S, Copin R, Ernst JD, Bishai WR, Snider BB, Moody DB. Chem. Biol. 22 516-526 (2015)
- Metabolomic Profiling of Plasma from Patients with Tuberculosis by Use of Untargeted Mass Spectrometry Reveals Novel Biomarkers for Diagnosis. Lau SK, Lee KC, Curreem SO, Chow WN, To KK, Hung IF, Ho DT, Sridhar S, Li IW, Ding VS, Koo EW, Wong CF, Tam S, Lam CW, Yuen KY, Woo PC. J. Clin. Microbiol. 53 3750-3759 (2015)
- Algal neurotoxin biosynthesis repurposes the terpene cyclase structural fold into an N-prenyltransferase. Chekan JR, McKinnie SMK, Noel JP, Moore BS. Proc Natl Acad Sci U S A 117 12799-12805 (2020)
- Biomarkers for Tuberculosis Based on Secreted, Species-Specific, Bacterial Small Molecules. Pan SJ, Tapley A, Adamson J, Little T, Urbanowski M, Cohen K, Pym A, Almeida D, Dorasamy A, Layre E, Young DC, Singh R, Patel VB, Wallengren K, Ndung'u T, Wilson D, Moody DB, Bishai W. J. Infect. Dis. 212 1827-1834 (2015)
- Congress Advances in basic and translational tuberculosis research: Proceedings of the first meeting of RePORT international. Geadas C, Stoszek SK, Sherman D, Andrade BB, Srinivasan S, Hamilton CD, Ellner J. Tuberculosis (Edinb) 102 55-67 (2017)
- Metabolomic Profiling of Plasma from Melioidosis Patients Using UHPLC-QTOF MS Reveals Novel Biomarkers for Diagnosis. Lau SK, Lee KC, Lo GC, Ding VS, Chow WN, Ke TY, Curreem SO, To KK, Ho DT, Sridhar S, Wong SC, Chan JF, Hung IF, Sze KH, Lam CW, Yuen KY, Woo PC. Int J Mol Sci 17 307 (2016)
- Updated and standardized genome-scale reconstruction of Mycobacterium tuberculosis H37Rv, iEK1011, simulates flux states indicative of physiological conditions. Kavvas ES, Seif Y, Yurkovich JT, Norsigian C, Poudel S, Greenwald WW, Ghatak S, Palsson BO, Monk JM. BMC Syst Biol 12 25 (2018)
- T Cells Specific for a Mycobacterial Glycolipid Expand after Intravenous Bacillus Calmette-Guérin Vaccination. Layton ED, Barman S, Wilburn DB, Yu KKQ, Smith MT, Altman JD, Scriba TJ, Tahiri N, Minnaard AJ, Roederer M, Seder RA, Darrah PA, Seshadri C. J Immunol 206 1240-1250 (2021)
- "Head-to-Middle" and "Head-to-Tail" cis-Prenyl Transferases: Structure of Isosesquilavandulyl Diphosphate Synthase. Gao J, Ko TP, Chen L, Malwal SR, Zhang J, Hu X, Qu F, Liu W, Huang JW, Cheng YS, Chen CC, Yang Y, Zhang Y, Oldfield E, Guo RT. Angew. Chem. Int. Ed. Engl. 57 683-687 (2018)
- Heterologous Production of 1-Tuberculosinyladenosine in Mycobacterium kansasii Models Pathoevolution towards the Transcellular Lifestyle of Mycobacterium tuberculosis. Ghanem M, Dubé JY, Wang J, McIntosh F, Houle D, Domenech P, Reed MB, Raman S, Buter J, Minnaard AJ, Moody DB, Behr MA. mBio 11 e02645-20 (2020)
- Stereoselective Synthesis of 1-Tuberculosinyl Adenosine; a Virulence Factor of Mycobacterium tuberculosis. Buter J, Heijnen D, Wan IC, Bickelhaupt FM, Young DC, Otten E, Moody DB, Minnaard AJ. J. Org. Chem. 81 6686-6696 (2016)
- Congresses Tackling tuberculosis: Insights from an international TB Summit in London. Maitra A, Danquah CA, Scotti F, Howard TK, Kamil TK, Bhakta S. Virulence 6 661-672 (2015)
- A Mycobacterium tuberculosis fingerprint in human breath allows tuberculosis detection. Mosquera-Restrepo SF, Zuberogoïtia S, Gouxette L, Layre E, Gilleron M, Stella A, Rengel D, Burlet-Schiltz O, Caro AC, Garcia LF, Segura C, Peláez Jaramillo CA, Rojas M, Nigou J. Nat Commun 13 7751 (2022)
- A terpene nucleoside from M. tuberculosis induces lysosomal lipid storage in foamy macrophages. Bedard M, van der Niet S, Bernard EM, Babunovic G, Cheng TY, Aylan B, Grootemaat AE, Raman S, Botella L, Ishikawa E, O'Sullivan MP, O'Leary S, Mayfield JA, Buter J, Minnaard AJ, Fortune SM, Murphy LO, Ory DS, Keane J, Yamasaki S, Gutierrez MG, van der Wel N, Moody DB. J Clin Invest 133 e161944 (2023)
- Glutamate mediated metabolic neutralization mitigates propionate toxicity in intracellular Mycobacterium tuberculosis. Lee JJ, Lim J, Gao S, Lawson CP, Odell M, Raheem S, Woo J, Kang SH, Kang SS, Jeon BY, Eoh H. Sci Rep 8 8506 (2018)
- Investigation of Acid-Base Catalysis in Halimadienyl Diphosphate Synthase Involved in Mycobacterium tuberculosis Virulence. Lemke C, Roach K, Ortega T, Tantillo DJ, Siegel JB, Peters RJ. ACS Bio Med Chem Au 2 490-498 (2022)
- Structure-Aware Mycobacterium tuberculosis Functional Annotation Uncloaks Resistance, Metabolic, and Virulence Genes. Modlin SJ, Elghraoui A, Gunasekaran D, Zlotnicki AM, Dillon NA, Dhillon N, Kuo N, Robinhold C, Chan CK, Baughn AD, Valafar F. mSystems 6 e0067321 (2021)
- Structure-guided product determination of the bacterial type II diterpene synthase Tpn2. Stowell EA, Ehrenberger MA, Lin YL, Chang CY, Rudolf JD. Commun Chem 5 146 (2022)
- 2-Hydroxysorangiadenosine: Structure and Biosynthesis of a Myxobacterial Sesquiterpene-Nucleoside. Okoth DA, Hug JJ, Garcia R, Spröer C, Overmann J, Müller R. Molecules 25 (2020)
- A reversed phase ultra-high-performance liquid chromatography-data independent mass spectrometry method for the rapid identification of mycobacterial lipids. Sakallioglu IT, Maroli AS, Leite AL, Powers R. J Chromatogr A 1662 462739 (2022)
- Arginine in the FARM and SARM: A Role in Chain-Length Determination for Arginine in the Aspartate-Rich Motifs of Isoprenyl Diphosphate Synthases from Mycobacterium tuberculosis. Nagel R, Thomas JA, Adekunle FA, Mann FM, Peters RJ. Molecules 23 (2018)
- Bacterial diterpene synthases prenylate small molecules. Xu B, Li Z, Alsup TA, Ehrenberger MA, Rudolf JD. ACS Catal 11 5906-5915 (2021)
- Crystal Structure and Mechanistic Molecular Modeling Studies of Mycobacterium tuberculosis Diterpene Cyclase Rv3377c. Zhang Y, Prach LM, O'Brien TE, DiMaio F, Prigozhin DM, Corn JE, Alber T, Siegel JB, Tantillo DJ. Biochemistry 59 4507-4515 (2020)
- In silico comparisons of lipid-related genes between Mycobacterium tuberculosis and BCG vaccine strains. Sarno A, Bitencourt J, Queiroz A, Arruda S. Genet Mol Biol 44 e20210024 (2021)
- Inhibition of the Niemann-Pick C1 protein is a conserved feature of multiple strains of pathogenic mycobacteria. Weng Y, Shepherd D, Liu Y, Krishnan N, Robertson BD, Platt N, Larrouy-Maumus G, Platt FM. Nat Commun 13 5320 (2022)
- Mucosal-Associated Invariant T Cells Develop an Innate-Like Transcriptomic Program in Anti-mycobacterial Responses. Sharma M, Zhang S, Niu L, Lewinsohn DM, Zhang X, Huang S. Front Immunol 11 1136 (2020)
- Mycobacterium tuberculosis releases an antacid that remodels phagosomes. Buter J, Cheng TY, Ghanem M, Grootemaat AE, Raman S, Feng X, Plantijn AR, Ennis T, Wang J, Cotton RN, Layre E, Ramnarine AK, Mayfield JA, Young DC, Jezek Martinot A, Siddiqi N, Wakabayashi S, Botella H, Calderon R, Murray M, Ehrt S, Snider BB, Reed MB, Oldfield E, Tan S, Rubin EJ, Behr MA, van der Wel NN, Minnaard AJ, Moody DB. Nat. Chem. Biol. 15 889-899 (2019)
- Targeted Lipidomics of Mycobacterial Lipids and Glycolipids. Layre E. Methods Mol Biol 2314 549-577 (2021)
- The fat is in the lysosome: how Mycobacterium tuberculosis tricks macrophages into storing lipids. Rombouts Y, Neyrolles O. J Clin Invest 133 e168366 (2023)
- Tuberculosis terpene targets. Oldfield E. Chem. Biol. 22 437-438 (2015)