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Journal Abstract Search

151 related items for PubMed ID: 37572123

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  • 2. Thioesterases for ethylmalonyl-CoA pathway derived dicarboxylic acid production in Methylobacterium extorquens AM1.
    Sonntag F, Buchhaupt M, Schrader J.
    Appl Microbiol Biotechnol; 2014 May; 98(10):4533-44. PubMed ID: 24419796
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  • 6. Replacing the Ethylmalonyl-CoA Pathway with the Glyoxylate Shunt Provides Metabolic Flexibility in the Central Carbon Metabolism of Methylobacterium extorquens AM1.
    Schada von Borzyskowski L, Sonntag F, Pöschel L, Vorholt JA, Schrader J, Erb TJ, Buchhaupt M.
    ACS Synth Biol; 2018 Jan 19; 7(1):86-97. PubMed ID: 29216425
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  • 8. Production of 3-hydroxypropionic acid in engineered Methylobacterium extorquens AM1 and its reassimilation through a reductive route.
    Yang YM, Chen WJ, Yang J, Zhou YM, Hu B, Zhang M, Zhu LP, Wang GY, Yang S.
    Microb Cell Fact; 2017 Oct 30; 16(1):179. PubMed ID: 29084554
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  • 9. Designing and Engineering Methylorubrum extorquens AM1 for Itaconic Acid Production.
    Lim CK, Villada JC, Chalifour A, Duran MF, Lu H, Lee PKH.
    Front Microbiol; 2019 Oct 30; 10():1027. PubMed ID: 31143170
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  • 10. Metabolic engineering of Methylobacterium extorquens AM1 for 1-butanol production.
    Hu B, Lidstrom ME.
    Biotechnol Biofuels; 2014 Oct 30; 7(1):156. PubMed ID: 25349627
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  • 11. Highly Active C8-Acyl-ACP Thioesterase Variant Isolated by a Synthetic Selection Strategy.
    Hernández Lozada NJ, Lai RY, Simmons TR, Thomas KA, Chowdhury R, Maranas CD, Pfleger BF.
    ACS Synth Biol; 2018 Sep 21; 7(9):2205-2215. PubMed ID: 30064208
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  • 13. Biosensor-assisted transcriptional regulator engineering for Methylobacterium extorquens AM1 to improve mevalonate synthesis by increasing the acetyl-CoA supply.
    Liang WF, Cui LY, Cui JY, Yu KW, Yang S, Wang TM, Guan CG, Zhang C, Xing XH.
    Metab Eng; 2017 Jan 21; 39():159-168. PubMed ID: 27919791
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  • 14. The identification of a succinyl-CoA thioesterase suggests a novel pathway for succinate production in peroxisomes.
    Westin MA, Hunt MC, Alexson SE.
    J Biol Chem; 2005 Nov 18; 280(46):38125-32. PubMed ID: 16141203
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  • 15. Metabolic engineering of Methylobacterium extorquens AM1 for the production of butadiene precursor.
    Yang J, Zhang CT, Yuan XJ, Zhang M, Mo XH, Tan LL, Zhu LP, Chen WJ, Yao MD, Hu B, Yang S.
    Microb Cell Fact; 2018 Dec 20; 17(1):194. PubMed ID: 30572892
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  • 16. Functional screening and in vitro analysis reveal thioesterases with enhanced substrate specificity profiles that improve short-chain fatty acid production in Escherichia coli.
    McMahon MD, Prather KL.
    Appl Environ Microbiol; 2014 Feb 20; 80(3):1042-50. PubMed ID: 24271180
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  • 17. Barriers to 3-Hydroxypropionate-Dependent Growth of Rhodobacter sphaeroides by Distinct Disruptions of the Ethylmalonyl Coenzyme A Pathway.
    Carlson SJ, Fleig A, Baron MK, Berg IA, Alber BE.
    J Bacteriol; 2019 Feb 15; 201(4):. PubMed ID: 30455284
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  • 18. Crystal Structure of Mesaconyl-CoA Hydratase from Methylorubrum extorquens CM4.
    Ahn JW, Hong J, Kim KJ.
    J Microbiol Biotechnol; 2023 Apr 28; 33(4):485-492. PubMed ID: 36788474
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  • 19. CcrR, a TetR family transcriptional regulator, activates the transcription of a gene of the Ethylmalonyl coenzyme A pathway in Methylobacterium extorquens AM1.
    Hu B, Lidstrom M.
    J Bacteriol; 2012 Jun 28; 194(11):2802-8. PubMed ID: 22447902
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  • 20. Characterization of an acyl-coA thioesterase that functions as a major regulator of peroxisomal lipid metabolism.
    Hunt MC, Solaas K, Kase BF, Alexson SE.
    J Biol Chem; 2002 Jan 11; 277(2):1128-38. PubMed ID: 11673457
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