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Items: 1 to 20 of 22

1.

Comparison among Activities and Isoflavonoids from Pueraria thunbergiana Aerial Parts and Root.

Son E, Yoon JM, An BJ, Lee YM, Cha J, Chi GY, Kim DS.

Molecules. 2019 Mar 5;24(5). pii: E912. doi: 10.3390/molecules24050912.

2.

Engineering of E. coli inherent fatty acid biosynthesis capacity to increase octanoic acid production.

Tan Z, Yoon JM, Chowdhury A, Burdick K, Jarboe LR, Maranas CD, Shanks JV.

Biotechnol Biofuels. 2018 Apr 2;11:87. doi: 10.1186/s13068-018-1078-z. eCollection 2018.

3.

Engineering Escherichia coli membrane phospholipid head distribution improves tolerance and production of biorenewables.

Tan Z, Khakbaz P, Chen Y, Lombardo J, Yoon JM, Shanks JV, Klauda JB, Jarboe LR.

Metab Eng. 2017 Nov;44:1-12. doi: 10.1016/j.ymben.2017.08.006. Epub 2017 Sep 1.

PMID:
28867349
4.

Improving Escherichia coli membrane integrity and fatty acid production by expression tuning of FadL and OmpF.

Tan Z, Black W, Yoon JM, Shanks JV, Jarboe LR.

Microb Cell Fact. 2017 Feb 28;16(1):38. doi: 10.1186/s12934-017-0650-8.

5.

Membrane engineering via trans unsaturated fatty acids production improves Escherichia coli robustness and production of biorenewables.

Tan Z, Yoon JM, Nielsen DR, Shanks JV, Jarboe LR.

Metab Eng. 2016 May;35:105-113. doi: 10.1016/j.ymben.2016.02.004. Epub 2016 Feb 11.

PMID:
26875445
6.

Evolution for exogenous octanoic acid tolerance improves carboxylic acid production and membrane integrity.

Royce LA, Yoon JM, Chen Y, Rickenbach E, Shanks JV, Jarboe LR.

Metab Eng. 2015 May;29:180-188. doi: 10.1016/j.ymben.2015.03.014. Epub 2015 Mar 31.

PMID:
25839166
7.

Metabolic flux analysis of Escherichia coli MG1655 under octanoic acid (C8) stress.

Fu Y, Yoon JM, Jarboe L, Shanks JV.

Appl Microbiol Biotechnol. 2015 May;99(10):4397-408. doi: 10.1007/s00253-015-6387-6. Epub 2015 Jan 27.

PMID:
25620365
8.

Isotopomer measurement techniques in metabolic flux analysis I: nuclear magnetic resonance.

Truong QX, Yoon JM, Shanks JV.

Methods Mol Biol. 2014;1083:65-83. doi: 10.1007/978-1-62703-661-0_6.

PMID:
24218211
9.

Monodisperse pattern nanoalloying for synergistic intermetallic catalysis.

Mun JH, Chang YH, Shin DO, Yoon JM, Choi DS, Lee KM, Kim JY, Cha SK, Lee JY, Jeong JR, Kim YH, Kim SO.

Nano Lett. 2013;13(11):5720-6. doi: 10.1021/nl403542h. Epub 2013 Oct 2.

PMID:
24083558
10.

Multicomponent nanopatterns by directed block copolymer self-assembly.

Shin DO, Mun JH, Hwang GT, Yoon JM, Kim JY, Yun JM, Yang YB, Oh Y, Lee JY, Shin J, Lee KJ, Park S, Kim JU, Kim SO.

ACS Nano. 2013 Oct 22;7(10):8899-907. doi: 10.1021/nn403379k. Epub 2013 Sep 10.

PMID:
24007296
11.

Influence of carbon to nitrogen ratios on soybean somatic embryo (cv. Jack) growth and composition.

Truong Q, Koch K, Yoon JM, Everard JD, Shanks JV.

J Exp Bot. 2013 Jul;64(10):2985-95. doi: 10.1093/jxb/ert138. Epub 2013 Jun 5.

12.

Metabolic engineering with plants for a sustainable biobased economy.

Yoon JM, Zhao L, Shanks JV.

Annu Rev Chem Biomol Eng. 2013;4:211-37. doi: 10.1146/annurev-chembioeng-061312-103320. Epub 2013 Mar 27. Review.

PMID:
23540288
13.

An integrated computational and experimental study for overproducing fatty acids in Escherichia coli.

Ranganathan S, Tee TW, Chowdhury A, Zomorrodi AR, Yoon JM, Fu Y, Shanks JV, Maranas CD.

Metab Eng. 2012 Nov;14(6):687-704. doi: 10.1016/j.ymben.2012.08.008. Epub 2012 Oct 2.

PMID:
23036703
14.

Fabrication of high-density In(3)Sb(1)Te(2) phase change nanoarray on glass-fabric reinforced flexible substrate.

Yoon JM, Shin DO, Yin Y, Seo HK, Kim D, Kim YI, Jin JH, Kim YT, Bae BS, Kim SO, Lee JY.

Nanotechnology. 2012 Jun 29;23(25):255301. doi: 10.1088/0957-4484/23/25/255301. Epub 2012 May 31.

PMID:
22652564
15.

Self-assembly-induced formation of high-density silicon oxide memristor nanostructures on graphene and metal electrodes.

Park WI, Yoon JM, Park M, Lee J, Kim SK, Jeong JW, Kim K, Jeong HY, Jeon S, No KS, Lee JY, Jung YS.

Nano Lett. 2012 Mar 14;12(3):1235-40. doi: 10.1021/nl203597d. Epub 2012 Feb 10.

PMID:
22324809
16.

Expression of glutathione S-transferases in poplar trees (Populus trichocarpa) exposed to 2,4,6-trinitrotoluene (TNT).

Brentner LB, Mukherji ST, Merchie KM, Yoon JM, Schnoor JL, Van Aken B.

Chemosphere. 2008 Oct;73(5):657-62. doi: 10.1016/j.chemosphere.2008.07.059.

PMID:
18774158
17.

Analysis of gene expression in poplar trees (Populus deltoides x nigra, DN34) exposed to the toxic explosive hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX).

Tanaka S, Brentner LB, Merchie KM, Schnoor JL, Yoon JM, Van Aken B.

Int J Phytoremediation. 2007 Jan-Feb;9(1):15-30. doi: 10.1080/15226510601139375.

PMID:
18246712
18.

Phytotoxicity and phytoremediation of 2,6-dinitrotoluene using a model plant, Arabidopsis thaliana.

Yoon JM, Oliver DJ, Shanks JV.

Chemosphere. 2007 Jun;68(6):1050-7. Epub 2007 Mar 26.

PMID:
17368510
19.

Leaching of contaminated leaves following uptake and phytoremediation of RDX, HMX, and TNT by poplar.

Yoon JM, Van Aken B, Schnoor JL.

Int J Phytoremediation. 2006;8(1):81-94.

PMID:
16615309
20.

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