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Results: 1-12 |
Results: 12
Difference in susceptibility of tyrosine residue to oxidative iodination between a thioredoxin box region and a hormonogenic region
Authors: Sok, DE Sih, CJ
Citation: De. Sok et Cj. Sih, Difference in susceptibility of tyrosine residue to oxidative iodination between a thioredoxin box region and a hormonogenic region, ARCH PH RES, 24(5), 2001, pp. 446-454
Inhibition of hepatic stearoyl-CoA desaturase activity by trans-10,cis-12 conjugated linoleic acid and its derivatives
Authors: Park, Y Storkson, JM Ntambi, JM Cook, ME Sih, CJ Pariza, MW
Citation: Y. Park et al., Inhibition of hepatic stearoyl-CoA desaturase activity by trans-10,cis-12 conjugated linoleic acid and its derivatives, BBA-MOL C B, 1486(2-3), 2000, pp. 285-292
Chloroperoxidase-catalyzed chlorination of didechloroaglucovancomycin and vancomycin
Authors: Malnar, I Sih, CJ
Citation: I. Malnar et Cj. Sih, Chloroperoxidase-catalyzed chlorination of didechloroaglucovancomycin and vancomycin, J MOL CAT B, 10(6), 2000, pp. 545-549
Peroxidase-catalyzed oxidative phenolic coupling of some tripeptides containing tyrosine and hydroxyphenylglycine residues
Authors: Sih, CJ Malnar, I
Citation: Cj. Sih et I. Malnar, Peroxidase-catalyzed oxidative phenolic coupling of some tripeptides containing tyrosine and hydroxyphenylglycine residues, BIOCATAL B, 18(4), 2000, pp. 301-310
Synthesis of the bis-diaryl ether fragment of vancomycin via enzymatic oxidative phenolic coupling
Authors: Malnar, I Sih, CJ
Citation: I. Malnar et Cj. Sih, Synthesis of the bis-diaryl ether fragment of vancomycin via enzymatic oxidative phenolic coupling, TETRAHEDR L, 41(12), 2000, pp. 1907-1911
Bioorganic chemistry of cyclic ADP-ribose (cADPR)
Authors: Zhang, FJ Gu, QM Sih, CJ
Citation: Fj. Zhang et al., Bioorganic chemistry of cyclic ADP-ribose (cADPR), BIO MED CH, 7(5), 1999, pp. 653-664
Mechanism of thyroid hormone biosynthesis. Enzymatic oxidative coupling of3,5-diiodo-L-tyrosine derivatives
Authors: Ma, YA Sih, CJ
Citation: Ya. Ma et Cj. Sih, Mechanism of thyroid hormone biosynthesis. Enzymatic oxidative coupling of3,5-diiodo-L-tyrosine derivatives, TETRAHEDR L, 40(52), 1999, pp. 9211-9214
Chemoenzymatic synthesis of macrocyclic polyamines
Authors: Lu, W Sih, CJ
Citation: W. Lu et Cj. Sih, Chemoenzymatic synthesis of macrocyclic polyamines, TETRAHEDR L, 40(27), 1999, pp. 4965-4968
Synthesis of 92,11E-octadecadienoic and 10E,12Z-octadecadienoic acids, themajor components of conjugated linoleic acid
Authors: Chen, CA Lu, W Sih, CJ
Citation: Ca. Chen et al., Synthesis of 92,11E-octadecadienoic and 10E,12Z-octadecadienoic acids, themajor components of conjugated linoleic acid, LIPIDS, 34(8), 1999, pp. 879-884
Enzymatic mechanism of thyroxine biosynthesis. Identification of the "lostthree-carbon fragment"
Authors: Ma, YA Sih, CJ Harms, A
Citation: Ya. Ma et al., Enzymatic mechanism of thyroxine biosynthesis. Identification of the "lostthree-carbon fragment", J AM CHEM S, 121(38), 1999, pp. 8967-8968
Enzymatic oxidative coupling of monohalogenated tyrosine derivatives
Authors: Ma, YA Guo, ZW Sih, CJ
Citation: Ya. Ma et al., Enzymatic oxidative coupling of monohalogenated tyrosine derivatives, TETRAHEDR L, 39(51), 1998, pp. 9357-9360
Chemoenzymatic synthesis of conjugated linoleic acid
Authors: Chen, CA Sih, CJ
Citation: Ca. Chen et Cj. Sih, Chemoenzymatic synthesis of conjugated linoleic acid, J ORG CHEM, 63(26), 1998, pp. 9620-9621
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