PDB keyword search results

1ZB6
CO-CRYSTAL STRUCTURE OF ORF2 AN AROMATIC PRENYL TRANSFERASE FROM STREPTOMYCES SP. STRAIN CL190 COMPLEXED WITH GSPP AND 1,6-DIHYDROXYNAPHTALENE
Descriptor:Aromatic prenyltransferase
Authors:Kuzuyama, T., Noel, J.P., Richard, S.B.
Deposit date:2005-04-07
Release date:2005-06-21
Modification date:2009-02-24
Cite:Structural basis for the promiscuous biosynthetic prenylation of aromatic natural products.
Nature, 435, 2005
1ZCW
CO-CRYSTAL STRUCTURE OF ORF2 AN AROMATIC PRENYL TRANSFERASE FROM STREPTOMYCES SP. STRAIN CL190 COMPLEXED WITH GPP
Descriptor:Aromatic prenyltransferase
Authors:Kuzuyama, T., Noel, J.P., Richard, S.B.
Deposit date:2005-04-13
Release date:2005-06-21
Modification date:2011-07-13
Cite:Structural basis for the promiscuous biosynthetic prenylation of aromatic natural products.
Nature, 435, 2005
1ZDW
CO-CRYSTAL STRUCTURE OF ORF2 AN AROMATIC PRENYL TRANSFERASE FROM STREPTOMYCES SP. STRAIN CL190 COMPLEXED WITH GSPP AND FLAVIOLIN
Descriptor:Aromatic prenyltransferase
Authors:Kuzuyama, T., Noel, J.P., Richard, S.B.
Deposit date:2005-04-15
Release date:2005-06-21
Modification date:2011-07-13
Cite:Structural basis for the promiscuous biosynthetic prenylation of aromatic natural products.
Nature, 435, 2005
1ZDY
CO-CRYSTAL STRUCTURE OF ORF2 AN AROMATIC PRENYL TRANSFERASE FROM STREPTOMYCES SP. STRAIN CL190 COMPLEXED WITH TAPS
Descriptor:Aromatic prenyltransferase
Authors:Kuzuyama, T., Noel, J.P., Richard, S.B.
Deposit date:2005-04-15
Release date:2005-06-21
Modification date:2011-07-13
Cite:Structural basis for the promiscuous biosynthetic prenylation of aromatic natural products.
Nature, 435, 2005
2XLQ
STRUCTURAL AND MECHANISTIC ANALYSIS OF THE MAGNESIUM-INDEPENDENT AROMATIC PRENYLTRANSFERASE CLOQ FROM THE CLOROBIOCIN BIOSYNTHETIC PATHWAY
Descriptor:CLOQ
Authors:Metzger, U., Keller, S., Stevenson, C.E.M., Heide, L., Lawson, D.M.
Deposit date:2010-07-21
Release date:2010-10-27
Modification date:2010-12-08
Cite:Structure and Mechanism of the Magnesium-Independent Aromatic Prenyltransferase Cloq from the Clorobiocin Biosynthetic Pathway.
J.Mol.Biol., 404, 2010
2XLY
STRUCTURAL AND MECHANISTIC ANALYSIS OF THE MAGNESIUM-INDEPENDENT AROMATIC PRENYLTRANSFERASE CLOQ FROM THE CLOROBIOCIN BIOSYNTHETIC PATHWAY
Descriptor:CLOQ
Authors:Metzger, U., Keller, S., Stevenson, C.E.M., Heide, L., Lawson, D.M.
Deposit date:2010-07-22
Release date:2010-10-27
Modification date:2010-12-08
Cite:Structure and Mechanism of the Magnesium-Independent Aromatic Prenyltransferase Cloq from the Clorobiocin Biosynthetic Pathway.
J.Mol.Biol., 404, 2010
2XM5
STRUCTURAL AND MECHANISTIC ANALYSIS OF THE MAGNESIUM-INDEPENDENT AROMATIC PRENYLTRANSFERASE CLOQ FROM THE CLOROBIOCIN BIOSYNTHETIC PATHWAY
Descriptor:CLOQ
Authors:Metzger, U., Keller, S., Stevenson, C.E.M., Heide, L., Lawson, D.M.
Deposit date:2010-07-23
Release date:2010-10-27
Modification date:2010-12-08
Cite:Structure and Mechanism of the Magnesium-Independent Aromatic Prenyltransferase Cloq from the Clorobiocin Biosynthetic Pathway.
J.Mol.Biol., 404, 2010
2XM7
STRUCTURAL AND MECHANISTIC ANALYSIS OF THE MAGNESIUM-INDEPENDENT AROMATIC PRENYLTRANSFERASE CLOQ FROM THE CLOROBIOCIN BIOSYNTHETIC PATHWAY
Descriptor:CLOQ
Authors:Metzger, U., Keller, S., Stevenson, C.E.M., Heide, L., Lawson, D.M.
Deposit date:2010-07-25
Release date:2010-10-27
Modification date:2010-12-08
Cite:Structure and Mechanism of the Magnesium-Independent Aromatic Prenyltransferase Cloq from the Clorobiocin Biosynthetic Pathway.
J.Mol.Biol., 404, 2010
4EE7
CRYSTAL STRUCTURE OF THE NOVEL PHENAZINE PRENYLTRANSFERASE EPZP IN COMPLEX WITH S-THIOLODIPHOSPHATE (METHYLATED)
Descriptor:Prenyltransferase
Authors:Zocher, G., Stehle, T.
Deposit date:2012-03-28
Release date:2012-11-14
Cite:Structure-based engineering increased the catalytic turnover rate of a novel phenazine prenyltransferase.
Plos One, 7, 2012
4EE8
CRYSTAL STRUCTURE OF THE NOVEL PHENAZINE PRENYLTRANSFERASE EPZP (WILDTYPE)
Descriptor:Prenyltransferase
Authors:Zocher, G., Stehle, T.
Deposit date:2012-03-28
Release date:2012-11-14
Cite:Structure-based engineering increased the catalytic turnover rate of a novel phenazine prenyltransferase.
Plos One, 7, 2012
4EE6
CRYSTAL STRUCTURE OF THE NOVEL PHENAZINE PRENYLTRANSFERASE EPZP (METHYLATED)
Descriptor:Prenyltransferase
Authors:Zocher, G., Stehle, T.
Deposit date:2012-03-28
Release date:2012-11-14
Cite:Structure-based engineering increased the catalytic turnover rate of a novel phenazine prenyltransferase.
Plos One, 7, 2012
Loading...
Loading