You are here
Found 13 results
Filters: author is Loverix [Clear All Filters]
2006
.
2006. The activation of electrophile, nucleophile and leaving group during the reaction catalysed by pI258 arsenate reductase.
Chembiochem.. 7(6):981-989. Abstract
2005
.
2005. Substrate-assisted leaving group activation in enzyme-catalyzed N-glycosidic bond cleavage.
J. Biol. Chem. 280(15):14799-14802. Abstract
.
2005. Influence of the pi-pi interaction on the hydrogen bonding capacity of stacked DNA/RNA bases.
Nucleic Acids Research. 33(6):1779-1789. Abstract
2004
.
2004. Leaving group activation by aromatic stacking: an alternative to general acid catalysis.
J. Mol. Biol. 338(1):1-6. Abstract
.
2004. A Computational and Conceptual DFT Study on the Michaelis Complex of pI258 arsenate reductase: Structural Aspects and Activation of the Electrophile and Nucleophile..
J. Phys. Chem. B. 107:17216-17225. Abstract
2003
.
2003. Ribonucleases: from prototypes to therapeutic targets?.
Current Medicinal Chemistry. 10(9):779-785. Abstract
2002
.
2002. A nucleophile activation dyad in ribonucleases. A combined X-ray crystallographic/ab initio quantum chemical study.
Journal Bioogical Chemistry. 277(39):36770-36774. Abstract
2001
.
2001. Deciphering the mechanism of RNase T1.
341:305-323.
2000
.
2000. Mechanism of RNase T1: concerted triester-like phosphoryl transfer via a catalytic three-centered hydrogen bond.
7(8):651-658. Abstract
1998
.
1998. Reconsidering the energetics of ribonuclease catalysed RNA hydrolysis.
257(1):286-290. Abstract
.
1998. Reconsidering the energetics of ribonuclease catalysed RNA hydrolysis.
257(1):286-290. Abstract
.
1998. An engineered ribonuclease preferring phosphorothioate RNA.
5(5):365-368. Abstract
1997
.
1997. Additivity of protein-guanine interactions in ribonuclease T1.
272(15):9635-9639. Abstract