Joachim-Ernst Meyer scite author profile

Summary.Hypericin exhibits rather complicated homo-and heteroassociation behavior. Whereas in common polar solvents hypericin dissolves monomolecularly up to concentrations of 10-3 mol/1, the presence of water in these solvents leads to homoassociation. As derived by spectroscopic measurements, these homoassociates exhibit a stacking pattern similar to the one observed for the crystalline material. Tetrahydrofuran seems to be an exception, as it is the only solvent which results in 1,6-dioxo tautomer formation. Heteroassociation of hypericin involves two distinct types of behavior. In the majority of cases, hypericin forms homoassociates which then heteroassociate with the co-solvate to yield stabilized solutions of these homoassociates. Only with human serum albumin a specific heteroassociate is formed. By means of competition experiments it could be established that hypericin is binding to the active site of the IIIA subdomain of the protein.

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Crystal structure of a wild-type Cre recombinase-loxP synapse reveals a novel spacer conformation suggesting an alternative mechanism for DNA cleavage activation

Ennifar

Meyer²,

Buchholz³

et al. 2003

Nucleic Acids Research

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Escherichia coli phage P1 Cre recombinase catalyzes the site-specific recombination of DNA containing loxP sites. We report here two crystal structures of a wild-type Cre recombinase-loxP synaptic complex corresponding to two distinct reaction states: an initial pre-cleavage complex, trapped using a phosphorothioate modification at the cleavable scissile bond that prevents the recombination reaction, and a 3'-phosphotyrosine protein-DNA intermediate resulting from the first strand cleavage. In contrast to previously determined Cre complexes, both structures contain a full tetrameric complex in the asymmetric unit, unequivocally showing that the anti-parallel arrangement of the loxP sites is an intrinsic property of the Cre-loxP recombination synapse. The conformation of the spacer is different to the one observed for the symmetrized loxS site: a kink next to the scissile phosphate in the top strand of the pre-cleavage complex leads to unstacking of the TpG step and a widening of the minor groove. This side of the spacer is interacting with a 'cleavage-competent' Cre subunit, suggesting that the first cleavage occurs at the ApT step in the top strand. This is further confirmed by the structure of the 3'-phosphotyrosine intermediate, where the DNA is cleaved in the top strands and covalently linked to the 'cleavage-competent' subunits. The cleavage is followed by a movement of the C-terminal part containing the attacking Y324 and the helix N interacting with the 'non-cleaving' subunit. This rearrangement could be responsible for the interconversion of Cre subunits. Our results also suggest that the Cre-induced kink next to the scissile phosphodiester activates the DNA for cleavage at this position and facilitates strand transfer.

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Structure of maltoporin from Salmonella typhimurium ligated with a nitrophenyl-maltotrioside

Meyer

Hofnung

Schulz

1997

Journal of Molecular Biology

118

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A convenient semisynthetic route to hypericin

1993

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Slight sequence variations of a common fold explain the substrate specificities of tRNA‐guanine transglycosylases from the three kingdoms

1997

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tRNA-guanine transglycosylases (TGTs) are the enzymes catalyzing the base exchange required for the synthesis of the modified bases derived from 7-deazaguanine in prokaryotic, archaebacterial, and eukaryotic tRNAs. Unlike the eukaryotic and archaebacterial enzymes, the prokaryotic TGTs have been clearly identified and highly characterized both biochemically and structurally. The recent occurrence in sequence databases of archaebacterial and eukaryotic proteins homologous to the prokaryotic TGTs reveals that all TGTs unexpectedly adopt a common fold. Observed sequence variations at the active site correlate well with their specificities for the various 7-deazaguanine derivatives and the total conservation of the catalytic residues strongly favors a common catalytic mechanism for all TGTs.

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