Risk Factors for Intracerebral Hemorrhage in Patients With Atrial Fibrillation on Non–Vitamin K Antagonist Oral Anticoagulants for Stroke Prevention

EcoCyc (http://EcoCyc.org) is a model organism database built on the genome sequence of Escherichia coli K-12 MG1655. Expert manual curation of the functions of individual E. coli gene products in EcoCyc has been based on information found in the experimental literature for E. coli K-12-derived strains. Updates to EcoCyc content continue to improve the comprehensive picture of E. coli biology. The utility of EcoCyc is enhanced by new tools available on the EcoCyc web site, and the development of EcoCyc as a teaching tool is increasing the impact of the knowledge collected in EcoCyc.

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Nitric Oxide in Biological Denitrification: Fe/Cu Metalloenzyme and Metal Complex NO_x Redox Chemistry

Wasser

et al. 2002

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Ian M. Wasser was born in 1973 in the suburbs of Detroit, Michigan and graduated from Detroit Country Day School. He received a B. S. Chemistry degree in chemistry from the University of Michigan in 1995, where he conducted undergraduate research under the direction of Professor James E. Penner-Hahn. This was then followed in 1998 by an M. S. degree in chemistry from the University of California at Berkeley, where he studied organometallic chemistry and X-ray crystallography with Professor Peter Vollhardt. He is currently a doctoral candidate, working toward his Ph.D. in bioinorganic chemistry under the direction of Professor Kenneth D. Karlin at Johns Hopkins University, where his research focuses on the interactions of synthetic iron and copper complexes with nitric oxide.

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Structure of the Escherichia coli Response Regulator NarL^,

et al. 1996

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The crystal structure analysis of the NarL protein provides a first look at interactions between receiver and effector domains of a full-length bacterial response regulator. The N-terminal receiver domain, with 131 amino acids, is folded into a 5-strand beta sheet flanked by 5 alpha helices, as seen in CheY and in the N-terminal domain of NTRC. The C-terminal DNA-binding domain, with 62 amino acids, is a compact bundle of 4 alpha helices, of which the middle 2 form a helix-turn-helix motif closely related to that of Drosophila paired protein and other H-T-H DNA-binding proteins. The 2 domains are connected by an alpha helix of 10 amino acids and a 13-residue flexible tether that is not visible and presumably disordered in the X-ray structure. In this unphosphorylated form of NarL, the C-terminal domain is turned against the receiver domain in a manner that would preclude DNA binding. Activation of NarL via phosphorylation of Asp59 must involve transfer of information to the interdomain interface and either rotation or displacement of the DNA-binding C-terminal domain. Docking of a B-DNA duplex against the isolated C-terminal domain in the manner observed in paired protein and other H-T-H proteins suggests a stereochemical basis for DNA sequence preference: T-R-C-C-Y (high affinity) or T-R-C-T-N (low affinity), which is close to the experimentally observed consensus sequence: T-A-C-Y-N. The NarL structure is a model for other members of the FixJ or LuxR family of bacterial transcriptional activators, and possibly to the more distant OmpR and NtrC families as well.

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Imke Schröder

EcoCyc: fusing model organism databases with systems biology

Nitric Oxide in Biological Denitrification: Fe/Cu Metalloenzyme and Metal Complex NO_x Redox Chemistry

Structure of the Escherichia coli Response Regulator NarL^,

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Imke Schröder

EcoCyc: fusing model organism databases with systems biology

Nitric Oxide in Biological Denitrification: Fe/Cu Metalloenzyme and Metal Complex NOx Redox Chemistry

Structure of the Escherichia coli Response Regulator NarL,

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Nitric Oxide in Biological Denitrification: Fe/Cu Metalloenzyme and Metal Complex NO_x Redox Chemistry

Structure of the Escherichia coli Response Regulator NarL^,