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Volumn 11, Issue 12, 2010, Pages 1656-1660

A chemoenzymatic route to diversify aminolgycosides enables a microarray-based method to probe acetyltransferase activity

(4) Tsitovich, Pavel B a Pushechnikov, Alexei a French, Jonathan M a Disney, Matthew D a,b

a UNIVERSITY AT BUFFALO (United States)

b SCRIPPS RESEARCH INSTITUTE (United States)

Author keywords

Antibiotics; Bioorganic chemistry; Carbohydrates; Glycoconjugates; RNA recognition

Indexed keywords

ACETYL COENZYME A; ACYLTRANSFERASE; AMINOGLYCOSIDE ANTIBIOTIC AGENT; AMINOGLYCOSIDE N ACETYLTRANSFERASE; APRAMYCIN; COENZYME A; UNCLASSIFIED DRUG;

ANTIBACTERIAL ACTIVITY; ANTIBIOTIC BIOSYNTHESIS; ARTICLE; ENZYME ACTIVITY; ENZYME DEGRADATION; ENZYME MECHANISM; ENZYME MODIFICATION; ENZYME SUBSTRATE; ESCHERICHIA COLI; MICHAELIS MENTEN KINETICS; MICROARRAY ANALYSIS; NONHUMAN; PRIORITY JOURNAL; SPECTROSCOPY;

ACETYL COENZYME A; ACETYLTRANSFERASES; AMINOGLYCOSIDES; MICROARRAY ANALYSIS;

ESCHERICHIA COLI;

EID: 77955604266 PISSN: 14394227 EISSN: 14397633 Source Type: Journal
DOI: 10.1002/cbic.201000300 Document Type: Article

Times cited : (21)

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- note
- Arrays were quenched to remove any reactive azide that could have been left on the array surface. Furthermore, control experiments in the presence of AAC(3) that excluded AzAcCoA did not deposit dye onto the surface.

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