Mutagenic scan of the H-N-H motif of colicin E9: implications for the mechanistic enzymology of colicins, homing enzymes and apoptotic endonucleases

doi:10.1093/nar/gkf420

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Nucleic Acids Research, 2002, Vol. 30, No. 14 3225-3234
© 2002 Oxford University Press

Mutagenic scan of the H-N-H motif of colicin E9: implications for the mechanistic enzymology of colicins, homing enzymes and apoptotic endonucleases

David C. Walker, Theonie Georgiou¹, Ansgar J. Pommer¹, Daniel Walker¹, Geoffrey R. Moore², Colin Kleanthous¹ and Richard James^*

Division of Microbiology and Infectious Diseases, University Hospital, Queen’s Medical Centre, University of Nottingham, Nottingham NG7 2UH, UK and ¹ School of Biological Sciences and ² School of Chemical Sciences, University of East Anglia, Norwich NR4 7TJ, UK

*To whom correspondence should be addressed. Tel: +44 115 970 9162; Fax: +44 115 970 9233; Email: richard.james{at}nottingham.ac.uk
Correspondence may also be addressed to Colin Kleanthous. Tel: +44 1603 593221; Fax: +44 1603 592250; Email: c.kleanthous{at}uea.ac.uk
Present address:
Ansgar J. Pommer, MelTec GmbH, R&D, Zenit Building, Haus 65, Leipzigstraße 44, 39120 Magdeburg, Germany

Colicin E9 is a microbial toxin that kills bacteria throughrandom degradation of chromosomal DNA. Within the active siteof the cytotoxic endonuclease domain of colicin E9 (the E9 DNase)is a 32 amino acid motif found in the H-N-H group of homingendonucleases. Crystal structures of the E9 DNase have implicatedseveral conserved residues of the H-N-H motif in the mechanismof DNA hydrolysis. We have used mutagenesis to test the involvementof these key residues in colicin toxicity, metal ion bindingand catalysis. Our data show, for the first time, that the H-N-Hmotif is the site of DNA binding and that Mg²⁺-dependent cleavageof double-stranded DNA is responsible for bacterial cell death.We demonstrate that more active site residues are required forcatalysis in the presence of Mg²⁺ ions than transition metals,consistent with the recent hypothesis that the E9 DNase hydrolysesDNA by two distinct, cation-dependent catalytic mechanisms.The roles of individual amino acids within the H-N-H motif arediscussed in the context of the available structural informationon this and related DNases and we address the possible mechanisticsimilarities between caspase-activated DNases, responsible forthe degradation of chromatin in eukaryotic apoptosis, and H-N-HDNases.

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