Comparison of metal‐bound and unbound structures of aminopeptidase B proteins from Escherichia coli and Yersinia pestis |
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| Authors: | George Minasov Matthew R Lam Monica Rosas‐Lemus Joanna S&#x;awek Magdalena Woinska Ivan G Shabalin Ludmilla Shuvalova Bernhard
Palsson Adam Godzik Wladek Minor Karla J F Satchell |
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| Institution: | George Minasov,Matthew R. Lam,Monica Rosas‐Lemus,Joanna S?awek,Magdalena Woinska,Ivan G. Shabalin,Ludmilla Shuvalova,Bernhard Ø. Palsson,Adam Godzik,Wladek Minor,Karla J. F. Satchell |
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| Abstract: | Protein degradation by aminopeptidases is involved in bacterial responses to stress. Escherichia coli produces two metal‐dependent M17 family leucine aminopeptidases (LAPs), aminopeptidase A (PepA) and aminopeptidase B (PepB). Several structures have been solved for PepA as well as other bacterial M17 peptidases. Herein, we report the first structures of a PepB M17 peptidase. The E. coli PepB protein structure was determined at a resolution of 2.05 and 2.6 Å. One structure has both Zn2+ and Mn2+, while the second structure has two Zn2+ ions bound to the active site. A 2.75 Å apo structure is also reported for PepB from Yersinia pestis. Both proteins form homohexamers, similar to the overall arrangement of PepA and other M17 peptidases. However, the divergent N‐terminal domain in PepB is much larger resulting in a tertiary structure that is more expanded. Modeling of a dipeptide substrate into the C‐terminal LAP domain reveals contacts that account for PepB to uniquely cleave after aspartate. |
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| Keywords: | aminopeptidase
Escherichia coli hexamer metalloprotease PepB X‐ray crystallography
Yersinia pestis |
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