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On the catalytic mechanism of bacteriophage HK97 capsid crosslinking.


ABSTRACT: During maturation of the phage HK97 capsid, each of the 415 capsid subunits forms covalent bonds to neighboring subunits, stabilizing the capsid. Crosslinking is catalyzed not by a separate enzyme but by subunits of the assembled capsid in response to conformational rearrangements during maturation. This report investigates the catalytic mechanism. Earlier work established that the crosslinks are isopeptide (amide) bonds between side chains of a lysine on one subunit and an asparagine on another subunit, aided by a catalytic glutamate on a third subunit. The mature capsid structure suggests that the reaction may be facilitated by the arrival of a valine with the lysine to complete a hydrophobic pocket surrounding the glutamate, lysine and asparagine. We show that this valine has an essential role for efficient crosslinking, and that any of six other amino acids can successfully substitute for valine. Evidently none of the remaining 13 amino acids will work.

SUBMITTER: Tso D 

PROVIDER: S-EPMC5584385 | biostudies-literature | 2017 Jun

REPOSITORIES: biostudies-literature

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On the catalytic mechanism of bacteriophage HK97 capsid crosslinking.

Tso DanJu D   Peebles Craig L CL   Maurer Joshua B JB   Duda Robert L RL   Hendrix Roger W RW  

Virology 20170327


During maturation of the phage HK97 capsid, each of the 415 capsid subunits forms covalent bonds to neighboring subunits, stabilizing the capsid. Crosslinking is catalyzed not by a separate enzyme but by subunits of the assembled capsid in response to conformational rearrangements during maturation. This report investigates the catalytic mechanism. Earlier work established that the crosslinks are isopeptide (amide) bonds between side chains of a lysine on one subunit and an asparagine on another  ...[more]

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