Jakub Kronovetr scite author profile

The leader proteinase (L(pro)) of foot-and-mouth-disease virus is an unusual papain-like cysteine proteinase. Synthesized without an N-terminal pro precursor region, it frees itself from the growing polypeptide chain by cleavage at its own C-terminus. It also possesses a unique electrostatic environment around the active site, essentially due to Asp(163), which orients the catalytic histidine residue, and Asp(164); the equivalent residues in papain are Asn(175) and Ser(176). The importance of these residues for L(pro) activity was examined by site-directed mutagenesis. Replacement of Asp(163) with asparagine reduced activity by five-fold towards a hexapeptide substrate and slightly delayed self-processing when expressed in rabbit reticulocyte lysates. However, no effect on the cleavage of the only known cellular substrate of L(pro), eukaryotic initiation factor 4GI (eIF4GI), was observed. In contrast, replacement of Asp(164) by either alanine, asparagine or lysine abrogated activity towards the hexapeptide. Furthermore, in all cases, the onset of both self-processing and eIF4GI cleavage were significantly delayed; the reaction rates were also diminished compared with those of the wild-type enzyme. The alanine-substituted enzyme was least affected, followed by those substituted with asparagine and lysine. The double mutant protein in which both aspartate residues were replaced by asparagine was most severely affected; it failed to complete either self-processing or eIF4GI cleavage within 3 h, compared with the 8 min required by the wild-type enzyme. Hence, we propose that the electrostatic charge of Asp(164), and to a lesser extent that of Asp(163), is extremely important for L(pro) to attain full activity upon synthesis.

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Modulation of the electrostatic charge at the active site of foot-and-mouth-disease-virus leader proteinase, an unusual papain-like enzyme

Schlick

Kronovetr

Hampoelz

et al. 2002

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The leader proteinase (Lpro) of foot-and-mouth-disease virus is an unusual papain-like cysteine proteinase. Synthesized without an N-terminal pro precursor region, it frees itself from the growing polypeptide chain by cleavage at its own C-terminus. It also possesses a unique electrostatic environment around the active site, essentially due to Asp163, which orients the catalytic histidine residue, and Asp164; the equivalent residues in papain are Asn175 and Ser176. The importance of these residues for Lpro activity was examined by site-directed mutagenesis. Replacement of Asp163 with asparagine reduced activity by five-fold towards a hexapeptide substrate and slightly delayed self-processing when expressed in rabbit reticulocyte lysates. However, no effect on the cleavage of the only known cellular substrate of Lpro, eukaryotic initiation factor 4GI (eIF4GI), was observed. In contrast, replacement of Asp164 by either alanine, asparagine or lysine abrogated activity towards the hexapeptide. Furthermore, in all cases, the onset of both self-processing and eIF4GI cleavage were significantly delayed; the reaction rates were also diminished compared with those of the wild-type enzyme. The alanine-substituted enzyme was least affected, followed by those substituted with asparagine and lysine. The double mutant protein in which both aspartate residues were replaced by asparagine was most severely affected; it failed to complete either self-processing or eIF4GI cleavage within 3 h, compared with the 8min required by the wild-type enzyme. Hence, we propose that the electrostatic charge of Asp164, and to a lesser extent that of Asp163, is extremely important for Lpro to attain full activity upon synthesis.

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Foot‐and‐mouth disease virus leader proteinase: a papain‐like enzyme requiring an acidic environment in the active site

Kronovetr

Skern

2002

FEBS Letters

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Edited by Lev KisselevAbstract Foot-and-mouth disease virus leader proteinase (L pro ), a papain-like cysteine proteinase, has six acidic amino acids between 4 A î and 11 A î of the catalytic dyad of Cys51 and His148. In contrast, in papain and related enzymes, only one acidic residue lies within this distance. We have examined by site-directed mutagenesis the importance of each of these residues for L pro self-processing and cleavage of its cellular substrate, eukaryotic initiation factor 4GI. Only substitution of the electrostatic charge of aspartate 164 a¡ected enzyme activity. Thus, in contrast to the prototype papain, L pro activity requires a negative charge 4.5 A î from the catalytic dyad. ß 2002 Published by Elsevier Science B.V. on behalf of the Federation of European Biochemical Societies.

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Purification and Characterisation of a Vitellogenin Derived Aminopeptidase from Rainbow Trout Eggs

Kronovetr

Barthová

Barth

et al. 2000

Collect. Czech. Chem. Commun.

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An aminopeptidase specific for N-terminal alanine was isolated from the rainbow trout (Oncorhynchus mykiss) maturing eggs using a simple procedure. The enzyme is composed of two identical units each of MW 16 000, separable by disulfide reduction. The enzyme has a high content of acid amino acids and its N-terminal sequence is the following 1EVNAVKCSMV10RDTLTTFNNK20KYQIN25. The sequence is identical with that of the rainbow trout vitellogenin precursor beginning with the amino acid in position 1 385. No peptidase activity has been so far observed in proteins derived from this precursor. The enzyme activity is partially blocked by Na4-EDTA but it is not inactivated by 4-(chloromercuri)benzoate, phenylmethanesulfonyl fluoride or pepstatin A.

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Jakub Kronovetr

Modulation of the electrostatic charge at the active site of foot-and-mouth-disease-virus leader proteinase, an unusual papain-like enzyme

Modulation of the electrostatic charge at the active site of foot-and-mouth-disease-virus leader proteinase, an unusual papain-like enzyme

Foot‐and‐mouth disease virus leader proteinase: a papain‐like enzyme requiring an acidic environment in the active site

Purification and Characterisation of a Vitellogenin Derived Aminopeptidase from Rainbow Trout Eggs

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