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Tentative identification of the second substrate binding site in Arabidopsis phytochelatin synthase.


ABSTRACT: Phytochelatin synthase (PCS) uses the substrates glutathione (GSH, ?Glu-Cys-Gly) and a cadmium (Cd)-bound GSH (Cd?GS2) to produce the shortest phytochelatin product (PC2, (?Glu-Cys)2-Gly) through a ping-pong mechanism. The binding of the 2 substrates to the active site, particularly the second substrate binding site, is not well-understood. In this study, we generated a structural model of the catalytic domain of Arabidopsis AtPCS1 (residues 12-218) by using the crystal structure of the ?Glu-Cys acyl-enzyme complex of the PCS of the cyanobacterium Nostoc (NsPCS) as a template. The modeled AtPCS1 revealed a cavity in proximity to the first substrate binding site, consisting of 3 loops containing several conserved amino acids including Arg152, Lys185, and Tyr55. Substitutions of these amino acids (R152K, K185R, or double mutation) resulted in the abrogation of enzyme activity, indicating that the arrangement of these 2 positive charges is crucial for the binding of the second substrate. Recombinant AtPCS1s with mutations at Tyr55 showed lower catalytic activities because of reduced affinity (3-fold for Y55W) for the Cd?GS2, further suggesting the role of the cation-? interaction in recognition of the second substrate. Our study results indicate the mechanism for second substrate recognition in PCS. The integrated catalytic mechanism of PCS is further discussed.

SUBMITTER: Chia JC 

PROVIDER: S-EPMC3855540 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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Tentative identification of the second substrate binding site in Arabidopsis phytochelatin synthase.

Chia Ju-Chen JC   Yang Chien-Chih CC   Sui Yu-Ting YT   Lin Shin-Yu SY   Juang Rong-Huay RH  

PloS one 20131205 12


Phytochelatin synthase (PCS) uses the substrates glutathione (GSH, γGlu-Cys-Gly) and a cadmium (Cd)-bound GSH (Cd∙GS2) to produce the shortest phytochelatin product (PC2, (γGlu-Cys)2-Gly) through a ping-pong mechanism. The binding of the 2 substrates to the active site, particularly the second substrate binding site, is not well-understood. In this study, we generated a structural model of the catalytic domain of Arabidopsis AtPCS1 (residues 12-218) by using the crystal structure of the γGlu-Cys  ...[more]

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