A. Poupon et al., Structure modelling and site directed mutagenesis of the rat aromatic L-amino acid pyridoxal 5 '-phosphate-dependent decarboxylase: A functional study, PROTEINS, 37(2), 1999, pp. 191-203
The pyridoxal-5'-phosphate-dependent enzymes (B-6 enzymes) are grouped into
three main families named alpha, beta, and gamma. Proteins in the a and ga
mma families share the same fold and might be distantly related, while thos
e in the beta family exhibit specific structural features. The rat aromatic
L-amino acid decarboxylase (AADC; EC(4.1.1.28)) catalyzes the synthesis of
two important neurotransmitters: dopamine and serotonin, It binds the cofa
ctor pyridoxal-5'-phosphate and belongs to the alpha family. Despite the lo
w level of sequence identity (approximately 10%) shared by the rat AADC and
the sequences of the enzymes belonging to the Be enzymes family, including
the known three-dimensional structures, a multiple sequence alignment was
deduced, A model was built using segments belonging to seven of the eleven
known structures, By homology, and based on knowledge of the biochemistry o
f the aspartate aminotransferase, structurally and functionally important r
esidues were identified in the rat AADC, Site-directed mutagenesis of the c
onserved residues D271, T246, and C311 was carried out in order to confirm
our predictions and highlight their functional role. Mutation of D271A and
D271N resulted in complete loss of enzyme activity, while the D271E mutant
exhibited 2% of the wild-type activity. Substitution of T246A resulted in 5
% of the wild-type activity while the C311A mutant conserved 42% of the wil
d-type activity. A functional model of the AADC is discussed in view of the
structural model and the complementary mutagenesis and labelling studies,
Proteins 1999;37:191-203. (C) 1999 Wiley-Liss, Inc.