Abstract
We report here the first characterization of a gene encoding a homogentisate dioxygenase, the Aspergillus nidulans hmgA gene. The HmgA protein catalyzes an essential step in phenylalanine catabolism, and disruption of the gene results in accumulation of homogentisate in broths containing phenylalanine. hmgA putatively encodes a 448-residue polypeptide (Mr = 50,168) containing 21 histidine and 23 tyrosine residues. This polypeptide has been expressed in Escherichia coli as a fusion to glutathione S-transferase, and the affinity-purified protein has homogentisate dioxygenase activity. A. nidulans, an ascomycete amenable to classical and reverse genetic analysis, is a good metabolic model to study inborn errors in human Phe catabolism. One such disease, alkaptonuria, was the first human inborn error recognized (Garrod, A. E. (1902) Lancet 2, 1616-1620) and results from loss of homogentisate dioxygenase. Here we take advantage of the high degree of conservation between the amino acid sequences of the fungal and higher eukaryote enzymes of this pathway to identify expressed sequence tags encoding human and plant homologues of HmgA. This is a significant advance in characterizing the genetic defect(s) of alkaptonuria and illustrates the usefulness of our fungal model.
Highlights
A. nidulans, an ascomycete amenable to classical and reverse genetic analysis, is a good metabolic model to study inborn errors in human Phe catabolism
E. coli strains carrying each of the above plasmids were cultured at 28 °C in LB broth with ampicillin (100 g1⁄7mlϪ1) until an Cloning and Molecular Characterization of the hmgA Gene—We have used a subtraction procedure to isolate cDNAs for A. nidulans genes whose transcription is induced by utilization of PhAc as sole carbon source (Fernandez-Canon and Penalva, 1995)
This ORF can encode a 448residue polypeptide, whose amino acid sequence showed no significant similarity to sequences with an assigned function deposited in SwissProt and PIR data bases or those obtained by conceptual translation of GenBank/EMBL data base entries
Summary
PhAc, phenylacetate; EST, expressed sequence tag; GST, glutathione S-transferase; IPTG, isopropyl-1-thio-D-galactopyranoside; HPLC, high performance liquid chromatography; ORF, open reading frame. Our characterization of the fahA gene, encoding A. nidulans fumarylacetoacetate hydrolase, showed 47% identity at the amino acid level with its human homologue (Fernandez-Cano ́n and Penalva, 1995) Loss of this enzyme results in phenylalanine toxicity and extracellular accumulation of succinylacetone, a hallmark of the disease in the urine of human patients. The similarities in the overall organization of the Phe pathway, in the amino acid sequences for at least one enzyme, and in the consequences of equivalent genetic blocks between A. nidulans and humans prompted us to use this fungus as a model for certain metabolic aspects of human defects in Phe catabolism We use this lower eukaryote to characterize, for the first time, a gene encoding a homogentisate dioxygenase and use its deduced amino acid sequence to identify its human and plant homologues
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