The major soluble protein in the lenses of most birds and reptiles is delta-crystallin. In chickens and ducks the delta-crystallin gene has duplicated, and in the duck both genes contribute to the protein in the lens, while in the chicken lens there is a great preponderance of the delta 1 gene product. Purified delta-crystallin has previously been shown to possess the enzymatic activity of argininosuccinate lyase. In order to determine the enzymatic properties of the two duck delta-crystallins their corresponding cDNA molecules were placed in yeast and bacterial expression plasmids. In Saccharomyces cerevisiae, the activity of each crystallin was assessed by transformation of the expression plasmids into a strain deficient for argininosuccinate lyase activity. The ability of the resulting yeast to grow on arginine deficient medium was used as a measure of enzymatic activity. Yeast expressing the duck delta 2-crystallin protein grew rapidly, while those expressing delta 1-crystallin failed to grow. Enzyme activity measurements confirmed the presence of activity in the delta 2-crystallin-expressing yeast, and no detectable activity could be demonstrated in the delta 1-crystallin-expressing yeast. Northern blotting of RNA from the transformed yeast revealed equal levels of mRNA species from the two constructs. For further analysis, the delta 2-crystallin cDNA was placed in the bacterial expression plasmid, pET-3d. The delta 2-crystallin protein produced in Escherichia coli was purified to homogeneity and analyzed to determine the kinetic properties. A Km of 0.35 mM was determined for argininosuccinate and a Vm of 3.5 mumols/min/mg was determined. These data demonstrate that, following duplication of the primordial argininosuccinate lyase gene, one of the genes maintained its role as an enzyme (delta 2-crystallin) while also serving as a crystallin and the other has evolved to specialize as a structural protein in the lens (delta 1-crystallin), presumably losing most or all of its catalytic capacity.
Abstract Argininosuccinic aciduria is an inborn error of metabolism due to the genetic deficiency of argininosuccinate lyase. In order to determine the molecular basis for the disease, RNA isolated from cultured skin fibroblasts derived from four unrelated patients was reverse-transcribed and amplified using the polymerase chain reaction and the products were cloned and sequenced. Three single base missense mutations were identified: Arg111----Trp, Gln286----Arg, and Arg193----Gln. One single base amber mutation was identified at Gln454. One mutation involved a 13-base pair deletion within exon 13, and it was noted that the majority of the mature RNA derived from this allele was deleted for the entire exon rather than containing the exon with the 13 bases deleted. A final mutation was observed in which exon 2 was deleted from the mature RNA. The molecular basis for this deletion was not determined. Of the eight potential mutations present in the four cell lines studied, six mutations were identified and further data indicate that the remaining two unidentified mutations were different from those identified. Two site-directed mutations were created in the cDNA, Lys51----Asn and His89----Gln, and these were expressed in yeast. The Lys51 mutation caused an approximate 2-fold reduction in activity and the His89 mutation resulted in an approximate 10-fold reduction in activity. The combination of determination of naturally occurring mutations and the study of the effect of site-directed mutations on the activity of argininosuccinate lyase provide insight into the amino acid residues critical to the function of the enzyme.
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