Cloning and characterization of the cDNA encoding human adenylosuccinate synthetase

Adenylosuccinate synthetase (AS) catalyzes the first committed step in the conversion of IMP to AMP. A cDNA was isolated from a human liver library which encodes a protein of 455 amino acids (Mr of 49.925). Alignments of human, mouse, Dictyostelium discoideum and E. coli AS sequences identify a number of invariant residues which are likely to be important for structure and/or catalysis. The human AS sequence was also 19% identical to the human urea cycle enzyme, arginosuccinate synthetase (ASS), which catalyses a chemically similar reaction. Both human liver and HcLa AS mRNA showed signals of 2.3 and 2.8 kb. An unmodified N-terminus is required for function of the human AS enzyme in E. coli mutants lacking the bacterial enzyme. The human cDNA provides a means to assess the possible role of AS abnormalities in unclassified, idiopathic cases of gout.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/30040/1/0000408.pd

Functional Dissection of the Bacillus subtilis pur Operator Site

Bacillus subtilis PurR represses transcription of several genes involved in purine synthesis, metabolism, and transport and cofactor synthesis. PurR binds specifically to DNAs containing an inverted repeat of a 14-nucleotide “PurBox” located in the upstream control regions of genes in the PurR regulon. Further biochemical investigation of the interaction of PurR with a series of shortened upstream DNA fragments of the pur operon determined the minimum length and specificity elements of the operator. The relative affinities of the two PurBoxes differ significantly, such that upstream PurBox1 (−81 to −68 relative to the transcription start site) is designated “strong” and downstream PurBox2 (−49 to −36) is designated “weak.” Two PurBoxes are required for high-affinity PurR binding, and one of these must be strong. The shortest DNA construct with high affinity for PurR is a 74-bp perfect palindrome in which weak PurBox2 and its flanking sequences are replaced by strong PurBox1 and flanking sequences. Two PurR dimers bind to this symmetric construct. Phosphoribosylpyrophosphate (PRPP), the effector molecule that reduces affinity of PurR for DNA, requires one weak PurBox in the DNA construct to inhibit PurR binding. PRPP binds, as expected, to a PRPP-motif in PurR. A tracks outside the central conserved CGAA sequence of the PurBox may facilitate DNA bending, leading to a proposal for strong and weak designations of PurBoxes in the control regions of other genes regulated by PurR