The primary base sequence ofthe protein coding regions of the four small heat shock genes of Drosophila nmlanogaster present at cytological locus 67B has been determined. A single open reading frame large enough to encode a small heat shock protein is found for each gene. The molecular weights of the predicted proteins are in good agreement with experimentally determined values obtained from gel electrophoresis. The predicted amino acid sequences of the four small heat shock genes show strildng homologies over =50% of their lengths. This region of extensive homology extends from about amino acid 85 to amino acid 195 out of a total of a2oo amino acids. Comparison of the predicted sequence with the known sequences of other proteins revealed a remarkable similarity between this region of homology and the corresponding region of mammalian a-crystaliin. The possible functional significance of this structural similarity is discussed.Heat shock and a variety of other stimuli result in a dramatic change in the pattern of gene expression in Drosophila melanogaster (for review, see ref.
Saccharomyces cerevisiae contains a family of genes related to the major heat shock-induced gene of Drosophila (hsp 70). Two members of the multigene family (YG100 and YG101) were isolated. The primary DNA sequences of more than one-half of the protein-encoding regions of YG100 and YG101 were determined and compared with the Drosophila hsp 70 gene sequence; the predicted amino acid sequences were 72 and 64% homologous to the sequence of the Drosophila hsp 70 protein, respectively. The predicted amino acid sequences of the yeast genes were 65% homologous. Our results demonstrate a striking sequence conservation of hsp 70-related sequences in evolution. Hybridization of the S. cerevisiae genes to total S. cerevisiae DNA indicated that the multigene family consists of approximately 10 members. Hybridization of labeled RNAs from heat-shocked and control cells suggested that, like transcription of the Drosophila hsp 70 gene, transcription of YG100 or a closely related gene is enhanced after heat shock. However, the amount of RNA sequences homologous to YG101 was reduced after heat shock. A multigene family related to the hsp 70 gene exists in Drosophila; transcription of some members is induced by heat shock, whereas transcription of others is not. Our results suggest that S. cerevisiae, like Drosophila, contains a multigene family of hsp 70-related sequences under complex transcriptional regulation and that the differential control, as well as the nucleotide sequence, has been highly conserved in evolution.
The enzyme isopenicillin N synthetase (IPS) catalyses the oxidative condensation of delta-(L-alpha-aminoadipyl)-L-cysteinyl-D-valine (LLD-ACV) to isopenicillin N, which is a central reaction in the pathway to clinically important penicillins and cephalosporins. Here we report the cloning, characterization and expression in Escherichia coli of the gene encoding the IPS protein in Cephalosporium acremonium. The IPS gene was identified by purifying IPS protein, determining the first 23 amino-terminal amino acids, preparing a set of synthetic oligonucleotides encoding a portion of the determined amino-acid sequence, and probing a cosmid genome library with the mixed oligonucleotides. A cosmid hybridizing with the probe was isolated and the IPS gene was localized and sequenced. The IPS gene encodes a polypeptide of relative molecular mass (Mr) 38,416. When this open reading frame was cloned into an E. coli expression vector and inserted into E. coli, the recombinant E. coli produced a new protein co-migrating with authentic IPS as the major protein of the cell (approximately 20% of cell protein). Crude cell extracts condensed LLD-ACV to a penicillinase-sensitive molecule whose antibacterial activity indicated that it was isopenicillin N.
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