Overexpression of a dominant-negative allele of SEC4 inhibits growth and protein secretion in Candida albicans.

Candida albicans SEC4 was cloned by complementing the Saccharomyces cerevisiae sec4-8 mutation, and its deduced protein product (Sec4p) was 63% identical to S. cerevisiae Sec4p. One chromosomal SEC4 allele in C. albicans CAI4 was readily disrupted by homologous gene targeting, but efforts to disrupt the second allele yielded no viable null mutants. Although this suggested that C. albicans SEC4 was essential, it provided no information about this gene's functions. Therefore, we constructed a mutant sec4 allele encoding an amino acid substitution (Ser-28-->Asn) analogous to the Ser-17-->Asn substitution in a trans-dominant inhibitor of mammalian Ras protein. GAL1-regulated expression plasmids carrying the mutant sec4 allele (pS28N) had minimal effects in glucose-incubated C. albicans transformants, but six of nine transformants tested grew very slowly in galactose. Incubation of pS28N transformants in galactose also inhibited secretion of aspartyl protease (Sap) and caused 90-nm secretory vesicles to accumulate intracellularly, and plasmid curing restored growth and Sap secretion to wild-type levels. These results imply that C. albicans SEC4 is required for growth and protein secretion and that it functions at a later step in the protein secretion pathway than formation of post-Golgi secretory vesicles. They also demonstrate the feasibility of using inducible dominant-negative alleles to define the functions of essential genes in C. albicans.

Cytochrome P450 lanosterol 14 alpha-demethylase (ERG11) and manganese superoxide dismutase (SOD1) are adjacent genes in Saccharomyces cerevisiae.

DNA sequencing and analysis of genomic DNA using the polymerase chain reaction were used to demonstrate that SOD1 and ERG11 are adjacent genes in Saccharomyces cerevisiae S288c and to establish the correct intergenic sequence of this segment on chromosome VIII.

Primary structure of the cytochrome P450 lanosterol 14 alpha-demethylase gene from Candida tropicalis.

We report the nucleotide sequence of the gene and flanking DNA for the cytochrome P450 lanosterol 14 alpha-demethylase (14DM) from the yeast Candida tropicalis ATCC750. An open reading frame (ORF) of 528 codons encoding a 60.9-kD protein is identified. This ORF includes a characteristic heme-binding domain, HR2, common to all P450 proteins. This protein and the 14DM from Saccharomyces cerevisiae share 66.5% identical and 23.1% conservatively replaced amino acids in a 516-amino-acid alignment, and thus are orthologous forms of the P450LIA1 gene. Conversely, C. tropicalis 14DM shares relatively little sequence similarity with P450alk, the predominant P450 protein present when this organism is grown on n-alkanes. Sequence information of these three yeast P450s will be useful for structure-function analyses in the future.

Proteins from eight eukaryotic cytochrome P-450 families share a segmented region of sequence similarity.

Proteins from eight eukaryotic families in the cytochrome P-450 superfamily share one region of sequence similarity. This region begins 275-310 amino acids from the amino terminus of each P-450, continues for approximately 170 residues, and ends 35-50 amino acids before the carboxyl terminus. The region can be divided into four domains of sequence similarity, each possessing its own pattern of invariant, conserved, and variable amino acids. The four domains are 56, 20, 59, and 28 residues long and are connected by three shorter segments of limited sequence similarity. The number of residues in these short segments varies with the P-450 protein but ranges from 0 to 20 residues. Consensus sequences based on these similarities can be used to determine whether the sequence of an unidentified peptide resembles that expected for a P-450. Sequence similarities between proteins sometimes reflect constraints imposed by the requirements of a common function. The fourth domain of the P-450s, for example, contains an invariant cysteine that provides the axial thiolate ligand to the heme iron. Other relationships between the four domains and P-450 function can be examined by in vitro mutagenic procedures that alter the conserved amino acids or modify the distance between domains.

Primary structure of the P450 lanosterol demethylase gene from Saccharomyces cerevisiae.

We have sequenced the structural gene and flanking regions for lanosterol 14 alpha-demethylase (14DM) from Saccharomyces cerevisiae. An open reading frame of 530 codons encodes a 60.7-kDa protein. When this gene is disrupted by integrative transformation, the resulting strain requires ergosterol and, as expected, grows only in the absence of oxygen. The deduced amino acid sequence of 14DM includes a hydrophobic segment near the amino terminus which may be a transmembrane domain. The deduced sequence has been compared with those of eight other eukaryotic P450s, each from a different family within the P450 superfamily. These comparisons indicate that this yeast gene is the first member of a new P450 family, P450LI. The P450, designated P450LIA1, is more closely related to mammalian P450s than to the bacterial P450cam. In fact, both the yeast P450 and several mammalian P450s have equivalent alignment scores when each is compared with the bovine P450scc. Matrix comparisons of the amino acid sequence of this P450 with those of mammalian P450s reveal three conserved regions. The DNA region 5' to the structural 14DM gene includes poly(dA:dT) sequences and a repeating hexamer sequence.

Isolation of a cytochrome P-450 structural gene from Saccharomyces cerevisiae.

We have transformed a Saccharomyces cerevisiae host with an S. cerevisiae genomic library contained in the shuttle vector YEp24 and screened the resultant transformants for resistance to ketoconazole (Kc), an inhibitor of the cytochrome P-450 (P-450) enzyme lanosterol 14 alpha-demethylase. Two plasmids were isolated which transformed yeast to both increased resistance to Kc and increased levels of total P-450. Hybrid-selection and immunoprecipitation experiments showed that these plasmids, pVK1 and pVK2, contained the structural gene for an S. cerevisiae P-450. This conclusion was confirmed by the nucleotide sequence of a portion of pVK2, which revealed an open reading frame encoding a characteristic P-450 heme-binding region.

A cluster of repetitive elements within a 700 base pair region in the mouse genome.

Approximately 39% of the clones from a BALB/c mouse genomic library hybridized with polyadenylated cytoplasmic RNA extracted from anemic mouse spleen. The DNA sequence of a portion of one such clone revealed the presence of three repetitive sequence elements within a 700 bp span. All three elements contain putative RNA polymerase III control regions oriented in the same direction and oligo(dA) tracts at their 3' ends. The first element is a member of the murine B1 family. A comparison of this element with other B1 family members indicates that the B1 family can be divided into two subclasses based on commonly held base changes and deletions. The second element within this 700 bp region may be a member of a new murine Alu family. Its structure is analogous to other murine Alu-equivalent sequences with respect to overall length, the presence of a 3' oligo(dA) tract and putative RNA polymerase III control regions. The third element is a murine type 2 Alu-equivalent sequence.

Is cyclic guanosine 3',5'-monophosphate a cell cycle regulator?

Transient increases in the intracellular level of cyclic guanosine 3',5'-monophosphate have been observed at a periodicity of one generation time in two spoT strains of Escherichia coli and in Bacillus licheniformis.