EST comparison indicates 38% of human mRNAs contain possible alternative splice forms.

Expressed sequence tag (EST) databases represent a large volume of information on expressed genes including tissue type, expression profile and exon structure. In this study we create an extensive data set of human alternative splicing. We report the analysis of 7867 non-redundant mRNAs, 3011 of which contained alternative splice forms (38% of all mRNAs analysed). From a total of 12572 ESTs 4560 different possible alternative splice forms were detected. Interestingly, 70% of the alternative splice forms correspond to exon deletion events with only 30% exonic insertions. We experimentally verified 19 different splice forms from 16 genes in a total subset of 20 studied; all of the respective genes are of medical relevance.

Characterization and regulation of the genes encoding ribosomal proteins L39 and S7 of the human pathogen Candida albicans.

Genes encoding the Candida albicans ribosomal proteins L39 and S7 (RPL39, RPS7) were isolated and sequenced. From RPL39 cDNA a single intron interrupting the fifth codon in the genomic sequence could be deduced. Two homologous RPL39 genes in Saccharomyces cerevisiae contain a single intron in a conserved position. In contrast, C. albicans RPS7 was found to lack an intron, while both S. cerevisiae homologs are interrupted by single introns. The deduced L39 and S7 proteins contained 67% and 83% identical residues compared to the S. cerevisiae homologs. During hyphal induction the RPL39, RPS7 and RPL29 transcript levels increased three- to six-fold relative to ribosomal RNA, while ACT1 and RPS33 control transcripts were not regulated extensively. As suggested by unaltered transcript stabilities during hyphal induction, this regulation occurs on the transcriptional level; a conserved 18 bp palindromic sequence (5'-TTAGGGCTATAGCCCTAA-3'), which is present in the promoter regions of the RPL39 and RPS7 genes, may be involved in regulation.

Sequence and promoter regulation of the PCK1 gene encoding phosphoenolpyruvate carboxykinase of the fungal pathogen Candida albicans.

The PCK1 gene encoding PEP carboxykinase (Pck1) of the fungal pathogen Candida albicans was isolated and sequenced. The deduced Pck1 protein has high homology to ATP-dependent Pck1 proteins in other species, especially to Pck1 of Saccharomyces cerevisiae (70% homology), but not to GTP-dependent Pck1 proteins. PCK1 transcript levels were efficiently repressed by glucose and derepressed (induced) on gluconeogenetic carbon sources. PCK1 regulation occurs on the level of transcription, as demonstrated by a fusion of the PCK1 promoter to the LAC4 reporter gene, yielding derepressed/repressed expression ratios of > 100. Homologous sequences in the PCK1 promoters of C. albicans and S. cerevisiae were identified. The PCK1 promoter may be useful to efficiently regulate expression and thereby test the function of genes in C. albicans.

A novel allelic variant of the human serotonin transporter gene regulatory polymorphism.

Allelic variation of the human serotonin transporter gene (SLC6A4) has recently been shown to modulate anxiety-related traits. A tandemly repeated sequence in close proximity to the promoter was found to be represented by a long (L) and short (S) variant, differentially modulating gene expression in vitro. Specifically, allele S, generated by a deletion of 44 bp involving repeats VI to VIII, reduced transcriptional efficiency, gene expression, and 5-hydroxytryptamine uptake and was associated with increased neuroticism scores. We have now identified a novel allelic variant of this promoter-linked polymorphism that is significantly larger than the L allele and which we have designated allele XL (for "extra large"). Sequence analysis revealed that XL arose through duplication of an internal segment composed of repeat elements VI to IX, comprising 85 bp in total, and, most notably, including the segments deleted in the S allele. Additional allelic variants larger than human allele L were observed predominantly in various nonhuman primates. Preliminary data indicated that these variable allelic extensions similarly originate from this specific repeat region. These allelic variants may serve as a valuable model system to further elucidate the relationship between repeat structure, regulatory properties, and behavioral correlates. Finally, allelic variants were found to vary significantly among different human populations, with allele XL being uniquely present in individuals of African origin, allele L most frequent in Africans and Caucasians of Western European descent, and allele S most abundant in East Asians.

Fluctuations in glycolytic mRNA levels during morphogenesis in Candida albicans reflect underlying changes in growth and are not a response to cellular dimorphism.

The levels of pyruvate kinase (PYK1), alcohol dehydrogenase (ADH1), phosphoglycerate kinase (PGK1) and phosphoglycerate mutase (GPM1) mRNAs were measured during batch growth and during the yeast-to-hyphal transition in Candida albicans. The four mRNAs behaved in a similar fashion. PYK1, ADH1, PGK1 and GPM1 mRNA levels were shown to increase dramatically during the exponential growth phase of the yeast form, and then to decrease to relatively low levels in the stationary phase. The dimorphic transition was induced using two sets of conditions: (i) an increase in temperature (from 25 degrees C to 37 degrees C) combined with the addition of serum to the medium; and (ii) an increase in temperature (from 25 degrees C to 37 degrees C) and an increase in pH of the growth medium (from pH 4.5 to pH 6.5). Additional cultures were analysed to control for the addition of serum, and for changes in temperature or pH. Immediately following dilution of late-exponential cells into fresh media the levels of all four glycolytic mRNAs decreased rapidly in contrast to the ACT1 mRNA control, the level of which increased under most conditions. The recovery of glycolytic mRNA levels depended on the culture conditions, but there was no direct correlation with the formation of germ tubes, with the addition of serum to the medium, the increase in culture temperature, the medium pH, or the glucose concentration. This indicates that the changes in glycolytic gene expression that accompany the dimorphic transition in C. albicans reflect the underlying physiological status of the cells during morphogenesis and not alterations to cell shape.

Morphogenesis-independent regulation of actin transcript levels in the pathogenic yeast Candida albicans.

The transcript level of the Candida albicans ACT1 gene (encoding actin) is strongly regulated during induction of hyphal morphogenesis. ACT1 mRNA declines rapidly during starvation pretreatment and quickly recovers in media inducing morphogenesis. The C. albicans URA3 and LEU2 mRNAs, as well as an ACT1 promoter/LAC4 fusion, are regulated similarly. The regulation of ACT1/LAC4 and unaltered mRNA stabilities suggest transcriptional regulation during morphogenesis. However, by individually testing morphogenesis induction parameters, it is shown that starvation and growth phase, but not hyphal formation, are responsible for ACT1 transcript regulation; this conclusion is confirmed by analyses of morphological mutants and by inhibition of hyphal development. Thus, the specific morphogenesis-induction conditions, but not morphogenesis per se, affect transcript levels in C. albicans.

Analysis of CAD gene amplification using a combined approach of molecular genetics and cytogenetics.

CAD is a multifunctional protein which catalyzes the first three steps of de novo uridine biosynthesis. Rodent cells resistant to PALA, a specific inhibitor of the ATCase activity of CAD, overproduce the CAD protein and CAD mRNA as a direct result of the amplification of the CAD gene. In order to study the mechanism of CAD gene amplification, a functional Syrian hamster CAD gene was inserted into a cosmid vector using molecular cloning techniques. The cloned genes were assayed for biological function by fusing CAD-deficient Chinese hamster ovary (CHO) cell mutants with protoplasts of E. coli containing the CAD cosmids. Two clones with functional CAD genes were isolated and shown to contain inserts 40 and 45 kb long. The cloned genes could also be introduced into wild type CHO cells by selecting for cells which became resistant to high PALA concentrations in a single step. Transformations of mutant and wild type CHO cells contained multiple active copies of the donated Syrian hamster CAD genes in addition to their endogenous CHO CAD genes. The cloned genes in all transformants analyzed are integrated into host cell chromosomes at single locations defined by in situ hybridization. Independently isolated transformants contain the donated genes in different chromosomes. Co-transformation of CHO cells with two different genes by protoplast fusion is also shown to be possible.

The cloning and reintroduction into animal cells of a functional CAD gene, a dominant amplifiable genetic marker.

Rodent cells resistant to PALA, a specific inhibitor of the aspartate transcarbamylase activity of the multifunctional CAD protein, overproduce CAD as a result of amplification of the CAD gene. We cloned a functional CAD gene from Syrian hamster cells using a cosmid vector. Two independently isolated cosmids containing CAD genes have inserts 40 and 45 kb long. We introduced the cloned genes into CAD-deficient Chinese hamster ovary (CHO) cell mutants by fusing them with protoplasts of Escherichia coli containing the cosmids. We also introduced the cloned genes into wild-type CHO cells by selecting cells that became resistant to high concentrations of PALA following protoplast fusion. The transformants of the mutant and wild-type CHO cells contain multiple active copies of the donated Syrian hamster CAD genes. The cloned genes in three independent transformants are integrated into host-cell chromosomes at single locations identified by in situ hybridization. In two of these transformants, the genes are located in one X chromosome or in a chromosome resembling the X. In the third case, the genes are located in a small metacentric or rearranged chromosome.