Developmental expression and characterization of the gene encoding spore coat protein SP60 in Dictyostelium discoideum

SadA, a novel adhesion receptor in Dictyostelium

Little is known about cell-substrate adhesion and how motile and adhesive forces work together in moving cells. The ability to rapidly screen a large number of insertional mutants prompted us to perform a genetic screen in Dictyostelium to isolate adhesion-deficient mutants. The resulting substrate adhesion-deficient (sad) mutants grew in plastic dishes without attaching to the substrate. The cells were often larger than their wild-type parents and displayed a rough surface with many apparent blebs. One of these mutants, sadA-, completely lacked substrate adhesion in growth medium. The sadA- mutant also showed slightly impaired cytokinesis, an aberrant F-actin organization, and a phagocytosis defect. Deletion of the sadA gene by homologous recombination recreated the original mutant phenotype. Expression of sadA-GFP in sadA-null cells restored the wild-type phenotype. In sadA-GFP-rescued mutant cells, sadA-GFP localized to the cell surface, appropriate for an adhesion molecule. SadA contains nine putative transmembrane domains and three conserved EGF-like repeats in a predicted extracellular domain. The EGF repeats are similar to corresponding regions in proteins known to be involved in adhesion, such as tenascins and integrins. Our data combined suggest that sadA is the first substrate adhesion receptor to be identified in Dictyostelium.

Control elements of Dictyostelium discoideum prespore specific gene 3B

Expression of the prespore-specific gene 3B in Dictyostelium discoideum Ax-2 cells is first detectable late in development with 3B mRNA levels peaking at 18 h (Corney et al., 1990). Sequence analysis of 3B cDNA and genomic clones revealed two exons, 319bp and 341bp long, separated by an 82bp intron, which encode a 219 residue protein with no significant similarity to any other reported gene product. Transcription starts at an A residue 45bp upstream from the translation initiation codon, preceded by a TATA-like sequence and an oligo-dT stretch. The 5' flanking sequence of the 3B gene is extremely A + T rich but contains five G/C rich stretches, each approximately 7bp long, which have strong sequence similarity to the G boxes found upstream of other developmentally regulated Dictyostelium genes. Analysis of both 3B promoter-CAT reporter gene and 3B promoter-lacZ reporter gene constructs showed that 908bp of 5' flanking sequence is sufficient to confer correct developmental and cell-type specific regulation. Sequential 5' deletion analysis revealed that positive elements lie upstream of position -304 and that negative element(s) lie between positions -264 and -241. Nevertheless, a 286bp promoter fragment containing only sequence located downstream of position -241 directed essentially correct reporter gene expression. Point mutation analysis identified cis-acting elements within this 'sufficient' promoter fragment which activate transcription (G box V and psp-AT type sequences). A short (56bp) region of the 3B promoter sequence containing both G box IV and the psp-AT type element binds two types of nuclear factor, one present in cells throughout development and a second that appears only in late development with a time course comparable to 3B gene induction.

Analysis of a novel cyclic Amp inducible prespore gene in Dictyostelium discoideum: evidence for different patterns of cAMP regulation

The D7 cDNA clone hybridizes to a 2.8 kb mRNA which first appears at the mound stage of development in the cellular slime mold Dictyostelium discoideum. This gene which is cyclic AMP (cAMP) inducible and is expressed specifically in the prespore cells contains an open reading frame interrupted by only one intron. The predicted amino acid sequence indicates a novel prespore protein which differs from all of the previously described prespore proteins in that it contains no internal repeats and does not share any homology with any of the other prespore genes. The amino acid sequence predicts a protein of 850 amino acids with a molecular weight of 95,343 daltons and an isoelectric point of 4.25. The protein is very rich in glutamine (13.8%), asparagine (10.6%) and glutamic acid (10.4%) with one potential glycosylation site and 28 possible sites for phosphorylation. The amino terminus is hydrophobic with characteristics of a signal sequence while the entire carboxyl half of the protein is notable for its hydrophilicity. Comparison of cAMP regulation of the D7 gene with the regulation of two other cAMP regulated prespore genes, the PL3(SP87) gene and the Psa(D19), reveals some striking differences. Disaggregation in the presence of cAMP results in transient degradation of mRNA for all three genes. The transcription rate for the D7 and PsA(D19) genes remains relatively unaffected by disaggregation but there is a rapid although transient decline in the transcription rate of the PL3(SP87) gene. Although the accumulation of all three mRNAs is first detectable at mound stage, transcription of the D7 and PsA(D19) genes is detected earlier in development, at rippling aggregate stage several hours prior to the earliest time when transcription of the PL3(SP87) gene is detected. Analysis of the promoter region of the D7 gene reveals three CA like boxes flanked by direct repeats as well as four G rich regions that may serve as regulatory elements.

A 2359-base pair DNA fragment from Cryptosporidium parvum encoding a repetitive oocyst protein

A Cryptosporidium parvum lambda gt11 expression library was constructed using EcoRI-digested genomic DNA extracted from in vitro-excysted oocysts. Screening of this library with rat anti-Cryptosporidium antiserum led to the isolation of a clone containing a 2359-bp EcoRI fragment. When this fragment was ligated into the EcoRI site of plasmid vector pMS1S, the resulting clone expressed a 200-kDa beta-galactosidase fusion protein. Western blot analysis using serum raised against this fusion protein indicated that the EcoRI fragment represented part of a gene encoding a 190-kDa oocyst wall protein of C. parvum. Sequencing of the fragment revealed a continuous open reading frame encoding 786 amino acids. The DNA sequence is relatively low in G+C (39.1%), and the third codon position contains only 17.9% G+C. The deduced peptide sequence has unusually high proportions of cysteine, proline, glutamine and histidine. Another striking feature of the amino acid sequence is the presence of distinctly repetitive regions based on conserved cysteine residues.

A developmentally regulated gene encodes the dictyostelium homolog of yeast ribosomal protein S4 and mammalian LLRep3 proteins

We report the sequence and expression of a single-copy gene from Dictyostelium discoideum which encodes the homolog of yeast ribosomal protein S4, a protein located on the small ribosomal subunit and known to play an important role in maintaining translational fidelity. Over a highly conserved central region, the Dictyostelium protein has 78% sequence similarity to the yeast protein and 83% sequence similarity to mammalian S4 protein homologs, the LLRep3 proteins. The Dictyostelium gene encodes a polypeptide 28,717 Da in size and hence this ribosomal protein has been named rp29. The N-terminal sequence of the Dictyostelium rp29 protein is extended by 61 amino acids and 14 amino acids compared to the mammalian and yeast proteins, respectively, and the C-terminus is correspondingly 15 amino acids or 2 amino acids shorter. Although the coding region of the rp29 gene is present on a single exon, a 157bp intron interrupts the 5' untranslated region and unusually contains four direct repeats of the sequence TCAATCT. The gene is expressed maximally during vegetative growth but a second peak of expression also occurs late in development which is restricted to prestalk cells; rp29 is the first Dictyostelium ribosomal protein gene reported which shows prestalk-specific developmental expression. During each round of expression, only a single 0.9kb transcript is produced which is similar in size to the yeast S4 ribosomal protein transcript (0.8kb) but markedly smaller than the mammalian LLRep3 mRNA (1.7kb) due to a much shorter 5' untranslated region.

A TaqI RFLP for the human arylsulfatase A gene

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Cell-type-specific genes expressed late in Dictyostelium development show markedly different responses to 3'5' cyclic AMP

The maintenance of late gene expression by 3'5' cyclic AMP was re-examined using several newly isolated cell-type-specific genes. Expression of all the prespore-enriched genes ceased immediately upon disaggregation of developing cells and pre-existing mRNA was rapidly degraded. For most genes, cAMP had little or no effect either alone or in combination with conditioned medium factors. The expression of the non-cell-type-specific genes 7E and 2C also ceased upon cell disaggregation but cAMP triggered a full re-induction of expression although the timing of the response differed markedly between these two genes. In contrast to earlier interpretations, these data argue that for none of these late prespore genes is cAMP alone sufficient for the maintenance of expression. The responses of the two prestalk mRNAs examined were gene-specific. Prestalk 5D mRNA decayed slowly upon disaggregation and was partially stabilized by cAMP whereas prestalk 5G mRNA increased upon disaggregation and was inhibited by cAMP.