Short-range transcriptional repressors are locally acting factors that play important roles in developmental gene expression in Drosophila. To effect repression, Knirps and other short-range repressors bind the CtBP corepressor, but these repressors also function via CtBP-independent pathways. Possible mechanistic differences between CtBP-dependent and -independent repression activities are poorly understood. The distinct activities might provide qualitatively different activities necessary in different promoter contexts, or they might combine to give quantitatively different effects. We analyze separately the CtBP-dependent and CtBP-independent domains of Knirps previously characterized in the embryo to determine possible functional distinctions of the two repression activities. Both domains are active in cell culture and are dependent on the same residues required for activity in the embryo. The domains have similar properties with respect to distance-dependent repression and resistance to inhibition by the deacetylase inhibitor trichostatin A. In tests of repressor-activator specificity, the extent of repression was related not to the chemical nature of the activation domain but to the total activation potential. This result indicates that the balance of competing activation and repression signals is decisive in determining the effectiveness of repressors on genetic switches, suggesting that multiple repression activities are utilized to provide quantitatively, rather than qualitatively, distinct outputs.
A superoxide dismutase (SOD) gene of Aquifex pyrophilus, a marine hyperthermophilic bacterium, was cloned, sequenced, expressed in Escherichia coli, and its gene product characterized. This is the first SOD from a hyperthermophilic bacterium that has been cloned. It is an iron-containing homooligomeric protein with a monomeric molecular mass of 24.2 kDa. The DNA-derived amino acid sequence is more similar to those of known Mn-and Fe-SODs from thermophilic archaea than of Cu, Zn-SODs. The metal binding residues found in all SOD sequences from different species are also conserved in A. pyrophilus SOD. The protein is biochemically active only as an oligomer and is resistant to thermal denaturation.
Angioblasts of the developing vascular system require many signaling inputs to initiate their migration, proliferation and differentiation into endothelial cells. What is less studied is which intrinsic cell factors interpret these extrinsic signals. Here, we show the Lim homeodomain transcription factor islet2a (isl2a) is expressed in the lateral posterior mesoderm prior to angioblast migration. isl2a deficient angioblasts show disorganized migration to the midline to form axial vessels and fail to spread around the tailbud of the embryo. Isl2a morphants have fewer vein cells and decreased vein marker expression. We demonstrate that isl2a is required cell autonomously in angioblasts to promote their incorporation into the vein, and is permissive for vein identity. Knockout of isl2a results in decreased migration and proliferation of angioblasts during intersegmental artery growth. Since Notch signaling controls both artery-vein identity and tip-stalk cell formation, we explored the interaction of isl2a and Notch. We find that isl2a expression is negatively regulated by Notch activity, and that isl2a positively regulates flt4, a VEGF-C receptor repressed by Notch during angiogenesis. Thus Isl2a may act as an intermediate between Notch signaling and genetic programs controlling angioblast number and migration, placing it as a novel transcriptional regulator of early angiogenesis.
Aquifex pyrophilus is one of the hyperthermophilic bacteria that can grow at temperatures up to 95 degrees C. To obtain information about its genomic structure, random sequencing was performed on plasmid libraries containing 0.5-2 kb genomic DNA fragments of A. pyrophilus. Comparison of the obtained sequence tags with known proteins revealed that 123 tags showed strong similarity to previously identified proteins in the PIR or Genebank databases. These included three proteases, two amino acid racemases, and three enzymes utilizing oxygen as substrate. Although the GC ratio of the genome is about 40%, the codon usage of A. pyrophilus showed biased occurrence of G and C at the third position of codons, especially those for amino acids such as asparagine, aspartic acid, cysteine, glutamine, glutamic acid, histidine, lysine, and tyrosine. A higher ratio of positively charged amino acids in A. pyrophilus proteins as compared with proteins from mesophiles suggested that Aquifex proteins might contain increased ion-pair interaction that could help to maintain heat stability.
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