Dorsoventral patterning in the Drosophila retina by wingless.

The eye imaginal disc displays dorsal-ventral (D-V) and anterior-posterior polarity prior to the onset of differentiation, which initiates at the intersection of the D-V midline with the posterior margin. As the wave of differentiation progresses anteriorly, additional asymmetry develops as ommatidial clusters rotate coordinately in opposite directions in the dorsal and ventral halves of the disc; this forms a line of mirror-image symmetry, the equator, which coincides with the D-V midline of the disc. How D-V pattern is established and how it relates to ommatidial rotation are unknown. Here we address this question by assaying the expression of various asymmetric markers under conditions that lead to ectopic differentiation, such as removal of patched or wingless function. We find that D-V patterning develops gradually and that wingless plays an important role in setting up this pattern. We show that wingless is necessary and sufficient to induce dorsal expression of the gene mirror prior to the start of differentiation and also to restrict the expression of the WR122 marker to differentiating photoreceptors near the equator. In addition, we find that manipulations in wingless expression shift the D-V axis of the disc as evidenced by changes in the expression domains of asymmetric markers, the position of the site of initiation and the equator, and the pattern of epithelial growth. Thus, Wg appears to coordinately regulate multiple events related to D-V patterning in the developing retina.

Complex organization of the soybean mitochondrial genome: recombination repeats and multiple transcripts at the atpA loci.

Identification of the soybean mitochondrial atpA open reading frame (atpA ORF) was based on sequence similarity with atpA genes in other plant mitochondria and partial protein sequencing. The atpA reading frame ends with four tandem UGA codons which overlap four tandem AUG codons initiating an unidentified reading frame, orf214. The atpA-orf214 region is found in multiple sequence contexts in soybean mitochondrial DNA (mtDNA), which can be attributed to the presence of two recombination repeats. A 1-kb repeat spans 600 nucleotides (nt) of atpA N-terminal coding region and 400 nt of upstream sequence. Its four configurations correspond to two full-length atpA-orf214 genes and two truncated pseudogenes. A 2-kb repeat lies 3 kb downstream from the 1-kb repeat. Restriction maps of cosmid clones suggest that a 10-kb segment containing both repeats is itself duplicated in the mt genome. With two recombination repeats present in a total of three copies per genome, soybean mtDNA is expected to consist of a complex population of subgenomic molecules. Transcription of the atpA loci was analysed by Northern blotting and S1 nuclease protection. The atpA genes express multiple transcripts with one major 3' end and heterogeneous 5' sequences extending several kb upstream of the atpA coding region. The atpA gene and orf214 are co-transcribed on all major transcripts. The pseudogenes do not express stable RNAs.