The aim of the present work was to further study the characteristics of stimulation of growth of wild type and mutant cells by various auxins. The ability of the mutant to form auxinconjugates was investigated as a possible basis for increased auxin tolerance. An auxin analog specifically triggering cell death was identified by differential screening on wild-type and mutant cells. MATERIALS AND METHODSAn auxin requirement for the stimulation of cell proliferation has been demonstrated for many types of tissues grown in vitro. Recent work on the transformation of tissues by Agrobacterium tumefaciens have shown that the oncogenous transferred bacterial DNA encodes for two genes involved in a pathway of auxin biosynthesis, thus abolishing the requirement of exogenously supplied auxin for the growth of transformed cells (13,22). The mechanism by which auxin triggers cell proliferation and differentiation is still far from being understood. Specific auxin receptors have been postulated but no proof for their function in mediating auxin actions has been given (1 1).Cells derived from mesophyll protoplasts of tobacco and grown at low densities were found to be killed by relatively low auxin concentrations (5 FAM NAA2 or IAA) (6). A correlation between such toxicity and auxin conjugation was also observed in these 'Supported in part by a grant from the Ministere de l'Industrie et de la Recherche, "GEn&tique et physiologie des veg6taux sup6rieurs." 2Abbreviations: NAA, naphthaleneacetic acid; DAST, diethylaminosulfur trifluoride; P-cell, protoplast-derived cell; PE, plating efficiency; picloram, 3,5,6-trichloropicolinic acid; RPE, relative plating efficiency.
Morphogenesis in the Drosophila retina initiates at the posterior margin of the eye imaginal disc by an unknown mechanism. Upon initiation, a wave of differentiation, its forward edge marked by the morphogenetic furrow (MF), proceeds anteriorly across the disc. Progression of the MF is driven by hedgehog (hh), expressed by differentiating photoreceptor cells. The TGF-beta homolog encoded by decapentaplegic (dpp) is expressed at the disc's posterior margin prior to initiation and in the furrow, under the control of hh, during MF progression. While dpp has been implicated in eye disc growth and morphogenesis, its precise role in retinal differentiation has not been determined. To address the role of dpp in initiation and progression of retinal differentiation we analyzed the consequences of reduced and increased dpp function during eye development. We find that dpp is not only required for normal MF initiation, but is sufficient to induce ectopic initiation of differentiation. Inappropriate initiation is normally inhibited by wingless (wg). Loss of dpp function is accompanied by expansion of wg expression, while increased dpp function leads to loss of wg transcription. In addition, dpp is required to maintain, and sufficient to induce, its own expression along the disc's margins. We postulate that dpp autoregulation and dpp-mediated inhibition of wg expression are required for the coordinated regulation of furrow initiation and progression. Finally, we show that in the later stages of retinal differentiation, reduction of dpp function leads to an arrest in MF progression.
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.
Coordinating cell proliferation and differentiation is essential during organogenesis. In Drosophila, the photoreceptor, pigment, and support cells of the eye are specified in an orchestrated wave as the morphogenetic furrow passes across the eye imaginal disc. Cells anterior of the furrow are not yet differentiated and remain mitotically active, while most cells in the furrow arrest at G 1 and adopt specific ommatidial fates. We used microarray expression analysis to monitor changes in transcription at the furrow and identified genes whose expression correlates with either proliferation or fate specification. Some of these are members of the Polycomb and Trithorax families that encode epigenetic regulators. Osa is one; it associates with components of the Drosophila SWI/SNF chromatin-remodeling complex. Our studies of this Trithorax factor in eye development implicate Osa as a regulator of the cell cycle: Osa overexpression caused a small-eye phenotype, a reduced number of M-and S-phase cells in eye imaginal discs, and a delay in morphogenetic furrow progression. In addition, we present evidence that Osa interacts genetically and biochemically with CyclinE. Our results suggest a dual mechanism of Osa function in transcriptional regulation and cell cycle control.
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