Mutations in which the onset of mitosis is uncoupled from the completion of DNA replication has recently been described. Characterization of these mutants led to the identification of Pim1/Spi1 in fission yeast and RCC1/Ran proteins in mammalian cells. Their Saccharomyces cerevisae homologues, the MTR1/CNR1 proteins, appear to be involved in controlling RNA metabolism and transport. Here the isolation and partial characterization of plant cDNA clones which encode proteins homologous to the mammalian/fission yeast/budding yeast Ran/Spi/CNR proteins are reported. Higher plants appear to contain more than one gene per haploid genome which codes for Ran proteins. These genes are expressed in different plant tissues, including root tips and stems, known to contain mitotically active cells. The tobacco Ran-like proteins, like their mammalian and yeast homologues, are soluble proteins which are found in the cytoplasm and in the nucleus. In addition, it has been shown that overexpression of the tobacco Nt-Ran-A1 cDNA suppressed the phenotype of the temperature-sensitive fission yeast pim1-46 mutant. These results suggest that the plant Ran genes can be functionally equivalent to the mammalian/fission yeast/budding yeast Ran/Spi/CNR genes and that they may play a role: (i) in maintaining a coordinated cell cycle; (ii) in controlling RNA metabolism and transport in higher plants; and/or (iii) in protein import into the nucleus.
SummaryUltraviolet-B light (UV-B) regulates the expression of genes in a wavelength-and fluence rate-dependent fashion. A signaling pathway consisting of CONSTITUTIVE PHOTOMORPHOGENESIS 1 (COP1) and UV RESISTANCE LOCUS 8 (UVR 8) mediates responsiveness to longer wavelength, low intensity UV-B lightactivating, for example, HY5 gene expression. By contrast, transcription of another group of genes, including ANAC13, modulated by shorter wavelength, higher intensity UV-B is controlled by a yet unknown and largely COP1-independent signaling cascade. Here we provide evidence by promoter deletion analysis, and characterization of genetic mutants displaying aberrant expression patterns, that two cis-regulatory elements, designated MRE ANAC13 and UVBox ANAC13 , are required for maximal UV-B induction of the ANAC13 gene in transgenic plants. These elements are located in the proximal 150-bp region of the ANAC13 promoter. They show no significant similarity to each other; the putative MRE ANAC13 (-AACCTT-) is closely related to MRE CHS (-AACCTA-) found in the CHALCONE SYNTHASE (CHS) gene, whereas UVBox ANAC13 (with core sequence CAAG) represents a novel cis-regulatory element. The novel UVBox ANAC13 sequence is significantly enriched in the promoter region of a subset of UV-B-induced genes with similar activation properties as ANAC13.In addition, we demonstrate that expression of a chimeric gene containing only the dimerized 12-mer containing UVBox ANAC13 fused to a minimal CaMV35S promoter/luciferase reporter is (i) efficiently induced by shorter wavelength, higher intensity UV-B, but (ii) does not respond either to longer wavelength UV-B and red light or (iii) to abscisic acid treatment and osmotic, salt, heat and cold stresses.
We have isolated two cDNAs encoding small GTP-binding proteins from leaf cDNA libraries. These cDNAs encode distinct proteins which show considerable homology to members of the ras superfamily. Np-ypt3, a 1044 bp long Nicotiana plumbaginifolia cDNA, encodes a 24.4 kDa protein which shows 65% amino acid sequence similarity to the Schizosaccharomyces pombe ypt3 protein. The N-ypt3 gene is differentially expressed in mature flowering plants. Expression of this gene is weak in leaves, higher in stems and roots, but highest in petals, stigmas and stamens. Nt-rab5, a 712 bp long Nicotiana tabacum SR1 cDNA, encodes a 21.9 kDa protein which displays 65% amino acid sequence similarity to mammalian rab5 proteins. The expression pattern of the Nt-rab5 gene is very similar to that of the Np-ypt3 gene. The Nt-rab5 gene is virtually not expressed in leaves, higher in stems and roots, and highest in flowers. Both the Nt-rab5 and Np-ypt3 proteins were expressed in Escherichia coli and shown to bind GTP.
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