Phosphorylation mediates the nuclear targeting of the maize Rab17 protein

The maize abscisic acid-responsive Rab17 protein localizes to the nucleus and cytoplasm in maize cells. In-frame fusion of Rab17 to the reporter protein β-glucuronidase (GUS) directed GUS to the nucleus and cytoplasm in transgenic Arabidopsis thaliana and in transiently transformed onion cells. Analysis of chimeric constructs identified one region between amino acid positions 66–96, which was necessary for targeting GUS to the nucleus. This region contains a serine cluster followed by a putative consensus site for protein kinase CK2 phosphorylation, and a stretch of basic amino acids resembling the simian virus 40 large T antigen-type nuclear localization signal (NLS). Mutation of two basic amino acids in the putative NLS had a weak effect on nuclear targeting in the onion cell system and did not modify the percentage of nuclear fusion protein in the Arabidopsis cells. The mutation of three amino acids in the consensus site for CK2 recognition resulted in the absence of in vitro phosphorylated forms of Rab17 and in a strong decrease of GUS enzymatic activity in isolated nuclei of transgenic Arabidopsis. These results suggest that phosphorylation of Rab17 by protein kinase CK2 is the relevant step for its nuclear location, either by facilitating binding to specific proteins or as a direct part of the nuclear targeting apparatus.     

Nuclear localization signal(s) required for nuclear targeting of the maize regulatory protein Opaque-2.

The maize regulatory protein Opaque-2 (O2) localizes to the nucleus in both maize and tobacco cells. Here we show that in-frame carboxy- and amino-terminal fusions of O2 to reporter protein beta-glucuronidase (GUS) were sufficient to direct GUS to the nucleus in transgenic tobacco plants and in transiently transformed onion cells. Two independent regions of O2 containing 135 and 149 amino acids were identified that were able to redirect GUS to the nucleus in both systems. A quantitative biochemical analysis of GUS in nuclei isolated from transgenic tobacco plants revealed that the second region was more efficient than the first one. The precise location of nuclear localization signals (NLSs) was determined using an onion transformation system. The first NLS was located between residues 101 and 135 and had the structure of a simian virus 40 NLS. The second NLS was located in the basic, DNA binding domain (between residues 223 and 254) and had a bipartite structure. The presence of one of the O2 NLSs in the basic domain is in complete agreement with similar findings of NLSs in the basic domain of three other basic/leucine zipper proteins, suggesting that this domain may be bifunctional. The effect of amino- versus carboxy-terminal GUS fusions is discussed.     

Arabidopsis thaliana Atrab28: a nuclear targeted protein related to germination and toxic cation tolerance

The Arabidopsis gene Atrab28 has been shown to be expressed during late embryogenesis. The pattern of expression of Atrab28 mRNA and protein during embryo development is largely restricted to provascular tissues of mature embryos, and in contrast to the maize Rab28 homologue it cannot be induced by ABA and dehydration in vegetative tissues.Here, we have studied the subcellular location of Atrab28 protein and the effect of its over-expression in transgenic Arabidopsis plants. The Atrab28 protein was mainly detected in the nucleus and nucleolus of cells from mature embryos. In frame fusion of Atrab28 to the reporter green fluorescent protein (GFP) directed the GFP to the nucleus in transgenic Arabidopsis and in transiently transformed onion cells. Analysis of chimeric constructs identified an N-terminal region of 60 amino acids containing a five amino acid motif QPKRP that was necessary for targeting GFP to the nucleus. These results indicate that Atrab28 protein is targeted to the nuclear compartments by a new nuclear localization signal (NLS). Transgenic Arabidopsis plants, with gain of Atrab28 function, showed faster germination rates under either standard or salt and osmotic stress conditions. Moreover, improved cation toxicity tolerance was also observed not only during germination but also in seedlings. These results suggest a role of Atrab28 in the ion cell balance during late embryogenesis and germination.     

Semi-constitutive expression of an Arabidopsis thaliana α-tubulin gene

In Arabidopsis tissues, the pool of tubulin protein is provided by the expression of multiple -tubulin and -tubulin genes. Previous evidence suggested that the TUA2 -tubulin gene was expressed in all organs of mature plants. We now report a more detailed analysis of TUA2 expression during plant development. Chimeric genes containing TUA2 5-flanking DNA fused to the -glucuronidase (GUS) coding region were used to create transgenic Arabidopsis plants. Second-generation progeny of regenerated plants were analyzed by histochemical assay to localize GUS expression. GUS activity was seen throughout plant development and in nearly all tissues. The blue product of GUS activity accumulated to the highest levels in tissues with actively dividing and elongating cells. GUS activity was not detected in a few plant tissues, suggesting that, though widely expressed, the TUA2 promoter is not constitutively active.     

Plastid targeting of E. coli β-glucuronidase and ADP-glucose pyrophosphorylase in maize (Zea mays L.) cells

Summary Dicot and monocot chloroplast targeting peptides (CTPs) were evaluated for their effect on targeting, processing, and expression of two reporter proteins in maize cells. When tested transiently in maize leaf protoplasts, the maize ribulose bisphosphate carboxylase small subunit CTP required the inclusion of the amino terminus of mature small subunit protein to target -glucuronidase (GUS) to the plastid. To remove this amino terminal extension from GUS after import and processing, a repeat of the native processing site was inserted between the native mature protein and the reporter protein. This repeat processing site was used with less efficiency than the native site. Parallel constructs using the Arabidopsis thaliana small subunit and maize granule-bound starch synthase CTPs also localized GUS, but varied in repeat site use and GUS expression levels. Data from the CTP fusions with GUS were generally confirmed with fusions to an allosteric variant of E. coli ADP-glucose pyrophosphorylase. Plastid targeting of this enzyme was required for starch enhancement of transgenic BMS cells.Abbreviations BMS maize Black Mexican Sweet suspension culture cells - CTP chloroplast targeting peptide - glgC16 an allosteric variant of E. coli ADP-glucose pyrophosphorylase - GUS -glucuronidase - LUX luciferase - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - SSU small subunit of ribulose bisphosphate carboxylase     

Molecular and biochemical characterization of three aromatic polyketide synthase genes from Rubus idaeus

To play an essential role in C₄ photosynthesis, the maize C₄ phosphoenolpyruvate carboxylase gene (PPCZm1) acquired many new expression features, such as leaf specificity, mesophyll specificity, light inducibility and high activity, that distinguish the unique C₄ PPC from numerous non-C₄ PPC genes in maize. We present here the first investigation of the developmental, cell-specific, light and metabolic regulation of the homologous C₄ PPCZm1 promoter in stable transgenic maize plants. We demonstrate that the 1.7 kb of the 5-flanking region of the PPCZm1 gene is sufficient to direct the C₄-specific expression patterns of -glucuronidase (GUS) activity, as a reporter, in stable transformed maize plants. In light-grown shoots, GUS expression was strongest in all developing and mature mesophyll cells in the leaf, collar and sheath. GUS activity was also detected in mesophyll cells in the outer husks of ear shoots and in the outer glumes of staminate spikelets. We did not observe histological localization of GUS activity in light- or dark-grown callus, roots, silk, developing or mature kernels, the shoot apex, prop roots, or pollen. In addition, we used the stable expressing transformants to conduct and quantify physiological induction studies. Our results indicate that the expression of the C₄ PPCZm1-GUS fusion gene is mesophyll-specific and influenced by development, light, glucose, acetate and chloroplast biogenesis in transgenic maize plants. These studies suggest that the adoption of DNA regulatory elements for C₄-specific gene expression is a crucial step in C₄ gene evolution.     

<Emphasis Type="Italic">Arabidopsis</Emphasis> cyclin-dependent kinase inhibitors are nuclear-localized and show different localization patterns within the nucleoplasm

The Arabidopsis genome contains seven cyclin-dependent kinase (CDK) inhibitors (ICK for inhibitor/interactor with cyclin-dependent kinase) which share a small conserved C-terminal domain responsible for the CDK-inhibition activity by these proteins. Different ICK/KRPs have been shown to have unique expression patterns within tissues, organs and during the cell cycle. Previous studies have shown that overexpressing one of the ICK/KRPs inhibits CDK activity, cell division, and profoundly affects plant growth and development. In this study, we investigated the subcellular localization of the seven Arabidopsis ICK proteins and domains responsible for this localization. Using transgenic expression in Arabidopsis plants and transient expression in tobacco leaf cells, all ICK/KRPs fused to green fluorescent protein (GFP) were localized to the nucleus, suggesting that the nucleus is the cellular compartment for the plant CDK inhibitors to function. While ICK2/KRP2, ICK4/KRP6, and ICK5/KRP7 were localized to the nucleoplasm in a homogeneous manner, ICK1/KRP1, ICK3/KRP5, ICK6/KRP3, and ICK7/KRP4 showed a punctate pattern of localization. A small motif conserved amongst the latter group of ICK/KRPs is required to confer this subcellular pattern as deletion of this motif from ICK7/KRP4 resulted in a shift from a punctate to a homogeneous pattern of localization. While a single nuclear localization signal (NLS) is responsible for the nuclear localization of ICK2/KRP2, multiple mechanisms for nuclear localization are suggested to exist for the other six ICK/KRPs since deletion mutants lacking predicted NLS motifs and the conserved C-terminal domain are still localized in the nucleus.     

Histochemical analysis of root meristem activity in Arabidopsis thaliana using a cyclin:GUS (β-glucuronidase) marker line

We used a transgenic Arabidopsis line expressing a translational fusion between a mitotic cyclin and the reporter gene -glucuronidase (GUS) to investigate cell divisions in postembryonic root meristems. The fusion protein contains the cyclin destruction box (CDB) and this leads to a rapid degradation of the chimeric GUS-protein after mitosis. Hence, the staining pattern of the meristem marks dividing cells. We observed that upon germination the first cell divisions occur in epidermis cells at the junction with the hypocotyl. Moreover, the accelerated root growth on media supplemented with sucrose correlates with an increased number of dividing cells and an enlargement of the root meristematic zone. The conditional root expansion mutants pom pom1 and procuste1 (quill) suppress this sugar effect leading to a smaller meristematic zone. Simultaneous visualisation of the nucleus revealed that the CYCAT1:CDB:GUS expression is subcellularly localised around the nucleus. This particular staining starts at prophase and disappears after the completion of the new cell wall. In metaphase the staining invades the cytoplasm whereas in the telophase it concentrates again around the nucleus. This cell cycle-dependent distribution was used to characterise the two root specific cytokinesis mutants pleiade1 and hyade1. In both mutants, cells which fail to develop a complete cell wall during cytokinesis divide synchronously in further cell divisions leading to multinucleate cells. These experiments demonstrate the usefulness of the CYCAT1:CDB:GUS marker line for studying cell division of wild-type and mutants. Furthermore, this line can be used to analyse the influence of biotic and abiotic signals on the rate and spatial distribution of cell divisions.     

Expression pattern of diacylglycerol acyltransferase-1, an enzyme involved in triacylglycerol biosynthesis,in Arabidopsis thaliana

Triacylglycerol (TAG) is the major carbon storage reserve in oilseeds such as Arabidopsis. Acyl-CoA:diacylglycerol acyltransferase (DGAT) catalyses the final step of the TAG synthesis pathway. Although TAG is mainly accumulated during seed development, and DGAT has presumably the highest activity in developing seeds, we show here that TAG synthesis is also actively taking place during germination and seedling development in Arabidopsis. The expression pattern of the DGAT1 gene was studied in transgenic plants containing the reporter gene -glucuronidase (GUS) fused with DNA sequences flanking the DGAT1coding region. GUS activity was not only detected in developing seeds and pollen, which normally accumulate storage TAG, but also in germinating seeds and seedlings. Western blots showed that DGAT1 protein is present in several tissues, though is most abundant in developing seeds. In seedlings, DGAT1 is expressed in shoot and root apical regions, correlating with rapid cell division and growth. The expression of GUS in seedlings was consistent with the results of RNA gel blot analyses, precursor feeding and DGAT assay. In addition, DGAT1gene expression is up-regulated by glucose and associated with glucose-induced changes in seedling development.     

Isolation of an Arabidopsis homologue of the maize homeobox Knotted-1 gene

The shoot apical meristem (SAM) is responsible for forming most of the above-ground portion of the plant. We sought to isolate regulatory genes expressed in the Arabidopsis SMA by screening a Brassica oleracea (cauliflower) meristem cDNA library with the homeobox fragment from the maize Knotted-1 (Kn1) gene. We isolated and characterized the corresponding clone, Merihb1, from Arabidopsis. Analysis shows that the predicted MERIHB1 protein exhibits strong homology to KN1 and RS1 from maize, SBH1 from soybean, and KNAT1 and KNAT2 from Arabidopsis. Merihb1 is highly expressed in mRNA from cauliflower meristems and also accumulates in stem and flower mRNA. Based on the similarity of the Merihb1 and Kn1 sequences, expression patterns, and in situ hybridizations, we suggest that Merihb1 represents an Arabidopsis homologue of the maize Kn1 gene.     

Transient expression of gus gene in intact seed embryos of Indica rice after electroporation-mediated gene delivery

Summary Two-day-old germinating intact seed embryos of Oryza sativa variety Basmati 370 were electroporated with a view to examine suitability of this system for gene delivery. The experiments were done with a plasmid having gus gene under the control of CaMV 35S promoter. Spectrofluorophotometric GUS assay revealed high activity of the introduced gene when embryos were given three electrical pulses at 1600 V cm^-1 and 100 F capacitance with a pulse length of 75 ms. Additionally, histochemical localization of GUS activity in seedlings and various organs such as leaves, coleoptiles and roots was also done. Expression of GUS activity was studied up to 15 days and found to be organ-specific, thereby showing that embryos can indeed serve as efficient recipient system. Use of cycloheximide revealed that GUS activity appears as a result of early protein synthesis after electroporation and is substantially stable in vivo.     

Characterization,subcellular localization and nuclear targeting of casein kinase 2 from Zea mays

We have isolated and characterized the genomic clone of maize casein kinase 2 (CK2) subunit using the previously described CK2-1 cDNA clone as a probe. The genomic clone is 7.5 kb long and contains 10 exons, separated by 9 introns of different size, two larger than 1.5 kb and the others around 100–150 bp. The sequence of the exons is 100% homologous to the sequence of the CK2-1 cDNA. Southern hybridization of total genomic DNA from maize embryos with CK2 cDNA indicated that the CK2-1 gene is part of a multigenic family. We also isolated a new embryo cDNA clone coding for an CK2-2 subunit. We studied the regulation of the enzyme in embryos at the mRNA level, at the protein level and by activity testing. By using immunocytochemistry the CK2 protein was localized in several types of cells of mature embryos. Particularly strong signals were visible in the cytoplasm of epidermis and meristematic cells. Decoration of nuclei of root cortex and scutellum cells was also observed suggesting that CK2 can shift from the cytoplasm into nuclei in specific cell types. We examined whether CK2 contained specific protein domains which actively target the protein to the nucleus by using in-frame fusions of the maize CK2 subunit to the reporter gene encoding -glucuronidase (GUS) which were assayed in transiently transformed onion epidermal cells. Analysis of chimeric constructs identified one region containing a nuclear localization signal (NLS) that is highly conserved in other CK2 proteins.     

Cloning vectors for the expression of green fluorescent protein fusion proteins in transgenic plants

A series of versatile cloning vectors has been constructed that facilitate the expression of protein fusions to the Aequorea victoria green fluorescent protein (GFP) in plant cells. Amino-terminal- and carboxy-terminal protein fusions have been created and visualized by epifluorescence microscopy, both in transgenic Arabidopsis thaliana and after transient expression in onion epidermal cells. Using tandem dimers and other protein fusions to GFP, we found that the previously described localization of wild-type GFP to the cell nucleus is most likely due to diffusion of GFP across the nuclear envelope rather than to a cryptic nuclear localization signal. A fluorescence-based, quantitative assay for nuclear localization signals is described. In addition, we have employed the previously characterized mutants GFP–S65T and GFP–Y66H in order to allow for the expression of red-shifted and blue fluorescent proteins, respectively, which are suitable for double-labeling studies. Expression of GFP-fusions was controlled by a cauliflower mosaic virus 35S promoter. Using the Arabidopsis COP1 protein as a model, we confirmed a close similarity in the subcellular localization of native COP1 and the GFP-tagged COP1 protein. We demonstrated that COP1 was localized to discrete subnuclear particles and further confirmed that fusion to GFP did not compromise the activity of the wild-type COP1 protein.     

Molecular characterization of nucleus-localized RNA-binding proteins from higher plants

We report the isolation and characterization of genes from the higher plants Arabidopsis, spinach and tobacco which code for nucleus-localized RNA-binding proteins. Common features of these polypeptides are glycine/arginine-rich regions with several RGG repeats at their N- and C-termini, which are sufficient for RNA binding in northwestern assays. All polypeptides analysed contain two basic bipartite nuclear localization signals and translational fusions harbouring these regions with the -glucuronidase gene direct the fusion proteins into the nucleus. Nuclear localization was confirmed by cellular fractionation with a polyclonal antiserum raised against the over-expressed tobacco protein NtRGG1p. Two or three copies of related RGG genes appear to be present in the analysed organisms and the expression of some of them is regulated: a tobacco gene is light-regulated and a spinach gene is preferentially expressed in roots. Possible biological functions of this class of RNA-binding proteins as well as structure/function relationships related to the modular structure are discussed.     

Differential regulation of two ABA-inducible genes from Craterostigma plantagineum in transgenic Arabidopsis plants

In Craterostigma plantagineum the CDeT-6-19 and CDeT-27-45 genes are expressed following desiccation and/or ABA treatment. Their promoters were fused to the -glucuronidase reporter gene (GUS) and tested in transgenic Arabidopsis. GUS activity was measured in mature Arabidopsis seeds, and the responsiveness to ABA in vegetative tissue was found to be limited to the early developmental stages. When transgenic plants were crossed with plants over-expressing the ABI3 gene, it was observed that ABI3 is not required for ABA induction of the CDeT-6-19 promoter, whereas it is crucial for expression of the CDeT-27-45 promoter.     

Expression analysis of four<Emphasis Type="Italic"> Pinus radiata</Emphasis> male cone promoters in the heterologous host<Emphasis Type="Italic"> Arabidopsis</Emphasis>

Four male cone-specific promoters were isolated from the genome of Pinus radiata D. Don, fused to the -glucuronidase (GUS) reporter gene and analysed in the heterologous host Arabidopsis thaliana (L.) Heynh. The temporal and spatial activities of the promoters PrCHS1, PrLTP2, PrMC2 and PrMALE1 during seven anther developmental stages are described in detail. The two promoters PrMC2 and PrMALE1 confer an identical GUS expression pattern on Arabidopsis anthers. DNA sequence analysis of the PrMC2 and PrMALE1 promoters revealed an 88% sequence identity over 276 bp and divergence further upstream (<40% sequence identity). GUS expression driven by a 276-bp PrMALE1 promoter fragment showed the same pattern in Arabidopsis anthers as observed for the full-length PrMALE1 promoter. Within the 276-bp promoter fragment a region of high homology to a previously described 16-bp anther-box was identified. In gain-of-function experiments the putative PrMALE1 anther-box was fused upstream of a 90-bp CaMV 35S minimal promoter, as a single copy in the sense direction and as an inverted repeat. No GUS expression was conferred to Arabidopsis anthers by either of these two constructs. In a loss-of-function experiment a 226-bp PrMALE1 deletion construct, which did not contain the putative PrMALE1 anther-box, still maintained the originally observed PrMALE1 GUS expression pattern. Hence, gain-of-function as well as loss-of-function experiments consistently showed that the putative anther-box of the PrMALE1 promoter is non-functional in the Arabidopsis genetic background. For the analysis of the four full-length pine promoters PrCHS1, PrLTP2, PrMC2 and PrMALE1, transformation vectors based on pCAMBIA2200 and pCAMBIA1302 were used. It will also be demonstrated in this article that sequences within the T-DNA borders of these vectors caused a characteristic histological background expression in Arabidopsis, with staining observed in vascular tissue of leaves, sepals, roots, filaments of stamens and in stems and pistils.Abbreviation GUS -glucuronidaseGenBank accession numbers for the analysed promoters: AF 337656 (PrCHS1), AF 337655 (PrLTP2), AF 337657 (PrMC2) and AF 337658 (PrMALE1).