Wiebke Zschiesche scite author profile

HIPP26 from Arabidopsis thaliana belongs to a novel class of plant proteins, characterized by a heavy metal associated domain and an additional isoprenylation motif. It is induced during cold, salt and drought stress. The nuclear localization of HIPP26, predicted by a NLS motif, could be confirmed in onion epidermal cells overexpressing GFP-HIPP26. Experiments with modified HIPP26 indicate that the isoprenylation plays a role in the spatial distribution in the nucleus. Using promoter-GUS constructs, a tissue specific expression pattern of HIPP26 could be shown, with high expression in the vascular tissue. By a yeast-two-hybrid approach a strong interaction of HIPP26 with the zinc finger homeodomain transcription factor ATHB29, which is known to play a role in dehydration stress response could be detected. This was confirmed by GST pull-down assays. When using a modified HIPP26 lacking the two central cysteines of the heavy metal associated domain, ATHB29 was not bound in the GST pull-down assay, indicating that this structure is necessary for the interaction. Further yeast-two-hybrid analyses testing interaction of different members of the HIPP family with related zinc finger transcription factors revealed a specific interaction of ATHB29 with several HIPP proteins. A functional relationship between HIPP26 and ATHB29 is also indicated by experiments with mutants of HIPP26 showing altered expression levels of such genes known to be regulated by ATHB29.

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Nuclear targeted AtS40 modulates senescence associated gene expression in Arabidopsis thaliana during natural development and in darkness

Fischer-Kilbienski¹,

Miao²,

Roitsch

et al. 2010

Plant Mol Biol

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The Arabidopsis thaliana AtS40-3 gene belongs to a group of genes sharing the conserved DUF548 sequence motif with up to now unknown function. One member of this group, the barley HvS40, was shown before to play a role in regulation of leaf senescence. Similar as the barley gene, AtS40-3 is induced during senescence and is also regulated in response to dark treatment, ABA, salicylic acid and pathogen attack. By localization of the GUS fusion protein, the AtS40-3 gene was shown to encode a nucleus targeted protein. The s40-3a mutant with a T-DNA insertion in the promoter region of the gene was observed to have a staygreen phenotype. By quantitative real-time PCR analyses expression of the AtS40-3 gene in this mutant was observed to be constitutive and not induced during senescence. This coincided with WRKY53 gene expression in nonsenescent leaves and lowered expression levels of WRKY53 and SAG12 at later stages of development. While in the wildtype expression of AtS40-3 was activated by darkness, in the s40-3a mutant the expression of AtS40-3 stayed at a low level. This coincided with lower expression of the SEN1 and SAG12 genes. In another promoter mutant with a T-DNA insertion further upstream of the coding sequence the levels of AtS40-3 and SAG12 transcripts increased in parallel both in a natural light-dark regime and in darkness. The data on gene expression in promoter T-DNA insertion mutants of the s40-3 gene indicate that AtS40 regulates senescence either by modulation of WRKY53 or by activation of SAG12 independent of WRKY53.

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The zinc‐binding nuclear protein HIPP3 acts as an upstream regulator of the salicylate‐dependent plant immunity pathway and of flowering time in Arabidopsis thaliana

et al. 2015

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SummaryBiotic and abiotic stress responses of plants are linked to developmental programs. Proteins involved in different signaling pathways are the molecular basis of this concerted interplay. In our study, we show that Arabidopsis thaliana HEAVY METAL-ASSOCIATED ISOPRENYLAT-ED PLANT PROTEIN3 (HIPP3; At5g60800) acts as an upstream regulator of stress-and development-related regulatory networks.Localization, metal-binding and stress-responsive gene expression of HIPP3 were analyzed via microscopy, protein and inductively coupled plasma (ICP)-MS analyses and quantitative real-time PCR. In addition, transcriptome and phenotype analyses of plants overexpressing HIPP3 were used to unravel its function.Our data show that HIPP3 is a nuclear, zinc-binding protein. It is repressed during drought stress and abscisic acid (ABA) treatment and, similar to other pathogen-related genes, is induced after infection with Pseudomonas syringae pv. tomato. HIPP3 overexpression affects the regulation of > 400 genes. Strikingly, most of these genes are involved in pathogen response, especially in the salicylate pathway. In addition, many genes of abiotic stress responses and seed and flower development are affected by HIPP3 overexpression. Plants overexpressing HIPP3 show delayed flowering.We conclude that HIPP3 acts via its bound zinc as an upstream regulator of the salicylatedependent pathway of pathogen response and is also involved in abiotic stress responses and seed and flower development.

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Large scale analysis of transcripts abundance in barley subjected to several single and combined abiotic stress conditions

et al. 2004

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Isolation of a novel barley cDNA encoding a nuclear protein involved in stress response and leaf senescence

Barth

Zschiesche

Siersleben

et al. 2004

Physiologia Plantarum

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In order to isolate genes involved in the early acclimation of winter barley (Hordeum vulgare L. cv. Trixi) to a combined cold and light stress of 2 degrees C and 600 micromol m(-2) s(-1) restriction fragment differential display-polymerase chain reaction was performed. Impact of the cold-treatment on the leaves was characterized by measuring chlorophyll content and photosystem II efficiency. By this approach several cDNAs of genes that quickly and transiently up-regulated during early stages of the stress were identified. One of these genes (HvFP1) includes sequence motifs representing a heavy metal associated domain (HMA), nuclear localization signals (NLS) and a farnesylation motif. This gene is also induced at drought stress, during leaf senescence and after exposure to abscisic acid. Analysis of its spatial expression patterns in barley plants either grown at 21 or 2 degrees C showed that in contrast to the situation in leaves transcript level of this gene is high not only in cold-treated plants but also in controls kept at 21 degrees C in plant compartments enriched in meristematic tissues. The nuclear localization of the protein was confirmed by confocal laser scanning microscopy of epidermal onion cells after particle bombardment with chimeric HVFP1-GFP constructs. Using a construct with a modified farnesylation motif yielded a different pattern of nuclear distribution of the chimeric protein.

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