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Publikationen - Molekulare Signalverarbeitung

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Publikation

Levy, M.; Rachmilevitch, S.; Abel, S.; Transient Agrobacterium-mediated gene expression in the Arabidopsis hydroponics root system for subcellular localization studies Plant Mol. Biol. Rep. 23, 179-184, (2005) DOI: 10.1007/BF02772708

To a great extent, the cellular compartmentalization and molecular interactions are indicative of the function of a protein. The development of simple and efficient tools for testing the subcellular location of proteins is indispensable to elucidate the function of genes in plants. In this report, we assessed the feasibility ofAgrobacterium-mediated transformation of hydroponically grown roots to follow intracellular targeting of proteins fused to green fluorescent protein (GFP). We developed a simple in planta assay for subcellular localization of proteins inArabidopsis roots via transient transformation and tested this method by expressing a GFP fusion of a known nuclear protein, IQD1. Visualization of transiently expressed GFP fusion proteins in roots by means of confocal microscopy is superior to the analysis of green tissues because the roots are virtually transparent and free of chlorophyll autofluorescence.
Publikation

Abel, S.; Nguyen, M. D.; Theologis, A.; The PS-IAA4/5-like Family of Early Auxin-inducible mRNAs in Arabidopsis thaliana J. Mol. Biol. 251, 533-549, (1995) DOI: 10.1006/jmbi.1995.0454

The plant hormone auxin transcriptionally activates early genes. We have isolated a 14-member family of DNA sequences complementary to indoleacetic acid (IAA)-inducible transcripts inArabidopsis thaliana. The corresponding genes, IAA1 and IAA14, are homologs of PS-1AA4/5 and PS-IAA6 from pea, AUX22 and AUX28 from soybean, ARG3 and ARG4from mungbean, and AtAux2-11 and AtAux2-27 from Arabidopsis. The members of the family are differentially expressed in mature Arabidopsis plants. Characterization of IAA gene expression in etiolated seedlings demonstrates specificity for auxin inducibility. The response of most family members to IAA is rapid (within 4 to 30 minutes) and insensitive to cyclohexamide. Cyclohexamide alone induces all the early genes. Auxin-induction of two late genes, IAA7 and IAA8, is inhibited by cyclohexamide, indicating requirement of protein synthesis for their activation. All IAA genes display a biphasic dose response that is optimal at 10 μM IAA. However, individual genes respond differentially between 10 nM and 5μM IAA. Expression of all genes is defective in the Arabidopsis auxin-resistant mutant lines axr1, axr2, and aux1.The encoded polypeptides share four conserved domains, and seven invariant residues in the intervening regions. The spaces vary considerably in length, rendering the calculated molecular mass of IAA proteins to range from 19 kDa to 36 kDa. Overall sequence identity between members of the family is highly variable (36 to 87%). Their most significant structural features are functional nuclear transport signals, and a putative βαα-fold whose modeled three dimensional structure appears to be compatible with the prokaryotic β-ribbon DNA recognition motif. The data suggest that auxin induces in a differential and hierarchical fashion a large family of early genes that encode a structurally diverse class of nuclear proteins. These proteins are proposed to mediate tissue-specific and cell-type restricted responses to the hormone during plant growth and development.
Publikation

Abel, S.; Theologis, A.; Transient transformation of Arabidopsis leaf protoplasts: a versatile experimental system to study gene expression Plant J. 5, 421-427, (1994) DOI: 10.1111/j.1365-313X.1994.00421.x

An improved protocol is reported to isolate and transiently transform mesophyll protoplasts of Arabidopsis thaliana. Transfected leaf protoplasts support high levels of expression of the bacterial reporter gene coding for β‐glucuronidase (GUS), under the control of the cauliflower mosaic virus (CaMV) 35S promoter. Transient expression of GUS activity was monitored spectrophotometrically and reached a maximum between 18 and 48 h after polyethylene glycol (PEG)‐mediated DNA uptake. Histochemical staining for GUS activity revealed reproducible transformation frequencies between 40 and 60%, based on the number of protoplasts survived. To demonstrate the applicability of the transient expression system, the subcellular localization of GUS proteins tagged with different nuclear polypeptides was studied in transfected mesophyll protoplasts, revealing nuclear compartmentalization of the chimeric GUS enzymes. Furthermore, Arabidopsis mesophyll protoplasts support auxin‐mediated induction of chloramphenicol acetyl‐transferase (CAT) activity when transfected with a transcriptional fusion between the CAT reporter gene and the early auxin‐inducible PS‐IAA4/5 promoter. Hence, the method allows in vivo analysis of promoter activity and subcellular localization of fusion proteins in a homologous transformation system.
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