Joachim Kurth

Cell-Autonomous Expression of Barley Mla1 Confers Race-Specific Resistance to the Powdery Mildew Fungus via a Rar1 -Independent Signaling Pathway

The barley Mla locus encodes 28 characterized resistance specificities to the biotrophic fungal pathogen barley powdery mildew. We describe a single-cell transient expression assay using entire cosmid DNAs to pinpoint Mla1 within the complex 240-kb Mla locus. The MLA1 cDNA encodes a 108-kD protein containing an N-terminal coiled-coil structure, a central nucleotide binding domain, and a C-terminal leucine-rich repeat region; it also contains a second short open reading frame at the 5′ end that has a possible regulatory function. Although most Mla-encoded resistance specificities require Rar1 for their function, we used the single-cell expression system to demonstrate that Mla1 triggers full resistance in the presence of the severely defective rar1-2 mutant allele. Wheat contains an ortholog of barley Mla, designated TaMla, that is tightly linked to (0.7 centimorgan) but distinct from a tested resistance specificity at the complex Pm3 locus to wheat powdery mildew. Thus, the most polymorphic powdery mildew resistance loci in barley and wheat may have evolved in parallel at two closely linked homeoloci. Barley Mla1 expressed in wheat using the single-cell transformation system failed to trigger a response to any of the wheat powdery mildew Avr genes tested, indicating that AvrMla1 is not genetically fixed in wheat mildew strains.

The Arabidopsis ppi1 Mutant Is Specifically Defective in the Expression, Chloroplast Import, and Accumulation of Photosynthetic Proteins

The import of nucleus-encoded proteins into chloroplasts is mediated by translocon complexes in the envelope membranes. A component of the translocon in the outer envelope membrane, Toc34, is encoded in Arabidopsis by two homologous genes, atTOC33 and atTOC34. Whereas atTOC34 displays relatively uniform expression throughout development, atTOC33 is strongly upregulated in rapidly growing, photosynthetic tissues. To understand the reason for the existence of these two related genes, we characterized the atTOC33 knockout mutant ppi1. Immunoblotting and proteomics revealed that components of the photosynthetic apparatus are deficient in ppi1 chloroplasts and that nonphotosynthetic chloroplast proteins are unchanged or enriched slightly. Furthermore, DNA array analysis of 3292 transcripts revealed that photosynthetic genes are moderately, but specifically, downregulated in ppi1. Proteome differences in ppi1 could be correlated with protein import rates: ppi1 chloroplasts imported the ribulose-1,5-bisphosphate carboxylase/oxygenase small subunit and 33-kD oxygen-evolving complex precursors at significantly reduced rates, but the import of a 50S ribosomal subunit precursor was largely unaffected. The ppi1 import defect occurred at the level of preprotein binding, which is consistent with a role for atToc33 during preprotein recognition. The data suggest that atToc33 is involved preferentially in the import of photosynthetic proteins and, by extension, that atToc34 is involved in the import of nonphotosynthetic chloroplast proteins.

Covariations in the nuclear chloroplast transcriptome reveal a regulatory master-switch

The evolution of the endosymbiotic progenitor into the chloroplast organelle was associated with the transfer of numerous chloroplast genes into the nucleus. Hence, inter‐organellar signalling, and the co‐ordinated expression of sets of nuclear genes, was set up to control the metabolic and developmental status of the chloroplast. Here, we show by the differential‐expression analysis of 3,292 genes, that most of the 35 environmental and genetic conditions tested, including plastid signalling mutations, elicit only three main classes of response from the nuclear chloroplast transcriptome. Two classes, probably involving GUN (genomes uncoupled)‐type plastid signalling, are characterized by alterations, in opposite directions, in the expression of largely overlapping sets of genes.

RFLP- and physical mapping of resistance gene homologues in rice (O. sativa) and Barley (H. vulgare)

Abstract The deduced peptide sequences of 25 gene fragments of NBS-LRR resistance (R) gene homologues from rice and barley and of characterized R genes were compared, revealing a string of six conserved motifs. Mapping of the R-gene candidates in rice showed linkage to genes conferring race-specific resistance to rice blast (Pi-k, Pi-f and Pi-1) and bacterial blight disease (Xa-1, Xa-3 and Xa-4), in barley to powdery mildew (Mla) and the rust fungus (Rpg1). In rice four mixed clusters were detected, each harboring at least two highly dissimilar NBS-LRR genes. A YAC-contig was established for one of these mixed clusters. YAC fragmentation experiments revealed the presence of at least five NBS-LRR genes within 200 kb in head-to-tail orientation.

Gene-sequence-tag expression analyses of 1,800 genes related to chloroplast functions

Abstract. Quantification of the expression levels of nuclear genes encoding plastid proteins under different genetic or environmental conditions can contribute to the genetic dissection of plastid functions. To facilitate such measurements, a set of 1,827 Arabidopsis thaliana genes coding for plastid proteins was PCR-amplified from genomic DNA and spotted on nylon membranes to generate an array of chloroplast-specific gene-sequence-tags (GSTs). The sensitivity and reliability of the experimental system was evaluated and a procedure was developed for detecting differential gene expression. The GST array was found to serve as a reliable monitor of changes in gene expression induced by environmental and genetic alteration of chloroplast functions. Based on comparisons of dark- versus light-grown seedlings, and wild-type versus prpl11-1 plants, lists of differentially expressed genes are provided which include 193/7 and 25/42 up/down-regulated genes, respectively. The cut-off values for differential expression were 2.5-times (up) and 0.40 (down). Additional up-regulated genes with relatively low expression ratios (from 1.5- to 2.5-times) or down-regulated with relatively high ratios (0.4–0.67) can be accessed at the website: http://www.mpiz-koeln.mpg.de/~richly/GST-array.html. A sample of genes analysed by quantitative reverse transcription PCR confirmed the expression profiles monitored by the GST array. Differential hybridisation experiments with the prpl11-1 mutant revealed the existence of regulatory networks sensing the protein state of the chloroplast and transmitting the signal to the nucleus.

Identification of photosynthetic mutants of Arabidopsis by automatic screening for altered effective quantum yield of photosystem 2

Quantification of chlorophyll (Chl) fluorescence is a versatile tool for analysing the photosynthetic performance of plants in a non-intrusive manner. A pulse-amplitude modulated fluorometer was combined with a CNC router for the automated measurement of the effective quantum yield of photosystem 2 (Φ2) of Arabidopsis thaliana plants. About 90 000 individual plants representing 7 500 lines derived from En-transposon and T-DNA mutagenised Arabidopsis populations were screened for mutants with altered Φ2. Forty-eight recessive Φ2 mutations were identified of which most exhibit also altered pigmentation and increased photosensitivity. For three Φ2 mutants the corresponding mutated genes were identified that code all for chloroplast-located proteins. Comparison of the Φ2 mutant screen with other screening methods based on the measurement of Chl fluorescence shows that the Φ2 mutants identified are different to mutants identified by high Chl fluorescence. Some Φ2 mutants, on the contrary, are common to mutants identified by screens based on non-photochemical quenching.

A high-resolution genetic map and a diagnostic RFLP marker for the Mlg resistance locus to powdery mildew in barley

Abstract The semi-dominantly acting Mlg resistance locus in barley confers race-specific resistance to the obligate biotrophic fungus Erysiphe graminis f.sp. hordei. A high-resolution genetic map was constructed at Mlg based on a cross between the near-isogenic barley lines Pallas BC5 Mlg and Pallas mlg. A total of 2000 F2 progeny were inspected by cleaved amplified polymorphic sequence (CAPS) analysis, defining a 4.47 cM interval encompassing the resistance locus. Pathogen challenge of the segregants with multiple powdery mildew isolates uncovered a novel resistance specificity in Pallas BC5Mlg. Probes from within 4.0 cM of Mlg were mapped in rice, revealing orthologues on five different rice chromosomes and suggesting multiple breaks of chromosomal collinearity in this region between the two grass species. The most tightly Mlg-linked RFLP marker, MWG032, was shown to reliably detect the presence of the resistance allele in a collection of 30 European barley cultivars.

Functional genomics of Arabidopsis photosynthesis

The study of photosynthesis in higher plants will benefit significantly from the sequencing of the entire genome of Arabidopsis thaliana and from the recent development of new genomic technologies. For large sets of genes, it is now possible to identify their functions and levels of expression, and the post-translational modifications and interactions of their products. This functional genomic approach to photosynthesis is summarised here by considering the application of knock-out mutant screens (forward genetics), the identification of mutant alleles of genes whose sequence is known (reverse genetics), the use of microarrays to detect gene expression at genome level, the separation of proteins by two-dimensional electrophoresis, and their identification by mass spectrometry and bioinformatics. This emerging, integrated approach to the elucidation of gene function is presented and its potential is discussed.