A plant gene up-regulated at rust infection sites

Expression of the fis1 gene from flax (Linum usitatissimum) is induced by a compatible rust (Melampsora lini) infection. Infection of transgenic plants containing a beta-glucuronidase (GUS) reporter gene under the control of the fis1 promoter showed that induction is highly localized to those leaf mesophyll cells within and immediately surrounding rust infection sites. The level of induction reflects the extent of fungal growth. In a strong resistance reaction, such as the hypersensitive fleck mediated by the L6 resistance gene, there is very little fungal growth and a microscopic level of GUS expression. Partially resistant flax leaves show levels of GUS expression that were intermediate to the level observed in the fully susceptible infection. Sequence and deletion analysis using both transient Agrobacterium tumefaciens expression and stable transformation assays have shown that the rust-inducible fis1 promoter is contained within a 580-bp fragment. Homologs of fis1 were identified in expressed sequence tag databases of a range of plant species including dicots, monocots, and a gymnosperm. Homologous genes isolated from maize (Zea mays; mis1), barley (Hordeum vulgare; bis1), wheat (Triticum aestivum; wis1), and Arabidopsis encode proteins that are highly similar (76%-82%) to the FIS1 protein. The Arabidopsis homologue has been reported to encode a delta1-pyrroline-5-carboxylate dehydrogenase that is involved in the catabolism of proline to glutamate. RNA-blot analysis showed that mis1 in maize and the bis1 homolog in barley are both up-regulated by a compatible infection with the corresponding species-specific rust. The rust-induced genes homologous to fis1 are present in many plants. The promoters of these genes have potential roles for the engineering of synthetic rust resistance genes by targeting transgene expression to the sites of rust infection.     

A rust-inducible gene from flax (fis1) is involved in proline catabolism

A gene fis1 from flax (Linum usitatissimum), which is induced in mesophyll cells at the site of rust (Melampsora lini) infection, is also expressed in vascular tissue, particularly in floral structures of healthy plants. This paper reports that the promoter controlling this expression is contained within 282 bp 5′ to the coding region and that fis1 gene induction is specifically by the rust pathogen and not by other fungal pathogens or by wounding. The fis1 gene has 73% homology with an Arabidopsis gene which encodes delta-1-pyrroline-5-carboxylate dehydrogenase (P5CDH) which is a part of the proline degradation pathway. Transgenic flax plants that either over-express fis1 or show reduced fis1 expression due to RNA-mediated gene silencing have an unaltered morphology. However, plants with reduced fis1 expression have markedly increased sensitivity to exogenous proline and show alteration in epidermal cell morphology, callose deposition and the production of hydrogen peroxide during proline-induced death. These lines, which show a biologically significant level of fis1 suppression, have an unaltered reaction to either virulent or avirulent rust infections, as do fis1 over-expression lines. These data indicate that the fis1 gene plays a role in proline metabolism and most likely encodes for a P5CDH enzyme. However, the precise role of fis1 and P5C catabolism in the development of rust disease remains unclear.     

Circadian and senescence-enhanced expression of a tobacco cysteine protease gene

A cDNA clone encoding a cysteine protease was isolated from a tobacco cDNA library, utilizing as a probe a PCR fragment obtained from degenerated primers based on the conserved sequences of plant cysteine protease genes. A putative protein encoded by the clone NTCP-23 had an amino acid sequence with significant similarities to those of plant senescence-associated cysteine proteases and mammalian cathepsin H. Northern blot analysis showed that NTCP-23 mRNA is expressed in all organs and the mRNA and protein expression is enhanced during natural senescence. We propose that NTCP-23 is responsible for amino acid remobilization especially in senescencing leaves. Furthermore, it was found that the mRNA expression follows a circadian rhythm and is reduced by continuous darkness, wounding and hypersensitive reaction (HR). NTCP-23 is the first cysteine protease whose mRNA expression has been shown to be temporarily reduced by wounding.     

Autoantigen 1 of the guinea pig sperm acrosome is the homologue of mouse Tpx-1 and human TPX1 and is a member of the cysteine-rich secretory protein (CRISP) family

We have cloned and sequenced cDNAs encoding autoantigen 1 (AA1), a testis-specific protein and the major autoantigen of the guinea pig sperm acrosome. The cDNA predicts a precursor protein of 244 amino acids including a 21 amino acid hydrophobic, secretory signal sequence. The mature polypeptide is predicted to have a molecular mass of 24,891 Daltons which agrees with the experimentally determined molecular weight of 25,000. Consistent with previous studies demonstrating that AA1 is not a glycoprotein, the predicted amino acid sequence contained no canonical sites for N-linked glycosylation. Comparison with other sequences showed that AA1 is the guinea pig homologue of the testis-specific protein Tpx-1 in mice and TPX1 in humans. AA1 also showed significant amino acid sequence homology with other cysteine-rich secretory proteins (CRISP's): rat and mouse acidic epididymal glycoproteins (AEG; also known as proteins D/E in rats) and helothermine, a toxin from the Mexican beaded lizard. In addition, AA1 had a lesser degree of homology with antigen 5 (vespid wasp venom), PR-1 (a plant pathogenesis related protein), and GliPR (a protein identified in human gliomas). Northern analysis of RNA from purified guinea pig spermatogenic cells showed that a 1.5 kb message was first detected in pachytene spermatocytes, was strongest in round spermatids, and was detected at a low level in condensing spermatids. Immunoblot analysis and metabolic labeling data of AA1 in spermatogenic cells showed that the protein was synthesized as early as the pachytene spermatocyte stage of spermatogenesis. Thus, the patterns of AA1 mRNA and protein expression during spermatogenesis are similar to the expression of other acrosomal mRNAs and proteins that are first detected meiotically. © 1996 Wiley-Liss, Inc.     

Dynamic reorganization of microtubules and microfilaments in flax cells during the resistance response to flax rust infection

The cytoskeleton in plant cells is a dynamic structure that can rapidly respond to extracellular stimuli. Alteration of the organization of microtubules and actin microfilaments was examined in mesophyll cells of flax, Linum usitatissimum L., during attempted infection by the flax rust fungus, Melampsora lini (Ehrenb.) Lev. Flax leaves that had been inoculated with either a compatible (yielding a susceptible reaction) or an incompatible (yielding a resistant reaction) strain of M. lini were embedded in butyl-methylmethacrylate resin; sections of this material were immunofluorescently labelled with anti-tubulin or anti-actin and examined using confocal laser scanning microscopy. In uninfected leaves, microtubules in the mesophyll cells formed a transverse array in the cell cortex. Microfilaments radiated through the cytoplasm from the nucleus. In an incompatible interaction, microtubules and microfilaments were extensively reorganized in mesophyll cells that were in contact with fungal infection hyphae or haustorial mother cells before penetration of the cell by the infection peg. After the initiation of haustorium development, microtubules disappeared from the infected cells, and growth of the haustoria ceased. In an incompatible interaction, hypersensitive cell death occurred in more than 70% of infected cells but occurred in less than 20% of cells in compatible interactions. After the infected cell had undergone hypersensitive cell death, the cytoskeleton in neighbouring cells became focused on the walls shared with the necrotic cell. In compatible interactions, reorganization of the cytoskeleton was either not observed at all or was observed much less frequently up to 48 h after inoculation.Abbreviations FITC fluorescein isothiocyanate - WGA wheatgerm agglutinin We thank Dr. G.J. Lawrence for providing valuable discussions and materials.     

Effect of Host Plant Resistance on Haustorium Formation in Cereal Rust Fungi

Haustoria of Puccinia triticina (wheat leaf rust fungus) and P. hordei (barley leaf rust fungus) were isolated from susceptible and partially resistant wheat lines, and susceptible, hypersensitive and partially resistant barley lines. Haustoria were counted and measured. The size of haustoria was similar in the partially resistant and susceptible genotypes but haustoria were smaller in the hypersensitive barley line L94+Pa7. The number of haustoria was reduced in both partially and hypersensitive lines when compared with susceptible ones. Therefore it seems that the reduction in the number of haustoria is a consequence of the resistance that can be attributable either to early abortion of infection units or reduced colony growth. The reduction of the number of haustoria was more pronounced in the adult plant stage.     

Arsenal of elevated defense proteins fails to protect tomato against Verticillium dahliae

Although the hypersensitive reaction in foliar plant diseases has been extensively described, little is clear regarding plant defense strategies in vascular wilt diseases affecting numerous economically important crops and trees. We have examined global genetic responses to Verticillium wilt in tomato (Lycopersicon esculentum Mill.) plants differing in Ve1 resistance alleles. Unexpectedly, mRNA analyses in the susceptible plant (Ve1-) based on the microarrays revealed a very heroic but unsuccessful systemic response involving many known plant defense genes. In contrast, the response is surprisingly low in plants expressing the Ve1+ R-gene and successfully resisting the pathogen. Similarly, whole-cell protein analyses, based on 2D gel electrophoresis and mass spectrometry, demonstrate large systemic increases in a variety of known plant defense proteins in the stems of susceptible plants but only modest changes in the resistant plant. Taken together, the results indicate that the large systemic increases in plant defense proteins do not protect the susceptible plant. Indeed, since a number of the highly elevated proteins are known to participate in the plant hypersensitive response as well as natural senescence, the results suggest that some or all of the disease symptoms, including ultimate plant death, actually may be the result of this exaggerated plant response.     

Recombination among genes at the L group in flax conferring resistance to rust

Summary Fourteen of the known genes conferring resistance to rust in flax occur in the L group, and recombinational analysis has been used to study their fine structure. Three important features were observed. (a) Similar to the findings of Shepherd and Mayo, only susceptible recombinants were detected among the testcross progeny of 11 of the 15 heterozygotes involving pairs of L genes. Some of these recombinants showed variation in the degree of their susceptibility and appeared to be unstable in nature. (b) A new class of recombinants exhibiting a modified type of resistance was recovered. They occurred rarely but consistently, with frequencies similar to that of susceptible recombinants. (c) Rare resistant plants occurred among the progeny of susceptible recombinants. In each case, the specificity of the resistant plant corresponded to only one of the parental types. The relative roles of seed contamination, mutation, recombination and the transposition of genetic elements are discussed to account for these features.     

Acetazolamide-insensitive carbonic anhydrase activities in liver and tonic skeletal muscle of adult male rats with streptozotocin-induced diabetes mellitus.

cDNA clones for rat serum amyloid P component (SAP) were isolated, and the derived amino acid sequence for pre-SAP was determined from the complete nucleotide sequence. Rat SAP is encoded by approximately 1 kb of mRNA, and the mature SAP protein is predicted to be 208 amino acids long. An increase in hepatic mRNA levels for rat SAP was found after administration of lipopolysaccharide, and SAP mRNA levels in livers of unstimulated male rats were lower than in hepatic RNA from female rats.     

Autoactive alleles of the flax L6 rust resistance gene induce non-race-specific rust resistance associated with the hypersensitive response

L6 is a nucleotide binding site-leucine rich repeat (NBS-LRR) gene that confers race-specific resistance in flax (Linum usitatissimum) to strains of flax rust (Melampsora lini) that carry avirulence alleles of the AvrL567 gene but not to rust strains that carry only the virulence allele. Several mutant and recombinant forms of L6 were made that altered either the methionine-histidine-aspartate (MHD) motif conserved in the NBS domain of resistance proteins or exchanged the short domain C-terminal to the LRR region that is highly variable among L allele products. In transgenic flax some of these alleles are autoactive; they cause a gene dosage-dependent dwarf phenotype and constitutive expression of genes that are markers for the plant defense response. Their effects and penetrance ranged from extreme to mild in their degree of plant stunting, survival, and reproduction. Dwarf plants were also resistant to flax rust strains virulent to wild-type L6 plants, and this nonspecific resistance was associated with a hypersensitive response (HR) at the site of rust infection. The strongest autoactive allele, expressed in Arabidopsis from an ethanol-inducible promoter, gave rise to plant death dependent on the enhanced disease susceptibility 1 (EDS1) gene, which indicates that the mutant flax (Linaceae) L6 gene can signal cell death through a defined disease-resistance pathway in a different plant family (Brassicaceae).