G. Gheysen

Suppression of beta-1,3-glucanase transgene expression in homozygous plants.

A chimeric construct containing the Nicotiana plumbaginifolia beta‐1,3‐glucanase gn1 gene was introduced into Nicotiana tabacum SR1 to produce high levels of the enzyme constitutively. We determined that the GN1 protein represents a basic beta‐1,3‐glucanase isoform which accumulates into the vacuoles of the transgenic plants. Analysis of the progeny of the transgenic plant with the highest levels of gn1 expression revealed an unexpected phenomenon of gene suppression. Plants hemizygous for the T‐DNA locus contained high levels of gn1 mRNA and exhibited a 14‐fold higher beta‐1,3‐glucanase activity than untransformed plants. However, the expression of gn1 was completely suppressed in the homozygous plants: no corresponding mRNA or protein could be detected. This suppression mechanism occurs at a post‐transcriptional level and is under developmental control. In addition, by generating haploid plants we found that this silencing phenomenon is not dependent on allelic interaction between T‐DNA copies present at the same locus of homologous chromosomes, but rather is correlated with the transgene dose in the plant genome. We postulate that high doses of GN1 protein relative to the level(s) of other still unknown plant products could trigger the cellular processes directed to suppress gn1 expression.

Induction Patterns of an Extensin Gene in Tobacco upon Nematode Infection.

When sedentary endoparasitic nematodes infect plants, they induce complex feeding sites within the root tissues of their host. To characterize cell wall changes induced within these structures at a molecular level, we studied the expression of an extensin gene (coding for a major structural cell wall protein) in nematode-infected tobacco roots. Extensin gene expression was observed to be induced very early upon infection. This induction was weak, transient, and probably due to wounding during penetration and migration of the tobacco cyst nematode Globodera tabacum ssp solanacea-rum. In contrast, high extensin gene expression was observed during the whole second larval stage (an ~2-week-long phase of establishment of the feeding site) of the root knot nematode Meloidogyne javanica. During later stages of this interaction, expression gradually decreased. Extensin gene expression was found in at least three different tissues of the gall. We propose that distinct mechanisms lead to induced expression in these different cell types. The significance of these results for the understanding of plant-nematode interactions as well as the function of structural cell wall proteins, such as extensin, is discussed.

A New Class of Ubiquitin Extension Proteins Secreted by the Dorsal Pharyngeal Gland in Plant Parasitic Cyst Nematodes

By performing cDNA AFLP on pre- and early parasitic juveniles, we identified genes encoding a novel type of ubiquitin extension proteins secreted by the dorsal pharyngeal gland in the cyst nematode Heterodera schachtii. The proteins consist of three domains, a signal peptide for secretion, a mono-ubiquitin domain, and a short C-terminal positively charged domain. A gfp-fusion of this protein is targeted to the nucleolus in tobacco BY-2 cells. We hypothesize that the C-terminal peptide might have a regulatory function during syncytium formation in plant roots.

DNA Flux Across Genetic Barriers: The Crown Gall Phenomenon

Crown gall tumors are neoplastic proliferations induced by the soil bacterium Agrobacterium tumefaciens on wounded dicotyledonous plants (for recent reviews, see Kahl and Schell, 1982; Caplan et al, 1983; Depicker et al, 1983; Zambryski et al 1983a). In nature, the infection is often located at or near the junction of the root and the stem, the crown of the plant. Since the turn of the century, plant pathologists have been interested in this malignant transformation not only because of its agricultural consequences, but also for the unusual observation that a bacterium induces plant neoplasia.

Primary structure of a hormonally regulated β-glucanase of Nicotiana plumbaginifolia

A cDNA clone for a hormonally regulated beta-glucanase from Nicotiana plumbaginifolia has been isolated by using an oligodeoxynucleotide probe, synthesized to match the previously determined N-terminal amino acid sequence. The cDNA has the complete sequence of the mature protein and contains at least part of a hydrophobic signal peptide. At the amino acid level, the beta-glucanase of N. plumbaginifolia is 73% homologous to a beta(1,3)-glucanase from tobacco and 52% homologous to a beta(1,3;1,4)-glucanase from barley. Southern-blot analysis clearly demonstrated that N. plumbaginifolia contains at least two related genes encoding beta-glucanase. The extent of the complete signal peptide of the cloned beta-glucanase was determined by sequencing part of the corresponding gene. Northern analysis showed that the expression of the beta-glucanase gene is influenced by auxins and cytokinins.

Identification of cytokinins produced by the plant parasitic nematodes Heterodera schachtii and Meloidogyne incognita

SUMMARY The presence of different types of cytokinins was analysed in exudates and lysates of stage-2 juveniles of Heterodera schachtii and Meloidogyne incognita and in mixed stages of Caenorhabditis elegans. For all species, cytokinins were detected in lysates and exudates in which benzyladenine and zeatin-type cytokinins were the most prominent forms. The production of cytokinins by Meloidogyne was much higher than by Heterodera, and the detected levels were in a range which interfered with the physiological activities of the host plant. The presence of 5-methoxy-N,N-dimethyltryptamine hydrogen oxalate did not affect hormone production by H. schachtii, whereas resorcinol slightly stimulated hormone production by M. incognita. The exuded cytokinins may play a role in feeding site induction, more particularly in cell cycle activation and in establishing the feeding site as a nutrient sink.

CLONING AND SEQUENCE-ANALYSIS OF TRUNCATED T-DNA INSERTS FROM NICOTIANA-TABACUM

Transgenic plants produced by Agrobacterium-mediated transformation usually have one or a few stable and intact T-DNA insertions. However, in a significant number of the transformants Southern blot analysis has revealed the occurrence of aberrant T-DNA insertions missing one or both ends. During the study of this phenomenon, we obtained KmR Nicotiana tabacum clones after cocultivation with an Agrobacterium strain containing a promoterless nptII gene located internally in the T-DNA. Expression of this nptII gene requires a break in the T-DNA region upstream from the nptII-coding sequence and insertion of the truncated T-DNA in a transcriptionally active plant DNA region. The most conspicuous result from Southern analyses on four such KmR plant clones is that they contain several T-DNAs truncated at other positions besides the upstream region of the nptII sequence. Four truncated T-DNA insertions have been cloned. Two insertions contain the nptII gene fused to plant expression signals and are missing the right part of the T-DNA. Another is missing the left T-DNA part and the last T-DNA is lacking both ends. Sequence analysis of the T-DNA::plant junctions has shown that the T-DNA breakpoints are randomly distributed and do not show obvious homologies to one another or to the border consensus sequence. S1-type mapping of the most strongly expressed plant genome::nptII fusion revealed a specific transcription start point and putative TATA and CAAT boxes in the upstream plant DNA region; the steady-state nptII mRNA in these plants is about 20 times more abundant than in transgenic Pnos-nptII plants.

An SXP/RAL-2 protein produced by the subventral pharyngeal glands in the plant parasitic root-knot nematode Meloidogyne incognita

Meloidogyne incognita is a major parasite of numerous plant families, including many crop species. Upon infection of the plant root, it induces several multinucleate giant cells by the injection of pharyngeal gland secretions into the root cells. In order to obtain a better understanding of the nematode-plant interaction, characterization of the pharyngeal gland secretions is a necessity. By differential display, a nematode gene was identified that encodes a new member of the SXP/RAL-2 protein family. The gene is specifically expressed in the subventral pharyngeal glands and the protein is most likely secreted.

An improved method for whole-mount in situ hybridization of Heterodera schachtii juveniles

Abstract. An optimized protocol is presented to visualize gene expression in the sedentary beet cyst nematode, Heterodera schachtii, by whole-mount in situ hybridization. Two different probes were used for genes with known expression pattern in other nematodes. Vacuum infiltration of the fixative significantly increased its efficiency and resulted in a nicely preserved morphology. Additional modifications were introduced to simplify and standardize the process.

Nematodes as vectors to introduce Agrobacterium into plant roots

Summary A fast plant promoter test was developed by means of a nematode to transfer Agrobacterium tumefaciens into plant roots. Two-week-old Arabidopsis thaliana (L.) Heynh. plants were transferred to infection medium. Meloidogyne incognita or Heterodera schachtii juveniles were mixed with the Agrobacterium strain that harboured the binary vector, and this mixture was used for plant inoculation. During migration of the nematode and establishment of the feeding site inside the roots, the T-DNA was delivered into the root cells. A few days later, the infected plants could be analysed for expression of the T-DNA reporter gene in and around the nematode feeding sites (NFS), without the need to go first through the whole transformation and regeneration procedure. Depending on the construct, expression of the beta-glucuronidase gene in the NFS or along the migration path of the nematode could be seen in the roots of Arabidopsis plants. Furthermore, stably transformed plants could be regenerated from the infected roots.