Frank A. Hoeberichts

Ethylene perception is required for the expression of tomato ripening-related genes and associated physiological changes even at advanced stages of ripening

Treatment of tomato fruit (Lycopersicon esculentum L. cv Prisca) with 1-methylcyclopropene (1-MCP), a potent inhibitor of ethylene action, delayed colour development, softening, and ethylene production in tomato fruit harvested at the mature green breaker, and orange stages. 1-MCP treatment also decreased the mRNA abundance of phytoene synthase 1 (PSY1), expansin 1 (EXP1), and 1-aminocyclopropane-1-carboxylic acid (ACC) oxidase 1 (ACO1), three ripening-related tomato genes, in mature green, breaker, orange, and red ripe fruit. These results demonstrate that the ripening process can be inhibited both on a physiological and molecular level, even at very advanced stages of ripening. The effects of 1-MCP on ripening lasted 5–7 days and could be prolonged by renewed exposure.

Chemical-induced apoptotic cell death in tomato cells: involvement of caspase-like proteases.

Abstract. A new system to study programmed cell death in plants is described. Tomato (Lycopersicon esculentum Mill.) suspension cells were induced to undergo programmed cell death by treatment with known inducers of apoptosis in mammalian cells. This chemical-induced cell death was accompanied by the characteristic features of apoptosis in animal cells, such as typical changes in nuclear morphology, the fragmentation of the nucleus and DNA fragmentation. In search of processes involved in plant apoptotic cell death, specific enzyme inhibitors were tested for cell-death-inhibiting activity. Our results showed that proteolysis plays a crucial role in apoptosis in plants. Furthermore, caspase-specific peptide inhibitors were found to be potent inhibitors of the chemical-induced cell death in tomato cells, indicating that, as in animal systems, caspase-like proteases are involved in the apoptotic cell death pathway in plants.

A tomato metacaspase gene is upregulated during programmed cell death in Botrytis cinerea -infected leaves

Programmed cell death (PCD) in plant cells is often accompanied by biochemical and morphological hallmarks similar to those of animal apoptosis. However, orthologs of animal caspases, cysteinyl aspartate-specific proteases that constitute the core component of animal apoptosis, have not yet been identified in plants. Recent studies have revealed the presence of a family of genes encoding proteins with distant homology to mammalian caspases, designated metacaspases, in the Arabidopsis thaliana genome. Here, we describe the isolation of LeMCA1, a type-II metacaspase cDNA clone from tomato (Lycopersicon esculentum Mill.). BLAST analysis demonstrated that the LeMCA1 gene is located in close vicinity of several genes that have been linked with PCD. Southern analysis indicated the existence of at least one more metacaspase in the tomato genome. LeMCA1 mRNA levels rapidly increased upon infection of tomato leaves with Botrytis cinerea, a fungal pathogen that induces cell death in several plant species. LeMCA1 was not upregulated during chemical-induced PCD in suspension-cultured tomato cells.

Gene expression during anthesis and senescence in Iris flowers.

We investigated changes in gene expression in Irishollandicaflowers by microarray technology. Flag tepals were sampled daily, from three days prior to flower opening to the onset of visible senescence symptoms. Gene expression profiles were compared with biochemical data including lipid and protein degradation and DNA coiling, and with morphological data. Plasmodesmata of mesophyll cells closed about two days before flower opening, while in the epidermis they closed concomitant with opening. Similarly, the onset of visible senescence in the epidermis cells occurred about two days later than in the mesophyll. About 1400 PCR-amplified clones, derived from a subtractive cDNA library enriched for tepal-specific genes, were spotted and about 240 clones, including 200 that were expressed most differentially, were sequenced. The expression patterns showed three main clusters. One exhibited high expression during tepal growth (cluster A). These genes were putatively associated with pigmentation, cell wall synthesis and metabolism of lipids and proteins. The second cluster (B) was highly expressed during flower opening. The third cluster (C) related to the final stages of senescence, with genes putatively involved in signal transduction, and the remobilization of phospholipids, proteins, and cell wall compounds. Throughout the sampling period, numerous plant defence genes were highly expressed. We identified an ion channel protein putatively involved in senescence, and some putative regulators of transcription and translation, including a MADS-domain factor.

Changes in gene expression during programmed cell death in tomato cell suspensions

To identify genes involved in plant programmed cell death (PCD), changes in gene expression during PCD in a model system of suspension-cultured tomato cells were studied. In this system, cell death is triggered by treatment with camptothecin, an inhibitor of topoisomerase I. Cell death was accompanied by internucleosomal DNA degradation, indicating that the cell death process shares similarities with apoptosis in animals. Tomato homologues of DAD1 and HSR203, two genes that have been implicated in PCD, were isolated. During camptothecin-induced PCD tomato DAD1 mRNA levels roughly halve, while tomato HSR203 mRNA levels increase 5-fold. A differential display approach was used to identify novel genes that show changes in expression levels during camptothecin-induced PCD. This resulted in isolation of two up-regulated (CTU1 and CTU2) and four down-regulated (CTD1, CTD2, CTD4, and CTD5) cDNA clones. CTU1 shows high homology to various gluthatione S-transferases, whereas CTU2 is as yet unidentified. CTD1 is highly similar to Aux/IAA early-auxin-responsive genes. CTD2 corresponds to the tomato RSI-1 gene, CTD4 is an unknown clone, and CTD5 shows limited homology with a proline-rich protein from maize. Addition of the calcium channel blocker lanthanum chloride prevented camptothecin-induced cell death. The effect of lanthanum chloride on camptothecin-induced gene expression was studied to discriminate between putative cell death genes and general stress genes. The possible role of the various predicted gene products in plant PCD is discussed.

Cloning and analysis of a defender against apoptotic cell death (DAD1) homologue from tomato

A cDNA clone homologous to the human defender against apoptotic cell death (DAD1) gene, which is believed to be a conserved inhibitor of programmed cell death, was isolated from tomato (Lycopersicon esculentum cv. Prisca). The 351 basepairs open reading frame predicted a 116 amino acid protein sequence (LeDAD1) that showed high homology to other DAD1 proteins. Northern analysis revealed that LeDAD1 was constitutively expressed during ripening of wildtype, rin, and Nr tomato fruit.

Cloning from tomato DAD1 and study of its expression during programmed cell death and fruit ripening

The dadl gene product is involved in suppression of programmed cell death during Caenorhabditis elegans embryogenesis. Homologues have been cloned from several animal and plant species. We isolated a dadl cDNA clone from tomato and found that the predicted gene product shows significant homology with various DAD1 proteins. Northern analysis showed that, during camptothecin-induced programmed cell death in tomato suspension cells, dadl mRNA levels did not show the expected decrease. During tomato fruit ripening, expression levels in pericarp tissue increased or decreased, depending on the tomato variety.