Giampiero F. Trezzini scite author profile

Numerous Arabidopsis genes have been cloned that correspond to putative pathogen defense-related genes identified in parsley (Petroselinum crispum). Treatment of Arabidopsis cells with fungal elicitor leads to rapid accumulation of the respective mRNAs with time courses comparable to those observed for their counterparts in parsley. Evolutionary sequence conservation of many of these genes in several plant species suggests they code for important plant functions.

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Plant homeodomain protein involved in transcriptional regulation of a pathogen defense-related gene.

Korfhage

et al. 1994

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Transcription of the parsley pr2 gene, encoding pathogenesis-related protein 2 (PR2), is rapidly stimulated by fungal or bacterial elicitors. Previous work has revealed a 125-bp region within the pr2 promoter; this region encompasses ali important cis-regulatory elements required for fungal elicitor-mediated expression. We now report the identification of a functionally relevant ll-bp DNA motif (CTAATTGTTTA) contained within this region; it specifically binds to factors present in both parsley and Arabidopsis nucrear protein extracts. From both plant species, full-length cDNA clones were isolated that encode proteins with high affinity for this DNA motif. The proteins from both species contain stretches of 61 amino acids that are characteristic of homeodomain (HD) proteins. Binding studies and use of a polyclonal antiserum raised against a fusion polypeptide of glutathione S-transferase with the HD portion of the parsley protein indicated that the l l -b p DNA motif is a potential in vivo target site and that the HD protein is contained within the observed complex formed between the DNA motif and nuclear protein extracts. Transient expression studies using the authentic and a mutated target site suggested a functional role of the HD-DNA interaction in the regulation of the pr2 gene expression.

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BPF‐1, a pathogen‐induced DNA‐binding protein involved in the plant defense response

Silva¹,

Klein

Schmelzer

et al. 1993

The Plant Journal

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The mechanisms by which plants restrict the growth of pathogens include transient activation of numerous defense-related genes. Box P is a putative cis-acting element of a distinct group of such genes, including those encoding the enzyme phenylalanine ammonialyase (PAL). A DNA-binding activity to Box P was identified in nuclear extracts from cultured parsley cells and a cDNA encoding the protein BPF-1 (Box P-binding Factor) partially characterized. BPF-1 binds to this element with specificity similar to that of the binding activity in nuclear extracts. BPF-1 mRNA accumulates rapidly in elicitor-treated parsley cells and around fungal infection sites on parsley leaves. This accumulation is, at least partly, due to a rapid and transient increase in the transcription rate of BPF-1. Moreover, tight correlation between the relative amounts of BPF-1 and PAL mRNAs was observed in different organs of a parsley plant. These results are consistent with the hypothesis that BPF-1 is involved in disease resistance by modulating plant defense gene expression.

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Plant Homeodomain Protein Involved in Transcriptional Regulation of a Pathogen Defense-Related Gene

Korfhage¹,

Trezzini²,

Meier³

et al. 1994

The Plant Cell

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Transcription of the parsley pr2 gene, encoding pathogenesis-related protein 2 (PR2), is rapidly stimulated by fungal or bacterial elicitors. Previous work has revealed a 125-bp region within the pr2 promoter; this region encompasses all important cis-regulatory elements required for fungal elicitor-mediated expression. We now report the identification of a functionally relevant 11-bp DNA motif (CTAATTGTTTA) contained within this region; it specifically binds to factors present in both parsley and Arabidopsis nuclear protein extracts. From both plant species, full-length cDNA clones were isolated that encode proteins with high affinity fo this DNA motif. The proteins from both species contain stretches of 61 amino acids that are characteristic of homeodomain (HD) proteins. Binding studies and use of a polyclonal antiserum raised against a fusion polypeptide of glutathione S-transferase with the HD portion of the parsley protein indicated that the 11-bp DNA motif is a potential in vivo target site and that the HD protein is contained within the observed complex formed between the DNA motif and nuclear protein extracts. Transient expression studies using the authentic and a mutated target site suggested a functional role of the HD-DNA interaction in the regulation of the pr2 gene expression.

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