Rodrigo Lois scite author profile

We demonstrate that phenylalanine ammonia‐lyase (PAL) in parsley (Petroselinum crispum) is encoded by a small family of at least four genes. The levels of mRNA from three identified PAL genes increase considerably upon treatment of cultured parsley cells with UV light or fungal elicitor and upon wounding of parsley leaves or roots. In cultured cells these changes were shown to involve transcriptional activation. We present the first primary structure of a plant PAL gene (parsley PAL‐1) and the deduced amino acid sequence of the enzyme. Inducible in vivo footprints in the PAL‐1 promoter define two nucleotide sequences, within the motifs CTCCAACAAACCCCTTC and ATTCTCACCTACCA, involved in the responses to both UV irradiation and elicitor application. These motifs are conserved at similar positions in several elicitor or light‐responsive genes from different species. In two cases they are found within short regions known to confer elicitor or UV‐light inducibility. The conserved motifs in the parsley 4‐coumarate:CoA ligase gene, which is coordinately regulated with PAL, also display UV‐light inducible in vivo footprints. Taken together, our findings suggest a general role of these putative cis‐acting elements in the responses of plants to such stresses.

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An Arabidopsis Mutant Tolerant to Lethal Ultraviolet-B Levels Shows Constitutively Elevated Accumulation of Flavonoids and Other Phenolics

Bieza

Lois

2001

333

211

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The isolation and characterization of mutants hypersensitive to ultraviolet (UV) radiation has been a powerful tool to learn about the mechanisms that protect plants against UV-induced damage. To increase our understanding of the various mechanisms of defense against UVB radiation, we searched for mutations that would increase the level of tolerance of Arabidopsis plants to UV radiation. We describe a single gene dominant mutation (uvt1) that leads to a remarkable tolerance to UVB radiation conditions that would kill wild-type plants. Pigment analyses show a constitutive increase in accumulation of UV-absorbing compounds in uvt1 that increases the capacity of the leaves to block UVB radiation and therefore is likely to be responsible for the elevated resistance of this mutant to UVB radiation. These increases in absorption in the UV region are due, at least in part, to increases in flavonoid and sinapate accumulation. Expression of chalcone synthase (CHS) mRNA was shown to be constitutively elevated in uvt1 plants, suggesting that the increases in absorption may be a consequence of changes in gene expression. Expression of CHS in uvt1 was shown to be still inducible by UV, indicating that the uvt1 lesion may not affect the UV-mediated regulation of CHS gene expression. Our data support an important role for UV screens in the overall protection of plants to UVB radiation. The uvt1 mutant could prove to be an important tool to elucidate further the exact role of UV-absorbing pigments in UV protection as well as the relative contribution of other mechanisms to the overall tolerance of plants to UV radiation.

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Accumulation of UV-absorbing flavonoids induced by UV-B radiation in Arabidopsis thaliana L.

Lois

1994

Planta

179

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Severe sensitivity to ultraviolet radiation in an Arabidopsis mutant deficient in flavonoid accumulation

Lois

Buchanan

1994

Planta

157

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Transcriptional repression of light-induced flavonoid synthesis by elicitor treatment of cultured parsley cells

Lozoya¹,

Block²,

Lois³

et al. 1991

Plant J

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Rodrigo Lois

A phenylalanine ammonia-lyase gene from parsley: structure, regulation and identification of elicitor and light responsive cis-acting elements.

An Arabidopsis Mutant Tolerant to Lethal Ultraviolet-B Levels Shows Constitutively Elevated Accumulation of Flavonoids and Other Phenolics

Accumulation of UV-absorbing flavonoids induced by UV-B radiation in Arabidopsis thaliana L.

Severe sensitivity to ultraviolet radiation in an Arabidopsis mutant deficient in flavonoid accumulation

Transcriptional repression of light-induced flavonoid synthesis by elicitor treatment of cultured parsley cells

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