Dolors Ludevid scite author profile

Plastid-to-nucleus retrograde signals emitted by dysfunctional chloroplasts impact photomorphogenic development, but the molecular link between retrograde- and photosensory-receptor signalling has remained unclear. Here, we show that the phytochrome and retrograde signalling (RS) pathways converge antagonistically to regulate the expression of the nuclear-encoded transcription factor GLK1, a key regulator of a light-induced transcriptional network central to photomorphogenesis. GLK1 gene transcription is directly repressed by PHYTOCHROME-INTERACTING FACTOR (PIF)-class bHLH transcription factors in darkness, but light-activated phytochrome reverses this activity, thereby inducing expression. Conversely, we show that retrograde signals repress this induction by a mechanism independent of PIF mediation. Collectively, our data indicate that light at moderate levels acts through the plant's nuclear-localized sensory-photoreceptor system to induce appropriate photomorphogenic development, but at excessive levels, sensed through the separate plastid-localized RS system, acts to suppress such development, thus providing a mechanism for protection against photo-oxidative damage by minimizing the tissue exposure to deleterious radiation.

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The Expression Pattern of the Tonoplast Intrinsic Protein γ-TIP in Arabidopsis thaliana Is Correlated with Cell Enlargement

Ludevid¹,

Höfte²,

Himelblau³

et al. 1992

Plant Physiol.

253

147

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The vacuolar membrane (tonoplast) contains an abundant intrinsic protein with six membrane-spanning domains that is encoded by a small gene family. Different isoforms of tonoplast intrinsic protein (TIP) are expressed in different tissues or as a result of specific signals. Using promoter-,B-glucuronidase (GUS) fusions and in situ hybridization, we have examined the expression of y-TIP in Arabidopsis thaliana. GUS staining of plants transformed with promoter-GUS fusions showed that 'y-TIP gene expression is high in recently formed tissues of young roots. In the shoot, 'v-TIP gene expression was highest in the vascular bundles of stems and petioles, as well as in the stipules and in the receptacle of the flower. No GUS activity was detected in root or shoot meristems or in older tissues, suggesting temporal control of 'v-TIP gene expression associated with cell elongation and/or differentiation. In situ hybridization carried out with whole seedlings confirmed that in root tips, '-TIP mRNA was present only in the zone of cell elongation just behind the apical meristem. In seedling shoots, mRNA abundance was also found to be correlated with cell expansion. These results indicate that 'y-TIP may be expressed primarily at the time when the large central vacuoles are being formed during cell enlargement.The vacuolar membrane or tonoplast contains an intrinsic protein with six membrane-spanning domains that is encoded by a small gene family. Different members of this family of TIPs4 are expressed in different organs or as a result of specific signals. For example, a-TIP is specifically expressed in seeds (9, 10), 'y-TIP is expressed in vegetative tissues (7,22,23)

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Self-assembly of the amphipathic helix (VHLPPP)8. A mechanism for zein protein body formation11Edited by W. Baumeister

Kogan

Dalcol

Gorostiza

et al. 2001

Journal of Molecular Biology

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Two Structural Domains Mediate Two Sequential Events in g-Zein Targeting: Protein Endoplasmic Reticulum Retention and Protein Body Formation

Geli¹,

Torrent²,

Ludevid³

1994

The Plant Cell

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[gamma]-Zein is a maize storage protein synthesized by endosperm cells and stored together with [alpha]- and [beta]-zeins in specialized organelles called protein bodies. Previous studies have shown that in maize there is only one type of protein body and it is derived directly from the endoplasmic reticulum (ER). In this article, we describe the domains of [gamma]-zein involved in ER retention and the domains involved in protein body formation. To identify the signal responsible for [gamma]-zein retention in ER-derived protein bodies, DNAs encoding various deletion mutants of [gamma]-zein were constructed and introduced into Arabidopsis as a heterologous system. By using pulse-chase experiments and immunoelectron microscopy, we demonstrated that the deletion of a proline-rich domain at the N terminus of [gamma]-zein puts an end to its retention in the ER; this resulted in the secretion of the mutated protein. The amino acid sequence of [gamma]-zein necessary for ER retention is the repeat domain composed of eight units of the hexapeptide PPPVHL. In addition, we observed that only those [gamma]-zein mutants that contained both the proline-rich repeat domain and the C-terminal cysteine-rich domain were able to form ER-derived protein bodies. We suggest that the retention of [gamma]-zein in the ER could be a result of a protein-protein association or a transient interaction of the repeat domain with ER membranes.

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Dolors Ludevid

Phytochrome and retrograde signalling pathways converge to antagonistically regulate a light-induced transcriptional network

The Expression Pattern of the Tonoplast Intrinsic Protein γ-TIP in Arabidopsis thaliana Is Correlated with Cell Enlargement

Self-assembly of the amphipathic helix (VHLPPP)8. A mechanism for zein protein body formation11Edited by W. Baumeister

Two Structural Domains Mediate Two Sequential Events in g-Zein Targeting: Protein Endoplasmic Reticulum Retention and Protein Body Formation

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