Dataset Information

Role of root UV-B sensing in Arabidopsis early seedling development.

ABSTRACT: All sun-exposed organisms are affected by UV-B [(UVB) 280-320 nm], an integral part of sunlight. UVB can cause stresses or act as a developmental signal depending on its fluence levels. In plants, the mechanism by which high-fluence-rate UVB causes damages and activates DNA-repair systems has been extensively studied. However, little is known about how nondamaging low-fluence-rate UVB is perceived to regulate plant morphogenesis and development. Here, we report the identification of an Arabidopsis mutant, root UVB sensitive 1 (rus1), whose primary root is hypersensitive to very low-fluence-rate (VLF) UVB. Under standard growth-chamber fluorescent white light, rus1 displays stunted root growth and fails to form postembryonic leaves. Experiments with different monochromatic light sources showed that rus1 phenotypes can be rescued if the seedlings are allowed to grow in light conditions with minimum UVB. We determined that roots, not other organs, perceive the UVB signal. Genetic and molecular analyses confirmed that the root light-sensitive phenotypes are independent of all other known plant photoreceptors. Three rus1 alleles have been identified and characterized. A map-based approach was used to identify the RUS1 locus. RUS1 encodes a protein that contains DUF647 (domain of unknown function 647), a domain highly conserved in eukaryotes. Our results demonstrate a root VLF UVB-sensing mechanism that is involved in Arabidopsis early seedling morphogenesis and development.

SUBMITTER: Tong H

PROVIDER: S-EPMC2634920 | biostudies-literature | 2008 Dec

REPOSITORIES: biostudies-literature

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Role of root UV-B sensing in Arabidopsis early seedling development.

Tong Hongyun H Leasure Colin D CD Hou Xuewen X Yuen Gigi G Briggs Winslow W He Zheng-Hui ZH

Proceedings of the National Academy of Sciences of the United States of America 20081215 52

All sun-exposed organisms are affected by UV-B [(UVB) 280-320 nm], an integral part of sunlight. UVB can cause stresses or act as a developmental signal depending on its fluence levels. In plants, the mechanism by which high-fluence-rate UVB causes damages and activates DNA-repair systems has been extensively studied. However, little is known about how nondamaging low-fluence-rate UVB is perceived to regulate plant morphogenesis and development. Here, we report the identification of an Arabidops ...[more]

PMID: 19075229

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Project description:In response to environmental light signals, transcriptomic adjustment plays an important role in Arabidopsis seed germination and seedling development. G-box cis-element is commonly present in promoters of genes positively or negatively responding to the light signal. For the pursuit of additional transcriptional regulator modulating light-mediated transcriptome changes, we have identified AtbZIP16, a basic region/leucine zipper motif transcription factor, via G-box DNA affinity chromatography. We have confirmed that AtbZIP16 possesses G-box-specific binding activity. Analyses of atbzip16 mutants indicate that AtbZIP16 is a negative regulator in phyB-mediated inhibition of cell elongation, but a positive regulator in phytochrome-mediated seed germination process. Transcriptomic analysis supports that AtbZIP16 is primarily a transcriptional repressor regulating light-, GA- and ABA-responsive genes. Chromatin immunoprecipitation study revealed that AtbZIP16 could directly target RGL2, a DELLA gene, and indirectly repress the expression of PIL5 gene, which encodes a bHLH protein inhibiting seed germination in Arabidopsis. Our study indicated that, through repressing the expression of RGL2 and the antagonizing the expression of PIL5, AtbZIP16 functions to promote seed germination and hypocotyl elongation during early stages of Arabidopsis seedling development. In response to environmental light signals, transcriptomic adjustment plays an important role in Arabidopsis seed germination and seedling development. G-box cis-element is commonly present in promoters of genes positively or negatively responding to the light signal. For the pursuit of additional transcriptional regulator modulating light-mediated transcriptome changes, we have identified AtbZIP16, a basic region/leucine zipper motif transcription factor, via G-box DNA affinity chromatography. We have confirmed that AtbZIP16 possesses G-box-specific binding activity. Analyses of atbzip16 mutants indicate that AtbZIP16 is a negative regulator in phyB-mediated inhibition of cell elongation, but a positive regulator in phytochrome-mediated seed germination process. Transcriptomic analysis supports that AtbZIP16 is primarily a transcriptional repressor regulating light-, GA- and ABA-responsive genes. Chromatin immunoprecipitation study revealed that AtbZIP16 could directly target RGL2, a DELLA gene, and indirectly repress the expression of PIL5 gene, which encodes a bHLH protein inhibiting seed germination in Arabidopsis. Our study indicated that, through repressing the expression of RGL2 and the antagonizing the expression of PIL5, AtbZIP16 functions to promote seed germination and hypocotyl elongation during early stages of Arabidopsis seedling development.

Dataset Information

Role of root UV-B sensing in Arabidopsis early seedling development.

Publications

Role of root UV-B sensing in Arabidopsis early seedling development.

Similar Datasets

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