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1.
BMC Plant Biol ; 10: 112, 2010 Jun 16.
Article in English | MEDLINE | ID: mdl-20565708

ABSTRACT

BACKGROUND: Understanding of the genetic architecture of plant UV-B responses allows extensive targeted testing of candidate genes or regions, along with combinations of those genes, for placement in metabolic or signal transduction pathways. RESULTS: Composite interval mapping and single-marker analysis methods were used to identify significant loci for cotyledon opening under UV-B in four sets of recombinant inbred lines. In addition, loci important for canalization (stability) of cotyledon opening were detected in two mapping populations. One candidate locus contained the gene HY5. Mutant analysis demonstrated that HY5 was required for UV-B-specific cotyledon opening. CONCLUSIONS: Structured mapping populations provide key information on the degree of complexity in the genetic control of UV-B-induced cotyledon opening in Arabidopsis. The loci identified using quantitative trait analysis methods are useful for follow-up testing of candidate genes.


Subject(s)
Arabidopsis/genetics , Cotyledon/radiation effects , Quantitative Trait Loci , Ultraviolet Rays , Arabidopsis/radiation effects , Arabidopsis Proteins/genetics , Basic-Leucine Zipper Transcription Factors/genetics , Chromosome Mapping , Chromosomes, Plant , Cotyledon/genetics , Cotyledon/growth & development , Epistasis, Genetic , Genetic Markers , Nuclear Proteins/genetics
2.
Plant Physiol ; 146(1): 108-15, 2008 Jan.
Article in English | MEDLINE | ID: mdl-18024556

ABSTRACT

Light promotes the expression of PHYTOCHROME KINASE SUBSTRATE1 (PKS1) in the root of Arabidopsis thaliana, but the function of PKS1 in this organ is unknown. Unilateral blue light induced a negative root phototropic response mediated by phototropin 1 in wild-type seedlings. This response was absent in pks1 mutants. In the wild type, unilateral blue light enhanced PKS1 expression in the subapical region of the root several hours before bending was detectable. The negative phototropism and the enhanced PKS1 expression in response to blue light required phytochrome A (phyA). In addition, the pks1 mutation enhanced the root gravitropic response when vertically oriented seedlings were placed horizontally. The negative regulation of gravitropism by PKS1 occurred even in dark-grown seedlings and did not require phyA. Blue light also failed to induce negative phototropism in pks1 under reduced gravitational stimulation, indicating that the effect of pks1 on phototropism is not simply the consequence of the counteracting effect of enhanced gravitropism. We propose a model where the background level of PKS1 reduces gravitropism. After a phyA-dependent increase in its expression, PKS1 positively affects root phototropism and both effects contribute to negative curvature in response to unilateral blue light.


Subject(s)
Arabidopsis Proteins/genetics , Arabidopsis Proteins/metabolism , Arabidopsis/genetics , Arabidopsis/metabolism , Intracellular Signaling Peptides and Proteins/genetics , Intracellular Signaling Peptides and Proteins/metabolism , Phosphoproteins/genetics , Phosphoproteins/metabolism , Plant Roots/growth & development , Plant Roots/metabolism , Arabidopsis/growth & development , Color , Darkness , Gene Expression Regulation, Plant/physiology , Gravitropism , Light , Membrane Proteins , Phototropism , Plant Roots/genetics
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