Wrky proteiner: signalering och reglering av uttryck under abiotiska

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Expression of ABI5 is strongly induced by exogenous ABA (Lopez‐Molina et al., 2001). ABI5 in the hy5 mutant background restored its ABA sensitivity and overexpression of ABI5 in the wild-type background-enhanced light response. These results indicate that HY5 inte-gratesbothABAandlightsignaltransductionpathwayspartially through direct activation of ABI5. Results HY5 Mediates ABA Response in Roots and Is Required for Osmotic The bZIP transcription factor ABI5 is shown to confer an enhanced response to exogenous abscisic acid during germination, seedling establishment and subsequent vegetative growth of plants. ABI5 is necessary, but not sufficient, to maintain germinated embryos in a quiescent state, abscisic acid also being required for maintaining the quiescent state. In the abi5‐7 mutant, ABA hypersensitivity caused by PYL11 and PYL12 overexpression was totally or partially blocked. By contrast, ABI5 regulates the expression of PYL11 and PYL12 by directly binding to their promoters.

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It has been known that ABA INSENSITIVE 5 (ABI5) plays a vital role in regulating seed germination. In the present experiment, we showed that 3-amino-1,2,4-triazole (3-AT) inhibits seed germination of the loss-of-function mutant abi5-1, but promotes seed germination of the ABI5-overexpression transgenic line, and that ABI5 affects reactive oxygen species (ROS) homeostasis. ABI5 overexpression rescued the growth arrest phenotype at low CO 2. Taken together, our results demonstrate that PPC2 and ABI5 are key regulators of plant acclimation to low CO 2, and positively contribute to carbon fixation and metabolism in C 3 plants. Pharmacological assay showed that abi5-1 mutant was insensitive to TOR inhibitor AZD8055, whereas AtABI5 overexpression lines were hypersensitive to AZD8055 in Arabidopsis.

Wrky proteiner: signalering och reglering av uttryck under abiotiska

Further studies showed that MdABI5 can not only interact with, and enhance the transcriptional activity of MdbHLH3 to target genes MdDFR and MdUF3GT, but can also directly bind to the promoter of MdbHLH3 and activate its expression. It has been known that ABA INSENSITIVE 5 (ABI5) plays a vital role in regulating seed germination.

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It has been known that ABA INSENSITIVE 5 (ABI5) plays a vital role in regulating seed germination. In the present experiment, we showed that 3-amino-1,2,4-triazole (3-AT) inhibits seed germination of the loss-of-function mutant abi5-1, but promotes seed germination of the ABI5-overexpression transgenic line, and that ABI5 affects reactive oxygen species (ROS) homeostasis. ABI5 overexpression rescued the growth arrest phenotype at low CO 2. Taken together, our results demonstrate that PPC2 and ABI5 are key regulators of plant acclimation to low CO 2, and positively contribute to carbon fixation and metabolism in C 3 plants.

2002; Söderman et al.
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It has been known that ABA INSENSITIVE 5 (ABI5) plays a vital role in regulating seed germination. In the present experiment, we showed that 3-amino-1,2,4-triazole (3-AT) inhibits seed germination of the loss-of-function mutant abi5-1, but promotes seed germination of the ABI5-overexpression transgenic line, and that ABI5 affects reactive oxygen species (ROS) homeostasis. ABI5 overexpression rescued the growth arrest phenotype at low CO 2. Taken together, our results demonstrate that PPC2 and ABI5 are key regulators of plant acclimation to low CO 2, and positively contribute to carbon fixation and metabolism in C 3 plants. ABI5 was previously reported as the target protein of AFP2 during seed germination (Lopez-Molina et al., 2003), and overexpression of ABI5 activates the flowering negative factor FLC at the transcriptional level to repress flowering (Wang et al., 2013b). The overexpression of MdKNOX19 increased the ABA sensitivity of apple calli, resulting in a dramatic up-regulation in the transcription of the Arabidopsis ABI5 -like MdABI5 gene. However, overexpression of ABI5 was not sufficient to repress germination, as ABI5 activity requires phosphorylation.

miR172b overexpression and snz-1 exhibited increased sensitivity to ABA and osmotic stress during specific post-germinative stage, and resulted in higher expression of ABI3, ABI5 and downstream genes, such as Em6 and RAB18, than wild type under ABA treatment. ABI5 is mainly expressed in dry seeds, and its expression markedly decreases after germination (Finkelstein and Lynch, 2000b; Lopez‐Molina et al., 2001). Expression of ABI5 is strongly induced by exogenous ABA (Lopez‐Molina et al., 2001). ABI5 in the hy5 mutant background restored its ABA sensitivity and overexpression of ABI5 in the wild-type background-enhanced light response. These results indicate that HY5 inte-gratesbothABAandlightsignaltransductionpathwayspartially through direct activation of ABI5.
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Moreover, ABA also strongly regulates post‐transcriptionally the accumulation of both ABI3 (Figure 2g) and ABI5 (Lopez‐Molina et al., 2001). It has been known that ABA INSENSITIVE 5 (ABI5) plays a vital role in regulating seed germination. In the present study, we showed that inhibition of the catalase activity with 3-amino-1,2,4-triazole (3-AT) inhibits seed germination of Col-0, abi5 mutants and ABI5-overexpression transgenic lines. ABI5 is necessary, but not sufficient, to maintain germinated embryos in a quiescent state, abscisic acid also being required for maintaining the quiescent state.

Each graph 2016-12-20 Overexpression of ABI5 in plants to prevent precocious seed germination and to confer resistance to drought and high salt Mar 21, 2001 - The Rockefeller University The bZIP transcription factor ABI5 is shown to confer an enhanced response to exogenous abscisic acid during germination, seedling establishment and subsequent vegetative growth of plants. ABI5-mediated transactivation was inhibited by overexpression ofabi1-1, the dominant-negative allele of the protein phosphatase ABI1, and by 1-butanol, a competitive inhibitor of … 2008-03-10 SnRK1α1 Antagonizes Cell Death Induced by Transient Overexpression of Arabidopsis thaliana ABI5 Binding Protein 2 (AFP2) September 2020 Frontiers in Plant Science 11 Srinivas S. L. Gampala, Ruth R. Finkelstein, Samuel S. M. Sun, Christopher D. Rock 2019-08-09 Our data show that loss of FyPP function is sufficient to trigger ABI5-dependent inhibition of seed germination (Figure 2B), which is very similar to the previous report that overexpression of a SnRK2 kinase (PKABA1) in the ABI5-OE background is sufficient to activate ABI5 protein and suppress seed germination (Piskurewicz et al., 2008).
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The HDZip Class I Transcription Factors in - DiVA portal

Analyses of transcript accumulation in abi5 mutants suggest that, similar to ABI3, ABI5 has both activator and repressor functions that may have either synergistic or antagonistic effects on gene expression, depending on the target gene. Indeed, stomatal aperture was significantly reduced by ABI5 overexpression in the absence or presence of ABA under monochromatic light conditions. Overall, we present a regulatory loop in which two light signalling proteins repress ABA signalling to sustain gas exchange when plants experience periodic drought. However, overexpression of ABI5 was not sufficient to repress germination, as ABI5 activity requires phosphorylation. The endogenous ABI5 phosphorylation and inhibition of germination could be recapitulated by the addition of a SnRK2 protein kinase to the ABI5 overexpression line. ABI5-BINDING PROTEIN2 (AFP2) negatively regulates the abscisic acid signal by accelerating ABI5 degradation during seed germination in Arabidopsis (Arabidopsis thaliana). The abscisic acid signal is reported to delay flowering by up-regulating Flowering Locus C expression, but the role of AFP2 in regulating flowering time is unknown.

DiVA - Sökresultat - DiVA Portal

This protects plants from drought. (a) ABI5‐HA fusion protein was detected by the anti‐HA antibody in ABI5 overexpression transgenic plants. (b) Analysis of the expression level of AtIPT8 by semi‐quantitative RT‐PCR.

It has been known that ABA INSENSITIVE 5 (ABI5) plays a vital role in regulating seed germination. In the present experiment, we showed that 3-amino-1,2,4-triazole (3-AT) inhibits seed germination of the loss-of-function mutant abi5-1, but promotes seed germination of the ABI5-overexpression transgenic line, and that ABI5 affects reactive oxygen species (ROS) homeostasis. osmotic stress. miR172b overexpression and snz-1 exhibited increased sensitivity to ABA and osmotic stress during specific post-germinative stage, and resulted in higher expression of ABI3, ABI5 and downstream genes, such as Em6 and RAB18, than wild type under ABA treatment. ABI5 is mainly expressed in dry seeds, and its expression markedly decreases after germination (Finkelstein and Lynch, 2000b; Lopez‐Molina et al., 2001). Expression of ABI5 is strongly induced by exogenous ABA (Lopez‐Molina et al., 2001). ABI5 in the hy5 mutant background restored its ABA sensitivity and overexpression of ABI5 in the wild-type background-enhanced light response.