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1.
Accelerated shoot overgrowth of rice mutant ao-1 is epistatic to gibberellin-sensitive and -insensitive dwarf mutants 总被引:2,自引:0,他引:2
A shoot overgrowth mutant of rice ( Oryza sativa L.), accelerated internode overgrowth-1 ( ao-1), is marked by accelerated longitudinal elongation of aerial parts and overgrowth of internodes at the vegetative stage. The physiological properties of ao-1 were similar to those of wild plants treated with a saturating level of exogenous gibberellins (GAs), except for the internode-overgrowth phenotype, which was not mimicked by GA-treated wild plants. The ao-1 mutant was less sensitive to a GA biosynthesis inhibitor, Uniconazole-P, than the wild type. Dwarf alleles of three loci, including two GA-sensitive and one GA-insensitive mutation, were introduced to produce double-mutants with ao-1, but the overgrowth phenotype was not suppressed in double-homozygous mutants. These results suggest that the overgrowth phenotype of ao-1 is caused by abolition of GA signaling rather than by GA overproduction. It is likely that a part of the shoot regulation system of ao-1 is saturated with the GA signal. As a possible model consistent with the results, we propose that AO-1 protein acts as a negative regulator in GA signal transduction. 相似文献
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A role of <Emphasis Type="Italic">OsGA20ox1</Emphasis>, encoding an isoform of gibberellin 20-oxidase,for regulation of plant stature in rice 总被引:7,自引:0,他引:7
Gibberellin (GA) 20-oxidase (GA20ox) is a key enzyme that normally catalyzes the penultimate steps in GA biosynthesis. One of the GA20ox genes in rice (Oryza sativaL.), OsGA20ox2 (SD1), is well known as the Green Revolution gene, and loss-of function mutation in this locus causes semi-dwarfism. Another GA20ox gene, OsGA20ox1, has also been identified, but its contribution to plant stature has remained unclear because no suitable mutants have been available. We isolated a mutant, B142, tagged with a T-DNA containing three CaMV 35S promoters, which showed a tall, GA-overproduction phenotype. The final stature of the B142 mutant reflects internode overgrowth and is approximately twice that of its wild-type parent. This mutant responds to application of both GA3 and a GA biosynthesis inhibitor, indicating that it is a novel tall mutant of rice distinct from GA signaling mutants such as slr1. The integrated T-DNAs, which contain three CaMV 35S promoters, are located upstream of the OsGA20ox1 open reading frame (ORF) in the B142 mutant genome. Analysis of mRNA and the endogenous GAs reveal that biologically active GA level is increased by up-regulation of the OsGA20ox1 gene in B142. Introduction of OsGA20ox1 cDNA driven by 35S promoter into the wild type phenocopies the morphological characteristics of B142. These results indicate that the elongated phenotype of the B142 mutant is caused by up-regulation of the OsGA20ox1 gene. Moreover, the final stature of rice was reduced by specific suppression of the OsGA20ox1 gene expression. This result indicates that not only OsGA20ox2 but also OsGA20ox1 affects plant stature. 相似文献
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The phytohormone auxin regulates many aspects of plant growth and development. Auxin often acts distantly from the site of
its biosynthesis and this long-distance-transported auxin is well known to play a critical role in eliciting physiological
responses including regulating root development. Auxin can be produced in roots, yet the function of locally synthesized auxin
in root growth is unclear. The major auxin in plants, indole 3-acetic acid (IAA), is mainly synthesized through tryptophan
(Trp)-dependent pathways that require pyridoxal phosphate (an active form of vitamin B6)-dependent enzymes. We previously reported that the Arabidopsis vitamin B6 biosynthesis mutant pdx1 has stunted root growth although the underlying cause is unknown. Here we showed that the pdx1 root is deficient in auxin biosynthesis. By reciprocal grafting of pdx1 and the wild type, we demonstrated that the stunted root growth in pdx1 is caused by a locally generated signal(s) in roots. To test whether auxin might be one such signal, the auxin responsive
DR5::GUS reporter was introduced into the mutant. The DR5::GUS activity in pdx1 root tips was greatly reduced compared with that in the wild type although the auxin response was unaltered. pdx1 also suppresses the root hair growth defects in the auxin overproduction mutant yucca. These data indicate that pdx1 is impaired in Trp-dependent auxin biosynthesis, which may contribute to the short-root phenotype of pdx1. We suggest that locally synthesized auxin may play a critical role in postembryonic root growth. 相似文献
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Ethylene and gibberellins have a synergistic stimulatory effect on hypocotyl elongation of light-grown Arabidopsis thaliana (L.) Heynh. seedlings. A screen for mutants with decreased response to these hormones led to the isolation of a novel allele
(amp1-7) of the ALTERED MERISTEM PROGRAM (AMP) 1 locus. The amp1-7 allele contains a missense mutation causing a phenotype, which is weaker than that of the amp1-1 mutant that carries a nonsense mutation. The mutant phenotype prompted the hypothesis that AMP1 is involved in ethylene and
GA signalling pathways or in a parallel pathway-controlling cell and hypocotyl elongation and cellular organization. Amp1 mutants contain higher zeatin concentrations causing enlargement of the apical meristem, which was confirmed by cytokinin
application to wild type seedlings. Light grown amp1 seedlings have shorter hypocotyls than wild type; however, application of cytokinins promotes hypocotyl elongation of both
Col-0 and amp1. We suggest that in amp1 mutants either zeatin overproduction or its action is strictly localized.
Nelson J. M. Saibo and Wim H. Vriezen contributed equally to this work. 相似文献
8.
Quan-le Xu Zhe Hu Chun-yuan Li Xin-yu Wang Chong-ying Wang 《In vitro cellular & developmental biology. Plant》2009,45(5):583-590
Two protocols were developed for the efficient regeneration of Sinningia speciosa from leaf explants via two developmental pathways. The first method involved formation of callus and buds, followed by subsequent
root growth, in Murashige and Skoog medium (MS) containing 2.0 mg l−1 6-benzylaminopurine (BA) and 0.2 mg l−1 α-naphthalene acetic acid (NAA), with a regeneration efficiency of 99.0%. The second method involved producing callus and
roots, followed by subsequent formation of buds, in MS medium supplemented with 1.0–5.0 mg l−1 NAA, and resulted in a regeneration efficiency of 90.4%. Our experiments indicate that the root-first pathway resulted in
a lower plant regeneration efficiency. Through five continual generations using the buds-first method, a total of 215 regenerated
plants were obtained in the last generation, and eight exhibited a phenotype we named tricussate whorled phyllotaxis (twp). Six of the regenerated twp variant plants maintained their tricussate whorled phyllotaxis phenotype, showing no other abnormalities, while one reverted
to a wild type before flowering and another formed two rounds of sepals. Physiological analysis revealed that the twp plants responded differently than wild type to exogenous NAA and 2,3,5-triiodobenzoic acid (TIBA), while high-performance
liquid chromatography (HPLC) analysis showed that the levels of endogenous indole-3-acetic acid (IAA) and gibberellin (GA)
were lower in twp than wild-type plants. These results suggest that the formation of the twp mutant may be related to phytohormones and that the twp variant could be an important material for investigating the molecular mechanism of plant phyllotaxis patterning. 相似文献
9.
Ana Lucia Bonna Alejandro Chaparro-Giraldo Beatriz Appezzato-da-Gloria Peter Hedden Marcio C. Silva-Filho 《Molecular breeding : new strategies in plant improvement》2008,22(4):613-618
We have characterized potato (Solanum tuberosum L.) plants expressing a soybean leghemoglobin that is targeted to plastids. Transgenic plants displayed a dwarf phenotype
caused by short internode length, and exhibited increased tuberization in vitro. Under in vivo conditions that do not promote
tuberization, plants showed smaller parenchymal cells than control plants. Analysis of gibberellin (GA) concentrations indicated
that the transgenic plants have a substantial reduction (approximately 10-fold) of bioactive GA1 concentration in shoots. Application of GA3 to the shoot apex of the transformed plants completely restored the wild type phenotype suggesting that GA-biosynthesis rather
than signal transduction was limiting. Since the first stage of the GA-biosynthetic pathway is located in the plastid, these
results suggest that an early step in the pathway may be affected by the presence of the leghemoglobin. 相似文献
10.
Ectopic expression of a cytochrome P450 monooxygenase gene PtCYP714A3 from Populus trichocarpa reduces shoot growth and improves tolerance to salt stress in transgenic rice
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Cuiting Wang Yang Yang Haihai Wang Xiaojuan Ran Bei Li Jiantao Zhang Hongxia Zhang 《Plant biotechnology journal》2016,14(9):1838-1851
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Chang-Hyo Goh Suk-Min Ko Youn-Il Park Chan-Shick Kim Kwan-Jeong Song 《Journal of Plant Biology》2011,54(2):112-118
Arabidopsis thaliana dynamin-like protein 1E (ADL1E) is known to regulate mitochondrial elongation. The adl1e mutant has no morphological phenotype, and the growth and photosynthetic activity of the mutant are similar to those of the
wild type. Leaf O2 uptake, which is supported by mitochondrial activity in the dark, is increased 1.7-fold by mutation in adl1e gene. The ATP content in the dark of guard and mesophyll cell protoplasts (GCPs and MCPs, respectively) was 2.5- to 4-fold
higher in GCPs of the mutant and the wild type, and increased upon the addition of glucose in both genotypes. Oligomycin,
an inhibitor of mitochondrial ATPase, suppressed ATP synthesis in both GCPs and MCPS isolated from adl1e plants, indicating that mutant had higher mitochondrial activity. The stomatal apertures of mutant and wild-type plants were
then analyzed in vitro. In the light, the stomata of both genotypes showed similar patterns of opening. However, in the dark
response, the stomata of the adl1e mutant closed faster than did those of the wild type. Oligomycin severely inhibited dark-induced stomatal closure in both
cell types. The results suggest that stomatal closure in the dark is governed by cytosolic ATP concentration, which is stimulated
by mitochondrial activity. 相似文献
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Bo Zhou Dan Peng Jianzhong Lin Xingqun Huang Wusheng Peng Reqing He Ming Guo Dongying Tang Xiaoying Zhao Xuanming Liu 《Journal of Plant Biology》2011,54(1):23-32
Gibberellins (GAs) are endogenous hormones that play an important role in regulating plant stature by increasing cell division
and promoting seed germination. The GA2-oxidase gene from Arabidopsis thaliana (AtGA2ox8) was introduced into Brassica napus L. by Agrobacterium-mediated floral-dip transformation with the aim of decreasing the amount of bioactive GA and hence reduced the plant height.
As anticipated, the transgenic plant exhibited dwarf phenotype. Importantly, compared with the wild type, the transgenic plants
had delayed the seed germination, increased the chlorophyll content (28.7–36.3%) and photosynthesis capacity (14.3–18.7%)
in a single leaf. At the same time, the photosynthesis capacity of the whole plants was significantly enhanced (35.7–48.6%)
due to the extra leaves and branches. 相似文献
15.
Amanda Schrager‐Lavelle Natalie N. Gath Upendra K. Devisetty Esther Carrera Isabel Lpez‐Díaz Miguel A. Blzquez Julin N. Maloof 《The Plant journal : for cell and molecular biology》2019,97(3):603-615
A network of environmental inputs and internal signaling controls plant growth, development and organ elongation. In particular, the growth‐promoting hormone gibberellin (GA) has been shown to play a significant role in organ elongation. The use of tomato as a model organism to study elongation presents an opportunity to study the genetic control of internode‐specific elongation in a eudicot species with a sympodial growth habit and substantial internodes that can and do respond to external stimuli. To investigate internode elongation, a mutant with an elongated hypocotyl and internodes but wild‐type petioles was identified through a forward genetic screen. In addition to stem‐specific elongation, this mutant, named tomato internode elongated ‐1 (tie‐1) is more sensitive to the GA biosynthetic inhibitor paclobutrazol and has altered levels of intermediate and bioactive GAs compared with wild‐type plants. The mutation responsible for the internode elongation phenotype was mapped to GA2oxidase 7, a class III GA 2‐oxidase in the GA biosynthetic pathway, through a bulked segregant analysis and bioinformatic pipeline, and confirmed by transgenic complementation. Furthermore, bacterially expressed recombinant TIE protein was shown to have bona fide GA 2‐oxidase activity. These results define a critical role for this gene in internode elongation and are significant because they further the understanding of the role of GA biosynthetic genes in organ‐specific elongation. 相似文献
16.
Fujino K Matsuda Y Ozawa K Nishimura T Koshiba T Fraaije MW Sekiguchi H 《Molecular genetics and genomics : MGG》2008,279(5):499-507
Elucidation of the genetic basis of the control of leaf shape could be of use in the manipulation of crop traits, leading
to more stable and increased crop production. To improve our understanding of the process controlling leaf shape, we identified
a mutant gene in rice that causes a significant decrease in the width of the leaf blade, termed narrow leaf 7 (nal7). This spontaneous mutation of nal7 occurred during the process of developing advanced backcrossed progeny derived from crosses of rice varieties with wild type
leaf phenotype. While the mutation resulted in reduced leaf width, no significant morphological changes at the cellular level
in leaves were observed, except in bulliform cells. The NAL7 locus encodes a flavin-containing monooxygenase, which displays sequence homology with YUCCA. Inspection of a structural model of NAL7 suggests that the mutation results in an inactive enzyme. The IAA content in the
nal7 mutant was altered compared with that of wild type. The nal7 mutant overexpressing NAL7 cDNA exhibited overgrowth and abnormal morphology of the root, which was likely to be due to auxin overproduction. These
results indicate that NAL7 is involved in auxin biosynthesis.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.
Nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank databases under accession numbers AB354301 and AB354302. 相似文献
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PHO1 expression in guard cells mediates the stomatal response to abscisic acid in Arabidopsis 总被引:1,自引:0,他引:1
Céline Zimmerli Alain Vavasseur Hubert Bauer Rainer Hedrich Yves Poirier 《The Plant journal : for cell and molecular biology》2012,72(2):199-211
Stomatal opening and closing are driven by ion fluxes that cause changes in guard cell turgor and volume. This process is, in turn, regulated by environmental and hormonal signals, including light and the phytohormone abscisic acid (ABA). Here, we present genetic evidence that expression of PHO1 in guard cells of Arabidopsis thaliana is required for full stomatal responses to ABA. PHO1 is involved in the export of phosphate into the root xylem vessels and, as a result, the pho1 mutant is characterized by low shoot phosphate levels. In leaves, PHO1 was found expressed in guard cells and up‐regulated following treatment with ABA. The pho1 mutant was unaffected in production of reactive oxygen species following ABA treatment, and in stomatal movements in response to light cues, high extracellular calcium, auxin, and fusicoccin. However, stomatal movements in response to ABA treatment were severely impaired, both in terms of induction of closure and inhibition of opening. Micro‐grafting a pho1 shoot scion onto wild‐type rootstock resulted in plants with normal shoot growth and phosphate content, but failed to restore normal stomatal response to ABA treatment. PHO1 knockdown using RNA interference specifically in guard cells of wild‐type plants caused a reduced stomatal response to ABA. In agreement, specific expression of PHO1 in guard cells of pho1 plants complemented the mutant guard cell phenotype and re‐established ABA sensitivity, although full functional complementation was dependent on shoot phosphate sufficiency. Together, these data reveal an important role for phosphate and the action of PHO1 in the stomatal response to ABA. 相似文献
19.
Rice early flowering1, a CKI,phosphorylates DELLA protein SLR1 to negatively regulate gibberellin signalling 总被引:1,自引:0,他引:1
The plant hormone gibberellin (GA) is crucial for multiple aspects of plant growth and development. To study the relevant regulatory mechanisms, we isolated a rice mutant e arlier fl owering1, el1, which is deficient in a casein kinase I that has critical roles in both plants and animals. el1 had an enhanced GA response, consistent with the suppression of EL1 expression by exogenous GA3. Biochemical characterization showed that EL1 specifically phosphorylates the rice DELLA protein SLR1, proving a direct evidence for SLR1 phosphorylation. Overexpression of SLR1 in wild‐type plants caused a severe dwarf phenotype, which was significantly suppressed by EL1 deficiency, indicating the negative effect of SLR1 on GA signalling requires the EL1 function. Further studies showed that the phosphorylation of SLR1 is important for maintaining its activity and stability, and mutation of the candidate phosphorylation site of SLR1 results in the altered GA signalling. This study shows EL1 a novel and key regulator of the GA response and provided important clues on casein kinase I activities in GA signalling and plant development. 相似文献
20.
Indeok Hwang Soo Young Kim Cheol Soo Kim Yoonkyung Park Giri Raj Tripathi Seong-Ki Kim Hyeonsook Cheong 《Plant molecular biology》2010,73(6):629-641
Shoot branching and growth are controlled by phytohormones such as auxin and other components in Arabidopsis. We identified a mutant (igi1) showing decreased height and bunchy branching patterns. The phenotypes reverted to the wild type in response to RNA interference
with the IGI1 gene. Histochemical analysis by GUS assay revealed tissue-specific gene expression in the anther and showed that the expression
levels of the IGI1 gene in apical parts, including flowers, were higher than in other parts of the plants. The auxin biosynthesis component
gene, CYP79B2, was up-regulated in igi1 mutants and the IGI1 gene was down-regulated by IAA treatment. These results indicated that there is an interplay regulation between IGI1 and
phytohormone auxin. Moreover, the expression of the auxin-related shoot branching regulation genes, MAX3 and MAX4, was down-regulated in igi1 mutants. Taken together, these results indicate that the overexpression of the IGI1 influenced MAX pathway in the shoot branching regulation. 相似文献