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1.
The enzymatic and biochemical properties of the proteins encoded by five potato cytokinin oxidase/dehydrogenase (CKX)-like genes functionally expressed in yeast and the effects of tuber dormancy progression on StCKX expression and cytokinin metabolism were examined in lateral buds isolated from field-grown tubers. All five putative StCKX genes encoded proteins with in vitro CKX activity. All five enzymes were maximally active at neutral to slightly alkaline pH with 2,6-dichloro-indophenol as the electron acceptor. In silico analyses indicated that four proteins were likely secreted. Substrate dependence of two of the most active enzymes varied; one exhibiting greater activity with isopentenyl-type cytokinins while the other was maximally active with cis-zeatin as a substrate. [3H]-isopentenyl-adenosine was readily metabolized by excised tuber buds to adenine/adenosine demonstrating that CKX was active in planta. There was no change in apparent in planta CKX activity during either natural or chemically forced dormancy progression. Similarly although expression of individual StCKX genes varied modestly during tuber dormancy, there was no clear correlation between StCKX gene expression and tuber dormancy status. Thus although CKX gene expression and enzyme activity are present in potato tuber buds throughout dormancy, they do not appear to play a significant role in the regulation of cytokinin content during tuber dormancy progression.  相似文献   

2.
The cloning of two novel genes that encode cytokinin oxidase/dehydrogenase (CKX) in barley is described in this work. Transformation of both genes into Arabidopsis and tobacco showed that at least one of the genes codes for a functional enzyme, as its expression caused a cytokinin-deficient phenotype in the heterologous host plants. Additional cloning of two gene fragments, and an in silico search in the public expressed sequence tag clone databases, revealed the presence of at least 13 more members of the CKX gene family in barley and wheat. The expression of three selected barley genes was analyzed by RT-PCR and found to be organ-specific with peak expression in mature kernels. One barley CKX (HvCKX2) was characterized in detail after heterologous expression in tobacco. Interestingly, this enzyme shows a pH optimum at 4.5 and a preference for cytokinin ribosides as substrates, which may indicate its vacuolar targeting. Different substrate specificities, and the pH profiles of cytokinin-degrading enzymes extracted from different barley tissues, are also presented.  相似文献   

3.
The expression of cytokinin oxidase/dehydrogenase (CKX EC: 1.5.99.12) is subject to fine regulation and it provides a rapid turnover of cytokinins, which serves as a signal for triggering developmental events during plant growth. The activity of this enzyme is believed to be responsible for the changes in cytokinin pool under adverse environmental conditions. CKX gene-specific assay to measure the expression in response to different stress treatments in the tissues of Pisum sativum plants was developed. Pea CKX genes were amplified and sequenced using primers designed from the sequences of Medicago truncatula CKX genes. Expression of two P. sativum CKX genes was assessed using relative-quantification in real time two-step RT-PCR, in leaves and roots of drought-, glufosinate- and atrazine-treated cv. Manuela pea plants. Varied CKX responses support the existence of complicated regulating mechanism of cytokinin oxidase/ dehydrogenase gene expression.  相似文献   

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Cytokinin oxidases/dehydrogenases (CKX) catalyze the irreversible degradation of the cytokinins isopentenyladenine, zeatin, and their ribosides in a single enzymatic step by oxidative side chain cleavage. To date the sequences of 17 fully annotated CKX genes are known, including two prokaryotic genes. The CKX gene families of Arabidopsis thaliana and rice comprise seven and at least ten members, respectively. The main features of CKX genes and proteins are summarized in this review. Individual proteins differ in their catalytic properties, their subcellular localization and their expression domains. The evolutionary development of cytokinin-catabolizing gene families and the individual properties of their members indicate an important role for the fine-tuned control of catabolism to assure proper regulation of cytokinin functions. The use of CKX genes as a tool in studies of cytokinin biology and biotechnological applications is discussed.  相似文献   

7.
Cytokinin oxidase/dehydrogenase (EC 1.5.99.12) specific activity was determined in leaves and roots of two P. sativum cultivars (cv. Scinado and cv. Manuela) during vegetative development and the effect of UV-B irradiation or elevated temperature was assessed. The measurement of CKX activity during development showed localisation of this enzyme to roots. The reduction in CKX activity in leaves after UV-B irradiation and the increased levels of the enzyme in high temperature-treated plants suggests that the enzymes from the CKX gene family have a different expression during stress responses provoked by different factors and probably are tissue specific. Differences regarding cytokinin oxidase/dehydrogenase activity stress response were observed between the two pea cultivars.  相似文献   

8.
Degradation of the plant hormone cytokinin is catalyzed by cytokinin oxidase/dehydrogenase (CKX) enzymes. The Arabidopsis thaliana genome encodes seven CKX proteins which differ in subcellular localization and substrate specificity. Here we analyze the CKX7 gene, which to the best of our knowledge has not yet been studied. pCKX7:GUS expression was detected in the vasculature, the transmitting tissue and the mature embryo sac. A CKX7–GFP fusion protein localized to the cytosol, which is unique among all CKX family members. 35S:CKX7‐expressing plants developed short, early terminating primary roots with smaller apical meristems, contrasting with plants overexpressing other CKX genes. The vascular bundles of 35S:CKX7 primary roots contained only protoxylem elements, thus resembling the wol mutant of the CRE1/AHK4 receptor gene. We show that CRE1/AHK4 activity is required to establish the CKX7 overexpression phenotype. Several cytokinin metabolites, in particular cis‐zeatin (cZ) and N‐glucoside cytokinins, were depleted stronger in 35S:CKX7 plants compared with plants overexpressing other CKX genes. Interestingly, enhanced protoxylem formation together with reduced primary root growth was also found in the cZ‐deficient tRNA isopentenyltransferase mutant ipt2,9. However, different cytokinins were similarly efficient in suppressing 35S:CKX7 and ipt2,9 vascular phenotypes. Therefore, we hypothesize that the pool of cytosolic cytokinins is particularly relevant in the root procambium where it mediates the differentiation of vascular tissues through CRE1/AHK4. Taken together, the distinct consequences of CKX7 overexpression indicate that the cellular compartmentalization of cytokinin degradation and substrate preference of CKX isoforms are relevant parameters that define the activities of the hormone.  相似文献   

9.
Shao X  Yang R  Wang J  Fang Q  Yao B  Wang Y  Sun Y  Li X 《遗传学报》2012,39(3):139-148
Cytokinins are a class of essential plant hormones regulating plant growth and development.Although the two-component phosphorelay pathway of cytokinin has been well characterized,the intact cytokinin responses regulation picture still needs to be fully depicted.Here we report a new mutant,long life span 1(lls1),which displays dwarf stature,curled leaves,numerous axillary branches and nearly 5-month life span.Exogenous cytokinin could not recover the phenotypes of the mutant.Moreover,mutation in lls1 suppressed the cytokinin-responsive phenotypes,including root and hypocotyl growth inhibition,anthocyanin accumulation,metaxylem promotion in primary root development.The induction of cytokinin-responsive genes,ARR5,AHP5,and CKX3,was also suppressed in lls1.According to quantitative RT-PCR(qRT-PCR) and microarray results,the basal expression of positive factors AHP5,ARR1,and ARR10 were down-regulated,while the negative factors ARR4 and ARR5 were up-regulated.Our results suggested that LLS1 gene might be involved in the regulation of cytokinin signaling.It was mapped to chromosome 4 where no other cytokinin relevant gene has been reported.  相似文献   

10.
We used the cytokinin-responsive Arabidopsis response regulator (ARR)5 gene promoter fused to a beta-glucuronidase (GUS) reporter gene, and cytokinin oxidase (CKX) genes from Arabidopsis thaliana (AtCKX3) and maize (ZmCKX1) to investigate the roles of cytokinins in lateral root formation and symbiosis in Lotus japonicus. ARR5 expression was undetectable in the dividing initial cells at early stages of lateral root formation, but later we observed high expression in the base of the lateral root primordium. The root tip continues to express ARR5 during subsequent development of the lateral root. These results suggest a dynamic role for cytokinin in lateral root development. We observed ARR5 expression in curled/deformed root hairs, and also in nodule primordia in response to Rhizobial inoculation. This expression declined once the nodule emerged from the parent root. Root penetration and migration of root-knot nematode (RKN) second-stage larvae (L2) did not elevate ARR5 expression, but a high level of expression was induced when L2 reached the differentiating vascular bundle and during early stages of the nematode-plant interaction. ARR5 expression was specifically absent in mature giant cells (GCs), although dividing cells around the GCs continued to express this reporter. The same pattern was observed using a green fluorescent protein (GFP) reporter driven by the ARR5 promoter in tomato. Overexpression of CKX genes rendered the transgenic hairy roots resistant to exogenous application of the cytokinin [N6-(Delta2 isopentenyl) adenine riboside] (iPR). CKX roots have significantly more lateral roots, but fewer nodules and nematode-induced root galls per plant, than control hairy roots.  相似文献   

11.
The plant hormone cytokinin is a key morphogenic factor controlling cell division and differentiation, and thus the formation and growth rate of organs during a plant's life cycle. In order to explore the relevance of cytokinin during the initial phase of leaf primordia formation and its impact on subsequent leaf development, we increased cytokinin degradation in young shoot organ primordia of Arabidopsis thaliana by expressing a cytokinin oxidase/dehydrogenase (CKX) gene under control of the AINTEGUMENTA (ANT) promoter. The final leaf size in ANT:CKX3 plants was reduced to ∼27% of the wild-type size and the number of epidermal cells was reduced to ∼12% of the wild type. Kinematic analysis revealed that cell proliferation ceased earlier and cell expansion was accelerated in ANT:CKX3 leaves, demonstrating that cytokinin controls the duration of the proliferation phase by delaying the onset of cell differentiation. The reduction of the cell number was partially compensated by an increased cell expansion. Interestingly, ANT:CKX3 leaf cells became about 60% larger than those of 35S:CKX3 leaves, indicating that cytokinin has an important function during cell expansion as well. Furthermore, ANT:CKX3 expression significantly reduced the capacity of both the vegetative as well as the generative shoot apical meristem to initiate the formation of new leaves and flowers, respectively. We therefore hypothesize that the cytokinin content in organ primordia is important for regulating the activity of the shoot meristem in a non-autonomous fashion.  相似文献   

12.
Hydroxamic acid 2,4‐dihydroxy‐7‐methoxy‐1,4‐benzoxazin‐one (DIMBOA) was isolated from maize phloem sap as a compound enhancing the degradation of isopentenyl adenine by maize cytokinin dehydrogenase (CKX), after oxidative conversion by either laccase or peroxidase. Laccase and peroxidase catalyze oxidative cleavage of DIMBOA to 4‐nitrosoresorcinol‐1‐monomethyl ether (coniferron), which serves as a weak electron acceptor of CKX. The oxidation of DIMBOA and coniferron generates transitional free radicals that are used by CKX as effective electron acceptors. The function of free radicals in the CKX‐catalyzed reaction was also verified with a stable free radical of 2,2′‐azino‐bis‐3‐ethylbenzothiazoline‐6‐sulfonic acid. Application of exogenous cytokinin to maize seedlings resulted in an enhanced benzoxazinoid content in maize phloem sap. The results indicate a new function for DIMBOA in the metabolism of the cytokinin group of plant hormones.  相似文献   

13.
Barley is one of the most important cereal crops grown worldwide. It has numerous applications, but its utility could potentially be extended by genetically manipulating its hormonal balances. To explore some of this potential we identified gene families of cytokinin dehydrogenases (CKX) and isopentenyl transferases, enzymes that respectively irreversibly degrade and synthesize cytokinin (CK) plant hormones, in the raw sequenced barley genome. We then examined their spatial and temporal expression patterns by immunostaining and qPCR. Two CKX-specific antibodies, anti-HvCKX1 and anti-HvCKX9, predominantly detect proteins in the aleurone layer of maturing grains and leaf vasculature, respectively. In addition, two selected CKX genes were used for stable, Agrobacterium tumefaciens-mediated transformation of the barley cultivar Golden Promise. The results show that constitutive overexpression of CKX causes morphological changes in barley plants and prevents their transition to flowering. In all independent transgenic lines roots proliferated more rapidly and root-to-shoot ratios were higher than in wild-type plants. Only one transgenic line, overexpressing CKX under the control of a promoter from a phosphate transporter gene, which is expressed more strongly in root tissue than in aerial parts, yielded progeny. Analysis of several T1-generation plants indicates that plants tend to compensate for effects of the transgene and restore CK homeostasis later during development. Depleted CK levels during early phases of development are restored by down-regulation of endogenous CKX genes and reinforced de novo biosynthesis of CKs.  相似文献   

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Cytokinins (CKs) as well as the antioxidant enzyme system (AES) play important roles in plant stress responses. The expression and activity of antioxidant enzymes (AE) were determined in drought, heat and combination of both stresses, comparing the response of tobacco plants overexpressing the main cytokinin degrading enzyme, cytokinin oxidase/dehydrogenase, under the control of root-specific WRKY6 promoter (W6:CKX1 plants) or constitutive promoter (35S:CKX1 plants) and the corresponding wild-type (WT). Expression levels as well as activities of cytosolic ascorbate peroxidase, catalase 3, and cytosolic superoxide dismutase were low under optimal conditions and increased after heat and combined stress in all genotypes. Unlike catalase 3, two other peroxisomal enzymes, catalase 1 and catalase 2, were transcribed extensively under control conditions. Heat stress, in contrast to drought or combined stress, increased catalase 1 and reduced catalase 2 expression in WT and W6:CKX1 plants. In 35S:CKX1, catalase 1 expression was enhanced by heat or drought, but not under combined stress conditions. Mitochondrial superoxide dismutase expression was generally higher in 35S:CKX1 plants than in WT. Genes encoding for chloroplastic AEs, stromatal ascorbate peroxidase, thylakoidal ascorbate peroxidase and chloroplastic superoxide dismutase, were strongly transcribed under control conditions. All stresses down-regulated their expression in WT and W6:CKX1, whereas more stress-tolerant 35S:CKX1 plants maintained high expression during drought and heat. The achieved data show that the effect of down-regulation of CK levels on AES may be mediated by altered habit, resulting in improved stress tolerance, which is associated with diminished stress impact on photosynthesis, and changes in source/sink relations.  相似文献   

17.
Conventional Agrobacterium-mediated plant transformation often produces a significant frequency of transgenic events containing vector backbone sequence, which is generally undesirable for biotechnology applications. We tested methods to reduce the frequency of transgenic plants containing vector backbone by incorporating genes into the backbone that inhibit the development of transgenic plants. Four backbone frequency reduction genes, bacterial levansucrase (sacB), maize cytokinin oxidase (CKX), Phaseolus GA 2-oxidase (GA 2-ox), and bacterial phytoene synthase (crtB), each expressed by the enhanced CaMV 35S promoter, were placed individually in a binary vector backbone near the left border (LB) of binary vectors. In transformed soybean plants, the lowest frequency of backbone presence was observed when the constitutively expressed CKX gene was used, followed by crtB. Higher backbone frequencies were found among the plants transformed with the GA 2-oxidase and sacB vectors. In some events, transfer of short backbone fragments appeared to be caused by LB readthrough and termination within the backbone reduction gene. To determine the effect of the backbone genes on transformation frequency, the crtB and CKX vectors were then compared to a control vector in soybean transformation experiments. The results revealed that there was no significant transformation frequency difference between the crtB and control vectors, but the CKX vector showed a significant transformation frequency decrease. Molecular analysis revealed that the frequency of transgenic plants containing one or two copies of the transgene and free of backbone was significantly increased by both the CKX and crtB backbone reduction vectors, indicating that there may be a correlation between transgene copy number and backbone frequency.  相似文献   

18.
Cytokinins are plant hormones that play crucial roles in plant growth and development. Cytokinin dehydrogenase (CKX), regarded as a main negative regulator in cytokinin metabolism in plants, irreversibly degrades cytokinins into adenine/adenosine moiety. A CKX homologous gene, designated GhCKX, was cloned from upland cotton (Gossypium hirsutum L.). Transgenic tobacco plants over-expressing GhCKX showed a typical cytokinin-deficient phenotype, while CKX-silenced tobacco plants exhibited cytokinin over-producing phenotype. Tissue specifically enhancing the expression of GhCKX in the ovule epidermis of transgenic cotton led to a significant decrease of trans-zeatin and trans-zeatin riboside contents in the ovule. The decline of cytokinins resulted in a significant decrease in fiber initials on a single ovule. Our results indicate that GhCKX encodes a functional CKX, and cytokinins may be required for the initiation of cotton fiber cells.  相似文献   

19.
Numerous plant hormones interact during plant growth and development. Elucidating the role of these various hormones on particular tissue types or developmental stages has been difficult with exogenous applications or constitutive expression studies. Therefore, we used tissue-specific promoters expressing CKX1 and gai, genes involved in oxidative cytokinin degradation and gibberellin (GA) signal transduction, respectively, to study the roles of cytokinin and GA in male organ development. Accumulation of CKX1 in reproductive tissues of transgenic maize (Zea mays) resulted in male-sterile plants. The male development of these plants was restored by applications of kinetin and thidiazuron. Similarly, expression of gai specifically in anthers and pollen of tobacco (Nicotiana tabacum) and Arabidopsis resulted in the abortion of these respective tissues. The gai-induced male-sterile phenotype exhibited by the transgenic plants was reversible by exogenous applications of kinetin. Our results provide molecular evidence of the involvement of cytokinin and GA in male development and support the hypothesis that the male development is controlled in concert by multiple hormones. These studies also suggest a potential method for generating maintainable male sterility in plants by using existing agrochemicals that would reduce the expense of seed production for existing hybrid crops and provide a method to produce hybrid varieties of traditionally non-hybrid crops.  相似文献   

20.
Plant ageing and senescence are associated with increased levels of reactive oxygen species. Level of cytokinins, the apparent inhibitors of plant senescence, is controlled by their irreversible degradation catalysed by cytokinin oxidase/dehydrogenase (CKX). We investigated the CKX activity, cytokinin concentration, and activities of antioxidative enzymes in tobacco (Nicotiana tabacum L. cv. Samsun NN) overexpressing the Arabidopsis gene for AtCKX2, targeted for extracellular secretion pathway. The control and AtCKX2 plants differed substantially in their phenotypes. When the lowest leaves in controls became yellow all leaves in AtCKX2 tobacco still remained green. Activities of antioxidant enzymes decreased with leaf age in both tobacco plants except for ascorbate peroxidase (APX) in the old leaves and glutathione reductase (GR) in young leaves. Enhancement of GR activity at all leaf stages, an increase of superoxide dismutase and a decline of catalase in young leaves, as well as an increase of APX in the oldest leaves were observed in AtCKX2 plant compared to control. Similar changes were detected after determination of isoenzymes on zymograms. It is evident that AtCKX2 plants had postponed onset of senescence despite the significantly lowered level of cytokinins. Enhanced antioxidant protection, especially in the oldest leaves, could subsidise this phenomenon.  相似文献   

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