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Woody plant seedling establishment is constrained by herbivory in many semi‐arid savannas. We clipped shoots and cotyledons of three woody species 5‐day (=‘early’) or 28‐day (= ‘late’) post‐emergence to simulate herbivory. Seedlings had shoot apex, one or two cotyledon(s) removed, or were retained intact. Survival rates were ≥80%, ≥40% and ≥20% for Acacia nilotica, Acacia nigrescens and Faidherbia albida respectively. F. albida mobilized stored cotyledon reserves faster and consequently shed the cotyledons earlier than the two Acacia species. Cotyledons were shed off as late as 70 days post‐emergence with 5‐day shedding earlier than 28‐day and cotyledon life‐span decreasing with intensity of defoliation. Shoot apex removal 28‐day resulted in higher compensatory growth than 5‐day in all three species. Cotyledon removal had no effect on shoot length, while shoot apex removal reduced shoot length. In F. albida root growth was stimulated by shoot apex removal. We conclude that potential tolerance to herbivory in terms of seedling survival was of the order A. nilotica > A. nigrescens > F. albida, timing of shoot apex and cotyledon removal influenced seedling growth in terms of biomass and that shoot apex removal stimulated compensatory growth which is critical to seedling survival. 相似文献
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The responses to NaCl of cultured leaf discs and leaflets derived from fully differentiated leaves and of shoot apices excised from the cultivated tomato Lycopersicon esculentum Mill. and its wild salt-tolerant relatives L. peruvianum (L.) Mill, and Solanum pennellii Cor were compared. The results suggest that the tolerance of the whole plant to salt depends largely on the tolerance of plant organs containing meristematic tissues rather than on tissues already differentiated. This suggestion is based on the positive correlation found between the response to NaCl of shoot apices and of the whole plant, i.e. both whole plants and apices of the wild species were more resistant to salt than those of the cultivated species. No difference was found among the species with respect to the responses of the fully differentiated parts. The ion balance (K+ /Na+ and Cl− /Na+ ) in detached leaves and apices exposed to salt was different from the balance in the same parts while attached to the salt-treated plant. This difference may be due to the severance of the excised parts from the major sites controlling the balance of ions in the whole plant. 相似文献
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To clarify the timing of the differentiation of the first and second inflorescences in strawberry (Fragaria × ananassa Duch.), morphological changes on shoot apices during short day and low night temperature treatments were observed by scanning electron microscopy (SEM) and optical microscopy. Axillary buds just below the first inflorescence (axillary bud 1) became visible when sepal primordia of the primary flower were differentiated. By this time, other axillary buds had already developed. Axillary bud 1 developed four leaf primordia, and then a differentiated inflorescence at its summit. The phase transition of shoot apices from the vegetative to the reproductive phase may therefore trigger the differentiation of axillary bud 1 which is destined to develop into extension crowns. 相似文献
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A. Cottignies 《Planta》1979,147(1):15-19
The shoot apex of the terminal bud was studied in four successive physiological states: during dormancy, when dormancy breaks, during the third week after the break of dormancy, and during a later typical period of active growth. DNA content was measured in Feulgen-stained nuclei of the axial zone, of the lateral zone, and of the rib meristem. The mitotic index was established for each zone of the meristem. During the period of dormancy, all the nuclei of the meristem are in phase G1 of the cell cycle and are blocked at the same point common to all nuclei. When dormancy breaks, this blockage is removed simultaneously and all nuclei in the shoot apex resume their cell cycles starting at the same point. The cycles remain synchronized for awhile. In the axial zone they remain synchronized until the third week after resumption of active growth. 相似文献
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Hyunsook Kim Mikiko Kojima Daeseok Choi Soyoung Park Minami Matsui Hitoshi Sakakibara Ildoo Hwang 《植物学报(英文版)》2016,58(11):874-889
Cambial activity is a prerequisite for secondary growth in plants; however, regulatory factors controlling the activity of the secondary meristem in radial growth remain elusive. Here, we identified INCREASED CAMBIAL ACTIVITY (ICA), a gene encoding a putative pectin methyltransferase, which could function as a modulator for the meristematic activity of fascicular and interfascicular cambium in Arabidopsis. An overexpressing transgenic line, 35S::ICA, showed accelerated stem elongation and radial thickening, resulting in increased accumulation of biomass, and increased levels of cytokinins (CKs) and gibberellins (GAs). Expression of genes encoding pectin methylesterases involved in pectin modification together with pectin methyltransferases was highly induced in 35S::ICA, which might contribute to an increase of methanol emission as a byproduct in 35S::ICA. Methanol treatment induced the expression of GA‐ or CK‐responsive genes and stimulated plant growth. Overall, we propose that ectopic expression of ICA increases cambial activity by regulating CK and GA homeostasis, and methanol emission, eventually leading to stem elongation and radial growth in the inflorescence stem. 相似文献
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Storability and germination of sodium alginate encapsulated somatic embryos derived from vegetative shoot apices of mature Pinus patula trees were tested on half strength DCR basal medium without growth regulators. The germination percentage of encapsulated somatic embryos was affected significantly by the concentration of sodium alginate and the duration of exposure to calcium chloride. Somatic embryos encapsulated with 2.5 sodium alginate dissolved in DCR basal salts gave significantly higher germination (89) than other treatments. Short (5 min) incubation of the alginate encapsulated embryos in calcium chloride solution proved to be the best encapsulation procedure and the embryos subsequently gave the highest germination (89). Synthetic seeds could be stored at 2 °C for 120 days without a reduction in germination as opposed to non-encapsulated somatic embryos which showed only 9 germination after 20 days at 2 °C. Germinated synthetic seeds produced normal plantlets. This study reports for the first time the storability of encapsulated somatic embryos generated from vegetative shoot apices of mature Pinus patula trees. This has potential for application in forestry. 相似文献
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Seeds of Silene coeli-rosa L. were germinated and grown at 20°C in short days of 8 h light from fluorescent and tungsten (F + T) bulbs and 16 h darkness for 28 days (day 0). At 1700 h of day 0, the plants were exposed to 16 h light from T (LD) followed by 8 h F + T, or the same treatment interrupted at 1700 h of day 0 by 20 or 60 min darkness. Plants were exposed to tritiated (methyl-[3 H])-thymidine for 2 h (1645–1845 h) and sampled every 2 h for 24 h. The cell cycle (percentage labelled mitoses method), and changes in cell number were measured in the shoot apical meristems. The cell cycle in the LD, 20 and 60 min dark-interrupted LD (diLD) treatments was 10, 11 and 13 h, respectively. Mean cell generation times were ca 3–5 h longer, suggesting that the shorter cell cycles were transient. The proportions of cells with 2C or 4C amounts of nuclear DNA, indicated that imposition of darkness resulted in a progressive lengthening of G1 from about 3 h in the LD to 7 h in the 60 min diLD treatment. Conversely, G2 shortened from about 4 h in the LD to 3 h in the 60 min diLD treatment. Measurements of labelling index indicated that S-phase was about 1.5 to 2 h in each treatment. The data are discussed in relation to the known inhibitory effect of the diLD treatments on flowering. 相似文献
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Except for Pseudolarix, which is endemic to China, the late embryogeny of tengenera of Pinaceae has been reported before in the diffferent degree. Among them the matureembryos of Keteleeria evelyniana are different from those of the others in having well-developedcotyledons and a very short hypocotyl. As far as information we have is concerned there arethree types in structure of the mature embryos of Pinaceae. The first type occurs in Keteleeriaand Cedrus, which have very well-developed cotyledons; the second one appears in Picea andLarix, in which the hypocotyl and the root cap are equal in length; the third one, to whichPinus bungeana belongs, includes all the other genera of Pinaceae. The last type is of a prominent hypocotyl in the mature embryos. It is interesting to note that the mature embryos of Torreya grandis and Keteleeria evelyniana are very similar in having specially developed cotyledons, while the proportions of the various tissues in the mature embryo in Fokienia of Cupressaceae as well as Taxus and Amentotaxus of Taxaceae are similar to those of Pinus bungeana.The pith and secretory cells are usually present in the mature embryos of Pinaceae. Althoughno pith is present in those of Metasequoia and Taiwania of Taxodiaceae, the secretory cells generally occur in their embryos in Fokienia of Cupressaceae and Taxus and Pseudotaxus of Taxaceae, neither pith nor secretory cells are present in their hypocotyl. From above, the structures of mature embryos among Pinaceae, Taxodiaceae and Cupressaceae are different from oneanother to some degree. The most outstanding feature of the matur embryos in Pinus bungeana is that the shootapex is very well developed, with a high H/D ratio, about 0.83 on an average, even up to 0.96in some case. Above-mentioned H/D ratio of Pinus bungeana is rare in the mature embryos ofconifers. Gifford (1943) reports that the average H/D ratio of shoot apex of Ephedra altissimais from 0.44 to 0.68, while in 5-year-old branch apex of Pinus ponderosa, the average ratio isabout 0.25, and that in l5-year-old branch apex is about 0.35. For the apex of the dormantshort shoots of Pinus densiflora the average ratio is about 0.35, but that of shoot apex is about0.52 when new buds have just formed. According to the present data about shoot apices of bothbranches and mature embryos, the average ratio of shoot apex of mature embryos in Pinus bungeana is the largest one. From the present investigation the shoot apex of mature embryos ofPinus bungeana exhibits four distinct tissue zones, i.e. the apical initials, the central mother cellzone, the peripheral tissue zone and the rib meristem. It is worthy of note that the shoot apexof Pinus strobus may be divided into five zones, including transition zone between central mothercells and rib meristem (Owston, 1968). Four zones are recognized in the shoot apex ofPinus lambertiana and P. ponderosa, without transition one (Sacher, 1954). From cytologicalzonation, the shoot apex of mature embryos in Pinus bungeana is rather similar to that of Pinuslambertiana and P. ponderosa. 相似文献
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V. L. M. Pádua L. D. Fernandes D. E. de Oliveira E. Mansur 《In vitro cellular & developmental biology. Plant》1998,34(4):285-288
An efficient clonal propagation procedure for a Brazilianindica rice subspecies was developed with shoot apex explants. Shoot apices were excised from 4-d-old seedlings and cultured on
MS medium supplemented with 8.9 μM 6-benzyladenine. The efficiency of shoot production was influenced by growth regulators and light treatments to the donor
plant. Explants derived from seedlings growth in the presence of 10.7 μM naphthaleneacetic acid and in the absence of light showed significantly increased regeneration capacity as compared to control
explants. Anatomical analysis of the new shoot meristems revealed that they originated from preexisting apical and axillary
meristem as well as from the mesocotyl parenchyma. 相似文献
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Xin Wang Man-Wah Li Fuk-Ling Wong Ching-Yee Luk Claire Yik-Lok Chung Wai-Shing Yung Zhili Wang Min Xie Shikui Song Gyuhwa Chung Ting-Fung Chan Hon-Ming Lam 《The Plant journal : for cell and molecular biology》2021,107(6):1739-1755
Copy number variations (CNVs) play important roles in crop domestication. However, there is only very limited information on the involvement of CNVs in soybean domestication. Trailing growth and long shoots are soybean adaptations for natural habitats but cause lodging that hampers yield in cultivation. Previous studies have focused on Dt1/2 affecting the indeterminate/determinate growth habit, whereas the possible role of the gibberellin pathway remained unclear. In the present study, quantitative trait locus (QTL) mapping of a recombinant inbred population of 460 lines revealed a trailing-growth-and-shoot-length QTL. A CNV region within this QTL was identified, featuring the apical bud-expressed gibberellin 2-oxidase 8A/B, the copy numbers of which were positively correlated with expression levels and negatively with trailing growth and shoot length, and their effects were demonstrated by transgenic soybean and Arabidopsis thaliana. Based on the fixation index, this CNV region underwent intense selection during the initial domestication process. 相似文献
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Huai-Yu Yang Chun-Jian Li Fu-Suo Zhang 《植物学报(英文版)》2007,49(11):1654-1661
Our previous experiment revealed that apex-removed plants have larger root systems but a lower K+-uptake rates than intact tobacco plants. Since the apex is not only a center of growth and metabolism, but also an important place of auxin synthesis and export, the aims of this study were to distinguish whether the apex demand or auxin synthesized in the apex regulates assimilate and nutrients partitioning within plant, and to explain the reason for the lower K+-uptake rate of the apex-removed plant. In comparison with the control plant, covering the shoot apex with a black transparent plastic bag reduced net increases in dry matter and nutrients; however, the distribution of the dry matter and nutrients between shoot and roots and nutrient-uptake rates were not changed. Removal of the shoot apex shifted the dry mass and nutrients distributions to roots, and reduced the rate of nutrient uptake. Application of 1-naphthylacetic acid (NAA) could partly replace the role of the removed apex, stimulated assimilate and nutrient deposition into the treated tissue, and enhanced the reduced plasma membrane ATPase activity of roots to the control level. However, treatment of the apex-removed plants with NAA could not rescue the reduced nutrient uptake rate and the shifted assimilates and nutrients partitioning caused by excision of the apex. Higher nutrient uptake rate of the intact plants could not be explained by root growth parameters, such as total root surface area and number of root tips. The results from the present study indicate that strong apex demand determined assimilates and nutrients partitioning and nutrient-uptake rate in tobacco (Nicotiana tabacum) plants. 相似文献
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A novel biochemical assay system for detecting the early stage of flowering is reported. Peroxidase isozymes in shoot apices of Pharbitis nil plants that had been exposed to flower‐inducing or non‐inducing conditions were analyzed by isoelectric focusing in polyacrylamide gels and activity staining for peroxidase. Several isozymes with pH 8.5–8.8 appeared for the first time 7 days after the beginning of short‐day treatment, but not after nightbreak (non‐inducing) treatment. When shoot tips were cultured in vitro, these same isozymes also appeared after short‐day treatment but not after night‐break treatment. The extent of the appearance of these isozymes was reduced by exposure to high or low temperature during the inductive dark period and removal of cotyledons after the inductive dark period. Such treatments also reduced the extent of flowering. The appearance of an isozyme with pH 8.5 was more closely correlated with flowering than that of the other isozymes. From these results, the appearance of this peroxidase isozyme in shoot apices is discussed as a biochemical marker of flowering in intact plants and in cultured shoot tips. 相似文献
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S. Curuk C. Elman E. Schlarman O. Sagee I. Shomer S. Cetiner D. J. Gray V. Gaba 《In vitro cellular & developmental biology. Plant》2002,38(3):260-267
Summary Hypocotyl explants of melon (Cucumis melo L.) are capable of regenerating multiple shoots on Murashige and Skoog (1962) medium, augmented with 4.4 μM benzylademne. Regeneration from the hypocotyl is much more rapid than the more commonly reported regeneration from cotyledonary
explants, producing shoots within 2 wk compared to more than a month required for cotyledon explants. The rapid regeneration
response depends on the presence of a fragment of the cotyledon remaining attached to the hypocotyl. Controls were performed
to ensure that the regeneration was not due to the presence of the shoot apical bud of the melon seedling after explant production.
Scanning electron microscopy revealed that microsurgery to remove the apical bud left no excess bud material. Regeneration
from the proximal part of the hypocotyl was due to production of a new shoot apical meristem, observed by histology. The apical
meristem can be produced before leaf primordia in regeneration from the hypocotyl, in contrast to the regeneration process
from the melon cotyledon. 相似文献
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Simone D'Angeli Paola Lauri Walter Dewitte Henry Van Onckelen Emilia Caboni 《Plant biosystems》2013,147(1):95-100
ABSTRACT The effects of macro- and micro-elements, benzyladenine (BA) concentration, and the period of auxin application on adventitious shoot formation from callus originating from vegetative shoot apices were tested on apple (Malus domestica Borkh) rootstock Jork 9. The putative relationship between organogenic response and cytokinin localisation was also studied by an immunolocalisation technique for in situ determination of free cytokinins. The use of MS (Murashige & Skoog, 1962) salts in the medium instead of those of LP (Quoirin & Lepoivre, 1977) had a strong positive effect both on shoot formation rate and on the number of shoots produced. The highest organogenic response from callus was induced using 17.8 μM BA in the presence of 2.7 μM NAA and by maintaining the explants for 20 days in darkness, then transferring them to fresh auxin-free medium and to the light. The in situ localisation studies, performed using antibodies with a marked specificity against zeatin and isopentenyladenine, revealed changes in the localisation of free zeatin in the tissues during the shoot-forming process, in particular during the active cell division phase leading to callus formation, and in the initial phase of bud formation. Changes in zeatin distribution in the tissues of the vegetative shoot apex during shoot formation may indicate a role for this cytokinin free base in cell differentiation and organogenesis. 相似文献
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香榧营养苗端的结构及淀粉动态的研究 总被引:3,自引:0,他引:3
香榧(Torreya grandis Fort ex Lindl)成熟植株营养芽的季节生长可分四个时期,休眠期,叶扩展期,芽鳞形成期和新的顶芽形成期,在整个生长周期中,苗端始终保持一定的分区形式,但各区繁简在不同发育阶段不尽相同,淀粉在苗端的分布及消长也具有分区特性,与细胞组织学分区完全一致。 相似文献
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Excised shoot apices of maize (Zea mays L.), comprising the apical meristem and one or two leaf primordia, have been cultured and can form rooted plantlets. The plantlets, derived from meristems that had previously formed 7–10 nodes, develop into mature, morphologically normal plants with as many nodes as seed-grown plants. These culture-derived plants exhibited the normal pattern of development, with regard to the progression of leaf lengths along the plant and position of axillary buds and aar shoots. Isolation of the meristem from previously formed nodes reinitiates the pattern and number of nodes formed in the new plant. Thus, cells of the meristem of a maize plant at the seedling stage are not determined to form a limited number of nodes. 相似文献