The Control of Leaf Senescence in Kleinia articulata by Photoperiod

Experiments with attached and detached leaves of K. articulatahave shown that senescence rates are determined by the daylengthprevailing during early growth (leaf-expansion stage) and thatthis effect is lasting, long days leading to early leaf death.Daylength also affects longevity after full expansion has occurred,long days hastening senescence. Tests with numerous plant-growthregulators have revealed beneficial effects of gibberellic acid,while kinetin is detrimental to survival at 50 ppm. Entire detachedleaves and isolated petioles behave similarly to leaves on theplant, but leaf discs do not behave in the same way. Other parametersaffected by daylength include: leaf shape, the capacity of leavesto form roots, and enlargement of mesophyll cells normal tothe leaf surface.     

Senescence-Associated Changes during Long-day-induced Leaf Senescence and the Nature of the Graft-transmissible Senescence Substance in Kleinia articulata

Schwabe, W. W. and Kulkarni, V. J. 1987. Senescence-associatedchanges during long-day-induced leaf senescence and the natureof the graft-transmissible senescence substance in Kleinia articulata.— J. exp. Bot. 38: 1741–1755. The long-day-induced senescence in Kleinia articulata leaveswas characterized by a loss in fresh and dry weight, in therate of leaf expansion and progressive loss of chlorophyll inthe detached rooted leaves. Ultrastructural examination of mesophyllcells of leaves from plants grown in continuous light showedthat osmiophilic globules accumulating in the chloroplasts werethe first visible sign of senescence in the organdies. Thesefirst signs of senescence could be detected in very young leavesof plants in continuous light, even before the leaves had expanded.Attempts were made to study the cause of this photoperiodicsenescence which, from previous work, appeared to involve agraft-transmissible substance. Leaves in continuous light showed reduced stomatal opening andextracts from them had very much higher activity in the Commelinastomatal closure assay (ABA-like activity ?) compared with non-senescingleaves grown in short days (8 h). However, even if all the activitywere due to ABA, this on its own does not appear to be the senescencesubstance because a much longer exposure to continuous lightwas required to induce irreversible senescence than to reachmaximum stomatal closure promoting activity in the bioassay.Moreover, severe water stress (high ABA?) did not lead to senescenceunless combined with continuous light or ethylene treatment.It is postulated that while ABA may play an important role inKleinia leaf senescence its lethal effect may not be realizedunless ethylene-induced membrane changes may synergisticallyassist. Key words: Leaf senescence, ABA, Daylength, stomatal movement, Kleinia     

Buffer systems in Kleinia articulata

Summary The juice of the succulent stems ofKleinia articulata contains aluminium and calcium phosphate. The main features of the titration curves of the juice are reproduced in the case of young stems by solutions of malic acid containing a small amount of aluminium, in the case of old stems by solutions ot malic acid containing calcium phosphate. The amounts of phosphate and calcium increase considerably with the age of the shoots. Rough preliminary calculations from the titration curves indicate that, whereas the titratable acidity in this plant is low for a succulent, the total malate content compares favourably with corresponding data for other more acid succulents.Our best thanks are due to Mr. N. Woodhead for generous assistance in connexion with the supply of material for the work.     

Differences in Graft Transmission of the Floral Stimulus in Two Species of Kleinia

Graft transmission of the floral stimulus was studied in homograftsof Kleinia articulata (SDP) and heterografts between K. articulataand K. repens (LSDP). While receptor shoots of K. repens graftedonto induced donor plants of K. articulata flowered readilyin LD (16 h) as well as SD (8 h), graft-induced flowering failedto take place in LD receptors of K. articulata. Neither theinduced shoots and detached leaves from induced plants of K.articulata nor the induced shoots of K. repens could evoke theflowering response in the K. articulata receptors. Increasingthe donor pool of induced leaves even up to ten per receptoralso had no effect. It is known that the very young leaf primordiaof K. articulata are photoperiodically sensitive, and it seemsthat they may prevent the stimulus from reaching the apex. Key words: Kleinia, Flowering stimulus, Graft transmission     

The Control of Flowering, Growth, and Dormancy in Kleinia articulata by Photoperiod

Kleinia articulata subjected to different photoperiods becomesdormant in long days (continuous light) and grows uninterruptedlyin short days (8 h). Dormancy results from the rapid cessationof leaf differentiation and expansion. By contrast stem growthis faster in long days and continues until all leaves have died.In long days growth is not halted permanently but flushes ofleaf production and stem elongation occur. Resumption of growthis stimulated rapidly by total darkness or short-day treatmentof the extreme stem tips for some days. This species is a strictshort-day plant in its flowering behaviour, depending on thisdaylength for normal inflorescence development also.     

植物叶片衰老的表观遗传调控

叶片是植物重要的光合器官, 它的衰老由外界环境刺激和内源发育信号所启动, 复杂的基因调控网络参与衰老过程的精确调控。最新研究表明, 植物通过对基因表达的重编程, 在表观遗传水平上调节着叶片衰老过程。该文简要介绍了表观遗传的分子机制, 在此基础上重点综述了组蛋白修饰、染色质重塑、DNA甲基化及小RNAs途径对叶片衰老调控的最新研究进展, 同时讨论了该领域存在的问题和未来研究方向。     

Leaf Senescence and GABA Shunt

Leaf senescence is highly regulated and complex developmental process that involves degradation of macromolecules as well as its recycling. Senescence process involves loss of chlorophyll, degradation of proteins, nucleic acid, lipid and mobilization of nutrients through its transport to the growing parts, developing fruits and seeds. Nitrogen is the most important nutrient to be recycled in senescence process. GABA-transaminase (γ-aminobutyric acid) is found to play very important role in nitrogen recycling process through GABA-shunt. Therefore, it is of interest to review the significance of GABA shunt in leaf senescence.     

Possible Mechanisms of Adaptive Leaf Senescence

Abstract: Availability of nitrogen almost always limits plant growth. Therefore, efficient use of nitrogen is essential for the plants. In upright plants, especially when they form dense plant stands, old, lower leaves are shaded by young, upper leaves. Nitrogenous compounds in such shaded leaves are degraded and re-allocated to the developing young, upper leaves. These processes raise efficiency of nitrogen use in photosynthetic production of the plant. For this to occur in the most effective way, leaves would need to sense their photosynthetic status in a plant and increase, maintain or decrease their photosynthetic capacity accordingly. Hypotheses that explain how a leaf can sense its photosynthetic status in the plant are reviewed. They include systems involving phytochrome, sugar-sensing, or cytokinin. Our experimental results with Helianthus annuus and Phaseolus vulgaris plants, which were subject to various shading treatments, are examined in the light of these hypotheses. Our experimental results favoured the sugar-sensing hypothesis: A leaf can sense demand of other plant parts for photosynthates produced by it and nitrogen abundance or deficiency by monitoring its sugar concentration. Problems that are to be challenged in the near future are also pointed out.     

植物叶片衰老过程中的基因表达与调控

衰老是一种器官或组织逐步走向功能衰退和死亡的变化过程〔１〕。它除了代表器官或组织生命周期的终结之外,在发育生物学上也有着重要的意义。叶片的衰老是植物的一个重要发育阶段。在这段时期内,植物在成熟叶片内积累的物质,包括大量的氮、碳有机化合物和矿物质,将被分解并运送至植物其它生长旺盛的部分,其中大部分被转移到种子内,为下一代的生长做好准备〔１１〕。对于产生种子的作物,包括绝大多数农作物,这种转移使营养重新分配,对植株保持正常的生长发育与繁殖是十分必要的〔３〕。衰老过程中,叶片细胞在组成成分上有很大的变…     

植物叶片衰老与氧化胁迫

叶片衰老是叶片生长发育进程中的最后阶段,与活性氧伤害有着密切的关系。介绍了植物叶片衰老过程中活性氧产生及清除系统的变化,讨论了对水分胁迫与氧化胁迫的交叉抗性,并对下一步的研究作出了展望。     

植物叶片衰老与氧化胁迫

叶片衰老是叶片生长发育进程中的最后阶段,与活性氧伤害有着密切的关系。介绍了植物叶片衰老过程中活性氧产生及清除系统的变化,讨论了对水分胁迫与氧化胁迫的交叉抗性,并对下一步的研究作出了展望     

植物叶片衰老的分子机制

文章就叶片衰老过程中基因表达调控机制的研究进展作了介绍     

Retardation of Leaf Senescence by Ascorbic Acid

Leaf discs of Solatium melongena were floated on various concentrationsof ascorbic acid (AA), gibberellic acid (GA₃), and kinetin inorder to study their effect on senescence. AA was highly effectivein retarding senescence as shown by the arrest of the fall inlevels of chlorophyll, DNA, RNA, and proteins. AA was effectiveat a lower concentration than that of GA₃ or kinetin.     

丝氨酸内肽酶在黄瓜叶片衰老中的作用

采用丝氨酸内肽酶抑制剂和植物生长调节剂处理离体黄瓜叶片,研究了黄瓜叶片暗诱导衰老过程中丝氨酸内肽酶的作用。结果表明,6-BA50μmol／L与丝氨酸内肽酶抑制剂AEBSF能抑制叶片内肽酶活性的升高,延缓蛋白质降解,而ABA50μmol/L则促进了内肽酶活性的升高：其作用效果与AEBSF相反。活性电泳结果显示,黄瓜叶片中检测到6条内肽酶同工酶,其中4条（CEP2、3、4、6）为丝氨酸类型内肽酶,而ABA使丝氨酸内肽酶CEP2、3、4、6的活性明显增强,提示了丝氨酸类型内肽酶在黄瓜叶片衰老过程中具有重要作用。     

Peach Leaf Senescence Delayed by Criconemella xenoplax

Fall annual leaf senescence of peach was delayed in the field and in microplots in the presence of Criconemella xenoplax. Soil from the rhizosphere of orchard trees with greener leaves had ca. 2.5 × more nematodes than soil around trees in a more advanced state of fall senescence. In microplots, monoclonal antibody enzyme immunoassay (EIA) of leaf cytokinins indicated that concentration of zeatin riboside-like substances and chlorophyll content were greater in leaves of trees growing in nematode-infested soil than in trees in uninfested soil. EIA also indicated the presence of substances resembling trans-zeatin, zeatin riboside, dihydrozeatin, and dihydrozeatin riboside-like substances in whole body homogenates of C. xenoplax. Levels of zeatin-like substances were present in the nematode in greater levels than the other related substances.     

表观遗传调控植物叶片衰老的研究进展

植物叶片衰老是一个非常重要的发育过程,涉及大分子的有序分解从而将营养物质从叶片转移到其他器官,对植物的生存和适应至关重要。叶片衰老主要受植物的发育调控,但同时也受内部和外部环境因素的影响,涉及高度复杂的基因调控网络和多层级的调控。近年来的研究表明表观遗传是调控植物叶片衰老的一种重要调控方式。该研究综述了植物叶片衰老过程中的表观遗传调控机制,包括组蛋白修饰、DNA甲基化、ATP依赖的染色质重塑和非编码RNA介导的调控,并对该领域今后的发展方向进行了展望。     

毛竹叶片衰老过程的叶重量、叶面积及元素内吸收率的动态

对福建永春毛竹(Phyllostachyspubescens Mazel ex H.de Lehaie)叶片衰老过程的叶重量、叶面积及元素内吸收率的动态进行了研究,并对元素内吸收率RE1(以元素的干重含量为计算单位,mg/g)、RE2(以单位叶片的元素含量为计算单位,mg/leaf)以及RE3(以单位叶面积的元素含量为计算单位,mg/cm2)进行了比较.叶片衰老过程中,平均叶重量、叶面积及比叶重分别下降了19.55%、15.16%和5.07%.叶重量与叶面积下降百分率的季节变化趋势一致,说明毛竹叶片存在一定的重量与面积比率.在不同的元素内吸收率比较中,N和K的元素内吸收率均为正,Ca均为负,表明叶片衰老过程中N和K的元素含量从衰老叶片中转移至植株的其他部位,而Ca在老叶中累积.N、P、K、Ca和Mg5种元素平均的元素内吸收率高低顺序均为RE2＞RE3＞RE1,反映出以元素的干重含量为计算单位和以单位叶面积的元素含量为计算单位的元素内吸收率偏低.