Influence of IBA and Cordycepin on Rooting and RNA Synthesis in Stem Cuttings of Phaseolus aureus Roxb

Jarvis, Basil; Shannon, P. R. M.; Yasmin, S.

doi:10.1093/pcp/24.2.139

Cited by 28 publications

(3 citation statements)

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“…IAA can promote the formation of tubers, and the increase of endogenous IAA is conducive to the formation of tubers. Jarvis et al (1983) also confirmed that the increased concentration of IAA induced the increased synthesis of RNA, which translated specific proteins and induced the formation of tubers.…”

Section: Polarity Of Petiolesupporting

confidence: 60%

Effect of different plant growth regulators on micro-tuber induction and plant regeneration of Pinellia ternate (Thunb) Briet

Wang

et al. 2009

Physiol Mol Biol Plants

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Section: Polarity Of Petiolesupporting

confidence: 60%

Effect of different plant growth regulators on micro-tuber induction and plant regeneration of Pinellia ternate (Thunb) Briet

Wang

et al. 2009

Physiol Mol Biol Plants

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“…Several resports show that this accumulation is aided by reduced activity of IAA oxidase/peroxidase in the rooting zone [6,15,49] . [37] reported a phase of diminished RNA synthesis within the first 20h . The IAA concentration subsequently declined, accompanied by increased peroxidase activity .…”

Section: Discussionmentioning

confidence: 99%

The role of endogenous auxin in root initiation

1991

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This paper describes the process of the formation of adventitious roots . There appears to be good agreement that this consists of four stages, dedifferentiation coupled with the formation of a meristematic locus, cell division to form a radially symmetrical cluster of cells, further divisions coupled with organisation into a bilaterally symmetrical meristem and finally growth of cells in the basal part of the meristem which causes its protursion through the epidermis. Evidence for the involvement of auxins in these various stages is reviewed and the extent to which rooting of easy-and hard-to-root species can be accounted for in terms of auxin content discussed. Peaks of IAA occur soon after excision of cuttings in some species and there is some evidence suggesting that this is correlated with changes in peroxidase activity . The possible involvement of cytokinins with auxins is briefly considered.

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“…Key Words: low鄄light stress; maize; shade鄄tolerance style; ear development; ABA; IAA; GA; ZR 玉米是典型的 C 4 喜光作物,具有较高的光饱和点和较低的光补偿点,整个生育期都需要充足的光照。黄淮海地区是我国夏玉米的主产区,八月中下旬常遭遇连阴天的天气,而此时正是玉米抽雄吐丝和籽粒建成的关键时期,光照不足常引起籽粒建成的改变和产量的降低。作为玉米收获的主要器官,果穗中的同化物向籽粒中的分配随外界因素而变化 [1鄄 2] ,穗长、穗粗、穗行数、行粒数和籽粒库容的变化直接关系到产量的高低,各因子之间相互协调才能获得高产 [3鄄 4] 。研究表明,弱光下玉米生长发育延缓,叶面积指数降低 [5鄄 6] ,植物叶绿体基粒数、基粒厚度和片层数增加且片层之间出现松散现象 [7] ,光合酶活性和光合速率下降 [6, 8鄄 9] ; 穗发育受阻、穗长和穗粗下降、雌雄间隔期延长 [10鄄 11] ,授粉成功率和穗粒数降低、败育籽粒数增加,进而造成籽粒减 [28] ,也可能是因为弱光胁迫下光合速率降低造成蔗糖和果糖等比例的变化 [11] ,从而影响 IAA 含量 [29鄄 30] 。激素平衡的变化会影响植物正常的生长发育 [31] ,IAA / ABA、GA / ABA 和 CTK / ABA 比值的降低会引起生长发育的停滞 [32] 。研究发现,不同耐荫型玉米 IAA、GA 和 ZR 含量与 ABA 比值的变化与 3 种激素本身的变化趋势相似。 2. 3摇弱光胁迫对果穗发育的延缓作用与内源激素含量密切相关弱光胁迫下,不耐荫型玉米的穗长、穗粗、穗干重、穗粒数和籽粒库容等的减少幅度均大于耐荫型的。穗粒数和籽粒库容减少的原因可能是,ABA 含量的增加抑制了胚乳细胞分裂,使库容减小 [33] ,不利于同化物的吸收和籽粒成熟 [34] 。虽然 ABA 并未直接导致籽粒的败育,但可能通过与其它因子之间的作用导致了籽粒的败育和库容的降低 [35鄄 36] 。前人研究表明,一定量的 IAA 积累才能启动并维持籽粒的灌浆 [34] ,并通过 mRNA 0 2 3 4 摇生摇态摇学摇报摇摇摇 33 卷摇翻译水平的调节影响籽粒生长发育 [37] ,IAA 含量的降低易导致营养物质供应的不足而导致籽粒败育 [38] 。弱光胁迫下,耐荫型玉米果穗中的 ABA 含量几乎不变,IAA 含量升高,这可能是其耐荫性较高的原因之一。 ZR 是天然细胞分裂素中活性最强的一种,可促进细胞分裂 [39]…”

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Effects of low-light stress on maize ear development and endogenous hormones content of two maize hybrids (Zea maysL.) with different shade-tolerance

Weixia

Chaohai²,

Tianxue³

et al. 2013

Acta Eco Sin

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Light is one of the most important environmental factor influecing the growth and development of maize (Zea mays L.). Sufficient light during the growing period is the basis of high yield formation of maize. However, there are always prolonged rainy days during maize growing season in the Huang鄄huai鄄hai region, which are detrimental for maize yield formation. And prolonged rainy days at flowering stage bring more severe damage to maize production. Low鄄light environment leads to a decrease in photosynthetic rate, a reduction and redistribution of biomass, an extension of anthesis to silking interval, and a significant reduction of ear kernel number and grain yield. And there are significant differences in maize genotypes responses to low light stress. Previous studies have elucidated the effects of endogenous hormones on the apical kernels abortion and under low鄄light stress. However, whether the endogenous hormones have influence on the whole ear development process is unknown. A split plot experiment was conducted under field conditions during 2010 and 2011, to study the effects of shading and light recovery on the growth and development of maize ear and endogenous hormones of two maize hybrids. The main plots are light treatment (natural light and 50% shading) and sub鄄plots are cultivars (low light sensitive hybrid YY22 and low light tolerance hybrid ZD958). In the low light treatment, maize plants were shaded with 50% transmittance shading nets from 3 days before tasselling to 10 days after silking. The results showed that the growth and development of maize ear was delayed, ear length, ear diameter, ear dry weight, ear row number, kernel number and kernel sink capacity were significantly decreased while barren tip increased under low light conditions with low

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Influence of IBA and Cordycepin on Rooting and RNA Synthesis in Stem Cuttings of Phaseolus aureus Roxb

Cited by 28 publications

References 0 publications

Effect of different plant growth regulators on micro-tuber induction and plant regeneration of Pinellia ternate (Thunb) Briet

Effect of different plant growth regulators on micro-tuber induction and plant regeneration of Pinellia ternate (Thunb) Briet

The role of endogenous auxin in root initiation

Effects of low-light stress on maize ear development and endogenous hormones content of two maize hybrids (Zea maysL.) with different shade-tolerance

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