Regulation of Internodal Extension in Avena Shoots by the Inflorescence, Nodes, Leaves, and Intercalary Meristem

It has been found in recent studies that the inflorescence and nodes (node-pulvini) are the primary sources for native gibberellins in the Avena shoot, and that GA₃ is the predominant gibberellin in the inflorescence. In the present work, linear growth of next-to-last internode is drastically reduced by removal of the inflorescence and last leaf. This growth is completely abolished when the nodes are also excised. It is restored fully by the addition of GA₃ when the nodes are present, and restored only partially when the nodes are deleted. Internodal growth in Avena stem segments with basal node present is also restored by native GA₃-like substances extracted from Avena inflorescences and partially purified by silica gel partition column chromatography. Evidence from these studies, taken in toto, indicates that the inflorescence, nodes, and leaves supply gibberellins, leaves supply substrate, and nodes modulate the gibberellin growth response in next-to-last Avena internodes.     

Gibberellin signaling

Recent findings provide insights into the gibberellin signaling system in plants. Genes for gibberellin biosynthetic enzymes have been cloned, and an emerging theme is that gibberellin biosynthesis is negatively regulated by gibberellin responses. Mutants defective in gibberellin signaling have been analyzed, and an important finding is that gibberellin represses growth inhibition. The list of intracellular gibberellin signal-transduction elements has been expanded to include G-proteins and protein kinases.     

EUI1, encoding a putative cytochrome P450 monooxygenase, regulates internode elongation by modulating gibberellin responses in rice

Elongation of rice internodes is one of the most important agronomic traits, which determines the plant height and underlies the grain yield. It has been shown that the elongation of internodes is under genetic control, and various factors are implicated in the process. Here, we report a detailed characterization of an elongated uppermost internode1 (eui1) mutant, which has been used in hybrid rice breeding. In the eui1-2 mutant, the cell lengths in the uppermost internodes are significantly longer than that of wild type and thus give rise to the elongated uppermost internode. It was found that the level of active gibberellin was elevated in the mutant, whereas its growth in response to gibberellin is similar to that of the wild type, suggesting that the higher level accumulation of gibberellin in the eui1 mutant causes the abnormal elongation of the uppermost internode. Consistently, the expression levels of several genes which encode gibberellin biosynthesis enzymes were altered. We cloned the EUI1 gene, which encodes a putative cytochrome P450 monooxygenase, by map-based cloning and found that EUI1 was weakly expressed in most tissues, but preferentially in young panicles. To confirm its function, transgenic experiments with different constructs of EUI1 were conducted. Overexpression of EUI1 gave rise to the gibberellin-deficient-like phenotypes, which could be partially reversed by supplementation with gibberellin. Furthermore, apart from the alteration of expression levels of the gibberellin biosynthesis genes, accumulation of SLR1 protein was found in the overexpressing transgenic plants, indicating that the expression level of EUI1 is implicated in both gibberellin-mediated SLR1 destruction and a feedback regulation in gibberellin biosynthesis. Therefore, we proposed that EUI1 plays a negative role in gibberellin-mediated regulation of cell elongation in the uppermost internode of rice.     

Isolation and Structure of a Novel C20 Gibberellin in Bamboo Shoots

A new gibberellin C₂₀H₂₆O₆, tentatively named “bamboo gibberellin”, was isolated from water extract of bamboo shoots (Phyllostachys edulis) through successive purification procedures: countercurrent distribution, charcoal column chromatography, and silicic acid adsorption and partition chromatography. Its structure was established as lβ-methyl-4aα-fromyl-7α-hydroxy-8-methylenegibbane-lα,10β-dicarboxylic acid (VI) from analysis on infrared, NMR and mass spectra of its methyl ester.     

Design,synthesis, biological activities,and dynamic simulation study of novel thiourea derivatives with gibberellin activity towards Arabidopsis thaliana

Computer-aided drug design has advanced by leaps and bounds, and has been widely used in various fields, and especially in the field of drug discovery. Although the crystal structure of the gibberellin (GA) receptor GID1A had been reported in previous studies, there is still a lack of designs of gibberellin functional analogue based GID1A. In the present study, a series of 30 thiourea derivatives were designed, synthesized and biologically assayed. The results suggested that the synthetic compounds had good GA-like activities. Furthermore, the structure-activity relationship of the synthetic compounds was discussed, and the dynamic simulation and docking study revealed the binding properties of the GID1A receptor and compounds Y1, Y11, and Y21.     

植物赤霉素矮化突变体研究进展

赤霉素(GAs)在植物种子萌发、茎的伸长和花的发育等方面起着非常重要的作用。近年来,随着研究手段和技术不断进步,对赤霉素(GA)生物合成和信号传导过程中相关基因的研究取得了惊人的进展。与GA有关的矮化突变体主要有GA缺陷型和不敏感型两类,本文对与GA生物合成和信号传导过程中有关的这两类矮突变体的研究进展进行综述。对这些这些突变体的研究促进了对赤霉素生物合成和信号传导途径的认识,同时为赤霉素更好地利用提供了科学依据。     

Expression of gibberellin 3 beta-hydroxylase gene in a gravi-response mutant, weeping Japanese flowering cherry.

Expressions of the gibberellin biosynthesis gene were investigated in a normal upright type and a gravi-response mutant, a weeping type of Japanese flowering cherry (Prunus spachiana), that is unable to support its own weight and elongates downward. A segment of the gibberellin 3 beta-hydroxylase cDNA of Prunus spachiana (Ps3ox), which is responsible for active gibberellin synthesis, was amplified by using real-time RT-PCR. The content of Ps3ox mRNA in the weeping type was much greater than that in the upright type, while the endogenous gibberellin level was much higher in the elongating zone of the weeping type. These results suggest that the amount and distribution of synthesized gibberellin regulate secondary xylem formation, and the unbalanced distribution of gibberellin affects the gravi-response of the Prunus tree.     

Studies on Conjugated Lipids

It has been confirmed that gibberellin A is a mixture of three components, gibberellin A₁, gibberellin A₂ and gibberellic acid (namely gibberellin X), by treating their methyl ester through the chromatography on A1₂O₃ column. Attempts to separate them in free acid were made. The physical and chemical properties of each gibberellin as well as its physiological properties are described     

Isolation and Structure of Gibberellin A18 from Immature Seeds of Lupinus luteus

A new gibberellin, tentatively called Lupinus gibberellin I, was isolated from young yellow lupin seeds. It has been shown to have structure (X), and now named gibberellin A₁₈.     

Auxin-induced Fruit Set in Capsicum annuum L. Requires Downstream Gibberellin Biosynthesis

A hierarchical scheme for the central role of the plant hormones auxin and gibberellins in fruit set and development has been established for the model plants Arabidopsis and tomato. In the fruit crop Capsicum annuum, the importance of auxin as an early signal in fruit set has also been recognized; however, the effect of gibberellins and their interaction with auxin has not yet been studied. The aim of this study was to determine the role of gibberellin and the hierarchy between auxin and gibberellin. We applied gibberellin alone or in combination with auxin or with the gibberellin biosynthesis inhibitor paclobutrazol on stigmas of emasculated flowers. Gibberellin application enhanced fruit set, whereas application of paclobutrazol reduced fruit set. The effect of paclobutrazol treatment could be counteracted by coapplication of gibberellin but not by auxin_. These results indicate that in C. annuum, like in Arabidopsis and tomato, auxin is the major inducer of fruit set that acts in part by inducing gibberellin biosynthesis. Interestingly, gibberellin does not significantly contribute to the final fruit size but seems to play an important role in preventing flower and fruit abscission, a major determinant of production loss in C. annuum. At the same time, gibberellin together with auxin seems to balance cell division and cell expansion during fruit growth.     

毛竹茎秆伸长过程中赤霉素生物合成、降解和信号转导关键基因的鉴定及表达分析

赤霉素(Gibberellin)是一类非常重要的植物激素,在高等植物生命活动的整个周期都起着重要的调控作用。从毛竹Phyllostachys edulis基因组中共鉴定出23个赤霉素途径基因,包括赤霉素生物合成相关的8个GA20ox和1个GA3ox基因、降解相关的8个GA2ox基因、参与赤霉素感知的2个GID1基因以及信号转导的2个GID2基因和2个DELLA基因。拟南芥、水稻和毛竹的系统进化树和保守基序分析显示赤霉素的合成代谢与信号转导在这些物种中是高度保守的。利用外源赤霉素处理毛竹种子和幼苗,发现赤霉素能显著提高种子的萌发率和幼苗的茎秆伸长,并且有着最佳的作用浓度。在GA3处理后,毛竹体内赤霉素生物合成基因GA20ox和GA3ox表达量均下调而降解活性赤霉素的GA2ox基因表达量上调;赤霉素受体GID1和正调控基因GID2的转录水平显著提高而负调控基因DELLA的表达受到抑制。这些基因在竹笋茎秆的不同形态学位置表达差异明显,大部分赤霉素生物合成与降解的相关基因GA20ox、GA3ox和GA2ox以及赤霉素受体GID1和正调控基因GID2都在竹笋的形态学上端大量表达,而赤霉素信号转导的阻遏基因DELLA在笋体形态学底端大量积累而顶端基本不表达。     

Low temperature, gibberellin and acid lipase activity in removal of apple seed dormancy

The activity of acid lipase and the level of gibberellin A₄ (GA₄) were determined in apple embryos excised from seeds after different time periods of stratification and subsequently cultured in darkness at 4°C or at 25°C. Enzyme activity and GA₄ content were higher at 4°C. Exogenous gibberellin stimulated lipase activity, while AMO-1618, an inhibitor of gibberellin biosynthesis, inhibited, to the same degree, both the enzyme activity and the GA₄ accumulation. The involvement of GA₄ and lipolytic enzymes in cold-mediated removal of embryonal dormancy has been discussed and compared with the role of these two factors in light-stimulated germination of dormant apple embryos, described earlier (Smoleńska and Lewak 1974).     

Free and Bound Gibberellin Activities and Ent-kaurene Synthesis during Induction of Cold Hardiness in Black Locust Seedlings

The role of gibberellin in the development of cold hardiness in black locust (Robinia pseudoacacia L.) seedlings was investigated. Free and bound gibberellin activities were followed during induction of cold hardiness using ethyl acetate partitioning and pH variation, with subsequent paper chromatographic fractionation and gibberellin bioassay. While total gibberellin activity decreased during the induction of cold hardiness in black locust seedlings, no convincing evidence was found to support conversion of free gibberellin to a bound form. However, bound gibberellin activity did appear to be more stable than did free gibberellin activity during the final stages of cold hardening at freezing temperatures. Gibberellin synthesis was followed using ¹⁴C-mevalonate conversion to ent-kaurene in a cell-free extract of the tissue. Ent-kaurene synthesis decreased during cold hardening with no detectable synthesis in fully hardened seedlings. However, since growth cessation precedes development of cold hardiness, decreased gibberellin synthesis and corresponding trends in free and bound fractions might have been expected, and a cause and effect relationship is difficult to establish. Even so, a decline in one step in gibberellin synthesis and a greater stability of bound than free gibberelin activity are associated with induction of cold hardiness in black locust seedlings.     

Biochemical Studies on “Bakanae” Fungus. Part 51–53

The outline of this report has already been published in this Journal as a communication to the Editors. The relation among four isomers, gibberellin A₁, gibberellin C, pseudogibberellin A₁ and isogibberellin A₁ was clarified. The partial structure of gibberellin C is presented.     

Hormone interactions and regulation of Unifoliata, PsPK2, PsPIN1 and LE gene expression in pea (Pisum sativum) shoot tips

The Unifoliata (Uni) gene plays a major role in development of the compound leaf in pea, but its regulation is unknown. In this study, we examined the effects of plant hormones on the expression of Uni, PsPK2 (the gene for a pea homolog of Arabidopsis PID, a regulator of PIN1 targeting), PsPIN1 (the major gene for a putative auxin efflux carrier) and LE (a gibberellin biosynthesis gene, GA3ox), and also examined mutual hormonal regulation of these genes, in pea shoot tips, including a number of mutants. The Uni promoter possessed putative auxin and gibberellin response elements. The PsPIN1 mRNA levels were increased in afila, which replaces leaflets with branched tendrils; and reduced in tendrilless, which replaces tendrils with leaflets, compared with the wild type (WT). In contrast, mRNA levels of LE were increased in uni and tendrilless and decreased in afila compared with the WT. Uni, PsPK2 and PsPIN1 are positively regulated by gibberellin and auxin, and were induced to higher levels by simultaneous application of auxin and gibberellin. Auxin induction of Uni, PsPK2 and PsPIN1 did not require de novo protein synthesis. LE was positively regulated by auxin and cytokinin. In conclusion, these results support the hypothesis that auxin and gibberellin positively regulate Uni, which controls pea compound leaf development. Also, Uni, PsPIN1, PsPK2 and LE are expressed differentially in the leaf mutants, suggesting that mutual regulation by auxin and gibberellin promotes compound leaf development.     

INTERACTION OF GIBBERELLIN, KINETIN AND POTASSIUM NITRATE IN THE GERMINATION OF LIGHT-SENSITIVE TOBACCO SEEDS

1. The effects of gibberellin, kinetin, potassium nitrate, andtheir interactions in the germination of light-sensitive tobaccoseeds were studied. 2. Gibberellin was very effective in inducing the dark germinationof tobacco seeds, and a linear relation was found to exist betweenthe germination rate and the concentration of gibberellin ifa suitable temperature was chosen for germination. This linearrelation was, however, changed by illumination and by a raisedtemperature in the manner that the germination on lower concentrationsof gibberellin was increased by the former and decreased bythe latter. 3. Kinetin was effective in promoting the tobacco seed germinationonly when the seeds were irradiated. This light effect was,however, limited only to the longer wavelengths in the visibleregion. The red effect was found to be reversed by infra-redirradiation under the influence of kinetin. 4. The combination of gibberellin and kinetin was synergisticin promoting the tobacco seed germination both in the lightand in the dark, whereas the combination of potassium nitrateand gibberellin or kinetin was synergistic only in the light. (Received November 1, 1960; )     

Characterization of gibberellins from light-grown Phaseolus coccineus seedlings by combined GC-MS

Following extensive purification of an extract from 5000 light-grown Phaseolus coccineus seedlings by procedures including countercurrent distribution, Sephadex G10, polyvinylpyrrolidone, charcoal-celite and silicic acid partition column chromatography, TLC preparative GLC, gibberellins A₁, A₄, A₅ and A₂₀ were characterized by combined GC-MS. In addition, an unknown compound isomeric with gibberellin A₁₇ but lacking an hydroxyl group, was also detected.     

赤霉素、钙和甜菜碱对小桐子种子萌发及幼苗抗低温和干旱的影响

小桐子(Jatropha curcas L.)属大戟科( Euphorbiaceae)麻疯树属(Jatropha L.)的能源植物。分别以小桐子种子和幼苗为实验材料,研究了不同浓度的赤霉素和CaCl₂单独处理,以及不同浓度的赤霉素、CaCl₂和甜菜碱组合处理对小桐子种子萌发及幼苗抗低温和干旱的影响。结果表明:分别用10 mg/L赤霉素和10 mmol/L CaCl₂处理小桐子种子,不仅可以提高其在正常萌发条件(26℃)、低温(18℃)和干旱胁迫(5% PEG6000)下的发芽率,还可缓解小桐子幼苗在低温(2℃)或干旱胁迫(25% PEG6000)下电解质渗漏率的增加和丙二醛(MDA)的积累。用10 mg/L赤霉素、5 mmol/L CaCl₂和15 mmol/L甜菜碱组合处理小桐子种子,也可进一步增强其在正常萌发(26℃)、低温(18℃)和干旱胁迫(5% PEG6000)条件下种子的发芽率,以及缓解小桐子幼苗在低温(2℃)或干旱胁迫(25% PEG6000)下电解质渗漏率的增加和MDA的积累,表明10 mg/L赤霉素和10 mmol/L CaCl₂分别处理或10 mg/L赤霉素、5 mmol/L CaCl₂和10 mmol/L甜菜碱组合处理可提高小桐子种子在低温和干旱胁迫下的发芽率,以及提高小桐子幼苗对低温和干旱胁迫的抵抗能力。     

Biochemical Studies on “Bakanae” Fungus. Part 48–50

The outline of this report has already been published in this Journal appearing under “Communication to the Editors” A new gibberellin which was named gibberellin A₄ was isolated and characterized.