月季切花衰老过程中多胺与乙烯的关系

月季切花瓶插过程中,内源腐胺在前2天略有增加,内源亚精胺、精胺、多胺总量则呈下降趋势,乙烯释放速率在第3天达到最高峰;多胺抑制剂甲基乙醛-双咪腙处理抑制了亚精胺、精胺的合成,增加了乙烯的释放速率;乙烯抑制剂氨氧乙酸处理推迟腐胺高峰的到来,降低了乙烯的释放速率,而且在瓶插期的前2天内源亚精胺、精胺含量较高。结果表明,具乙烯跃变型特征的月季切花衰老过程中,多胺与乙烯在其生物合成过程中相互竞争S-腺苷甲硫氨酸作为其合成的前体。     

Petunia flower longevity: the role of sensitivity to ethylene

Two petunia ( Petunia hybrida L.) lines, differing in their flower longevity, were studied, Similar tendencies were found in the changes of corolla fresh weight, electrolyte leakage and membrane microviscosity over the life spans of the two lines. Ethylene production by flowers of the two lines showed a similar pattern, peaking at 3 nl flower⁻¹ h⁻¹. However, in flowers of the short-lived line, ethylene production peaked at 6 days of age, but in the long-lived line, the peak appeared at 10 days of age. A large difference was found in the responsiveness of the flower to ethylene, Flowers of the short-lived line responded to a similar ethylene by immediate wilting, while those of the long-lived line responded to a similar ethylene treatment only after two days. Differences in sensitivity to ethylene were also, observed when the flowers were treated continuosly with (aminooxy)acetic acid, which blocks ethylene synthesis. Flowers of both lines responded to ethylene treatment by increased ethylene production to a similar rate. Differential sensitivity to ethylene, independent of ethylene production, seemingly governs flower longevity in the two petunia lines studied.     

鲜切花的衰老与保鲜(综述)

本文概述鲜切花在瓶插过程中水分代谢、物质代谢、植物激素,细胞膜变化与切花衰老之间的关系,以及鲜切花保鲜技术的研究进展。     

Vascular occlusion in stems of cut rose flowers exposed to air: Role of xylem anatomy and rates of transpiration

Stems of cut rose flowers were exposed to air at 20°C and 60% relative humidity and then placed in water. The rate of water uptake in Frisco, Sonia, Madelon, and Cara Mia roses was maximally inhibited after 72, 36, 24, and 3 h of exposure to air. respectively. Anatomical observations showed no tyloses, gums, or deposition of hydrophobic material in the xylem conduits (tracheids and vessels) of any of the investigated cultivars. Frisco, Sonia, Madelon, and Cara Mia roses showed no difference in the number, the length, the wall thickness, or the diameter of the lumina of either the tracheids or the vessels. This indicates that differences in recovery are not related to capillary diameter or length.
During exposure to air the decrease in transpiration rate, fresh weight, and water potential was the same in Sonia, Madelon, and Cara Mia roses. Upon exposure to air Frisco roses lost less water than the other cultivars studied In Frisco roses stomatal conductance was similar to that of other cultivars, but the rate of cuticular transpiration was lower.
It is concluded that conservation of water through low cuticular transpiration is one of the reasons for the relatively slow development of the vascular occlusion in Frisco roses, but the differences between Sonia. Madelon and Cara Mia roses were not related to their rates of transpiration.     

Development of microsatellite markers in rose

Thirteen polymorphic microsatellite markers were developed in rose (Rosa hybrida L.) from an enriched genomic library. Ten out of 13 microsatellites showed amplification and produced four to 12 polymorphic alleles per locus, with an average of 8.4 in Rosa multiflora. The average values of observed and expected heterozygosities among the 10 loci were 0.62 and 0.82, respectively. Thirteen microsatellites produced three to 22 genotypes with an average value of 11.4 in modern garden roses. The average value of the power of discrimination among the microsatellites was 0.79, ranging from 0.29 to 0.95.     

表油菜素内酯对月季切花衰老的影响

0.5mg·L~(-1)表油菜素内酯明显缓解水分对月季切花的胁迫,促进切花体内水分平衡的改善和还原糖含量的增加,抑制花瓣溶质外渗,从而延缓切花衰老。     

Cytokinins in cut carnation flowers. VII. The effect of zeatin and dihydrozeatin derivatives on flower longevity

Dihydrozeatin, at 4×10^–5 M, delayed the senescence of carnation flowers while tZ, at the same concentration, accelerated it. cis-Zeatin was ineffective. The DHZ derivatives as well as the Z derivatives gave responses very similar to those observed for the parent free bases. While additional experimentation with radiolabelled derivatives is clearly called for, the similarity between the responses observed for the respective derivatives and the free bases, suggests that in the carnation flower there is a great deal of metabolic interconversion.Abbreviations DHZ dihydrozeatin - DHZR ribosyldihydrozeatin - DHZOG glucosyl-O-dihydrozeatin - DHZ9G glucosyl-9-dihydrozeatin - DHZROG glucosyl-O-ribosyldihydrozeatin - cZ cis-zeatin - tZ trans-zeatin - ZR ribosylzeatin - Z9G glucosyl-9-zeatin - ZOG glucosyl-O-zeatin - ZROG glucosyl-O-ribosylzeatin     

月季切花衰老过程中多胺与膜脂过氧化的关系

以月季切花为材料,研究了月季切花瓶插过程中多胺含量的变化,外源多胺处理对月季药花体内多胺含量的影响以及多胺与膜脂过氧化的关系。结果表明,月季切花瓶插衰老过程中腐胺在前2d略有增加,亚精胺和精胺均呈下降趋势;外源亚精胺和精胺处理均能增加切花体内多胺含量,并能延缓切花衰老和改善切花品质;且亚精胺和精胺处理降低了MDA含量的积累和膜相对透性的上升趋势。     

Engineering of the rose flavonoid biosynthetic pathway successfully generated blue-hued flowers accumulating delphinidin

Flower color is mainly determined by anthocyanins. Rosa hybrida lacks violet to blue flower varieties due to the absence of delphinidin-based anthocyanins, usually the major constituents of violet and blue flowers, because roses do not possess flavonoid 3',5'-hydoxylase (F3'5'H), a key enzyme for delphinidin biosynthesis. Other factors such as the presence of co-pigments and the vacuolar pH also affect flower color. We analyzed the flavonoid composition of hundreds of rose cultivars and measured the pH of their petal juice in order to select hosts of genetic transformation that would be suitable for the exclusive accumulation of delphinidin and the resulting color change toward blue. Expression of the viola F3'5'H gene in some of the selected cultivars resulted in the accumulation of a high percentage of delphinidin (up to 95%) and a novel bluish flower color. For more exclusive and dominant accumulation of delphinidin irrespective of the hosts, we down-regulated the endogenous dihydroflavonol 4-reductase (DFR) gene and overexpressed the Irisxhollandica DFR gene in addition to the viola F3'5'H gene in a rose cultivar. The resultant roses exclusively accumulated delphinidin in the petals, and the flowers had blue hues not achieved by hybridization breeding. Moreover, the ability for exclusive accumulation of delphinidin was inherited by the next generations.     

Effects of 1-MCP on the vase life and ethylene response of cut flowers

Pretreatment for 6 h with low concentrations of 1-MCP (1-Methylcyclopropene, formerly designated as SIS-X), a cyclic ethylene analog, inhibits the normal wilting response of cut carnations exposed continuously to 0.4 l·l^–1 ethylene. The response to 1-MCP was a function of treatment concentration and time. Treatment with 1-MCP was as effective in inhibiting ethylene effects as treatment with the anionic silver thiosulfate complex (STS), the standard commercial treatment. Other ethylene-sensitive cut flowers responded similarly to carnations. In the presence of 1 l·l^–1 ethylene, the vase life of 1-MCP-treated flowers was up to 4 times that of the controls.Abbreviations 1-MCP 1-Methylcyclopropene - STS silver thiosulfate     

四种鲜切花保鲜剂的筛选

本文研究了四种鲜切花(唐菖蒲、月季、康乃馨和鹤望兰)的保鲜剂配方,观测各种保鲜剂对切花外观品质和瓶插寿命的影响,从中筛选出各种鲜切花的较佳保鲜剂,并讨论了组成保鲜剂配方的各种成分(糖、杀菌剂、有机酸、无机盐、乙烯抑制剂和拮抗剂以及植物生长调节剂)的作用。     

切花月季生物学特性的研究

对江苏常州引进的 2 6个切花月季品种的物候期、花枝生长、开花特性及适应性等作了详细的观测记录 ,为今后切花月季的引种栽培提供科学的依据     

Inhibition of wilting and autocatalytic ethylene production in cut carnation flowers by cis-propenylphosphonic acid

The effect of cis-propenylphosphonic acid (PPOH), a structural analoge of ethylene, on flower wilting and ethylene production was investigated using cut carnation flowers which are very sensitive to ethylene. Wilting (petal in-rolling) of the flowers was delayed by continuously immersing the stems in a 5–20 mM PPOH solution. In addition, the continuous treatment with PPOH markedly reduced autocatalytic ethylene production of the petals accompanying senescence. This reduction of autocatalytic ethylene production was considered responsible for the inhibitory effect of PPOH on flower wilting. The inhibitory activity of trans-propenylphosphonic acid (trans-PPOH), on both flower wilting and the autocatalytic ethylene production accompanying senescence was markedly lower than that of PPOH, suggesting that PPOH action is stereoselective. PPOH may be of interest as a new, water-soluble inhibitor of wilting and autocatalytic ethylene production in cut carnation flowers.     

Biosynthesis of floral scent 2-phenylethanol in rose flowers

Plants emit chemically diverse volatile compounds for attracting pollinators or putting up a chemical defense against herbivores. 2-Phenylethanol (2PE) is one of the abundantly emitted scent compounds in rose flowers. Feeding experiments with l-[²H₈]phenylalanine into rose flowers and subsequent analysis using gas chromatography–mass spectrometry analysis revealed the hypothetical biosynthetic intermediates to [²H₈]-2PE, and the biochemical and genetic analyses elucidated the principal pathway to [²H₈]-2PE. We recently found season-specific 2PE pathway producing [²H₇]-2PE from l-[²H₈]phenylalanine. This is a unique example where the dominant pathway to a specific compound changes with the seasons. This review focuses on the biosynthesis of floral volatiles and their regulation to adapt to the changes in the environment.     

Effect of different night temperature regimes on the assimilation, transport and metabolism of carbon in rose plants

A decrease in CO₂ uptake, an increase in leaf starch and sucrose content and a decrease in the content of reducing sugars were found in rose ( Rosa hybrida cvs: Sonia and Golden Times) plants exposed to lower night temperature (12°C) in comparison with those grown at 18°C. These responses were not present when plants were grown under a night temperature regime of alternating temperature, 2 h at 18°C followed by 2 h at 12°C for 3 repetitive periods of a total of 12 h. The export of labelled carbon from the source leaves and translocation into the adjacent axillary buds were inhibited by lower night temperature, but not by the alternating temperature regime. The translocation of labelled carbon toward the basal plant parts was promoted by the lower temperature but not by alternating temperature. The partitioning of labelled carbon between the 2 uppermost lateral buds was also affected by the night temperature regime.     

Relationships of microclimatic variables to colonization of rose debris by Botrytis cinerea and the biocontrol agent Clonostachys rosea

Biological control of Botrytis cinerea by Clonostachys rosea is an alternative to chemical control of rose Botrytis blight in greenhouses. Environmental conditions affect the colonization of senescing and dead tissues by both fungi. The contribution of microclimatic variables to debris colonization/sporulation by both fungi was estimated by path coefficient analysis. We monitored daily values of: maximum, average, and minimum temperatures (T _max, T _ave, and T _min), and relative humidity (RH_max, RH_ave, and RH_min); accumulated rainfall; vapour pressure deficit average; hours with RH?>?90% (RH₉₀); and average temperature during RH₉₀ (T _ave90). Association of variables accumulated between the first and seventh day before sampling explained colonization/sporulation variation: R ²=0.81–0.86 for B. cinerea and 0.91–0.96 for C. rosea. RH_max and RH₉₀ were the main factors that directly favoured colonization/sporulation of both fungi. Colonization/sporulation negatively correlated with RH_min, T _min, and T _ave for B. cinerea and T _min, T _ave, and T _ave90 for C. rosea. The antagonist can suppress B. cinerea colonization/sporulation on rose debris under a wide range of environmental conditions.