Time-course analysis of the phenols in cucumber mosaic virus-resistant, -tolerant and -susceptible tomato genotypes

In this study, changes in quantity and quality of phenolic compounds were compared in cucumber mosaic virus (CMV)-inoculated and -un-inoculated plants of nine resistant, tolerant, susceptible and highly susceptible genotypes at three different time intervals. Total phenolic contents and the number of phenolic compounds were generally increased in CMV-inoculated plants. Maximum per cent increase in total phenolic contents over un-inoculated controls was observed as 77.55% in resistant genotype TMS-1, 84.17% in tolerant genotype L06238 and 82.88% in resistant genotype L02223 after 10, 20 and 30 days of inoculation, respectively. Thin layer chromatography of inoculated and un-inoculated plants indicates that in most of the tested genotypes, the number of phenolic compounds varied from cultivar to cultivar and within the same cultivar, depending upon the status of plants and growth stages. However, the trend of increase in quantity and quality of phenolic compounds in the tested units was not constant to draw a meaningful conclusion.     

A New Root-Formation Test

This paper describes a new and convenientt rootformation test. It is excised cucumber cotyledon root-formation test. The experimental results showed that the mininum level of IAA detectable in this bioassay was 0.3–100 ppm and the number of roots formed in excised cucumber cotyledon was proportional to the logarithm of the IAA concentration in the range of 3.0–30 ppm. This bioassay is specific for natural and synthetic auxins. It had less error and better repeatability than others.     

Nitrate reductase inactivator from Spirodela polyrhiza (L.) Schleiden

NADH:nitrate reductase (EC 1.6.6.1) activity in the crude extract from Spirodela polyrhiza was relatively labile in vitro. Inclusion of polyvinylpolypyrrolidone into the extraction medium had only a slight effect on the stability of the enzyme, whereas addition of 3 % casein, azocasein, or other proteins to the extraction medium greatly increased the nitrate reductase (NR) activity. Various protease inhibitors were tested for their ability to prevent the loss of NR activity in vitro. Iodoacetate and para-chloromercuric benzoate, the thiol-protease inhibitors, as well as pepstatin, the aspartic-protease inhibitor had no effect on stability of the nitrate reductase. EDTA had a slight stimulatory effect, whereas 5 mM o-phenantroline, another inhibitor of the metallo-proteases increased the activity of nitrate reductase. The highest enzyme activity was found in the presence of phenylmethylsulphonyl fluoride and di-isopropyl phosphorofluoridate both being serine-protease inhibitors. The protease-like inactivator was separated from Spirodela polyrhiza by ammonium sulfate fractionation and acid treatment (pH 4.0). After centrifugation the protein of inactivator in supernatant adjusted to pH 7.5 was removed. When this fraction was examined by electrophoresis in polyacrylamide which copolymerized with edestin, the protein of the nitrate reductase inactivator remained at the cathode. Fractions containing a protein of inactivator degraded casein to products soluble in trichloroacetic acid. Inhibition of the inactivator proteolytic activity by phenylmethylsulphonyl fluoride and di-isopropyl phosphorofluoridate but not by other reagents (thiol- and metallo-protease inhibitors) suggested the involvement of a serine residue at its active site. The inactivator fraction from Spirodela polyrhiza resulted in a loss of the nitrate reductase activity in crude extracts from both cucumber and corn seedlings. A biochemical nature a protein of the nitrate reductase inactivator from S. polyrhiza is discussed.     

不同基质种植对黄瓜植株生理及果实品质的影响

以不同材料(岩棉、粗砂、刨花)为基质栽培黄瓜,于不同的生长时期对黄瓜叶片、根系及果实进行分析。结果表明,岩棉栽培黄瓜具有较大的优越性:其叶片叶绿素含量较高,果实Vc、淀粉含量最高;生长中期和后期叶片抗逆性强,叶片中硝酸还原酶活性和根系活力保持较高;产量比其它两种基质栽培的高45%以上。     

Effects of Cucumber Mosaic Virus Infection on Photosynthetic Activities of Tobacco Leaves and Chloroplasts

Changes in photosynthetic activities were studied with tobacco (Nicotiana tabacum L.) leaves and chloroplasts infected by cucumber mosaic virus (CMV) at the top, middle and bottom located leaves. Net photosynthetic rate was reduced at all three positioned leaves, with the maximum reduction occurring at the top leaves (31.9% of control). The infected chloroplasts showed a reduction in electron transport rates of the whole chain electron transport, photosystem Ⅱ (PSⅡ) and photosystem Ⅰ (PSⅠ). Since the decline in the whole chain electron transport (15.6% of control, H2O→MV) closely paralleled the decline in PSⅡ activity (20.9% of control, H2O→PBQ), the inhibition of the latter was probably responsible for the overall decrease. Chlorophyll a fluorescence measurements showed a variable reduced fluorescence yield (Fv/Fo) which indicated that PSⅡ was impaired and the CO2 assimilation was disturbed by CMV infection. Fluorescence emission spectra at 77 K indicated that energy distribution between PSⅡ and PSⅠ was affected. F686/F734 of infected leaves and chloroplasts increased and the greatest increase (331.1% of control ) was found in the top leaves. These data may conclude that the infection inhibited mainly the PSⅡ activity.     

Dry matter partitioning models for the simulation of individual fruit growth in greenhouse cucumber canopies

Background and Aims

Growth imbalances between individual fruits are common in indeterminate plants such as cucumber (Cucumis sativus). In this species, these imbalances can be related to differences in two growth characteristics, fruit growth duration until reaching a given size and fruit abortion. Both are related to distribution, and environmental factors as well as canopy architecture play a key role in their differentiation. Furthermore, events leading to a fruit reaching its harvestable size before or simultaneously with a prior fruit can be observed. Functional–structural plant models (FSPMs) allow for interactions between environmental factors, canopy architecture and physiological processes. Here, we tested hypotheses which account for these interactions by introducing dominance and abortion thresholds for the partitioning of assimilates between growing fruits.

Methods

Using the L-System formalism, an FSPM was developed which combined a model for architectural development, a biochemical model of photosynthesis and a model for assimilate partitioning, the last including a fruit growth model based on a size-related potential growth rate (R_P). Starting from a distribution proportional to R_P, the model was extended by including abortion and dominance. Abortion was related to source strength and dominance to sink strength. Both thresholds were varied to test their influence on fruit growth characteristics. Simulations were conducted for a dense row and a sparse isometric canopy.

Key Results

The simple partitioning models failed to simulate individual fruit growth realistically. The introduction of abortion and dominance thresholds gave the best results. Simulations of fruit growth durations and abortion rates were in line with measurements, and events in which a fruit was harvestable earlier than an older fruit were reproduced.

Conclusions

Dominance and abortion events need to be considered when simulating typical fruit growth traits. By integrating environmental factors, the FSPM can be a valuable tool to analyse and improve existing knowledge about the dynamics of assimilates partitioning.     

低温胁迫对以野生黄瓜(棘瓜)为砧木的黄瓜嫁接苗生理生化指标的影响

在5℃低温胁迫条件下,对以野生黄瓜——棘瓜(Sicyos angulatus L．)和以黑籽南瓜为砧木的黄瓜嫁接苗以及自根苗的抗冷性生理生化指标的变化规律作了研究。结果表明,以棘瓜为砧木的黄瓜嫁接苗叶片的SOD、POD、CAT活性以及Pro、可溶性糖含量均高于后两者,MDA含量低于后两者。说明利用棘瓜嫁接的黄瓜苗可以忍受更长时间或更大强度的低温。     

Blue Native/SDS‐PAGE and iTRAQ‐Based Chloroplasts Proteomics Analysis of Nicotiana tabacum Leaves Infected with M Strain of Cucumber Mosaic Virus Reveals Several Proteins Involved in Chlorosis Symptoms

Virus infection in plants involves necrosis, chlorosis, and mosaic. The M strain of cucumber mosaic virus (M‐CMV) has six distinct symptoms: vein clearing, mosaic, chlorosis, partial green recovery, complete green recovery, and secondary mosaic. Chlorosis indicates the loss of chlorophyll which is highly abundant in plant leaves and plays essential roles in photosynthesis. Blue native/SDS‐PAGE combined with mass spectrum was performed to detect the location of virus, and proteomic analysis of chloroplast isolated from virus‐infected plants was performed to quantify the changes of individual proteins in order to gain a global view of the total chloroplast protein dynamics during the virus infection. Among the 438 proteins quantified, 33 showed a more than twofold change in abundance, of which 22 are involved in the light‐dependent reactions and five in the Calvin cycle. The dynamic change of these proteins indicates that light‐dependent reactions are down‐accumulated, and the Calvin cycle was up‐accumulated during virus infection. In addition to the proteins involved in photosynthesis, tubulin was up‐accumulated in virus‐infected plant, which might contribute to the autophagic process during plant infection. In conclusion, this extensive proteomic investigation on intact chloroplasts of virus‐infected tobacco leaves provided some important novel information on chlorosis mechanisms induced by virus infection.     

黄瓜矮生突变体C1056的茎解剖结构及其生理特性分析

该研究以黄瓜矮生突变体C1056和野生型CCMC为材料,对其主要生理特性、叶绿体超微结构以及茎显微结构进行了观察、测定和比较分析,以探讨黄瓜株高调控机理并挖掘新的矮化种质,为黄瓜的矮化育种提供依据。结果显示:(1)突变体C1056的株高较野生型极显著变矮,且叶色加深、叶脉加粗、叶尖内卷、叶片皱缩,但茎粗、节间数与野生型无显著差异,而节间长度极显著低于野生型。(2)茎横切显微结构显示,突变体的维管束数量与野生型无显著差异,但导管直径缩小;纵切结果显示,突变体茎节间细胞长度变短,细胞变小,细胞数目略有补偿。(3)与野生型相比,突变体的叶绿素和类胡萝卜素含量均有不同程度的下降,叶绿素/类胡萝卜素和叶绿素a/b的比值明显增高。(4)突变体叶绿素荧光各参数与野生型相比无明显变化;突变体的净光合速率较野生型降低8%,气孔导度、蒸腾速率较野生型分别提高15%和10%,但差异均不显著,而胞间CO2浓度显著高于野生型。(5)透射电镜观察结果发现,与野生型相比,突变体的叶肉细胞比较小,叶绿体所占细胞面积明增大,且叶绿体形状为半圆形和纺锤形,部分非正常结构的叶绿体的大部分基质、基粒片层未完全分化且不清晰,垛叠不整齐。研究表明,黄瓜矮生突变体C1056的矮化主要因其节间长度缩短以及细胞变小所致,且突变体的叶绿体结构受到一定程度的影响,但并未明显影响其光合能力。