European, Chinese and Japanese pear fruits exhibit differential softening characteristics during ripening

Softening characteristics were investigated in three types of pear fruit, namely, European pear 'La France', Chinese pear 'Yali', and Japanese pear 'Nijisseiki'. 'La France' fruit softened dramatically and developed a melting texture during ripening, while 'Yali' fruit with and without propylene treatment showed no change in flesh firmness and texture during ripening. Non-treated 'Nijisseiki' did not show a detectable decrease in flesh firmness, whereas continuous propylene treatment caused a gradual decrease in firmness resulting in a mealy texture. In 'La France', the analysis of cell wall polysaccharides revealed distinct solubilization and depolymerization of pectin and hemicellulose during fruit softening. In 'Nijisseiki', propylene treatment led to the solubilization and depolymerization of pectic polysaccharides to a limited extent, but not of hemicellulose. In 'Yali', hemicellulose polysaccharides were depolymerized during ripening, but there was hardly any change in pectic polysaccharides except in the water-soluble fraction. PC-PG1 and PC-PG2, two polygalacturonase (PG) genes, were expressed in 'La France' fruit during ripening, while only PC-PG2 was expressed in 'Nijisseiki' and neither PC-PG1 or PC-PG2 was expressed in 'Yali'. The expression pattern of PC-XET1 was constitutive during ripening in all three pear types. PG activity measured by the reducing sugar assay increased in all three pears during ripening. However, viscometric measurements showed that the levels of endo-PG activity were high in 'La France', low in 'Nijisseiki', and undetectable in 'Yali' fruits. These results suggest that, in pears, cell wall degradation is correlated with a decrease in firmness during ripening and the modification of both pectin and hemicellulose are essential for the development of a melting texture. Furthermore, the data suggest that different softening behaviours during ripening among the three pear fruits may be caused by different endo-PG activity and different expression of PG genes.     

Reversible Inhibition of Tomato Fruit Gene Expression at High Temperature (Effects on Tomato Fruit Ripening)

The reversible inhibition of three ripening-related processes by high-temperature treatment (38[deg]C) was examined in tomato (Lycopersicon esculentum L. cv Daniella) fruit. Ethylene production, color development, and softening were inhibited during heating and recovered afterward, whether recovery took place at 20[deg]C or fruit were first held at chilling temperature (2[deg]C) after heating and then placed at 20[deg]C. Ethylene production and color development proceeded normally in heated fruit after 14 d of chilling, whereas the unheated fruit had delayed ethylene production and uneven color development. Levels of mRNA for 1-aminocyclopropane-1-carboxylic acid oxidase, phytoene synthase, and polygalacturonase decreased dramatically during the heat treatment but recovered afterward, whereas the mRNA for HSP17 increased during the high-temperature treatment and then decreased when fruit were removed from heat. As monitored by western blots, the HSP17 protein disappeared from fruit tissue after 3 d at 20[deg]C but remained when fruit were held at 2[deg]C. The persistence of heat-shock proteins at low temperature may be relevant to the protection against chilling injury provided by the heat treatment. Protein levels of 1-aminocyclopropane-1-carboxylic acid oxidase and polygalacturonase also did not closely follow the changes in their respective mRNAs. This implied both differences in relative stability and turnover rates of mRNA compared to protein and nontranslation of the message that accumulated in low temperature. The results suggest that high temperature inhibits ripening by inhibiting the accumulation of ripening-related mRNAs. Ripening processes that depend on continuous protein synthesis including ethylene production, lycopene accumulation, and cell-wall dissolution are thereby diminished.     

Endo-1,4-[beta]-Glucanase,Xyloglucanase, and Xyloglucan Endo-Transglycosylase Activities Versus Potential Substrates in Ripening Tomatoes

In ripening fruits of tomato (Lycopersicon esculentum L. var 83-G-38), the amounts of cellulose and xyloglucan (XG) remained constant during tissue softening, but the relative molecular weight (Mr) of XG decreased markedly and the Mr of cellulose declined slightly. These changes could have been due to activities of non-specific endo-1,4-[beta]-glucanases and/or buffer-soluble XG endo-transglycosylase, both of which increased when tissue firmness declined most rapidly. Tomato extracts also reduced the viscosity of XG solutions, especially in the presence of added XG oligosac-charides. This depolymerizing (XGase) capacity differed from [beta]-glucanase and XG transglycosylase activity (a) by being almost entirely buffer insoluble, and (b) by declining precipitously during fruit softening. Although it disappeared from ripe fruit, XGase may have functioned in promoting wall loosening at earlier stages of fruit development when its activity was highest. By contrast, during aging of fruit in the ripening-inhibited mutant rin there was no change in Mr of XG or cellulose, and activities of [beta]-glucanases and XG transglycosylase were lower than in wild-type tomato. Nevertheless, some softening of the fruit did take place over time and XG amounts declined, possibly because high XGase activity was maintained in the mutant, unlike in wild-type fruit.     

柿果实采后软化过程中细胞壁组分代谢和超微结构的变化

柿果实采后果胶酯酶活性迅速上升,其活性与果实硬度的下降呈明显的负相关。多聚半乳糖醛酸酶活性增加缓慢,但其活性与果实硬度的下降无明显相关性。β-半乳糖苷酶活性迅速增加,其活性与果实硬度的下降呈明显的负相关。纤维素酶活性呈逐渐上升趋势,与果实硬度的下降也呈明显的负相关。伴随着细胞壁水解酶活性的增加,果实原果胶和纤维素含量迅速下降,而水溶性果胶含量则迅速上升。柿果刚采收时细胞壁结构完整,3d后细胞壁中胶层基本被溶解,甚至初生壁也局部发生降解。     

Effects of chilling on tomato fruit texture

The effects of chilling on tomato ( Lycopersicon esculentum Mill cv. Caruso) texture were investigated using fruit stored at 22°C (nonchilled) or 5°C (chilled) for 28 days. or at 5°C for 15 days before transfer to 22°C to facilitate ripening during and additional 13 days (prechilled). Prechilled fruit exhibited symptoms of slight chilling injury, i.e. development of mealiness, accelerated softening relative to that of nonchilled fruit and nonuniform surface colour development. The firmness of all fruit decreased during ripening and chilled storage when measured by flat plate compression and puncture, especially during the early stages of ripening of nonchilled and prechilled fruit. The compression firmness of pericarp tissue similarly decreased during ripening of nonchilled and prechilled fruit, but was maintained during chilling. Total moisture content (ca 94%) of tissue, uronide content (32-35% w/w) and extracted β-galactosidase activity did not differ significantly ( P > 0.05) among fruit during ripening and chilled storage. The degree of uronide methyl esterification in ethanol-insoluble solids prepared from pericarp tissue (EIS) was relatively low for all fruit. i.e. <40%. EIS from which greater levels of pectinesterase were extracted (i.e. nonchilled>chilled>prechilled) exhibited decreased levels of uronide methyl esterification. Markedly elevated levels of β-glucosidase activity were extracted from prechilled EIS. Total polygalacturonase activity (mainly as PGI) and autolysis of enzyme-extracted EIS were inversely correlated ( P ≤ 0.05) only with the loss of nonchilled fruit and tissue firmness and prechilled fruit firmness. Results suggest a possible role for β-glucosidase in textural changes of prechilled fruit and tissue (e.g. loss of firmness, development of mealiness) and also implicate loss of skin strength in the softening of whole fruit during chilling.     

猕猴桃品种果实性状特征和主成分分析研究

为深入了解猕猴桃不同品种(系)的果实性状与其倍性的相关性,本研究对国家猕猴桃种质资源圃保存的44个栽培品种(系)进行了果实性状分析,结果表明,44个栽培品种(系)的果实性状具有丰富的遗传多样性并且果实重量、果面毛被、果肉颜色和质地、果实维生素C含量、果实后熟天数和软熟果硬度、果实成熟期等与品种(系)倍性呈显著相关。对相关性状采用主成分分析表明,果实成熟时间、果肉质地、果面毛被和果实后熟天数、果肉颜色是区分品种(系)的主要特征。由于品种(系)的倍性与主要性状特征关联,品种(系)按倍性相对聚类,且二倍体品种(系)群和六倍体品种(系)群间无重叠,而四倍体品种(系)群与相邻的二倍体和六倍体品种(系)群均有一定重叠。     

The role of ethylene in the prevention of chilling injury in nectarines

Woolliness is a chilling injury phenomenon occurring in nectarines held at low temperatures for extended periods. It is a disorder marked by altered cell wall metabolism during ripening leading to a dry, woolly texture in the fruit. Two treatments were found to alleviate this disorder. One was holding the fruits for 2 days at 20 °C before 0 °C storage (delayed storage) and the second was having ethylene present during cold storage (ethylene). Immediately stored fruit (control) had 88 percnt; woolliness while 7 percnt; of delayed storage and 15 percnt; of ethylene fruit showed woolliness. The severity of the injury in individual fruits was closely related to inhibition of ethylene evolution. Woolly fruit had higher levels of 1-aminocyclopropane-1-carboxylic acid (ACC) and less 1-aminocyclopropane-1-carboxylic acid oxidase (ACO, EC 1.4.3) activity than healthy fruit. It is suggested that ethylene is essential for promoting the proper sequence of cell wall hydrolysis necessary for normal fruit softening. This is in contrast to chilling injury in other fruits, whereby ethylene is often a sign of incipient damage. Respiration was also found to be associated with chilling injury, in that fruit with woolliness had a depressed respiration.     

A comparative study of melting and non-melting flesh peach cultivars reveals that during fruit ripening endo-polygalacturonase (endo-PG) is mainly involved in pericarp textural changes, not in firmness reduction

Peach softening is usually attributed to the dismantling of the cell wall in which endo-polygalacturonase (endo-PG)-catalysed depolymerization of pectins plays a central role. In this study, the hypothesis that the function of endo-PG is critical for achieving a melting flesh fruit texture but not for reducing fruit firmness was tested by comparing pericarp morphology and endo-PG expression and localization in melting (MF) and non-melting flesh (NMF) fruit at successive stages of ripening. MF Bolero, Springbelle, and Springcrest, and NMF Oro-A and Jonia cultivars were analysed. Both MF and NMF fruit were left to ripen on the tree and reached a firmness of <10 Newtons (N). The image analysis of pericarp tissues revealed that during softening the loss of cell turgidity was a process common to mesocarp cells of all MF and NMF fruit and was clearly visible in peaches with a firmness of less than ～20?N. In contrast, the loss of cell adhesion was a feature exclusively observed in ripe MF fruit pericarp. In this ripe fruit, large numbers of endo-PG isoforms were highly expressed and the enzyme localization corresponded to the middle lamella. As a consequence, wide apoplastic spaces characterized the pericarp of ripe MF peaches. In contrast, no loss of cell adhesion was observed in any NMF fruit or in unripe MF peaches. Accordingly, no endo-PG was detected in unripe NMF fruit, whereas few and poorly expressed enzyme isoforms were revealed in ripe NMF and in unripe MF peaches. In this fruit, the poorly expressed endo-PG localized mainly in vesicles within the cytoplasm and inner primary cell wall. On the whole the results suggested that endo-PG function was needed to achieve melting flesh texture, which was characterized by wide apoplastic spaces and partially deflated mesocarp cells. Conversely, endo-PG activity had no critical influence on the reduction of fruit firmness given the capacity of NMF peaches to soften, reaching values of 5-10?N. As in tomato, the change of symplast/apoplast water status seems to be the main process through which peach fruit regulates its firmness.     

香蕉果实成熟软化过程中β-D-木聚糖苷酶活性变化

β-D-木聚糖苷酶是细胞壁半纤维素中阿拉伯木聚糖和木聚糖残基降解的主要酶,对香蕉贮藏过程中果皮、果肉中β-D-木聚糖苷酶活性以及果实硬度、呼吸强度和乙烯释放量的变化进行测定分析。结果显示:β-D-木聚糖苷酶活性在果实贮藏初期的变化很小,到果实硬度开始急剧下降时迅速增加,其增加量在果皮和果肉中分别为12和22倍以上,且果肉中的酶活性大于果皮中;乙烯吸收剂处理延缓了香蕉果实呼吸和乙烯的高峰出现以及果实硬度、果肉和果皮中β-D-木聚糖苷酶活性变化的速度和幅度,但并不改变其活性的变化趋势。结果证明,β-D-木聚糖苷酶能诱导香蕉果实成熟,在果实软化中起着十分重要的作用,且其活性受乙烯的调节。     

Limitations in the Use of Cycloheximide in Studies of Apple Ripening

In order to discover whethor the production of aroma volatilesby apple fruits is dependent on the synthesis of appropriateenzymes during ripening, excised peel, excised cortical tissue,and whole apples were treated with cycloheximide (CH). Volatilerelease, ethylene production, respiration, flesh softening,and peel chlorophyll degradation were measured. The ethylene and volatile compounds produced by excised peelapparently resulted from wounding rather than processes analogousto fruit ripening. Excised cortical tissue was capable of autonomousripening with ethylene production, respiration, and softeningcomparable to that in intact fruits. After infiltration withsucrose solution the same changes occurred, but they were delayedby up to 4 d. Cycloheximide inhibited respiration although theextent of this inhibition decreased after 3 d. Cycloheximideprevented the onset of rapid ethylene production but stimulatedproduction of ethanol, ethyl acetate, and other volatiles. Softeningof CH-treated cortical discs was associated with progressivenecrosis. When whole apples were infiltrated with CH through hypodermicneedles inserted into the core, [¹⁴C]valine incorporation wasinhibited from the core to the mid-cortex but not in the peeland outer cortex. Infiltration with sucrose solution delayedmany ripening changes although the time of maximum [¹⁴C]valineincorporation was unaffected. Early effects of CH on respirationwere masked by the effects of infiltration, but after 5 d CH-infiltratedfruit contained higher CO₂ concentrations and respired morerapidly than controls. Internal ethylene concentrations wereusually lower in CH-treated apples than in controls. CH stimulated release of ethanol and ethyl acetate but inhibitedrelease of higher molecular weight esters such as propyl andbutyl acetates. Cycloheximide-treated fruit softened, but thiswas apparently due to internal necrosis. Peel chlorophyll degradationwas inhibited by CH treatment of whole apples although the tissuehad apparently received no inhibitor.     

Chilling Injury Induces Lipid Phase Changes in Membranes of Tomato Fruit

Wide-angle x-ray diffraction has provided evidence for lipid phase separations in microsomal membranes from chill-injured tomato (Lycopersicon esculentum Mill. cv Caruso) fruit. Mature-green fruit stored for 20 d at 5[deg]C had not begun to ripen and were essentially free of chilling injury symptoms. Within 4 d of being returned to 25[deg]C, however, the fruit displayed characteristic symptoms of chilling injury, including translucent water-soaked patches, surface pitting, and irregular pigmentation. Membrane damage measured as electrolyte leakage from pericarp discs intensified after the fruit were returned to ambient temperature. Wide-angle x-ray diffraction patterns recorded at 25[deg]C for microsomal membranes isolated from untreated, mature-green fruit indicated that the membrane bilayers were exclusively liquid-crystalline. Diffraction patterns for microsomal membranes from fruit stored for 20 d at 5[deg]C showed only trace amounts of gel phase lipid, but within 4 d of subsequent exposure of the fruit to ambient temperature, there was evidence for a pronounced lateral phase separation of lipids within the membranes that would render them leaky. Inas-much as the phase separations were detectable at 25[deg]C and became pronounced only subsequent to the chilling episode, they appear to be an indirect rather than direct effect of exposure to low temperature. The diffraction data thus support the notion that the lipid phase changes observed here are not directly induced by low temperature but rather reflect subsequent biochemical changes in the bilayers that may contribute to the development of chilling symptoms.     

Cell Wall Changes in Nectarines (Prunus persica) : Solubilization and Depolymerization of Pectic and Neutral Polymers during Ripening and in Mealy Fruit

Nectarine fruit (Prunus persica L. Batsch var nectarina [Ait] maxim) cultivar Fantasia were either ripened immediately after harvest at 20°C or stored for 5 weeks at 2°C prior to ripening. Fruit ripened after 5 weeks of storage did not soften to the same extent as normally ripened fruit, they lacked juice, and had a dry, mealy texture. Pectic and hemicellulosic polysaccharides were solubilized from the mesocarp of the fruit using phenol:acetic acid:water (PAW) treatment to yield PAW-soluble material and cell wall material (CWM). The carbohydrate composition and relative molecular weight (M_r) of polysaccharide fractions released from the CWM by sequential treatment with cyclohexane-trans-1,2-diamine tetra-acetate, 0.05 m Na₂CO₃, 6 m guanidinium thiocyanate, and 4 m KOH were determined. Normal ripening of nectarines resulted in solubilization of pectic polymers of high M_r from CWM during the first 2 d at ripening temperatures. Concurrently, galactan side chains were removed from pectic polymers. Solubilized pectic polymers were depolymerized to lower M_r species during the latter stages of ripening. Upon removal from cool storage, fruit had undergone some pectic polymer solubilization, and after ripening, pectins were not depolymerized and were of high M_r. Side chains did not appear to be removed from insoluble pectic polymers and branched pectins accumulated in the CWM. The molecular weight profiles obtained by gel filtration of the hemicellulosic fractions from normally ripening and mealy fruit were similar. The results suggest that mealiness results as a consequence of altered pectic polymer breakdown, including that associated with neutral side chains.     

硬肉桃果实成熟前后几种矿质元素的含量变化及其与果实硬度的关系

比较桃品种‘川中岛白桃’和‘双久红’成熟前后20d内果肉硬度与几种矿质元素之间关系的结果表明：两品种桃在成熟前后20d内,P、Mg、Zn、Cu的含量均持续下降,N、Fe、Mn的含量则均呈上升趋势。相关分析表明,果实硬度与P、Mg、Zn、Cu的含量呈极显著正相关,与N和Fe含量呈极显著负相关;而Mn含量与‘川中岛白桃’果实硬度呈极显著负相关,与‘双久红’果实硬度呈显著负相关。