枇杷冷藏过程中果肉木质化与细胞壁物质变化的关系

“大红袍”和“解放钟”枇杷果实在１℃下贮藏时,细胞壁物质代谢异常,果肉硬度升高而出汁率逐渐降低,果胶酯酶（ＰＥ）和多聚半乳糖醛酸酶（ＰＧ）活笥和水溶性果胶含量下降,原果胶含量、苯丙氨酸解氨酶（ＰＡＬ）活性及木质素和纤维含量不断增加。约经３周贮藏后,果实出现果皮难剥、果肉质地变硬、粗糙少汁的异常劣变现象。在１２℃下贮藏的枇杷果实,细胞壁物质代谢正常,果肉硬度增加少,ＰＥ和ＰＧ活性及水溶性果胶含量较遍     

枇杷冷藏过程中果肉木质化与细胞壁物质变化的关系

“大红袍”和“解放钟”枇杷果实在 1℃下贮藏时 ,细胞壁物质代谢异常 ,果肉硬度持续升高而出汁率逐渐降低 ,果胶酯酶 (PE)和多聚半乳糖醛酸酶 (PG)活性和水溶性果胶含量下降 ,原果胶含量、苯丙氨酸解氨酶(PAL)活性及木质素和纤维素含量不断增加。约经 3周贮藏后 ,果实出现果皮难剥、果肉质地变硬、粗糙少汁的异常劣变现象。在 12℃下贮藏的枇杷果实 ,细胞壁物质代谢正常 ,果肉硬度增加少 ,PE和PG活性及水溶性果胶含量较高 ,无原果胶增加现象 ,PAL活性呈下降趋势 ,木质素和纤维素含量变化不大 ,果实不出现木质化败坏。这些结果表明冷藏枇杷的木质化败坏可能是一种低温失调现象     

香蕉果实成熟软化过程中细胞壁物质的变化

系统研究了香蕉果实软化过程中细胞壁物质―醇不溶性固形物(AIS)以及3种不同性质的果胶物质:水溶性果胶(WSP)、酸溶性果胶(HP)和碱溶性果胶(OHP)含量的变化。结果表明:随果实的成熟软化,AIS的含量不断降低,且在呼吸跃变时急剧降低;WSP的含量不断增加,HP和OHP的含量不断减少,且均表现出在早期变化量少,在果实硬度迅速降低时变化明显。该研究进一步证明细胞壁物质的变化是导致香蕉果实软化的主要原因。     

不同贮藏温度对枇杷果肉木质化及相关酶活性的影响

将“解放钟”枇杷(Eriobotrya japonicaL ind l.cv.Jiefangzhong)果实于4℃和12℃下贮藏,研究了不同贮藏温度对采后枇杷果肉木质化及相关酶活性的影响。结果表明,4℃贮藏的枇杷果肉苯丙氨酸解氨酶(phenylalan ineammon ia lyase,PAL)、4-香豆酸辅酶A连接酶(4-coum arate coenzym e A ligase,4-CL)、肉桂醇脱氢酶(c innamyl alco-hol dehydrogenase,CAD)和过氧化物酶(peroxidase,POD)活性高于12℃贮果,而多酚氧化酶(polyphenol oxidase,PPO)活性低于12℃贮果。4℃贮藏的枇杷果肉硬度和木质素含量不断增加,果肉木质化较为严重;12℃贮藏的枇杷果肉硬度和木质素含量低于4℃贮果,果肉木质化程度较低。低温诱导PAL和POD活性的上升是导致枇杷果肉发生木质化的主要原因。     

橄榄果实发育过程中细胞壁物质和相关酶活性变化

为了解橄榄(Canarium album)果实质地差异形成的原因,以鲜食型橄榄‘清榄1号’和加工型橄榄‘长营’为材料,对果实发育过程中细胞壁物质含量和相关酶活性进行了测定。结果表明,随着橄榄果实的成熟,‘清榄1号’较‘长营’维持较高的果胶甲酯酶(PME)活性,促进了果胶的水解,离子型果胶(ISP)含量较高而共价型果胶(CSP)含量较低。2个橄榄品种纤维素含量均较高,‘清榄1号’果实的半纤维素含量低于‘长营’。‘清榄1号’木质素含量低于‘长营’,较高的苯丙氨酸解氨酶(PAL)和过氧化物酶(POD)活性促进了木质素含量的增加。因此,ISP、CSP、半纤维素和木质素含量的不同可能是2个橄榄品种果实质地差异形成的原因。     

贮藏期柚粒化过程中果实总细胞壁物质积累和维管束超微结构的变化

汁胞粒化是柑橘类果实一类普遍的生理失调病害,主要表现为汁胞硬度增加,果实品质降低。为了明确汁胞粒化过程其他果实组织的生理代谢特征,该试验以成熟‘琯溪蜜柚’果实为材料,室温贮藏60 d,测定不同贮藏阶段果实背面维管束汁胞、侧面维管束汁胞、囊衣和果皮总细胞壁物质含量,以及两类汁胞可溶性固形物含量,同时利用透射电子显微镜观察果实背面维管束和侧面维管束细胞超微结构的动态变化。结果显示：(1)贮藏10 d时两类果实维管束的筛管和伴胞次生细胞壁开始明显加厚,韧皮部薄壁细胞线粒体和囊泡数量开始增多,而且次生细胞壁也开始明显加厚;贮藏20 d时两类维管束韧皮部薄壁细胞线粒体和囊泡数量持续增加,而且高尔基体出现(之后消失),同时囊衣和果皮总细胞壁物质含量开始显著提高;贮藏40 d时仅侧面维管束韧皮部薄壁细胞线粒体数量持续增多,侧面维管束汁胞总细胞壁物质含量开始显著升高;贮藏60 d时两类果实维管束次生细胞壁持续加厚,囊衣、果皮和侧面维管束汁胞总细胞壁物质含量均持续显著升高,然而至贮藏期结束背面维管束汁胞总细胞壁物质含量始终无显著变化。(2)贮藏期内囊衣总细胞壁物质含量始终显著高于果皮,而果皮总细胞壁物质含量始终显著高于两类汁胞;贮藏后期侧面维管束汁胞总细胞壁物质含量显著高于背面维管束汁胞。(3)在果实贮藏过程中背面维管束汁胞可溶性固形物含量始终无显著变化,而侧面维管束汁胞可溶性固形物含量从贮藏40 d至贮藏期结束持续显著降低。研究表明,贮藏期柚果实维管束、囊衣和果皮中细胞壁物质代谢的变化早于汁胞;发现果实维管束韧皮部薄壁细胞内线粒体数量增加的同时维管束次生细胞壁明显加厚,在整个贮藏期内侧面维管束汁胞可溶性固形物含量的显著降低伴随着总细胞壁物质含量的显著升高。这些结果可能有助于柑橘类果实粒化机理的全面揭示。     

龙眼果实采后果肉自溶过程中细胞壁组分及其降解酶活性的变化

在(10±1)℃下贮藏的‘福眼’龙眼果实果肉自溶指数和自溶程度随着贮藏时间的延长而增加。果肉细胞壁干重、原果胶、纤维素、半纤维素和细胞壁蛋白含量不断减少。果肉果胶酯酶(PE)活性下降;多聚半乳糖醛酸酶(PG)活性在贮藏6～12d以及纤维素酶活性在贮藏0～12d期间均明显增强,到第12天达到活性高峰,之后下降。但在贮藏0～24d期间,PE、PG和纤维素酶仍然保持较高活性,贮藏24d之后快速下降。β-半乳糖苷酶活性在贮藏0～24d期间略有下降,而在贮藏24d后,活性增强,尤其是贮藏30d后,活性急剧升高。     

果实成熟过程中细胞壁组成的变化

果实成熟是一个复杂的过程。Ｂｒａｄｙ[1 ] 认为成熟是一个由遗传决定的器官分化协调一致的过程 ,因此人们普遍把成熟的调控作为植物发育的一个模型来研究。果实成熟时呈现出许多生理生化变化 ,除呼吸上升、乙烯合成、色素转变和风味物质形成外 ,软化也是许多果实成熟时相伴的重要现象。已公认这些质地上的变化是细胞壁结构上的改变引起的[2 ] 。本文介绍植物细胞壁的结构模型、果肉细胞壁组分间的交联、成熟过程中细胞壁组分变化及对质地的影响 ,旨在更好地理解果实的质地及其在成熟过程中的变化基础。1　果肉细胞壁的结构与组分间的交联…     

亚硫酸钠处理对与采后竹笋木质化作用有关的细胞壁物质及酶活性的影响

研究了Na2SO3处理对与采后竹笋木质化作用相关的细胞壁物质及其酶活性的影响.结果表明1%Na2SO3处理能显著延缓竹笋组织中多聚半乳糖醛酸酶活性的降低和抑制苯丙氨酸解氨酶活性的上升,因此水溶性果胶含量显著高于对照,硬度、木质素和原果胶含量显著低于对照.但1%Na2SO3处理对纤维素酶、果胶甲酯酶活性和纤维素含量无显著影响.     

亚硫酸钠处理对与采后竹笋木质化作用有关的细胞壁物质及酶活性的影响

研究了Na2SO3处理对与采后竹笋与木质化作用相关的细胞壁物质及其酶活性的影响。结果表明：1％Na2SO3处理能显著延缓竹笋组织中多聚半乳糖醛酸酶活性的降低和抑制苯丙氨酸解氨酶活性的上升,因此水溶性果胶含量显著高于对照,硬度、木质素和原果胶含量显著低于对照。但1％Na2SO3处理对纤维素酶、果胶甲酯酶活性和纤维素含量无显著影响。     

Polyamine Changes and Chilling Injury in Cold-stored Loquat Fruits

Free polyamine levels (spermine (SPM), spermidine (SPD), and putrescine (PUT)) were determined using thin-layer chromatography and fluorometric method in loquat (Eriobotrya japonica Lindl. cv. Dahongpao) fruits stored at 1℃ and 12℃ and in postharvest SPM treated fruits stored at 1℃ respectively to investigate the relationship between changes in polyamines and chilling injury. In the loquat fruits stored at 1℃, SPM level decreased gradually in the first two weeks, then increased sharply and reached a peak value after three weeks, thereafter it decreased rapidly. SPD level decreased steadily during the first three weeks and increased significantly afterwards. PUT level evolved in a similar way as the SPM level did except that it increased slowly in the first two weeks. The fruit showed symptom of chilling injury manifested as flesh leatheriness after three weeks. However, no significant increase and decrease of these three polyamines was detected during storage at the nonchilling temperature (12℃). The SPM-treated fruits maintained high levels of SPM and SPD and remained low level of PUT during storage at 1℃, and no symptom of chilling injury was observed. These results suggested that the increase in SPM level in response to chilling exposure might serve as a defense mechanism against chilling injury while the accumulation of PUT could be a cause of the stress-induced injury and the increase in SPD level could be a consequence of this kind of stress.     

多胺与枇杷果实冷害的关系

应用薄层－荧光法测定多胺含量研究其与枇杷（Ｅｒｉｏｂｏｔｒｙａ ｊａｐｏｎｉｃａ Ｌｉｎｄｌ．ｃｖ．Ｄａｈｏｎｇｐａｏ）果实冷害的关系。果实在℃下贮藏时,精胺（ＳＰＭ）和亚精胺（ＳＰＤ）含量逐渐下降,但ＳＰＭ在２周后迅速回升并于第３周时达到高峰,随后又迅速下降,ＳＰＭ在３周后反弹上升。腐胺（ＰＵＴ）含量在前２周缓慢上升,２周后迅速积累并于第３周时形成高峰,随后也迅速下降,贮藏３周后的果实出现明显产     

Cell Wall Metabolism in Developing Strawberry Fruits

Cell wall metabolism was studied in strawberry receptacles (Fragariaananassa, Duchesne) of known age in relation to petal fall (PF).Polysaccharide and protein composition, incorporation of [¹⁴C]glucoseand [¹⁴C]proline by excised tissue, and the fate of ¹⁴CO₂ fixedby young, attached fruits were followed in relation to celldivision, cell expansion, fine structure, and ethylene synthesis. Cell division continued for about 7 d after PF although vacuolationof cells was already beginning at PF and the subsequent cellexpansion was logarithmic. There was an associated logarithmicincrease in sugar content per cell and a decreasing rate ofethylene production per unit fresh weight. During cell expansion radioactivity from [¹⁴C]glucose was incorporatedinto fractions identified as starch and soluble polyuronideand into glucose and galactose residues in the cell wall. Radioactivityfrom [¹⁴C]proline was also incorporated into the cell wall,but only 10 per cent of this activity was found in hydroxyproline.Correspondingly wall protein contained a low proportion of hydroxyprolineresidues. The proportion of radioactivity from ¹⁴CO₂ fixed byfruitlets remained constant in most sugar residues in the cellwall. The proportion of radioactivity in galactose fell, indicatingturnover of these residues. Between 21 and 28 d after PF receptacles became red and softenedbut there was no change in the rate of ethylene production.Cell expansion continued for at least 28 d. Tubular proliferationof the tonoplast and hydration of middle lamella and wall matrixmaterial had begun 7–14 d after PF but became extremeduring ripening. Associated with the hydration of the wall,over 70 per cent of the polyuronide in the wall became freelysoluble, and arabinose and galactose residues lost from thewall appeared in soluble fractions. There was no increase intotal polysaccharide during ripening and incorporation of [¹⁴C]glucoseinto polysaccharides ceased, although protein increased andincorporation of [¹⁴C]proline into wall protein continued.     

桃果实成熟前后细胞壁成分和降解酶活性的变化及其与果实硬度的关系

比较桃品种‘双久红’和‘川中岛白桃’果实成熟前后20 d内果肉硬度、细胞壁成分和细胞壁降解酶活性变化的结果表明,桃果实成熟5 d后,‘双久红’桃果实的硬度、纤维素含量和原果胶含量均极显著高于‘川中岛白桃’:从成熟前15 d开始,‘双久红’的水溶性果胶含量、多聚半乳糖醛酸酶活性和纤维素酶活性均极显著低于‘川中岛白桃’;整个成熟期间,‘双久红’的果胶甲酯酶活性明显低于‘川中岛白桃’。相关分析表明,果实硬度与原果胶、纤维素含量呈极显著正相关,而与可溶性果胶含量、多聚半乳糖醛酸酶活性和纤维素酶活性呈极显著负相关。     

桃果实絮败与果胶质变化和细胞壁结构的关系

“白凤”桃果实在０ ℃下贮藏２０ ｄ 以后出现肉质发绵和干化的絮败现象。冷藏第１０ 天在１８ ℃下加温３８ ｈ 能有效减缓絮败的发生。连续冷藏１０ ｄ 以后,原果胶含量开始增多, 水溶性果胶含量变化不大。中途加温的果实原果胶含量变化不多,但水溶性果胶却不断增加。絮败果的果胶质粘度明显高于正常果。果肉出汁率是测定果实絮败程度的理想指标。絮败果肉细胞壁的明显特征是： 伴随胞间层的分解和胞间隙的扩大,出现大量凝胶状物质的沉积,初生壁结构变化不明显, 也没有细胞壁次生加厚的迹象。     

Cell Wall Metabolism in Growing and Ripening Stone Fruits

The time-course changes of the composition of the cold watersoluble, the hot water soluble, the ammonium oxalate soluble,the 4% KOH soluble, the 24% KOH soluble and the 24% KOH insolublecell wall fractions, as well as of the activities of ß-D-xylosidase,-D-mannosidase, ß-D-galactosidase and ß-D-glucosidase,were monitored during growth and ripening of the fleshy pericarpof wild plums, peaches and apricots. All fractions increased up to a peak, which occurred beforethe onset of ripening. During ripening the pectic fractionswere extensively decreased, the hemicellulosic fractions wererestrictively decreased, while the crude cellulosic fractionwas not affected, being always present in greater amounts incomparison to the previous mentioned fractions during all phasesof fruit development. The relative changes of the two pecticfractions and the two hemicellulosic ones indicate conversionof the more soluble fractions to the less soluble ones duringgrowth and the reverse conversion during ripening. The coldwater soluble fraction appeared only during ripening and itschanges were closely related to the extensive breakdown of pecticfractions during ripening. The enzymic activities were not foundduring growth. They appeared at the begining of ripening (apricots)or a little earlier and followed a concrete pattern of changes. (Received November 30, 1991; Accepted August 3, 1992)     

Cell Wall Composition in Relation to the Taxonomy of Some Actinoplanaceae

Hydrolytic residues of the cell walls of 48 strains of Actinoplanaceae, previously assigned to 10 species and the four genera, Actinoplanes, Ampullariella, Amorphosporangium, and Pilimelia, were examined by paper chromatography and column chromatography. Comparisons were made for taxonomic purposes between the groupings obtained, by use of chemical characters and the groupings currently recognized morphologically. Most of the species investigated had qualitatively distinct cell wall compositions. Often, however, the cell wall compositions of species in different genera were more similar, in some respects, than were those of species in the same genus. Quantification of the cell wall amino acids and amino sugars substantiated that cross-generic similarities existed. Based on these results and the morphological conclusions reached by other investigators, a single-genus concept is suggested for the Actinoplanaceae examined.