不同反光膜对设施葡萄光合特性和叶片糖代谢的影响

以‘京秀’葡萄为试材,研究了蓝膜、红膜、铝膜3种反光膜对设施葡萄光合特性和叶片糖代谢的影响。结果显示:红膜和蓝膜处理的葡萄叶片的净光合速率均显著高于对照(不铺设反光膜);在果实发育前期,各处理的叶绿素含量和叶绿素b/a值均大于对照,而后期均低于对照;蓝膜和红膜处理叶片的蔗糖含量较高,而蓝膜处理叶片中的蔗糖合酶(SS)和蔗糖磷酸合酶(SPS)活性最高;各铺膜处理均比对照提高了葡萄果实鲜量和可溶性糖含量、降低可滴定酸含量,且蓝膜处理显著优于红膜和铝膜。研究表明,在设施栽培条件下,地面铺设蓝色反光膜可显著提高葡萄叶片的光合速率和叶片中碳水化合物的关键合成酶活性,并显著提高葡萄果实品质。     

套袋梨贮藏过程中糖代谢及相关酶活性变化特征

以‘翠冠’梨为材料,研究了套双层遮光纸袋梨果实贮藏过程中蔗糖、果糖、葡萄糖、山梨醇及糖代谢中酶活性的变化规律。结果表明,贮藏套袋梨果实中果糖、葡萄糖、山梨醇和蔗糖含量都低于未套袋对照;套袋梨果实中山梨醇脱氢酶活性在贮藏的前5d都低于对照,贮藏10d后活性均高于对照,且与山梨醇含量呈现极显著正相关;贮藏套袋梨果实中蔗糖磷酸合酶(SPS)及蔗糖合酶(SS)分解和合成方向活性都是前期低于对照,贮藏后期都高于对照,且蔗糖含量与蔗糖磷酸合酶和蔗糖合酶(分解方向)活性都呈显著正相关;贮藏的套袋梨果实和对照中的山梨醇含量与果糖含量均呈极显著负相关,蔗糖含量与葡萄糖含量呈极显著负相关,即在贮藏过程中山梨醇可能转化为果糖,而蔗糖则转化成葡萄糖。     

八个贵州地方桃品种果实甜酸风味品质分析

为了评价贵州地方桃品种果实的甜酸风味品质,以主栽桃品种‘燕红’作对照,采用高效液相色谱法测定了贵州8个地方桃品种的果肉糖酸组分及含量。结果表明:(1)8个地方桃品种果肉中糖主要由蔗糖、葡萄糖、果糖和山梨醇组成,其中蔗糖的平均含量最高(55.62 mg/g),约占总糖的71.30%,但变异系数仅为17.92%;8个地方桃品种中,‘米桃’的葡萄糖与果糖含量差异较大,其果糖/葡萄糖的比值为1.21,而其它7个品种的葡萄糖与果糖含量相近。(2)8个地方桃品种果肉中有机酸主要由苹果酸、柠檬酸、奎宁酸和莽草酸组成,其中苹果酸含量最高,约占总酸的60.61%,但在‘白花桃’果实中有机酸含量以奎宁酸为主。(3)对8个地方桃品种果实的糖酸组分进行主成分分析发现,苹果酸含量和山梨醇含量的载荷系数分别为0.910和0.897,说明它们是影响果实甜酸风味的主导因素,且对改善果实的甜酸风味品质具有重要作用。8个贵州地方桃果实的甜酸风味分别为:‘黄腊桃’为甜,‘血桃’、‘青桃’、‘镇远桃’、‘红枫桃’为酸甜,‘白花桃’、‘西桃’和‘米桃’为酸。     

欧李果实发育期糖和酸组分及其含量的动态变化特性

以农大3号、农大4号、农大5号3个欧李品种为材料,测定果实发育过程中各组分糖、酸及总糖、总酸的含量,以明确欧李果实糖酸积累的动态变化特性.结果显示:(1)3个欧李品种果实成熟期糖含量、酸含量及糖酸比存在明显差异,其中农大3号品种的总糖含量最高,总酸含量最低,糖酸比值最高.(2)成熟期3品种各糖组分中均以果糖含量较高,葡萄糖和蔗糖含量较低,山梨醇含量微量;酸组分中均以苹果酸为主,柠檬酸少量.(3)3个品种果糖、蔗糖、葡萄糖、山梨醇含量在整个果实发育期均呈持续增加态势,并以果糖积累为主;农大3号果糖含量在8周后增幅明显高于另2个品种,且一直保持到果实成熟;3个品种蔗糖含量的变化趋势相近,在前期和中期增加缓慢,接近成熟的2～3周则迅速增加并占整个发育期积累量的70%以上.(4)3个品种酸含量的变化趋势较为相似,苹果酸和柠檬酸在果实发育的前期和中期含量均较低,在果实发育后期迅速增加,但接近果实成熟时又大幅下降.研究表明,果糖与苹果酸的含量及其动态变化是影响欧李果实糖酸比、决定果实风味的主要因素.     

桃果实细胞内糖酸分布对果实甜酸风味的影响

以成熟‘白凤’桃果实为实验材料,采用区室化分析方法计算细胞内液泡、细胞质和细胞间隙中各糖酸组分的含量,并用调查问卷的方式对成熟桃果实甜酸风味进行评价打分,研究果肉细胞内各糖酸组分含量及其分布对果实甜酸风味的影响。结果表明:(1)成熟桃果实中可溶性糖(蔗糖、葡萄糖、果糖和山梨醇)在液泡、细胞质和细胞间隙的含量分别为27.3、11.6和9.0mg·g-1,有机酸(苹果酸、柠檬酸、奎宁酸和莽草酸)含量分别为2.09、0.94和0.35mg·g-1;蔗糖和苹果酸含量分别占果实可溶性糖和有机酸含量的80.6%和77.0%,是成熟桃果实中糖和酸的主要储存形式。(2)果实细胞内各糖酸组分通过细胞膜的渗透速率明显高于液泡膜。(3)块状处理桃果实液泡、细胞质与细胞间隙中的糖含量比、酸含量比及糖酸比分别为3.0∶1.3∶1.0、6.0∶2.7∶1.0、13.9∶12.4∶23.1,而匀浆处理果实的细胞结构被破坏,其不同细胞器中的比例分别为1.0∶1.0∶1.0、1.0∶1.0∶1.0、14.0∶14.0∶14.0;块状果实风味评价得分(2.99)明显高于匀浆处理果实(1.98)。研究认为,桃果实细胞中液泡、细胞质和细胞间隙之间糖酸含量以及糖酸比的差异可能是导致果实甜度风味变化的重要原因。     

水杨酸和茉莉酸甲酯对丹参幼苗叶片显微结构、光合及非结构糖积累的影响

研究了水杨酸(SA)和茉莉酸甲酯(MeJA)处理对丹参(Salvia miltiorrhiza Bunge)幼苗叶片显微结构、叶片光合能力及幼苗中非结构糖积累的影响.结果显示:SA处理增加了丹参幼苗叶片气孔密度;叶肉细胞排列紧密、体积减小,叶肉细胞内叶绿体数目减少,但叶绿体体积增大,叶绿体基粒片层结构的数目增加;叶片中叶绿素a、b含量、叶气孔导度、蒸腾速率以及净光合速率均增加;同时,幼苗根中和叶片中酸性转化酶活性降低,幼苗地上部分蔗糖含量及可溶性糖总量显著高于对照.MeJA处理减少了叶片气孔密度,气孔发育畸形;叶肉细胞间隙增大,栅栏细胞层数减少,叶肉细胞内叶绿体数目减少,叶绿体体积减小,叶绿体基粒片层结构被破坏;叶片中叶绿素a及类胡萝卜素含量、叶片的净光合速率低于对照,叶气孔导度、蒸腾速率增强;同时,幼苗根中及叶中酸性转化酶活性增加,幼苗根中蔗糖含量及可溶性糖总量显著低于对照.可见,SA处理能促进植物叶片显微结构发育,增强叶片光合能力,抑制蔗糖降解并促进蔗糖积累;而MeJA处理则破坏了植物叶片显微结构,降低了叶片光合能力,促进了蔗糖降解并减少蔗糖积累.     

桃果实不同发育时期细胞内糖酸分布对甜酸风味的影响

为了解桃果实发育过程中细胞内糖酸的分布、变化规律对果实甜酸风味的影响,采用区室分析方法研究了‘白凤’桃(Prunus persica‘Hakuho’)果实不同发育时期细胞内糖酸组分、含量及其分布对甜酸风味的影响。结果表明,成熟果实中(花后100 d)可溶性糖(蔗糖、葡萄糖、果糖和山梨醇)在液泡、细胞质和细胞间隙中的含量分别为27.3、11.6、9.0 mg/g,有机酸(苹果酸、柠檬酸、奎宁酸和莽草酸)含量为2.09、0.94、0.35 mg/g;未成熟果实中(花后60 d)可溶性糖在液泡、细胞质和细胞间隙中的含量分别为0.97、2.2、2.3 mg/g,有机酸含量为0.25、0.44、0.82 mg/g。‘白凤’桃果肉细胞内不同的糖酸分布对成熟果实的甜酸风味具有显著影响,而对未成熟果实影响较小。成熟果实中糖酸在液泡、细胞质和细胞间隙三者之间的分布差异可能是导致果实甜度变化的主要原因。     

遮荫处理对罗汉果果肉组织中罗汉果苷和糖分含量的影响

该研究以罗汉果品种“永青1号”为材料,在果实发育后期进行不同强度的遮荫处理,测定遮荫处理下果肉组织中罗汉果苷各组分含量、各种糖分的积累及其相关糖代谢酶活性、叶片光合特性的变化。结果表明：重度遮荫(70％遮荫)会导致果实中罗汉果甜苷Ⅴ含量显著提高,遮荫60 d(授粉后90 d),对照与70％遮荫处理果实中罗汉果甜苷Ⅴ含量分别为4.83％、5.79％,差异达极显著水平( P<0.01);70％遮荫处理下果实中葡萄糖、果糖含量也明显高于对照( P<0.05)。与罗汉果甜苷Ⅴ、葡萄糖、果糖含量的变化不同,遮荫60 d,70％遮荫处理下罗汉果果实中可溶性糖、蔗糖的含量分别显著(P<0.05)和极显著(P<0.01)低于对照。另外,遮荫处理导致罗汉果叶片净光合速率下降,遮荫40 d,70％遮荫处理下叶片的净光合速率显著低于对照( P<0.05)。综上说明,重度遮荫处理可以引起罗汉果果实品质的改变;光合速率下降是遮荫处理下可溶性糖含量降低的主要原因;SPS、AI、SSC活性的改变则是遮荫导致蔗糖含量降低及葡萄糖、果糖含量上升的重要因素;重度遮荫条件下,荫棚中温度降低可能是罗汉果果实中甜苷Ⅴ含量增高的关键诱因。该研究结果为罗汉果的生产及品质调控提供了理论依据。     

施肥对大棚甜椒品质的影响

对塑料大棚栽培的甜椒进行滴灌施肥,研究不同用量的氮磷钾肥料对甜椒品质的影响,结果表明,侧枝是甜椒硝态氮的敏感反应部位,且含量最高,叶片次之,果实最少,高量施肥对甜椒果实的硝态氮与可溶性糖含量没有产生不良影响,果实是甜椒糖分的主要贮存器官,其可溶性总糖含量在50%-55%范围内,高于叶片和侧枝,施肥量减少,果实中肌醇和蔗糖的含量增加,葡萄糖与果糖是甜椒果实主要的可溶性糖类,高量施肥削弱叶片的C素代谢作用,表现为抑制同化物淀粉在叶片的积累,粗淀粉在果实中的含量最高,叶片脂类含量均超过侧枝和果实3-4倍以上,可能是由于叶片中叶绿素含量高所致。     

不同光质补光对设施内桃果实品质及叶片质量的影响

研究采用蓝光、红蓝光、紫外光3种植物生长灯对设施内‘春雪’和‘中油4号’桃进行暗期延时补光,以设施内暗期光照为对照,探究不同光质补光对设施内桃果实品质及叶片质量的影响,并筛选最优补光光质。结果表明:(1)与对照(未补光)相比,3种补光处理对设施内‘春雪’和‘中油4号’桃果实品质及叶片质量均影响显著,且不同光质处理间存在显著差异。(2)蓝光补光处理桃果实单果重最大,可溶性固形物含量最高,可溶性糖含量较高,维生素C含量最高,可滴定酸含量较低,叶片叶绿素含量最高,叶面积最大,叶片及其栅栏组织、海绵组织厚度最厚,而果实酚类物质含量居中。(3)紫外光补光处理桃果实的酚酸类、黄烷醇类、黄酮醇类、花色苷类4类酚类物质含量最高,而果实品质居中,叶片叶绿素含量、叶面积以及叶片及栅栏组织、海绵组织厚度较低。(4)红蓝光补光处理桃果实的单果重、可溶性糖、维生素C含量和酚类物质含量最低,而叶片质量居中。研究认为,适宜的设施内暗期延时补光可显著提高桃叶片质量,有效改善桃果实单果重和营养品质,并以蓝光补光的效果最佳。     

去果河套蜜瓜源叶碳水化合物及其相关酶昼夜变化特征

以河套蜜瓜为试材,在果实迅速膨大期通过去果处理改变库源关系,研究源叶净光合速率,蔗糖、还原糖和淀粉含量及其代谢相关酶活性的昼夜变化规律。结果表明:(1)源叶的净光合速率为单峰曲线,无明显的"光合午休"现象,去果处理对其无影响。(2)源叶中蔗糖和还原糖含量的昼夜变化为单峰曲线,蔗糖磷酸合成酶和蔗糖合成酶合成方向活性的昼夜变化为双峰曲线,蔗糖合成酶分解方向、酸性转化酶和中性转化酶活性的昼夜变化无明显规律,改变库源关系对这些指标均无显著影响;蔗糖含量升高受蔗糖磷酸合成酶和蔗糖合成酶合成方向正调控,而蔗糖含量降低则受多种酶的共同调节。(3)源叶中淀粉含量和腺苷二磷酸葡萄糖焦磷酸化酶活性的昼夜变化为单峰曲线,去果处理可以显著提高淀粉含量和腺苷二磷酸葡萄糖焦磷酸化酶活性,淀粉含量升高受腺苷二磷酸葡萄糖焦磷酸化酶正调控。     

Changes of Starch and Sorbitol in Leaves Before and After Removal of Fruits from Peach Trees

Changes in contents of nonstructural carbohydrates in leaves,as well as some characteristics of leaves before and after fruitremoval, were investigated in potted peach (Prunus persica L.)trees. Leaf area and dry mass per unit leaf area (SLW) at thefruit-maturation stage decreased with increasing numbers ofpeaches per tree, whereas the chlorophyll content per unit areain leaves of fruiting trees increased. The chlorophyll contentdecreased more rapidly upon removal of fruit than that in leavesof fruiting trees. The starch content per unit dry mass in leavesof fruiting trees at the fruit-maturation stage was lower thanthat in leaves of non-fruiting trees. Starch accumulated significantlyin leaves within 1 d of removal of fruit during the fruit-maturationstage and continued to increase thereafter. The accumulationof starch after removal of fruit occurred more rapidly thanthe decrease in chlorophyll content. Reducing and non-reducingsugars (total sugars) per unit dry mass in the leaves were higherin fruiting trees than in non-fruiting trees. After fruit removal,the total sugar content of leaves increased temporarily andthen gradually decreased. The sorbitol content per unit freshmass in leaves of fruiting trees during the fruit-maturationstage was slightly higher than that in leaves of non-fruitingtrees. One day after removal of fruit, the sorbitol contentincreased in parallel with the accumulation of starch and remainedhigh. The sucrose content of leaves did not change markedlyupon removal of fruit. Prunus persica L.; peach leaves; nonstructural carbohydrate; starch and sorbitol; fruit removal     

套袋对梨果实发育过程中糖组分及其相关酶活性的影响

以翠冠和黄金梨为试材,测定套袋和未套袋(对照)梨果实发育时期果实中蔗糖、葡萄糖、果糖和山梨醇含量以及蔗糖代谢相关酶酸性转化酶(AI)、中性转化酶(NI)、蔗糖合成酶(SS)和蔗糖磷酸合成酶(SPS)的活性,并对果实中糖组分积累与酶活性的关系进行了分析.结果表明:(1)两梨品种套袋果实在发育过程中蔗糖、葡萄糖、果糖、山梨醇和糖代谢相关酶活性变化趋势与对照基本一致,套袋果实糖含量均低于对照但差异不显著,而各相关酶活性在两类果实间差异表现各异.(2)在梨果实发育早期,果实中以分解酶类为主,糖分积累低;发育后期以合成酶类为主,糖分积累多.(3)两品种套袋和对照果实AI活性与葡萄糖含量均呈显著或极显著正相关,SS合成方向活性与蔗糖含量均为极显著正相关,且翠冠对照果SPS活性与蔗糖含量呈极显著正相关.可见,套袋通过提高果实发育早期转化酶(Inv)活性,降低果实后期蔗糖磷酸合成酶(SPS)、蔗糖合成酶(SS)的活性来影响糖分积累,从而影响梨果品质.     

Cloning and expression of genes related to the sucrose-metabolizing enzymes and carbohydrate changes in peach

To shed light on the relationship between sucrose metabolism and expression of genes related to sucrose-metabolizing enzymes, six genes encoding sucrose-metabolizing enzymes were isolated, and the levels of four main carbohydrates and related enzyme activities as well as the expression of these six genes were determined in fruits, leaves and phloem-enriched fraction throughout peach fruit development. Sucrose content in mature fruit ranked first followed by glucose, fructose and sorbitol in that order, while sorbitol was the highest and sucrose lowest in phloem-enriched fraction and leaves. Glucose and fructose had similar change patterns throughout fruit development. Cloning results reveal that the nucleotide sequences of the six genes have high similarity to corresponding genes isolated from other plants. In addition, the expression of these genes and the levels of related enzyme activities varied with tissue and stage of fruit development, suggesting a complexity in relationships between carbohydrates, enzymes activities and related gene expression. Sucrose phosphate synthase maybe a key enzyme involved in sucrose synthesis while sucrose synthase may mainly be responsible for sucrose synthesis in peach fruits at later stages of development. Further studies are needed to genetically and physiologically characterize these genes and enzymes in peach and to gain a better understanding of their functions and relationship with carbohydrate metabolism.     

Carbohydrate availability affects growth and metabolism in peach fruit

Along with sucrose, sorbitol represents the main photosynthetic product and form of translocated carbon in peach. This study aimed at determining whether peach fruit carbohydrate metabolism is affected by changes in source–sink balance , and specifically whether sorbitol or sucrose availability regulates fruit enzyme activities and growth. In various trials, different levels of assimilate availability to growing fruits were induced in vivo by varying crop load of entire trees, leaf : fruit ratio (L:F) of fruiting shoots, or by interrupting the phloem stream (girdling) to individual fruits. In vitro, fruit tissue was incubated in presence/absence of sorbitol and sucrose. Relative growth rate (RGR), enzyme activities and carbohydrates were measured at different fruit growth stages of various peach cultivars in different years. At stage III, high crop load induced higher acid invertase (AI, EC 3.2.1.26) activities and hexose : sucrose ratios. Both sorbitol and sucrose contents were proportional to L:F, while sorbitol dehydrogenase (SDH, EC 1.1.1.14) activity was the only enzyme activity directly related to L:F in both fruit growth stages. Girdling reduced fruit RGR and all major carbohydrates after 4 days and SDH activity already after 48 h, but it did not affect sucrose synthase (SS, EC 2.4.1.13), AI and neutral invertase (NI, EC 3.2.1.27). Fruit incubation in sorbitol for 24 h induced higher SDH activities than in buffer alone. In general, assimilate availability affected both sorbitol and sucrose metabolism in peach fruit, and sorbitol may function as a signal for modulating SDH activity. Under highly competitive conditions, AI activity may be enhanced by assimilate depletion, providing a mechanism to increase fruit sink strength by increasing hexose concentrations.     

氟化氢熏气对金华佛手叶片、花和果实中有机营养物含量的影响

HF人工熏气后佛手叶中光合速率及叶绿素、可溶性总糖、蔗糖、核酸、蛋白质含量均下降,淀粉及果糖含量上升;花中果糖、蔗糖、可溶性总糖及核酸含量均下降;果中的果糖、蔗糖及可溶性糖含量均上升,蛋白质含量下降.     

宁夏枸杞果实遮光处理对果实糖积累和相关酶活性的影响

在宁夏枸杞盛花期对果实进行遮光处理,以自然照光为对照,通过测定枸杞果实生长指标、果实叶绿素含量、蔗糖代谢糖分含量及其蔗糖代谢相关酶活性,以研究枸杞果实光合作用在枸杞果实糖积累中的效应及对枸杞果实多糖和总糖含量积累的影响。结果表明:(1)遮光后,果实单粒重和果实中叶绿素含量均降低,体积却有所增加,遮光处理主要影响果实着色期和成熟期的糖含量,对果实发育初期影响不大;(2)遮光处理不同程度增加了果实转化酶、蔗糖磷酸合成酶和蔗糖合成酶活性。枸杞果实多糖的形成与果实光照具有一定的关系,而总糖含量的积累与光照关系不大。     

果实中糖的运输、代谢与积累及其调控

叶片光合产物向果实运输的主要形态是蔗糖,但在木本蔷薇科果树中,光合产物的主要运输形态为山梨醇.糖从质外体空间跨膜运入共质体的过程由糖运输蛋白介导,而糖运输蛋白的基因表达伴随着果实糖的积累而增强.蔗糖代谢酶参与了细胞内外4个与糖运输有关的无效循环.己糖代谢抑制是果实糖快速积累的前提.在木本蔷薇科果实中,蔗糖代谢酶活力仍非常活跃,表明蔗糖可能与山梨醇在果实生长发育中都起重要的作用.糖作为信号分子,调节了承担糖运输与代谢的基因的表达.自然环境因子和栽培措施能有效调控糖运输、代谢与积累.反义抑制Ivr基因表达能提高番茄果实含糖量的实验结果表明遗传工程调控糖积累的潜力.阐明糖信号与其它信号互作对糖运输与代谢的调控机制是今后研究的重点.