枇杷品种香甜和解放钟及两者杂交子代优系果实香气成分分析

采用顶空固相微萃取和气质联用技术,分析测定了果实无明显香味的枇杷品种解放钟和香味明显的品种香甜及其正反交子代中香味明显的优系香钟11号和钟香25号的果肉香气成分。结果表明,4个枇杷品种(系)共检测出11类91种香气成分,其中萜类物质D-柠檬烯相对含量最高(62.59%~68.32%),其次是醛类物质(12.53%~18.15%);亲本香甜香气成分种类最多(62种)、解放钟最少(44种),子代香钟11号、钟香25号介于双亲之间,香甜与2个子代共有成分为38种和36种,解放钟与2个子代共有成分为27种和26种,子代香气成分更多遗传自香甜;主要特征香气成分有D-柠檬烯、(E)-2-已烯醛、正辛醛、正己醛、乙酸苏合香酯、2-甲基丁酸甲酯、庚酸烯丙酯、2-甲基丁酸乙酯等;并讨论了解放钟果肉香味不明显可能的原因。     

巴西蕉和粉蕉果实有机酸组分及其含量变化特征

有机酸是影响香蕉果实风味的主要物质之一。本研究以不同基因型的巴西蕉(AAA)和粉蕉(AAB)果实为试材,利用高效液相色谱法(high performance liquid chromatography,HPLC)测定了不同发育及成熟时期果实中有机酸组分及其含量变化,结果表明,巴西蕉和粉蕉果实中均检测出8种相同的有机酸组分,此外巴西蕉中还检测到了酒石酸,而粉蕉中未检出。随着果实发育,巴西蕉总有机酸含量呈现"先降-后升-再降"的变化趋势,而粉蕉呈现逐渐上升的趋势。巴西蕉和粉蕉可食期果实各有机酸组分含量及其构成比例也存在明显差异。巴西蕉以积累奎尼酸、苹果酸和富马酸为主,三者占总有机酸的比例分别为23.84%、18.71%和17.09%;粉蕉以柠檬酸、奎尼酸和苹果酸为主,分别占总有机酸的34.10%、27.27%和16.75%。这一结果为深入研究香蕉果实风味形成以及有机酸代谢途径等提供了参考。     

不同梨品种果实有机酸含量变化与相关酶活性的研究

以梨品种‘鸭梨’、‘茌梨’和‘八里香’为试材,对不同品种果实有机酸积累及相关酶活性随发育的动态变化特征进行分析比较,探讨果实有机酸含量与相关酶活性的关系。结果表明:(1)梨果实发育过程中有机酸含量呈逐渐下降趋势,果实成熟时的总有机酸含量以‘茌梨’最高,‘鸭梨’次之,‘八里香’最低,且3品种间总酸含量差异显著。(2)果实发育后期,‘鸭梨’、‘茌梨’和‘八里香’的柠檬酸含量几乎相同,而苹果酸的含量差异显著,说明苹果酸是引起品种间总酸含量差异的主要因素。(3)在苹果酸代谢中,不同品种间NADP-ME酶活性在果实发育后期差异显著,而NAD-MDH和PEPC酶活性无显著差异,表明NADP-ME酶是引起‘鸭梨’、‘茌梨’和‘八里香’成熟果实苹果酸含量差异的主要原因。(4)不同品种的柠檬酸代谢酶CS、Cyt-ACO、Mit-ACO和NAD-IDH的活性变化趋势一致,且成熟时无显著差异,表明它们不是引起梨果实酸含量差异的主要原因。(5)梨果实发育过程中有机酸含量与相关代谢酶活性的相关性分析表明,苹果酸和柠檬酸代谢酶共同影响梨果实的酸含量水平。     

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     

柑橘果实生长发育过程中果实不同部位的4种内源激素含量变化的研究

以单性结实的国庆1号温州蜜柑和自花结实的华农本地早橘为材料,研究了果实生长发育过程中果实不同部位的吲哚乙酸(IAA)、脱落酸(ABA)、赤霉素(GA1/3)和玉米素核苷(ZR)含量的变化。结果表明:(1)国庆1号果皮IAA、GA1/3和ZR含量在幼果阶段均相对较高,随后果皮和果肉IAA含量均趋下降,而在果实膨大期内果肉ABA和果皮、果肉GA1/3、ZR含量均出现上升峰值,果实成熟采收时果皮和果肉ABA含量均明显回升。(2)华农本地早种子、果皮和果肉IAA及其种子ABA含量均在果实膨大期内出现明显峰值,在幼果阶段至果实膨大初期内种子GA1/3和ZR含量均居较高并出现明显上升,对应的果皮、果肉4种内源激素水平均相对较低且变幅小。还就两结实类型柑橘果实生长发育与其内源IAA、ABA、GA1/3和ZR含量动态的关系进行了讨论。     

枇杷种质花中黄酮含量分析与评价

黄酮是枇杷花主要功效成分之一,具有显著的消炎止咳作用。本试验从国家果树种质福州枇杷圃中筛选国内外代表性枇杷种质55份,分析评价了其花中黄酮含量的差异及分级指标。研究结果显示,不同枇杷种质之间黄酮含量差异明显,分布范围为0.44%~2.28%,最高的卓南1号是最低者香钟25号的5.18倍;来源于福建的枇杷种质与浙江的存在极显著差异(P0.01),与贵州、广西的存在显著差异(P0.05);初步筛选出超高黄酮含量枇杷优异种质1份,初步建立了枇杷花黄酮分级指标,为今后枇杷花研究和利用奠定基础。     

晚熟芽变脐橙在果实成熟阶段与原品种在糖酸代谢的差异

奉节晚橙(Citrus sinensis) (FW)为奉节72-1脐橙(FJ)的一个晚熟芽变品种, 比原品种成熟期推迟1个月以上. 测定了两个品种在成熟阶段果肉和果皮的糖组分(蔗糖、葡萄糖和果糖)和酸组分(苹果酸和柠檬酸)的含量, 并分析了相关代谢酶基因的转录情况. 结果表明, FW中的糖分和酸代谢受到芽变的影响. FW果肉组织中的各糖分含量在花后227天前显著低于FJ, 不过在花后263天则显著高于后者. FW果肉中的蔗糖合成酶基因(CitSS1)的表达比原品种延迟, 而酸性转化酶基因(CitAI)的表达水平在花后207和263天高于原品种. 在FW果皮组织中, 仅有蔗糖含量在果实成熟早期(花后165和187天)显著低于FJ, 不过蔗糖相关裂解酶基因与后者相比在成熟时期不同阶段表现出较高的表达水平. 分析两品种酸代谢变化发现, 芽变品种果肉中苹果酸含量在整个果实成熟期都显著低于原品种, 不过在果皮中则显著低于后者; FW 果皮和果肉中柠檬酸的含量在果实成熟前期高于FJ, 但是在果实成熟后期则低于后者. 柠檬酸含量差异部分与柑橘线粒体柠檬酸合成酶基因高量表达及柑橘质体乌头酸酶基因的低水平表达相关. 明确了芽变品种在果实成熟过程中糖酸代谢相关指标的差异变化, 可以认为发生在FW中的突变影响了其糖酸代谢, 这种代谢的变化可能与其他晚熟特征相关.     

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。     

李果实有机酸组成特征及其与苹果酸转运体基因PsALMT9和PstDT的相关性

为了阐明李果实有机酸组成特征及其与苹果酸转运体基因PsALMT9、PstDT的相关性,该研究以‘皇冠李’(Prunus salicina ‘Huangguan’)和‘黑琥珀李’(Prunus salicina ‘Black Amber’)为试材,测定了不同发育阶段果实有机酸组分与含量、可滴定酸含量、pH、单果重,采用实时荧光定量PCR(qPCR)分析了苹果酸转运体基因PsALMT9和PstDT在果实生长发育过程中的表达变化规律,并通过Pearson相关系数探讨PsALMT9和PstDT基因与果实有机酸的相关性。结果显示：(1)‘皇冠李’和‘黑琥珀李’果实各发育阶段主要有机酸组分为苹果酸(占73.83%~92.10%),其次为酒石酸(占4.59%~14.26%),柠檬酸、草酸、乙酸和琥珀酸含量较低(0.47%~7.21%),富马酸仅以微量存在。(2)果实苹果酸含量与可滴定酸含量呈极显著正相关关系,与pH呈极显著负相关关系;PsALMT9表达量与酒石酸含量呈显著正相关关系,与乙酸和草酸含量呈极显著正相关关系;PstDT表达量与柠檬酸、可滴定酸含量呈显著正相关关系,但PsALMT9和PstDT均与苹果酸含量的相关性较低。研究发现,‘皇冠李’和‘黑琥珀李’属于苹果酸型果实,果实酸度主要由苹果酸决定;PsALMT9基因可能同时参与酒石酸、乙酸和草酸的跨液泡膜转运,PstDT基因可能参与柠檬酸的跨液泡膜转运,而苹果酸跨液泡膜转运过程可能与PsALMT9、PstDT等多种膜蛋白基因的协同调控有关。     

苏打盐碱胁迫对甜高粱植株有机酸含量的影响

为确定以Na2CO3和Na HCO3为主要成分的苏打盐碱胁迫对甜高粱植株有机酸含量的影响,研究了盐碱胁迫下甜高粱品种314B和M-81E地上部和根部有机酸含量变化及磷酸烯醇式丙酮酸羧化酶(PEPC)活性。结果表明:盐碱胁迫后,甜高粱地上部和根部均检测到草酸、酒石酸、甲酸、丙酮酸、苹果酸、乳酸、乙酸及柠檬酸等8种有机酸,琥珀酸仅在根中被检出;在苏打盐碱胁迫后,除极少数有机酸含量略微增加外,其余各酸含量降低,且随胁迫浓度增加含量下降程度增大;低浓度胁迫时PEPC酶活性升高,而高浓度时则降低;有机酸含量与PEPC酶活性不存在相关性,但PEPC酶活性升高,有机酸含量下降幅度小,反之,有机酸含量大幅下降;从有机酸含量及PEPC酶活性可以看出,耐性强品种M-81E受苏打盐碱胁迫的伤害小于耐性弱品种314B。     

Mapping QTLs controlling fruit quality in peach (Prunus persica (L.) Batsch)

 The organoleptic quality of fleshy fruits is in a large part defined by their composition of soluble sugars and organic acids. An F₂ population issuing from a cross between two peach varieties, ‘Ferjalou Jalousia’, a non-acid peach, and ‘Fantasia’, an acid nectarine, was analysed over 2 successive years for agronomic characters and for molecular-marker (isoenzymes, RFLPs, RAPDs, IMAs and AFLPs) segregations. Blooming and maturity dates, as well as productivity, were noted for each tree. Four fruits per tree were analysed at maturity for fresh weight, colour, pH, titratable acidity, soluble-solids content (SSC), acid (malic, citric and quinic acids) and sugar (sucrose, glucose, fructose, sorbitol) contents. QTLs were detected for all fruit components analysed, except for fruit colour. The QTLs for nearly all components were present on two linkage groups. For productivity, fresh weight, pH, quinic acid, sucrose and sorbitol content, all the detected QTLs displayed the same effect as the parental phenotypes. By contrast, for maturity date, titratable acidity, malic and citric acids and fructose, some QTLs displayed the same effect as the parental phenotypes while others displayed the opposite effect. The fraction of the total variation in each trait throughout the population explained by the QTLs was very high and reached more than 90% for some characters. For most of the characters analysed, epistasis was observed between QTLs. Received: 10 October 1997 / Accepted: 18 August 1998     

Exudation of low molecular weight organic acids by germinating seeds of two edaphic ecotypes of Silene nutans L.

Two parapatric ecotypes of Silene nutans, exhibiting distinct allozyme patterns, morphology and autecology were investigated for differences in exudation of low molecular weight organic acids from germinating seeds, and for differences in seed phosphorus content. The calcicolous ecotype is restricted to calcareous soils, and the silicicolous one predominantly occurs on acid soils, and sometimes, although less frequently, on neutral to alkaline soils. No clear difference was found between ecotypes. However, within the silicicolous ecotype seed samples showed marked differences in exudation pattern and seed phosphorus content depending on origin along the soil acidity gradient. Seeds of low-pH origin exuded more dicarboxylic acids (malic + succinic acid, oxalic acid) and had a lower phosphorus content than seeds of high pH origin. The exudation of dicarboxylic acids from seeds of low pH origin is probably an adaptation to adverse conditions (aluminium toxicity) on acid soils. The pattern is similar to that found among different cultivars of wheat. It is contrasted to the pattern found on comparison of a suite of calcifugous and calcicolous species, where exudation of di- and tricarboxylic acids is associated with solubilisation of recalcitrantly bound phosphorus and iron in calcareous soils.     

Photosynthetic flexibility in Pedilanthus tithymaloides poit,a CAM plant

The induction of CAM in Pedilanthus tithymaloides (Euphorbiaceae) under water-limited conditions was evaluated by following diurnal oscillations of CO2 fixation, titratable acidity and malic acid content in the leaf extracts. CAM induction was assessed by measuring the activities of phosphoenolpyruvate carboxylase (PEPC), NADH-malate dehydrogenase (MDH) and phosphoenolpyruvate caroxykinase (PEPCK) in the leaves as well. Drought resulted in large increases in the nocturnal acid accumulation and rates of CO2 uptake in the leaves of P. tithymaloides. The drought-induced CAM activity tended to be reversible after re-watering. Nevertheless, under well-watered conditions, plants of P. tithymaloides showed day time CO2 uptake patterns with less pronounced diurnal oscillations of organic acids. Our data indicate that although P. tithymaloides is a CAM plant, environmental variables like drought induce photosynthetic flexibility in this species. This type of plasticity in CAM and metabolic versatility in P. tithymaloides should be an adaptation for prolonged survival under natural adverse edaphic and microclimate situations.     

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.     

Co-mapping studies of QTLs for fruit acidity and candidate genes of organic acid metabolism and proton transport in sweet melon (Cucumis melo L.)

Sweet melon cultivars contain a low level of organic acids and, therefore, the quality and flavor of sweet melon fruit is determined almost exclusively by fruit sugar content. However, genetic variability for fruit acid levels in the Cucumis melo species exists and sour fruit accessions are characterized by acidic fruit pH of <5, compared to the sweet cultivars that are generally characterized by mature fruit pH values of >6. In this paper, we report results from a mapping population based on recombinant inbred lines (RILs) derived from the cross between the non-sour 'Dulce' variety and the sour PI 414323 accession. Results show that a single major QTL for pH co-localizes with major QTLs for the two predominant organic acids in melon fruit, citric and malic, together with an additional metabolite which we identified as uridine. While the acidic recombinants were characterized by higher citric and malic acid levels, the non-acidic recombinants had a higher uridine content than did the acidic recombinants. Additional minor QTLs for pH, citric acid and malic acid were also identified and for these the increased acidity was unexpectedly contributed by the non-sour parent. To test for co-localization of these QTLs with genes encoding organic acid metabolism and transport, we mapped the genes encoding structural enzymes and proteins involved in organic acid metabolism, transport and vacuolar H+ pumps. None of these genes co-localized with the major pH QTL, indicating that the gene determining melon fruit pH is not one of the candidate genes encoding this primary metabolic pathway. Linked markers were tested in two additional inter-varietal populations and shown to be linked to the pH trait. The presence of the same QTL in such diverse segregating populations suggests that the trait is determined throughout the species by variability in the same gene and is indicative of a major role of the evolution of this gene in determining the important domestication trait of fruit acidity within the species.     

杨树根际解无机磷细菌Mp1-Ha4的鉴定及其解磷机理

解无机磷细菌能够溶解土壤中的难溶性磷酸盐,增加土壤有效磷含量,促进植物生长。以一株杨树根际土壤中筛选得到的解无机磷细菌Mp1-Ha4为研究对象,利用分子生物学的方法对该菌株进行鉴定,测定了其对磷酸钙、磷酸铝和磷酸铁的解磷能力,并对该菌株9 d内的磷酸钙溶解动力学进行了研究。结果表明,解无机磷细菌Mp1-Ha4为一株西地西菌Cedecea sp.,其对磷酸钙的溶解能力远强于对磷酸铝和磷酸铁的溶解能力。在NBRIP液体培养基中,该菌株对磷酸钙的溶解能力达到了497.4 mg/L,在其对磷酸钙解磷过程中,培养基pH及可滴定酸度与解磷量分别呈显著负、正相关。高效液相色谱分析显示,该菌株在解磷过程中分泌了大量有机酸,主要包括α-酮戊二酸,酒石酸和苹果酸。分泌有机酸,降低环境pH可能是解无机磷细菌西地西菌(Cedecea sp.)Mp1-Ha4溶解难溶性磷酸盐的主要机制,同时该菌株对磷酸钙的高效溶解作用使其具有较大的研究和应用前景。     

Daily fluctuations of titratable acidity, content of organic acids (malate and citrate) and soluble sugars of varieties and wild relatives of Ananas comosus L. growing under natural tropical conditions

The genus Ananas has its centre of origin in northern South America. In this area, several varieties of Ananas comosus are widely cultivated, and a number of wild species are found growing under variable conditions of light intensity, soil fertility and water availability. Here we report detailed daily courses of titratable acidity, and malate, citrate and free-sugars content of several cultivated varieties of A. comosus and of A. ananassoides, a closely related species growing on granitic rock-outcrops in southern Venezuela. Day-night oscillations of both malate and citrate were detected in plants growing under full sun, but malate was by far the most important organic anion associated with CAM performance in ail populations sampled. Fructose was the dominant compound in the neutral fraction, but only sucrose showed a consistent inverse relation with the cycle of titratable acidity. The diel oscillations of free sugars measured were not always enough to account for the amount of organic anions accumulated during the night. Plants cultivated under shady conditions always showed a lower night-time increase in titratable acidity and organic acids, and also smaller oscillations in the amount of free sugars than sun exposed plants. In all populations growing under full sun, osmolality increased during the night, but it was not always possible to explain these changes on the basis of variations in molar concentrations of organic acids and sugars. Besides, no diel variations in the cations K⁺, Ca²⁺ and Mg²⁺ were detected. K⁺ was always the dominant cation (K/Ca ratios ～ 19), while Mg²⁺ was always higher than Ca²⁺ (Mg/Ca ～ 2).     

中华猕猴桃品种'Hort16A'的果实发育特征

To explore the fruit development characteristics of Actinidia chinensis'Hort16A' , fruit shape indexes during 2-154 d after anthesis, contents of soluble sugar and titratable acid in fruit during 30-154 d after anthesis, and contents of organic acid components in fruit during 44-147 d after anthesis were analyzed. The results show that fruit of 'Hort16A' grows rapidly during 30-44 and 58-72 d after anthesis. Content of soluble solid in fruit during 100-140 d after anthesis is slightly higher than that during 2-93 d after anthesis, and increases rapidly during 147-154 d after anthesis. Fruit firmness decreases rapidly during 147-154 d after anthesis. In general, during 30-154 d after anthesis, content of soluble sugar in fruit increases gradually, while content of titratable acid decreases firstly, then increases, and decreases again. In the fruit, tartaric acid is not detected, content of quininic acid is the highest, contents of malic acid and citric acid are higher, and contents of succinic acid and fumaric acid are very low. Total content of organic acids increases firstly and then decreases, and reaches the highest value at 140 d after anthesis. It is suggested that in order to improve fruit quality of'Hort16A' , its cultivation and management plans will be set up based on fruit development characteristics.