钾对兰州百合鳞茎中多酚类物质积累代谢及其抗氧化活性的影响

为探究施钾对兰州百合鳞茎中多酚类物质的积累、抗氧化能力及差异代谢物的影响,该研究以兰州百合鳞茎为试材,通过固定氮素(N)和磷素(P)用量,设置不同钾(K)浓度处理,即K_(0)(不施肥)、K_(1)(447.6 mg·L^(-1))、K_(2)(671.4 mg·L^(-1))、K_(3)(895.2 mg·L^(-1)),采用福林-肖卡法、溴甲酚绿比色法、香草醛比色法、DPPH法、铜离子还原能力(CUPRAC)法测定不同K浓度处理下兰州百合鳞茎中多酚类物质含量及其抗氧化活性,并采用LC-MS法分析多酚类物质的差异代谢物,并进行差异代谢物筛选,功能注释及富集分析,为兰州百合的优质栽培提供理论依据。结果表明:(1)不同K浓度处理下兰州百合鳞茎中多酚类物质的含量及其抗氧化活性存在显著差异(P<0.05),与K_(0)相比,K_(1)、K_(2)、K_(3)均能促进鳞茎多酚类物质的积累及其抗氧化能力的提高,其中以K_(2)(671.4 mg·L^(-1))效果最佳。(2)相关性分析表明,兰州百合鳞茎多酚类物质含量与抗氧化活性指标呈极显著(P<0.01)相关关系,相关系数为0.451~0.959。(3)K_(0)、K_(2)浓度处理下兰州百合鳞茎中存在89种多酚类及相关化合物,其中52种相对含量显著上调,37种相对含量显著下调,且显著富集到黄酮类及苯丙类化合物生物合成的通路上。研究认为,兰州百合的最佳施钾量(671.4 mg·L^(-1))能有效促进鳞茎中多酚类物质的积累并提高其抗氧化能力。     

百合扦插鳞片控温成球过程中4种物质含量的动态变化

以东方型（火百合Stargazer品种）、亚洲型（新中心Nove Cento品种）和麝香型（新铁炮LillHmformo-longii品种）百合鳞片为试验材料,连续在25℃保留8周、17℃保留4周、4～5℃保留8周后分析温控成球过程中鳞片淀粉、总糖、还原糖和蛋白质等含量的动态变化。结果表明：3个品种百合鳞片在控温成球过程中,4种物质的变化与鳞片控温成球处理的不同阶段有密切关系,火百合品种在整个温控成球过程中所测的4种物质含量变化较平缓,而新中心和新铁炮2个品种在整个温控成球过程中4种物质含量变化较大。     

百合品种间的数量分类研究

根据 4 8个形态学性状 ,应用聚类分析将 9个不同来源的百合品种分为 3个类群 :亚洲系、东方系和麝香系。并显示了东方系和麝香系亲缘关系较近 ,符合北美百合协会对百合品种的分类与百合的育种历史、演化关系。文中将 4 8个形态学性状数据集划分为营养器官性状与生殖器官性状两个数据子集。单独采用营养器官性状子集进行聚类分析时 ,出现较大的差异 ,而对生殖器官性状子集的分析结果较为合理     

1-甲基环丙烯对百合采后切花某些生理指标的影响

百合切花经1-甲基环丙烯(1-MCP)处理后瓶插寿命延长,花朵发育和衰老进程延缓,乙烯峰出现时间推迟.经1-MCP处理的亚洲百合的乙烯峰值和细胞膜透性降低,而麝香百合可溶性蛋白质含量则不受影响.     

基因与环境互作对云南保山烤烟主要潜香型物质的影响

为研究云南保山烤烟不同品种潜香型物质在不同环境条件下的稳定性问题,将云南保山3个烤烟常栽品种(K326、Y87、Y99)种植在3个海拔的2种土壤上,应用AMMI模型对烤烟主要潜香型物质进行基因型(G)、环境(E)和基因型与环境(G×E)互作分析.结果表明： 基因型、环境及其互作对烤烟叶黄素含量、β-胡萝卜素含量、绿原酸含量的影响均达到显著水平;芸香苷含量主要受基因型影响.烤烟主要潜香型物质含量及其稳定性受G×E互作影响显著,叶黄素含量、β-胡萝卜素含量、绿原酸含量随海拔的增加而显著增加,其稳定性也不同程度得到加强;K326适种在中低海拔区,Y87、Y99适种在中高海拔区.
     

百合未授粉子房离体培养胚胎形成及植株再生

未受精子房离体培养是诱导雌核产生单倍体的技术之一。以1个野生种和3个杂种系共7个百合(Lilium)基因型为实验材料,探讨了基础培养基、花蕾取样时期和外源激素等因素对百合未授粉子房离体培养胚胎形成的影响。结果表明,CBM、MS和BDS三种基础培养基均可诱导百合未授粉子房胚胎形成,但以BDS培养基诱导效果最佳;开花前1天的花蕾较适于百合未授粉子房离体培养;2 mg·L~(-1)2,4-D+2 mg·L~(-1)6-BA和2 mg·L~(-1)2,4-D+2 mg·L~(-1)KT两种外源激素配方均适用于百合未授粉子房离体培养诱导胚胎形成。在培养过程中,大多数胚性胚珠中只含有1个胚胎,位于珠孔端、合子端或极核处,少数胚性胚珠中含有双胚胎。通过百合未授粉子房离体培养,从5个基因型材料中共获得146株再生植株。采用根尖染色体计数法对其中的62株进行了倍性测定,其中43株与母体植株染色体倍性不同。     

不同施肥处理对芳樟叶精油及其主成分芳樟醇含量的影响

为探讨不同施肥处理对芳樟(Cinnamomum camphora var.linaloolifera Fujita.)叶精油及其主成分芳樟醇含量的影响,运用三元二次回归正交旋转组合设计检测了不同N、P和K施肥条件下芳樟1年生扦插苗叶精油的含量和芳樟醇的相对含量并建立数学模型;通过对数学模型拟合的回归方程进行最优求解,确定最优施肥配比.结果表明:不同施肥处理对芳樟叶精油及芳樟醇相对含量的影响极显著,精油质量分数为1.53％ ～ 2.30％、芳樟醇相对含量为88.36％ ～ 94.87％.显著性分析结果显示:N和K施用量对精油含量分别有极显著和显著影响,N施用量对芳樟醇相对含量有显著影响而K施用量无显著影响,P施用量对精油含量和芳樟醇相对含量均无显著影响.N、P和K施用量与精油含量和芳樟醇相对含量数学模型的回归方程分别为Y=1.054+0.392X1-0.037X2 +0.280X3+0.014X1X2-0.022X1X3+ 0.018X2X3-0.057X12+0.001X22-0.053X32和Y=87.206 +2.802X1-0.279X2+ 1.115X3+0.180X1X2-0.147X1X3 +0.396X2 X3-0.525X12-0.137X22-0.275X32;据此计算出最优精油含量为2.22％,对应的N、P和K的每盆施用量分别为3.52、5.00和2.76 g;最优芳樟醇相对含量为95.18％,对应的N、P和K的每盆施用量分别为2.84、5.00和4.87 g.研究结果显示:N施用量对芳樟叶精油含量和芳樟醇相对含量的影响最大,最优精油含量和最优芳樟醇相对含量对应的施肥配比不完全相同,在生产中应根据生产目的并综合考虑各种环境因素确定合适的N、P和K施肥配比.     

木醋液对鲜切麝香百合的保鲜效应

以木醋液为保鲜液，对鲜切麝香百合进行瓶插保鲜的结果表明：木醋液能增强麝香百合吸收保鲜液的能力，延长其盛花期和瓶插寿命，增强过氧化氢酶（CAT）活性，降低麝香百合瓶插期间的丙二醛（MDA）含量和过氧化物酶（POD）活性，延缓其衰老，其中以3．4g&#183;L^-1木醋液对鲜切百合的保鲜效应最好。     

两步外植体法高频再生麝香百合

采用两步外植体法,即以百合鳞片叶为初始外植体,以从初始外植体上长出的芽为次级外植体,成功建立了麝香百合的高频离体再生系统。对不同的BA浓度及次级外植体的不同部位对再生效果的影响,以及组培苗移栽前低温处理的影响进行了研究。结果表明:不同部位的次级外植体中,以短缩茎切片出芽快、整齐、芽数多且粗壮;以MS附加1.0 mg L-1 BA和0.1 mg L-1 NAA的培养基最适于麝香百合的分化。一个中等大小已脱春化的鳞茎通过两步外植体法能扩繁出54 000株左右的新植株,从鳞片叶开始至开花仅需8个月,而且4!低温处理对开花期的影响不大。     

NaCl胁迫对杂交狗牙根品种‘苏植2号’和‘Tifgreen’生长及Na＋和K＋积累的影响

对0（对照）和20g·L-1NaCl胁迫条件下杂交狗牙根（Cynodondactylon×C.transvaalensis）品种‘苏植2号’（‘SuzhiNo.2’）和‘Tifgreen’不同部位的生长状况以及Na＋和K＋积累的差异进行了研究,并分析了2个品种间Na＋、K＋转运调控机制的差异。结果显示：在NaCl胁迫条件下,2个品种的叶片相对枯黄率、地下茎和根系的相对干质量、叶片和根系的Na＋含量和Na＋/K＋比以及钠钾选择性转运系数增加;修剪茎叶及冠层和地上部的相对干质量、植株相对总干质量以及叶片和根系的K＋含量均降低,但茎叶含水量无显著变化。NaCl胁迫条件下,不同土层中2个品种的根系相对干质量均不同程度增加,且20-40和40-60cm土层中根系干质量的增幅大于0-20cm土层;在0-20cm土层中2个品种根系的分配比例均有所降低,而在20-40和40-60cm土层中则不同程度提高。与‘Tifgreen’相比,NaCl胁迫条件下‘苏植2号’叶片相对枯黄率、Na＋含量和Na＋/K＋比更低,修剪茎叶及冠层和地上部的相对干质量、植株相对总干质量、叶片K＋含量和钠钾选择性转运系数更高;在20-40和40-60cm土层中‘苏植2号’根系相对干质量显著高于‘Tifgreen’,根系分配比例总体也高于‘Tifgreen’。综合比较结果表明：‘苏植2号’的抗盐性强于‘Tifgreen’,可能与其深层根系分配量更高和钠钾选择性转运能力较强有关。     

Long term t in vitro storage of lily: effects of temperature and concentration of nutrients and sucrose

Methods for long-term preservation of lily germplasm were examined. t In vitro regenerated bulblets of 10 lily (t Lilium L.) genotypes (Asiatic hybrids, Oriental hybrids, t L. longiflorum and t L. henryi) were stored for 28 months at -2 °C and 25 °C on four different media: 1/4 or full strength Murashige and Skoog nutrients with 9% (w/v) or 6% sucrose. Sprout growth, bulb growth, and viability were determined. The combination of 1/4 strength MS nutrients and 9% sucrose gave the highest reduction in sprout and bulb growth, the highest viability and the highest percentage of regrowth after 28 months of storage. At 25 °C, all lily genotypes survived 28 months of storage under these conditions. At -2 °C, Asiatic and Oriental hybrids survived 28 months of storage, whereas genotypes of t L. longiflorum and t L. henryi survived 6 months of storage, but died during prolonged storage. This revised version was published online in June 2006 with corrections to the Cover Date.     

不同西瓜基因型对干旱胁迫的生理响应及其抗旱性评价

以来源于不同地区的12个西瓜基因型为试材,采用盆栽控水的方式进行持续干旱处理,研究干旱胁迫对西瓜幼苗株高、根长、鲜质量及干物质积累等生长状况的影响,比较不同基因型材料对干旱胁迫的生理响应差异,同时依据旱害指数对其抗旱性进行直接评价,并采用隶属函数法进一步验证和综合评价.结果表明: 干旱处理下,12个西瓜基因型对干旱胁迫的耐受能力存在明显差异,各基因型开始出现旱害症状的时间和发生旱害的程度各不相同.干旱胁迫降低了西瓜幼苗的株高、地上、地下鲜质量和地上干物质积累量,普遍提高了根冠比,而对根长和地下干质量存在正向和负向两种不同的影响.干旱处理后,西瓜叶片的相对含水量和叶绿素含量均不同程度降低,丙二醛、过氧化氢和超氧阴离子含量增加,脯氨酸大量积累,而可溶性蛋白含量以及抗氧化酶活性则因基因型的不同而表现出不同的结果.分析认为,3个野生型材料M20、KY-3和Y-2为抗旱性强的西瓜种质,Y34、金美人和04-1-2为敏感种质,而其余基因型为中抗种质.     

Screening sugarcane (Saccharum sp.) genotypes for salt tolerance using multivariate cluster analysis

Disease-free sugarcane plantlets of 11 cultivars derived from meristem cuttings were photoautotrophically grown on the MS medium and subsequently exposed to 0 (control) or 200?mM NaCl (salt stress) for 14?days. Sodium ion (Na⁺) in all sugarcane varieties was enriched when plantlets were subjected to 200?mM NaCl, except K88-1. Chlorophyll a (Chl_a), chlorophyll b (Chl_b) and total carotenoids (C_x+c), in the salt stressed leaves of all genotypes decreased significantly, but the extent of decrease was variable among different genotypes. In contrast, proline content in salt stressed plantlets of all sugarcane genotypes increased markedly, except in genotypes K95, K92-2 and LK92-4. Maximum quantum yield of PSII (F_v/F_m), photon yield of PSII (??_PSII), quantum efficiency of PSII (qP) and net photosynthetic rate (P_n) in salt stressed plantlets of all genotypes were significantly dropped, whereas ??_PSII and qP in cv. KK88-1 were alleviated, resulting in improved P_n. Moreover, growth parameters including shoot height, root length, fresh weight, dry weight and leaf area in salt stressed plantlets of all genotypes were significantly inhibited. The Na⁺ accumulation, pigment degradation, proline accumulation, photosynthetic abilities and growth inhibition in saline regimes were subjected to Hierarchical cluster analysis. Salt tolerant, K88-1 and UT94-7 and salt susceptible, K92-2 and LK92-4 classes of sugarcane genotypes were classified. The salt tolerant cultivars may be further studied including yield, sugar content and ratoon recovery rate in saline field trials.     

高粱种质材料幼苗期耐盐碱性评价

采用Hoagland营养液砂培法,以NaCl和Na2CO3组成的混合盐碱对高粱幼苗进行胁迫处理,建立高粱幼苗期耐盐碱评价方法,并评价了66份高粱种质材料的耐盐碱性.结果表明:盐浓度在8.0～12.5 g·L-1时,高粱耐盐碱品种‘TS-185’与盐碱敏感品种‘Tx-622B’在幼苗期的耐盐碱性差异明显,表明进行高粱幼苗期耐盐碱性评价时适宜的盐浓度范围为8.0～12.5 g· L-1.在10.0和12.5 g·L-12个盐浓度下,66份高粱种质材料的相对存活率、相对地上部鲜质量和相对株高的差异均达显著水平,表明不同品种的耐盐碱性不同.其中,‘三尺三’为高度耐盐碱品种,‘MN-2735’等16个品种为耐盐碱品种,‘EARLY HONEY’等32个品种为中等耐盐碱品种,‘Tx-622B’等16个品种为盐碱敏感品种,‘MN-4588’为高度盐碱敏感品种.苏丹草类型高粱一般具有较高的耐盐碱性,而保持系对盐碱较为敏感.     

Substrate specificity and molecular cloning of the lily endo-beta-mannosidase acting on N-glycan

Endo-beta-mannosidase, which hydrolyzes the Manbeta1-4GlcNAc linkage in the trimannosyl core structure of N-glycans, was recently purified to homogeneity from lily (Lilium longiflorum) flowers as a heterotrimer [Ishimizu, T., Sasaki, A., Okutani, S., Maeda, M., Yamagishi, M., and Hase, S. (2004) J. Biol. Chem. 279, 38555-38562]. Here, we describe the substrate specificity of the enzyme and cloning of its cDNA. The purified enzyme hydrolyzed pyridylaminated (PA-) Man(n)Manalpha1-6Manbeta1-4GlcNAcbeta1-4GlcNAc (n = 0-2) to Man(n)Manalpha1-6Man and GlcNAcbeta1-4GlcNAc-PA. It did not hydrolyze PA-sugar chains containing Manalpha1-3Manbeta and/or Xylbeta1-2Manbeta. The best substrate among the PA-sugar chains tested was Manalpha1-6Manbeta1-4GlcNAcbeta1-4GlcNAc-PA with a K(m) value of 1.2 mM. However, the enzyme displayed a marked preference for the corresponding glycopeptide, Manalpha1-6Manbeta1-4GlcNAcbeta1-4GlcNAc-peptide (K(m) value 75 microM). These results indicate that the substrate recognition by the enzyme involves the peptide portion attached to the N-glycan. Sequence information on the purified enzyme was used to clone the corresponding cDNA. The monocotyledonous lily enzyme (952 amino acids) displays 68% identity to its dicotyledonous (Arabidopsis thaliana) homologue. Our results show that the heterotrimeric enzyme is encoded by a single gene that gives rise to three polypeptides following posttranslational proteolysis. The enzyme is ubiquitously expressed, suggesting that it has a general function such as processing or degrading N-glycans.     

高温胁迫对两种冷季型草坪草生理生化特性的影响

为研究高温胁迫对冷季型草坪草生理生化指标的影响,通过盆栽试验测定了昼夜(38/28℃)两种温度下两种冷季型草坪草的5种生理生化指标(质膜透性、脯氨酸含量、过氧化物酶(POD)活性、超氧化物歧化酶(SOD)活性和丙二醛(MDA)含量)。结果表明:随着胁迫时间的延长,各品种叶片的相对电导率、丙二醛含量和游离脯氨酸含量均呈递增趋势,其增加幅度与胁迫时间呈正相关,胁迫后各指标相对于对照均有了显著的增加(P<0.05);过氧化物酶和超氧化物歧化酶活性则呈先上升后下降的趋势。高羊茅属3个品种的耐热性大于早熟禾属各品种的耐热性,其中高羊茅属的RebleⅣ和早熟禾属的Blue Sap-phire的耐热性优于种间其他品种。     

Effects of salt stress on growth, mineral nutrition and proline accumulation in relation to osmotic adjustment in rice (Oryza sativa L.) cultivars differing in salinity resistance

Salt-resistant rice cultivars Nona Bokra and IR 4630 exposed at the seedling stage during one or two weeks to 0, 20, 30, 40 or 50 mM NaCl accumulated less Na, Cl, Zn and proline and more K at root and shoot levels than salt-sensitive I Kong Pao and IR 31785. Aiwu, a moderately resistant genotype, exhibited an intermediate behaviour. P transport from root to shoot was inhibited in the most sensitive cultivar IR 31785. Accumulation of Na and Cl and decrease in K content at the shoot level were restricted to the oldest leaves in salt-resistant genotypes while proline accumulated in the youngest leaves in all cultivars. In the presence of NaCl, the osmotic potentials of the roots and of the oldest and youngest leaves were lower in the salt-resistant than in the salt-sensitive genotypes, differences among genotypes increasing with stress intensity. Proline did not appear to be involved in osmotic adjustment in salt-stressed rice plants and the significance of its accumulation is discussed in relation to salinity resistance.Abbreviations cv(s). cultivar(s) - EC electrical conductivity - IKP I Kong Pao - J rate of ion transport - MCW methanol-chloroform-water - PAR photon flux density - Pc partitioning coefficient - RGR mean relative growth rate - RI resistance index - s osmotic potential     

盐胁迫对四种基因型冬小麦幼苗Na+、K+吸收和累积的影响

以4种不同基因型冬小麦品种为试验材料，研究了盐胁迫下小麦幼苗的生长及Na^＋、K^＋和Cl^-的吸收、累积规律。结果表明，盐胁迫下小麦吸水困难，幼苗生长受抑；幼苗含水量、生物量及干物质量明显下降；Na^＋、Cl^-含量和单株累积量显著增加。K^＋含量和单株累积量则明显降低。Na^＋／K^＋比值随介质中的盐浓度的增加而升高。盐胁迫下各基因型冬小麦幼苗Na^＋、K^＋和Cl^-的单株累积量及其在地上部分和根系中的含量变化较大，说明小麦根系对Na^＋、K^＋和Cl^-的吸收存在基因型差异。盐处理下，暖型小麦NR9405对K^＋的选择吸收能力强，对Na^＋的吸收和累积少，植株体内的K^＋浓度较高，Na^＋／K^＋比值小；幼苗的生物量较大，耐盐性强。冷型小麦RB6对K^＋的选择能力差，对Na^＋的吸收和累积量大，幼苗的Na^＋／K^＋比值大，生物量小，耐盐性较差。低盐浓度下，Na^＋可作为渗透调节物质维持植物体内渗透平衡。高盐浓度下，Na^＋的过度吸收和累积可能是盐害的主要原因。维持体内较低的Na^＋水平和Na^＋／K^＋比值是小麦耐盐性的一个重要特征。     

Exploration of relationships between physiological parameters and growth performance of rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.) seedlings under salinity stress using multivariate analysis

Knowledge of relationships between physiological parameters and growth performance of seedlings and respective genotypic differences would permit selection of salt tolerance at early growth stages. The goals of this study were to investigate the relationships between physiological parameters and growth performance and quantify the respective genotypic differences using multivariate analysis.. Plants of thirty-one genotypes were grown in sand tanks in a greenhouse and irrigated with Yoshida nutrient solution. Two salinity treatments were imposed at 0.9 dSm^–1 (control) and 6.4 dSm^–1 with sodium chloride and calcium chloride (~ 6: 1 molar ratio). Seedlings were sampled 34 days after planting (7^th to 8^th leaf stage). The characters of Na⁺, K⁺, Ca²⁺, K-Na selectivity (SK,Na) and Na-Ca selectivity (S_Na,Ca) were measured as physiological parameters. The characters of tiller number, leaf area, plant height and shoot dry weight were measured as growth performance. Under salinity stress, S_K,Na increased whereas S_Na,Ca decreased compared to the controls. Canonical correlation analysis indicates a strong relationship between physiological parameters and growth performance. Tiller number is a desirable parameter among the growth parameters analyzed to predict seedling growth under salinity stress. Genotypes grouped into four clusters based on ion contents and ion selectivity using Wards minimum-variance cluster analysis. S_K,Na and shoot Na⁺ content contributed the most to the cluster formation. Similarly, genotypes grouped into four clusters based on growth performance. Ge notypes were classified into three categories based on ion cluster rankings: Category 1 with high S_K,Na and low shoot Na⁺ content; Category 2 with intermediate S_K,Na and shoot Na⁺ content; Category 3 with low S_K,Na and high shoot Na⁺ content. The classification of the genotypes into Categories 1 and 3 based on their high or low S_K,Na was generally consistent with their growth performance under salt stress. In contrast, ion selectivity was a less dominant mechanism controlling salt tolerance in Category 2 with intermediate S_K,Na. It was concluded that ion selectivity was a relatively dominant mechanism controlling salt tolerance among rice genotypes although multiple mechanisms may be involved under moderate salt stress. The results also provide the first example of the effectiveness of cluster analysis for physiological responses to salinity stress.     

根系温度对光核桃幼苗光合机构热稳定性的影响

 以光核桃(Prunus mira)幼苗为材料, 通过控制根系温度研究了根系温度变化与叶片脱落酸(ABA)的关系及其对光合机构热稳定性的影响。结果表明: 1)环境高温(37和40 ℃)胁迫下保持根系温度适宜((25±2) ℃)时, 幼苗叶片相对含水量(Relative water content, RWC)下降较少, 但叶片ABA含量低, 超氧化物歧化酶(SOD)、抗坏血酸过氧化物酶(APX)、过氧化物酶(POD)和过氧化氢酶(CAT)活性低, 过氧化氢(H₂O₂)含量和膜质过氧化水平(丙二醛(Malondialdehyde, MDA)浓度)提高, 最大光化学效率(F_v/F_m)下降程度较大; 2)而同等环境高温(37和40 ℃)条件下根系温度逐步升高时, 幼苗叶片RWC降低, 叶片ABA含量增加, SOD、APX、POD、CAT活性高, H₂O₂含量高, MDA生成量低, F_v/F_m降低程度较小。与37 ℃相比, 40 ℃处理条件下各生理指标变化趋势相似, 但差异加大。因此认为: 高温胁迫条件下, 根系温度适宜时RWC高, 但导致光合机构伤害较重; 根系感受高温胁迫能够增加叶片ABA含量, 有助于保护光合机构、提高光合机构的抗热性。