外源植物生长调节物质对烟叶中腐胺和烟碱含量的影响

水培的烟草打顶和打顶后喷施腐胺（Put）,烟叶中Put和烟碱含量均增加,钾含量下降,Put含量与烟碱含量之间呈显著正相关;打顶喷施吲哚乙酸（IAA）和赤霉素（GA3）的烟叶中Put和烟碱含量下降,钾含量上升;喷施茉莉酸（JA）的烟碱含量提高,而Put含量变化不大;喷施脱落酸（ABA）和6-BA的叶中Put含量下降。     

烟草打顶对腐胺N-甲基转移酶基因表达的影响

水培65d的烟株进行打顶后,测定打顶和不打顶烟株上部叶中烟碱含量。分别提取根中总RNA,以腐胺N-甲基转移酶基因（PMT）特异引物、肌动蛋白基因（actin）为内参作半定量RT-PCR分析;同时将提取的总RNA转膜,用地高辛标记PMTRT-PCR产物作探针,进行Northern杂交分析的结果表明,打顶后的上部烟叶中烟碱含量和PMT基因表达量显著增加。     

断根结合生长素和钾肥施用对烤烟生长及糖碱比、有机钾指数的影响

河南济源烟区存在着烟叶糖碱比高、有机钾指数较低的生产现状,通过田间试验研究了打顶时断根(C)、打顶时断根结合喷施IAA(C+I)、打顶时断根结合追施钾肥(C+K)、打顶时断根结合喷施IAA并追施钾肥(C+K+I)和对照(CK)5种处理对烤烟生物量及糖碱比、有机钾指数的影响。结果表明:不同调控措施在烟株成熟期较对照均能增加根部、叶片的干重,减少烟碱、总糖在中上部烟叶的累积。断根结合喷施IAA能降低各部位烟叶的糖碱比,且以C+K+I处理的降幅最大,在下、中、上叶位中较对照分别降低了19.12%、15.33%和8.15%。与对照相比,各处理均能提高不同部位烟叶K⁺含量,降低Cl^-和SO₄^2-含量。C+K+I处理能极显著提高各部位烟叶的有机钾指数,且在中上部烟叶中增幅最大,较对照分别提高了125.00%和209.43%。总的看来,打顶时断根结合喷施IAA并追施钾肥能促进烟叶中的干物质积累、降低糖碱比、提高有机钾指数,进而提高烟叶的内在品质。     

超量表达AtBAS1基因对烟草中烟碱和降烟碱合成的影响

为明确拟南芥(Arabidopsis thaliana)光敏色素B激活标签的抑制蛋白1(phy B activation-tagged suppressor1,BAS1)基因对烟草(Nicotiana tabacum)中烟碱、降烟碱和N-亚硝基降烟碱合成的影响,通过构建含有不同启动子的植物表达载体p SH-p LXM5-BAS1和p SH-35S-BAS1遗传转化烟草。在8~10叶期分别取转基因和野生型烟草植株相同部位的叶片,采用LC-MS方法对样品中烟碱、降烟碱、亚硝基降烟碱含量进行测定,结果表明转基因烟草烟碱含量和降烟碱含量与野生型相比均明显提高。转p LXM5-BAS1基因和转35S-BAS1基因植株烟碱含量分别是野生型植株2.9倍和2.95倍;同时测得降烟碱含量分别为野生型的3.35倍和3.76倍;在转基因和野生型烟草中均未检测到亚硝基降烟碱。表明超量表达At BAS1对烟草的烟碱和降烟碱合成存在显著影响。据NCBI数据库中报道的烟碱合成相关基因PMT和QPT,降烟碱合成相关基因CYP82E4v1、CYP82E5v2、CYP82E10的序列,设计各基因的Real-time PCR引物,并以烟草β-Actin基因作为内参,Real-Time PCR结果表明烟碱和降烟碱合成相关基因表达均出现不同程度的上调。综上可知,在烟草中超量表达At BAS1基因,促使烟碱和降烟碱合成相关基因表达的上调,直接导致了烟草中烟碱含量和降烟碱含量的大幅提高。本研究为后续深入挖掘影响烟碱及降烟碱生成及转化的新基因并最终构建完整的烟碱代谢网络提供了借鉴,也为研究烟碱向降烟碱转化过程中信号因子和信号传递提供了一个新途径。     

烟碱的微生物降解研究进展

烤烟叶面微生物类群有细菌、放线菌、霉菌和酵母菌,它们在烟叶生长、调制、陈化、加工和贮存过程中对烟叶质量产生很大的影响。就烟草生长至加工过程中微生物菌群动态变化及微生物在降解烟叶烟碱上的应用作了概述,分析了微生物降烟碱的应用前景。     

一株源于醇化烟叶表面高效降解TSNA 菌株AS97 的分离筛选、鉴定及应用

摘要:【目的】烟草特有亚硝胺(Tobacco-specific nitrosamines,简称TSNA)是烟叶中的主要致癌物质。本研究从筛选建立的特有菌库中发现了1 株可有效降解TSNA 的菌株AS97,并对其进行了鉴定及初步应用研究。【方法】采用富集驯化及选择培养基筛选得到硝酸盐与亚硝酸盐转化能力最强的菌株AS97;根据菌株的形态特征、生理生化特性及16S rRNA 基因序列分析对其进行鉴定;并将AS97 自制发酵液喷施于烟丝表面,确定适宜接种量和发酵条件,采用LC-MS /MS(液相色谱串联质谱)方法检测TSNA 中四种主要成分的含量。【结果】菌株AS97 源于云南玉溪烤烟样品表面,经分析确定其为荧光假单胞菌(Pseudomonas fluorescens,GenBank 登录号:JF449445)。将AS97 自制发酵液以5% 的接种量喷施于烟丝,30℃(相对湿度是60%)条件下发酵10 d 检测烟叶中硝酸盐、亚硝酸盐、TSNA、4-(N-甲基-亚硝基) -1-(3-吡啶基)-1-丁酮(NNK)、N-亚硝基去甲基烟碱(NNN)、N-亚硝基新烟草碱(NAT) 及N-亚硝基假木贼碱(NAB) 的转化率分别达到68. 77%、45. 57%、45. 47%、59. 08%、38. 79%、21. 41% 及11. 76%。相关性分析结果表明烤烟中硝酸盐、亚硝酸盐与TSNA 的含量均呈极显著相关(P＞0.01),进一步证实硝酸盐与亚硝酸盐是TSNA 的主要前体物质。【结论】醇化烟叶表面的荧光假单胞菌AS97 能够显著降低TSNA 的含量。本文首次报道了源于醇化烤烟表面对TSNA 有良好转化能力的Pseudomonas fluorescens。可将其开发成新型微生物制剂,应用于低害卷烟制品的生 产实践中。     

烟草在PVY~N病毒与烟蚜作用下对高CO_2浓度的响应

以CO2浓度为主处理因子,研究了加倍CO2浓度和对照大气CO2浓度条件下,烟蚜、马铃薯Y病毒N株(PVYN)以及二者共同作用下烟草各指标的响应。结果表明,在当前CO2浓度条件下,PVYN、烟蚜及两者联合作用对烟草生物量影响不显著;而在未来高CO2浓度条件下,PVYN、烟蚜及两者联合作用对烟草生物量影响很大。CO2浓度升高后,PVYN和蚜虫二者联合作用显著降低烟草产量,危害加重,高CO2的"肥料"作用被极大地削弱。在有烟蚜、PVYN以及两者共同作用时烟草的化学物质及主要的次生代谢物烟碱的含量对CO2浓度升高的响应也发生一定的变化,表现在:高CO2浓度条件下,蚜虫、蚜虫与PVYN共同作用显著增加了烟草的含氮量;显著减少了烟叶含糖量;PVYN及其与蚜虫共同作用显著升高叶片可溶性蛋白含量;当高CO2浓度下,各处理的烟草烟碱含量均显著下降,而且PVYN感染的烟叶烟碱含量无论在哪一种CO2浓度条件下,都比无毒无虫的对照烟叶烟碱含量升高。结果显示,烟蚜和马铃薯Y病毒N株(PVYN)对烟草的产量、营养物质及防御物质都有影响;CO2浓度升高对烟草的生长有促进作用,增加了烟草的产量,但蚜虫的危害和PVYN感染使烟草产量下降,在高CO2浓度条件下,烟蚜和PVYN共同作用相对于目前CO2浓度对烟草产量的危害加重。     

光合细菌改善新型烟草品质的初步研究

试验研究了喷施光合细菌菌液对新型烟草品质的影响。化学成分分析结果表明, 在苗期和大田以1：200的比例对烟叶叶面喷施光合细菌菌液, 对新型烟草内在化学成分的含量及其谐调性具有显著的影响, 尤其能够同时降低烟碱和增加钾的含量。评吸结果显示, 香味独特, 余味纯净, 劲头适中, 更加呈现出新型烟草所具有的品质特征。     

光合细菌改善新型烟草品质的初步研究

试验研究了喷施光合细菌菌液对新型烟草品质的影响.化学成分分析结果表明,在苗期和大田以1:200的比例对烟叶叶面喷施光合细菌菌液,对新型烟草内在化学成分的含量及其谐调性具有显著的影响,尤其能够同时降低烟碱和增加钾的含量.评吸结果显示,香味独特,余味纯净,劲头适中,更加呈现出新型烟草所具有的品质特征.     

烤烟打顶前后根系激素水平与物质代谢的关系初探

烤烟在打顶前19-4d根尖中ABA含量增加,打顶前4d至打顶后12d正职牺顶后12-31d迅速上升,ABA抑制蔗糖酶和硝酸还原酶活性,ABA变化趋势与烟碱和K^ 含量一致。与总氧和可溶性糖含量相反。IAA呈现与ABA效应相反的趋势。     

打顶后施用生长素(IAA)和钾肥对烤烟碳氮代谢的影响

研究了不打顶(T1)、打顶(T2)、打顶 追施K_2SO_4(T_3)、打顶 涂抹生长素1次(T4)、打顶 追施K2SO4 涂抹生长素1次(T5)、打顶 追施K2SO4 涂抹生长素2次(T6)等6种调控措施对烤烟碳氮代谢的影响。结果表明:由打顶当天到打顶后30d,烤烟淀粉酶活性总体上表现为下降后又略有上升的趋势,转化酶(INV)活性则逐渐降低;2种酶活性均以T6最高,T1最低,且差异达到极显著水平;除T1外,各处理在打顶后的淀粉含量逐渐升高,总糖含量则呈现上升后又逐步下降的变化,至打顶后30d,淀粉和总糖含量均以T6最高,T1最低;随生育时期延长,硝酸还原酶(NR)活性和蛋白质含量均表现为逐渐下降的趋势。打顶后30d,T6的NR活性和蛋白质含量均为最高;在打顶后30d,以T5的NR/INV比值最大。打顶当天在顶端涂抹生长素,同时追施K2SO4肥,可促进烤烟生长和碳氮代谢。     

Uniconazole-induced tolerance of rape plants to heat stress in relation to changes in hormonal levels, enzyme activities and lipid peroxidation

Winter rape (Brassica napus L. cv. 601) seedlings were treated with 50 mg.l-1of foliar-applied uniconazole and then exposed to heat stress with a light/dark temperature regime of 43 °C/38 °C for 3 days at the stem elongation stage. Heat stressed plants contained lower endogenous GA3, IAA and zeatin contents than the controls, while ABA content and ethylene level were increased significantly. Uniconazole-treated plants had lower endogenous GA3 and IAA contents, and higher zeatin and ABA contents and ethylene levels. Leaf chlorophyll content and respiratory capacity of roots were reduced markedly after plants were subjected to heat stress, and foliar sprays of uniconazole retarded the degradation of chlorophyll and increased respiratory capacity of roots. Following exposure to heat, the activities of superoxide dismutase and peroxidase were significantly reduced. Uniconazole-induced heat tolerance was accompanied by increased activities of various antioxidant enzymes. Foliar applications of uniconazole reduced electrolyte leakage and malondialdehyde accumulation caused by heat stress, suggesting that uniconazole may have decreased heat-induced lipid peroxidation and membrane damage. Foliar sprays of uniconazole increased the tolerance of rape plants to heat stress.     

BA、GA3和IAA对富士苹果果形形成的影响

以9年生富士苹果为材料,研究富士苹果形成过程中BA、GA,和IAA对果形、品质、内源激素含量的影响。结果表明：在花期喷GA,对富士苹果的坐果率影响效果最好,分别比清水对照和无处理对照提高49％和79．45％。BA100mg·L^-1GA3300mg·L^-1＋IAA20mg·L^-1对降低富士苹果偏斜率效果最好。在花期、花期＋幼果期和幼果期分别喷BA和在花期喷GA3可以提高果实中可溶性固形物的含量。花期喷IAA、BA、GA,和BA＋GA,＋IAA对内源激素IAA和GA3的含量均有促进作用,在整个生长季内不同处理下IAA、GA3含量均高于清水对照且差异明显;花期喷BA、GA3和BA＋GA3＋IAA对内源激素ZT含量有促进作用,尤其在果实幼果期和膨大期与清水对照相比效果明显;花期喷GA3和BA＋GA3＋IAA与清水对照相比内源激素ABA含量有明显降低,其中幼果期变化显著。     

Auxin promotes gibberellin biosynthesis in decapitated tobacco plants

Excision of the apical bud (decapitation) of tobacco (Nicotiana tabacum L.) plants reduced the endogenous levels of indole-3-acetic acid (IAA), gibberellin A20 (GA20), and GA1 (the bioactive GA), in internode tissue below the excision site. Application of IAA to the stump of decapitated plants dramatically increased GA20 content, to a level 3-fold greater than in intact plants. Gibberellin A1 content was also increased by IAA. Decapitation reduced the conversion of [14C]GA19 to [14C]GA20 and of [14C]GA20 to [14C]GA1, and appeared to promote the deactivation pathway [14C]GA20 to [14C]GA29 to [14C]GA29-catabolite. Application of auxin counteracted these effects, but did not restore the conversion of [14C]GA20 to [14C]GA1 to the level found in intact plants. The results indicate that auxin is necessary for normal GA biosynthesis in stems of tobacco.     

GA3和IAA对慈竹木质素生物合成相关酶活性调控及与木质素含量和S/G的关系

以慈竹为材料,通过叶面喷洒赤霉素（GA₃）和吲哚乙酸（IAA）,研究GA₃和IAA对慈竹木质素生物合成相关酶活性调控效应,以及相关酶活性与木质素含量和S/G比值的关系,为慈竹优质栽培和遗传改良提供理论依据。结果表明,GA-350IAA200处理对4CL酶活性具有促进作用;而GA-3200IAA50在处理后50天时对4CL酶活性起到明显的抑制作用,而且改变了4CL酶活性的动态变化趋势。GA₃和IAA对慈竹CAD酶活性具有促进作用;对PAL酶活性具有明显的抑制作用。相关分析结果表明,经过GA₃和IAA处理后,4CL酶活性与木质素含量和S/G比值呈不显著的负相关关系;PAL酶活性与木质素含量呈不显著的正相关关系;CAD酶活性与木质素含量和S/G比值呈不显著的正相关或负相关关系。结论,GA₃和IAA对慈竹木质素生物合成相关酶活性具有调控效应,而且这种调控作用与GA₃和IAA的浓度和配比有关。     

杀菌剂敌磺钠及植物生长调节剂对茭白孕茭的影响

以‘龙茭二号’为研究对象,通过在茭白植株不同生长发育阶段分别喷施杀菌剂敌磺钠和植物生长调节剂,比较分析其对茭白结茭的促进效果。对6个不同处理组合及对照材料的株高、内源激素含量变化及结茭情况的统计分析发现：喷施一定浓度的敌磺钠对茭白结茭具有明显的促进作用,以敌磺钠（标准浓度）＋营养液和敌磺钠（标准浓度）对茭白结茭产量的提高最为明显。植物生长调节剂处理能明显促进茭白早期植株生长,但对最终株高影响不大。采用间接酶联免疫法对茭白茎部3种激素（IAA、ABA和GA3）含量进行的比较分析表明：敌磺钠处理能够明显降低ABA含量,但对IAA和GA3含量没有明显影响;茭白结茭前ABA含量的降低可能有助于茭白结茭。     

Gibberellin Induced Changes in Diffusible Auxins from Savoy Cabbage

Diffusates from apices of young plants of savoy cabbage treated with gibberellie acid (GA) and apices of control plants have been examined with respect to their content of Indole auxins. Three indole Compounds were detected and identified on the basis of their chromatographic characteristics in several systems. These compounds were: glucoubrassicin, indole-3-acetic acid (IAA) and indole-3-acetonitrile (IAN). An effect of GA on the total auxin activity of the diffusate was noted 90 hours after treatment, while an increase in stem height occurred 48 hours later. This increase in auxin effect of the entire diffusates was shown bv chromogenic development and bioassay of chromatograms of diffusates to be a result of an increase in level of the IAA content. A concomitant decrease in I the glucobrassicin content was indicated. Since GA was found to have no effect on the enzymatic conversion of tryptophan or tryptamine to IAA, it is proposed that the effect of GA is on the conversion of glucobrassicin to IAA.     

Application of exogenous substances reduces tobacco-specific nitrosamines content by regulating biosynthesis of nicotine and nitrite in burley tobacco

Tobacco-specific nitrosamines (TSNAs) are carcinogenic chemicals found in tobacco plants. The increasing health consciousness of individuals had led to an increased interest in research on reducing TSNAs content. The aim of this study was to use a pot experiment in which exogenous substances were applied to burley tobacco to dissect the mechanism of TSNAs production. The results indicated that spraying the exogenous substances IAA, NAA, SA and combination thereof on burley tobacco after topping decreased TSNAs content by 2.69–29.4 % in upper leaves and 0.23–39.3 % in middle leaves without affecting total sugar, total nitrogen, potassium and chlorine contents. The application of exogenous substances could down-regulate expression of the NR gene and the activity of the NR enzyme, resulting in less accumulation of the TSNAs precursor nitrite. The exogenous substances significantly reduced nicotine accumulation, which was consistent with low enzyme activities and the down-regulated expressions of genes involved in nicotine biosynthesis, especially significant in the case of quinolinate phosphoribosyltransferase. These results suggested that the application of exogenous substances on burley tobacco after topping could reduce TSNAs content which may be attributed to the regulation of exogenous substances on nitrite and nicotine. This also implies one potential improvement to agronomic practices aimed at controlling the accumulation of TSNAs in burley tobacco.     

The Control of Apical Bud Growth and Senescence by Auxin and Gibberellin in Genetic Lines of Peas

Pea (Pisum sativum L.) lines G2 (dwarf) and NGB1769 (tall) (Sn Hr) produce flowers and fruit under long (LD) or short (SD) days, but senesce only under LD. Endogenous gibberellin (GA) levels were inversely correlated with photoperiod (over 9-18 h) and senescence: GA20 was 3-fold and GA1 was 10- to 11-fold higher in flowering SD G2 shoots, and the vegetative tissues within the SD apical bud contained 4-fold higher levels of GA20, as compared with the LD tissues. Prefloral G2 plants under both photoperiods had GA1 and GA20 levels similar to the flowering plants under LD. Levels of indole-3-acetic acid (IAA) were similar in G2 shoots in LD or SD; SD apical bud vegetative tissues had a slightly higher IAA content. Young floral buds from LD plants had twice as much IAA as under SD. In NGB1769 shoots GA1 decreased after flower initiation only under LD, which correlated with the decreased growth potential. We suggest that the higher GA1 content of G2 and NGB1769 plants under SD conditions is responsible for the extended vegetative growth and continued meristematic activity in the shoot apex. This and the increased IAA level of LD floral buds may play a role in the regulation of nutrient partitioning, since more photosynthate partitions of reproductive tissue under LD conditions, and the rate of reproductive development in LD peas is faster than under SD.