病原侵染对采后葡萄激素水平的影响

外源ABA处理采后葡萄可显著促进乙烯释放和抑制IAA的生成,加重葡萄落粒。乙烯利对ABA促进作用不明显,但显著抑制IAA和GA3的生成。葡萄感病后组织内源激素水平发生了变化：ABA含量显著增加,乙烯释放率增大,IAA含量显著减少,这种变化趋势在果梗中尤为突出。     

气调和乙烯对梅果叶绿素和内源激素含量的影响

本文研究了在 ( 2 5± 1 )℃下 ,气调包装和乙烯吸收剂处理对采后青梅果实叶绿素含量、内源激素IAA ,GA3,ABA含量和乙烯释放量的影响及它们之间的关系。结果表明 :气调包装果实叶绿素含量最高 ,其次是乙烯吸收剂处理的 ;各处理中气调包装果实的乙烯释放量始终很低 ,GA3含量较高 ,IAA和ABA含量则较低 ;对照果实的则相反 ,乙烯释放量很高 ,IAA和ABA含量较高 ,而GA3含量较低。乙烯吸收剂处理的处于二者之间。气调包装可以维持果实较高的GA3水平 ,降低ABA含量 ,保持较高的GA3/ABA值 ,抑制IAA和乙烯的生成 ,延缓梅果叶绿素的降解。     

气调和乙烯对梅果叶绿素和内源激素含量的影响

本文研究了在（25±1）℃下,气调包装和乙烯吸收剂处理对采后青梅果实叶绿素含量、内源激素IAA,GA3,ABA含量和乙烯释放量的影响及它们之间的关系。结果表明：气调包装果实叶绿素含量最高,其次是乙烯吸收剂处理的;各处理中气调包装果实的乙烯释放量始终很低,GA3含量较高,IAA和ABA含量则较低;对照果实的则相反,乙烯释放量很高,IAA和ABA含量较高,而GA3含量较低。乙烯吸收剂处理的处于二者之间。气调包装可以维持果实较高的GA3水平,降低ABA含量,保持较高的GA3／ABA值,抑制IAA和乙烯的生成,延缓梅果叶绿素的降解。     

蓝光对水稻幼苗生长及内源激素水平的影响

研究表明：与白光对照相比,蓝光明显抑制水稻幼苗的生长,并使幼苗体内的自由态IAA、GA1、玉米素和二氢玉米素含量下降,ABA含量和乙烯释放量则明显增加。说明蓝光对水稻幼苗生长的影响与其体内激素状况有关。     

氮素形态对小麦花后不同器官内源激素含量的影响

采用盆栽方法,研究了酰胺态氮、铵态氮和硝态氮对小麦(Triticum aestivum)花后根系、旗叶和籽粒内源激素IAA、GA₃、ABA和ZR含量的影响。结果表明,小麦不同器官的内源激素含量对3种氮素形态的响应不同。氮素形态调节籽粒灌浆是通过根系、旗叶和籽粒中内源激素的协同作用而实现的。酰胺态氮与硝态氮处理相比,小麦花后5~15 d,旗叶GA₃含量、籽粒IAA和ABA含量较高,籽粒灌浆速率(Grain-filling rate, GFR)较高;花后15~25 d,根系GA₃含量、旗叶IAA和GA₃含量、籽粒ABA含量较高,籽粒IAA含量较低,GFR较低。铵态氮与硝态氮处理相比,小麦花后5 d,籽粒ZR含量较高;花后15 d前后,籽粒IAA、ABA含量较低,GFR较低;花后20~25 d,根系ZR、GA₃含量较低,旗叶IAA、GA₃含量较低,ABA含量较高,籽粒ABA、GA₃含量较低,IAA含量较高,GFR较高。铵态氮比硝态氮处理的小麦籽粒粒重显著增加。铵态氮和酰胺态氮处理比硝态氮处理增产显著。建议在‘豫麦49’施肥时,使用铵态氮或酰胺态氮并配施硝化抑制剂。     

多效唑调节水稻植株生长的作用机理

多效唑处理水稻植株后使株高降低和分蘖增加,植株体内的GA类物质和IAA含量相应下降,乙烯释放率显著增加;用外源GA_3和氮肥能逆转多效唑的抑制作用而使株高增加,同时GA类物质含量也明显增加。因此,多效唑不仅调节体内的GA类物质含量,还能通过调节IAA含量和乙烯释放率而影响植物生长。     

外源激素和病原侵染对采后葡萄呼吸速率及组织内源激素的影响

葡萄采后施用外源ABA可显著刺激其呼吸速率和乙烯释放率,ABA对呼吸的促进作用大于C2H4;当葡萄被交链孢和灰霉葡萄抱侵染后,呼吸和乙烯释放均加强。交链孢侵染的葡萄呼吸速率在孢子形成后2d达最大值,而灰霉葡萄孢侵染的葡萄呼吸速率在孢子形成时即达最大值。葡萄感病后,落粒现象加重,组织内源ABA和C2H4含量增加,IAA和GA3含量减少。     

过表达AhAREB1影响GA代谢调控拟南芥的株型

与野生型相比,过表达AhAREB1的拟南芥植株茎节间的生长受抑制,花序轴短和分枝数多。普遍认为植株的矮化可能与植物体内促进生长的激素作用的异常有关。本文测定了过表达AhAREB1植株体内激素GA3、IAA和ABA含量,并通过外施ABA、IAA和GA3观察植株表型变化及检测相关基因表达,研究AhAREB1在植物株型方面的作用。结果表明,与野生型植株相比,过表达AhAREB1拟南芥植株内源ABA、IAA和GA含量均升高,外施GA3可使植株的表型恢复至野生型水平,推测AhAREB1通过影响GA代谢失活及降低其生理活性水平而引起株型矮化。     

绿豆插条生根过程中内源激素含量变化

绿豆插条离体后其IAA含量出现一个峰值,乙烯利处理的IAA峰值出现在第6小时,未经乙烯利处理的出现在第12小时,与插条生根峰出现时间相符.乙烯利处理与否的插条生根过程中,内源GA3含量在0～30h内呈下降趋势,随后略微上升;内源ABA含量先升后降;细胞分裂素ZT和ZR含量在总体上是下降的.     

表油菜素内酯促进小麦胚芽鞘伸长的作用

BR促进小麦胚芽鞘伸长的生理活性大于IAA,但高浓度的促进现象不如IAA明显。BR刺激乙烯生成与浓度相关。BR和IAA混合处理,对芽鞘切段的伸长、乙烯释放和H~+分泌都表现了加成作用。这二种激素在作用时间上有明显的差别,BR作用的滞后期更为清楚。BR有拮抗ABA对小麦胚芽鞘切段伸长的抑制作用。     

外源NO对瓶插期间的月季切花中内源激素含量的影响

以硝普钠（SNP）为一氧化氮供体,研究NO及其清除剂2-苯基-4,4,5,5-四甲基咪唑啉-1-羟-3-氧（PTIO）影响月季瓶插期间的生理指标和内源激素含量的结果表明：0.1mmol.L-1SNP释放的NO抑制月季切花瓶插期间花瓣中内源乙烯释放速率和ABA含量的升高,延缓IAA含量的下降,并保持组织中相对较低的ZR和GA水平。PTIO则可促进花瓣中的乙烯、ABA、ZR和GA含量的升高和IAA含量的下降。     

磷脂酶Dδ对拟南芥叶片衰老过程中内源ROS和激素含量的影响

活性氧（ROS）和植物激素是植物衰老过程中重要的内在或者外在的调控因子。我们发现,相对于离体诱导的衰老过程,在脱落酸（ABA）和乙烯（ethylene）促进的衰老过程中有较多的活性氧积累;在对拟南芥磷脂酶Dδ（PLDδ）缺失型突变体的研究中发现,与野生型相比,突变体在衰老过程中产生较少的活性氧。我们比较了上述两种基因型的离体叶片在离体、ABA和ethylene三种衰老处理下内源的ABA、茉莉酸甲酯（MeJA）、玉米素核苷（Zeatin Riboside, ZR）和吲哚乙酸（IAA）的含量变化,发现每一种激素对上述三种衰老处理的响应模式都很相似。在离体诱导的衰老中,两种基因型拟南芥的内源激素含量没有差异;而在ABA促进的衰老过程中,PLDδ缺失型突变体叶片中的MeJA的含量较低,ZR和IAA含量较高;在乙烯促进的衰老过程中,突变体中的ABA和MeJA的含量较低,ZR和IAA含量较高。上述内源激素的这种变化可能有助于延缓突变体的衰老。     

不同栽培措施对降香黄檀内源激素含量的影响

为了了解不同栽培措施对降香黄檀叶片内源激素的影响,本研究通过铺设修枝、移植、钾肥、乙烯4个试验,分析各处理叶片激素含量特征。结果表明：修枝实验中,重度修枝处理IAA、GA₃、ZR、ABA含量均最大,分别为69.849、6.619、8.805、77.998 ng·g^-1。移植各处理中,去冠移处理IAA、ZR含量最高分别为73.195和9.472 ng·g^-1,而其ABA含量最低为52.001 ng·g^-1,GA₃含量最高的为断根处理8.418 ng·g^-1。IAA、ZR、GA₃含量K1钾肥配比最高分别为75.188、8.383、6.127 ng·g^-1;ABA最大含量71.082 ng·g^-1为CK处理。乙烯试验中,CK处理的IAA、GA₃含量最高分别为47.762、4.967 ng·g^-1;E2.5%处理的ABA含量96.94 ng·g^-1最高。E0.1%处理的ZR含量最高为9.378 ng·g^-1。修枝对GA₃/ABA和ZR/GA₃影响较大,其最小值分别比最大值降低了29.7%、19.0%。移植对IAA/ABA、GA₃/ABA影响较大,最小值比最大值依次降低了52.47%和51.47%。树干注射乙烯和钾肥对IAA/ABA、GA₃/ABA影响较大,乙烯试验最小值分别比最大值降低了55.4%、49.2%,钾肥试验最小值分别比最大值降低了48.8%和37.1%。     

春萝卜抽薹过程中内源激素含量变化分析

采用酶联免疫吸附法(ELISA)测定了春萝卜抽薹过程中顶端生长点处嫩叶的赤霉素(GA₄)、生长素(IAA)、细胞分裂素(iPA)和脱落酸(ABA)等含量的变化情况。研究结果表明,在萝卜抽薹过程中,GA₄含量在现蕾点存在明显的峰值,表明GA₄与现蕾抽薹密切相关,起着主导作用;内源ABA含量变化与GA₄变化趋势基本一致;与GA₄和ABA含量相比,抽薹过程中叶片IAA含量相对较低;iPA含量在现蕾期逐步增加,至抽薹中后期出现一高峰值。研究发现iPA/ABA值增大,GA₄/iPA和GA₄/IAA值变小有利于花芽分化后萝卜植株抽薹开花,表明内源激素之间的平衡对萝卜抽薹开花也起着重要作用。     

辣椒胞质雄性不育系和保持系内源激素含量的比较

以2个辣椒品系(199807、199803)的胞质雄性不育系和相应保持系为实验材料,采用酶联免疫吸附法(ELISA)测定IAA、(Z ZR)、GA3和ABA等内源激素含量,用气相色谱分析仪测定乙烯(ETH)释放量,对辣椒胞质雄性不育系和相应保持系内源激素含量变化规律进行研究.实验结果表明:在四分小孢子之前,花药中的IAA含量不育系显著高于保持系,在四分小孢子时期花药和花蕾中的IAA含量出现转折,到花粉粒成熟期的花蕾和花药以及开花期叶片中的IAA含量均是不育系显著低于保持系;小孢子各发育时期花药以及花期叶片中GA3含量均是不育系高于保持系,但花粉粒成熟期化蕾中GA3含量为不育系低于保持系;小孢子不同发育时期的花药以及花期叶片中ABA含量始终足不育系显著高于保持系,而花粉粒成熟期花蕾中ABA含量不育系与保持系没有显著差异;花粉粒成熟期的花蕾和花期叶片中ETH释放量表现为不育系显著高于保持系.同时,花粉粒成熟期的花蕾、花药和叶片中IAA/ABA、(Z ZR)/ABA、GA3/ABA、IAA/GA3、(Z ZR)/GA3等5个激素的比值均有不育系低于保持系的趋势.本实验结果说明辣椒的育性表现与花器和叶片等组织中内源激素的含量变化有关,花药和花期叶片中IAA亏缺、GA3和ABA增加以及化蕾和叶片中ETH过度产生,都有可能导致辣椒雄性不育.     

Involvement of Abscisic Acid and Indole-3-acetic Acid in the Flowering of Pharbitis nil

The involvement of abscisic acid (ABA) and indole-3-acetic acid (IAA) in the regulation of flowering of Pharbitis nil was investigated through exogenous applications and analyses of endogenous levels. Both hormones inhibited the flowering of P. nil when they were applied before or after a single 15-h dark treatment. The inhibitory effect of ABA and IAA was significant when they were applied before the dark treatment, and the application to plumules was more effective than that to cotyledons. In all applications, the inhibitory effect of IAA was stronger than that of ABA. Endogenous levels of ABA and IAA in the plumules were compared between flower-inductive (15-h dark treatment) and noninductive (continuous light) light conditions. There was no significant difference in the ABA level between light and dark conditions, whereas the level of IAA was decreased by the dark treatment. These results suggest that biosynthesis and/or catabolism of IAA is affected by the light treatment and therefore may be involved in the regulation of early flowering processes in the apex. The inhibitory effects of ABA and IAA were reversed by an application of gibberellin A₃, indicating that gibberellin A₃ counteracts the flowering processes affected by ABA and IAA. Application of aminoethoxyvinylglycine restored the flowering response inhibited by IAA, which suggests the possibility that the inhibitory effect of IAA is the result of enhanced ethylene biosynthesis. Received November 22, 1996; accepted February 17, 1997     

Light quality regulation of endogenous levels of auxin,abscisic acid and ethylene production in petioles and leaves of wild type and ACC deaminase transgenic <Emphasis Type="Italic">Brassica napus</Emphasis> seedlings

Brassica napus L. seedlings responded to low red to far-red (R/FR) ratio by elongating petioles and decreasing leaf expansion. These typical shade avoidance traits were correlated with significantly decreased endogenous indole-3-acetic acid (IAA) levels and significantly increased endogenous abscisic acid (ABA) levels and ethylene production. The transgenic (T) B. napus line bearing the bacterial ACC deaminase gene, did not respond to low R/FR ratio with altered petiole and leaf growth and less ethylene (especially by petioles) was produced. As with WT seedlings, T seedlings had significantly lower IAA levels in both petioles and leaves under low R/FR ratio. However, ABA levels of low R/FR ratio-grown T seedlings either increased (petioles) or were unaltered (leaves). Our results further suggest that low R/FR ratio regulates endogenous IAA levels independently of ethylene, but there may be an interaction between ABA and ethylene in leaf development.     

Indole-3-acetic acid, ethylene, and abscisic acid metabolism in developing muskmelon (Cucumis melo L.) fruit

Hormonal metabolism associated with fruit development in muskmelon was investigated by measuring IAA, ABA, and ACC levels in several tissues at various stages of development. In addition, levels of conjugated IAA and ABA were determined in the same tissues. Ethylene production, which is believed to signal the ripening and senescence of mature fruit, was also measured. Ethylene production was highest in the outer tissue near the rind and gradually declined during maturation, except for a dramatic increase in all fruit tissues at the climacteric. In contrast to ethylene production, ACC levels increased during maturation and remained equal throughout the fruit until the climacteric, when levels in the outer tissues increased nearly 5-fold over levels in the inner tissues. The consistent presence of ACC indicates that ACC oxidase rather than the availability of ACC regulates ethylene production in developing fruits. ABA and ABA esters generally declined during maturation, however an increase in ABA esters associated with the outer mesocarp tissue was observed in fully mature, climacteric fruit. IAA and IAA conjugates were only found in the outer tissue near the rind, and their levels remained low until the fruit was fully mature and entering the climacteric. At that time, increased levels of conjugates were detected. The late burst of hormonal metabolism in the outer mesocarp tissue appeared to signal its degeneration and the deterioration that typically occurs in ripening fruit. The tissue-specific conjugation of IAA and ABA, in addition to the production of climacteric ethylene, may represent part of the signaling mechanism initiating ripening and eventual deterioration of tissues in muskmelon fruits.Abbreviations ABA abscisic acid - ACC 1-aminocylopropane-1-carboxylic acid - DAP days after pollination - IAA indole-3-acetic acid     

分析拟南芥叶片在激素促进的衰老中内源激素变化来解析抑制磷脂酶Dα1延缓激素促进衰老的机制

采后衰老进程在很大程度上受到内源和外源激素的影响。抑制拟南芥中磷脂酶Dα1（phospholipaseDtxl,PLDod）的表达后,使得外源脱落酸（abscisic acid,ABA）和乙烯加速的离体叶片衰老过程在一定程度上得到了缓解。然而,内源激素在这个过程中的作用尚不清楚。本研究对比分析了野生型和PLDα1缺失型两种基因型拟南芥叶片在3种不同人工老化过程中（离体诱导的、外源ABA和乙烯促进的衰老过程）,内源ABA,茉莉酸甲酯（methyl jasmonate,MeJA）、吲哚乙酸（indole-3-acetic acid,IAA）、玉米素核苷（zeatin riboside,ZR）和赤霉素（gibberellic acid,GA,）的含量变化。这5种激素对3种不同衰老处理方式的响应模式表明了人工老化过程存在着两个不同阶段,并且在衰老早期每种激素的变化模式相同。PLDα1功能缺失使得激素加速的衰老过程得以延缓,这与内源ABA、MeJA、ZR和IAA的含量变化有关。而与GA、的含量变化无关。同时,ZR和IAA的变化模式也说明了这两种激素的变化可能是缺失PLDα1延缓激素加速的衰老过程这一事件的原因而非结果。