The relationship between auxin concentration, auxin protection and auxin destruction in crown gall cells cultured in vitro

Auxin content and IAA-protector activities in cultured crowngall cells were measured at various points of growth in subculture.A coincidence was observed between the change in IAA contentand IAA-protector activities in the cells: high auxin contentswith high IAA-protector activities were obtained at the latelog stage, and low auxin contents with low IAA-protector activitiesat the middle log and at the stationary stages. On the otherhand, IAA-destruction activities in the cells increased slightlythroughout the growth period of the cells. Addition of 2,4-Dto the culture depressed the auxin content and accelerated theIAA-destruction activity in the cells. These results suggestthe existence of a mechanism of negative-feed-back control ofauxin in crown gall cells. (Received May 1, 1978; )     

Tryptophan and indole-3-acetic acid accumulation in Acer cell cultures and its relationship with cell autolysis

The accumulation and decline of free indole-3-acetic acid (IAA) and tryptophan has been monitored in cells of Acer pseudoplatanus L. grown in batch suspension cultures. The period of maximal IAA accumulation per cell or per unit dry weight of tissue was found to precede the peak of tryptophan accumulation by several days. A study of cell viability throughout a growth passage indicated the presence of a basal level of non-viable cells of 5–7%, with only minor increases occurring during the first week of the three-week growth passage. The results suggest that IAA biosynthesis is not regulated by substrate availability arising from proteolysis in dead cells.Abbreviation GC-MS Gas chromatography-mass spectrometry - IAA indole-3-acetic acid - 5-MT 5-methyltryptophan - TLC thin-layer chromatography     

外源色氨酸对油菜幼苗色氨酸下游代谢网络及生长发育的影响

色氨酸是合成蛋白质的重要氨基酸,也是植物生长激素IAA和某些次生代谢产物的前体物质,对植物生长发育及病虫害防御有重要作用。为了探究色氨酸对白菜型油菜(Brassica rapa L)生长发育及防御物质累积的影响及其可能的机制,该研究采用外源色氨酸对油菜幼苗进行叶面喷施,分析了色氨酸对油菜幼苗生长发育及生长素IAA和次生代谢产物芥子油苷合成的影响。结果表明：(1)低浓度色氨酸(100 mg/L)处理可有效地促进油菜叶片与根系的发育,但随着浓度增高,促进作用逐渐减弱。(2)荧光定量PCR分析表明,外源色氨酸处理后,油菜幼苗叶片中生长素IAA的3条合成途径都被激活,IPA途径的BrTAA1和BrYUCCA8、IAM途径的BrAMI1及IAOx途径的BrCYP71A13和BrNIT2等关键酶基因的表达均受到强烈的诱导,因而导致IAA的含量显著提高。(3)外源色氨酸处理还激活了下游的吲哚族芥子油苷的合成途径调控因子基因BrMYB34、BrMYB51和BrMYB122以及合成酶基因BrCYP79B2、BrCYP79B3、BrCYP83B1、BrSUR1的表达,同时抑制了其降解酶基因BrTGG1、BrPEN2的表达,从而引起吲哚族芥子油苷的累积。研究发现,外源色氨酸处理可通过调控生长素IAA合成途径和吲哚族芥子油苷的合成途径相关基因表达,有效地促进油菜生长调节物质和生物防御物质的累积,从而增加生物量和提高潜在抗病能力。     

Ethylene biosynthesis and respiration in strawberry fruit treated with diazocyclopentadiene and IAA

Diazocyclopentadiene (DACP), an inhibitor of ethylene action, was used to investigate the role of ethylene receptor(s) in regulating ethylene biosynthesis and respiration in strawberry fruit. DACP stimulated ethylene production of fruit at all stages of maturity. This stimulation was mainly due to an increase in ACC content in the tissue without significantly changing ACC oxidase activity. DACP did not induce any change in respiration in fruit at various stages of maturity except the early green stage (green I). We also investigated the possible interaction of DACP and IAA in ethylene production. Results indicated that all treatments increased ethylene production compared to the control although the absolute ethylene production differed in the order IAA plus DACP > only DACP > only IAA > control. IAA stimulated ethylene production without change of ACC oxidase activity at 1 day after treatment in strawberry fruit at pink stage. Results suggest that ethylene biosynthesis in nonclimacteric strawberry fruit at various stages of maturity may be regulated by ethylene receptor(s) with inhibition of ethylene production. DACP may release this inhibitory effect, and resulting in increasing ethylene production. Results also indicated that respiration may not be regulated by an ethylene receptor in strawberry fruit at most stages of maturity. DACP and IAA showed interaction in regulation of ethylene production which was caused by an increase in ACC content, not ACC oxidase activity.     

Indole-3-acetic acid (IAA) synthesis in the biocontrol strain CHA0 of Pseudomonas fluorescens: role of tryptophan side chain oxidase.

Pseudomonas fluorescens strain CHA0 is an effective biocontrol agent against soil-borne fungal plant pathogens. In this study, indole-3-acetic acid (IAA) biosynthesis in strain CHA0 was investigated. Two key enzyme activities were found to be involved: tryptophan side chain oxidase (TSO) and tryptophan transaminase. TSO was induced in the stationary growth phase. By fractionation of a cell extract of strain CHA0 on DEAE-Sepharose, two distinct peaks of constitutive tryptophan transaminase activity were detected. A pathway leading from tryptophan to IAA via indole-3-acetamide, which occurs in Pseudomonas syringae subsp. savastanoi, was not present in strain CHA0. IAA synthesis accounted for less than or equal to 1.5% of exogenous tryptophan consumed by resting cells of strain CHA0, indicating that the bulk of tryptophan was catabolized via yet another pathway involving anthranilic acid as an intermediate. Strain CHA750, a mutant lacking TSO activity, was obtained after Tn5 mutagenesis of strain CHA0. In liquid cultures (pH 6.8) supplemented with 10 mM-L-tryptophan, growing cells of strains CHA0 and CHA750 synthesized the same amount of IAA, presumably using the tryptophan transaminase pathway. In contrast, resting cells of strain CHA750 produced five times less IAA in a buffer (pH 6.0) containing 1 mM-L-tryptophan than did resting cells of the wild-type, illustrating the major contribution of TSO to IAA synthesis under these conditions. In artificial soils at pH approximately 7 or pH approximately 6, both strains had similar abilities to suppress take-all disease of wheat or black root rot of tobacco. This suggests that TSO-dependent IAA synthesis is not essential for disease suppression.     

In planta production of indole-3-acetic acid by Colletotrichum gloeosporioides f. sp. aeschynomene

The plant pathogenic fungus Colletotrichum gloeosporioides f. sp. aeschynomene utilizes external tryptophan to produce indole-3-acetic acid (IAA) through the intermediate indole-3-acetamide (IAM). We studied the effects of tryptophan, IAA, and IAM on IAA biosynthesis in fungal axenic cultures and on in planta IAA production by the fungus. IAA biosynthesis was strictly dependent on external tryptophan and was enhanced by tryptophan and IAM. The fungus produced IAM and IAA in planta during the biotrophic and necrotrophic phases of infection. The amounts of IAA produced per fungal biomass were highest during the biotrophic phase. IAA production by this plant pathogen might be important during early stages of plant colonization.     

Physiological evidence for differently regulated tryptophan-dependent pathways for indole-3-acetic acid synthesis in Azospirillum brasilense

Disruption of ipdC, a gene involved in indole-3-acetic acid (IAA) production by the indole pyruvate pathway in Azospirillum brasilense Sp7, resulted in a mutant strain that was not impaired in IAA production with lactate or pyruvate as the carbon source. A tryptophan auxotroph that is unable to convert indole to tryptophan produced IAA if tryptophan was present but did not synthesise IAA from indole. Similar results were obtained for a mutant strain with additional mutations in the genes ipdC and trpD. This suggests the existence of an alternative Trp-dependent route for IAA synthesis. On gluconate as a carbon source, IAA production by the ipdC mutant was inhibited, suggesting that the alternative route is regulated by catabolite repression. Using permeabilised cells we observed the enzymatic conversion of tryptamine and indole-3-acetonitrile to IAA, both in the wild-type and in the ipdC mutant. IAA production from tryptamine was strongly decreased when gluconate was the carbon source.     

In Planta Production of Indole-3-Acetic Acid by Colletotrichum gloeosporioides f. sp. aeschynomene

The plant pathogenic fungus Colletotrichum gloeosporioides f. sp. aeschynomene utilizes external tryptophan to produce indole-3-acetic acid (IAA) through the intermediate indole-3-acetamide (IAM). We studied the effects of tryptophan, IAA, and IAM on IAA biosynthesis in fungal axenic cultures and on in planta IAA production by the fungus. IAA biosynthesis was strictly dependent on external tryptophan and was enhanced by tryptophan and IAM. The fungus produced IAM and IAA in planta during the biotrophic and necrotrophic phases of infection. The amounts of IAA produced per fungal biomass were highest during the biotrophic phase. IAA production by this plant pathogen might be important during early stages of plant colonization.     

多胺对菊花激素含量与花芽分化的影响

以切花菊（Dendranthema morifolium）品种‘神马’为试材,外源喷施0．1mmol·L-1的亚精胺（Spd）与多胺合成抑制剂D-精氨酸（D．Arg）,转入昼10h／夜14h的短日条件下进行开花诱导,测定不同花芽分化时期顶芽内源多胺[腐胺（Put）、亚精胺（Spd）、精胺（spm）]和几种激素[生长素（IAA）、玉米素核苷（ZR）、异戊烯基腺苷（iPA）、赤霉素（GA）]含量的动态变化,分析多胺对激素和花芽分化的作用关系。结果表明,外源多胺和多胺合成抑制剂能够显著影响顶芽内源多胺（Put、Spd、Spm）和激素（IAA、ZR、iPA、GA）的含量,顶芽内高水平多胺有利于菊花花芽分化的启动和保持;外源多胺及多胺合成抑制剂可能通过影响内源多胺含量从而影响内源激素或者直接影响内源激素和内源多胺,进而调控花芽分化：内源Put与IAA关系密切,高水平的内源Put不利于IAA的积累;ZR和iPA含量与内源多胺总量的变化趋势一致;外源多胺及多胺合成抑制剂对GA的影响主要在花序分化期和小花分化期,且高水平的内源Spd和Put不利于GA的积累。     

Dynamics of extractable carbohydrates in Pisum sativum. III. The effect of IAA and temperature on content and translocation of carbohydrates in pea cuttings during rooting

The number of roots formed in cuttings of pea ( Pisum sativum L. cv. Alaska) was regulated both by the temperature and by IAA, whereas the time to the appearance of the first roots was regulated only by the temperature. Cuttings treated with 10^-3 M IAA had a smaller content of extractable carbohydrates than the control ones irrespective of the temperature. In the bases of cuttings rooted at 25°C the content of extractable carbohydrates was lower than in those rooted at 15°C. Cuttings treated with IAA showed up to elevenfold increase of extractable carbohydrates in the bases at day 3. This increase of soluble sugars was not correlated with the number of roots formed or the speed of rooting. It is concluded that IAA affects the accumulation of carbohydrates, and this is not connected with the rooting ability of the cuttings.     

九连小檗悬浮培养细胞生理生化特性的研究——Ⅱ.干物质积累与过氧化物酶同工酶和蛋白质的变化

本文报道了九连小檗细胞悬浮培养过程干物质积累与过氧化物酶同工酶和可溶性蛋白质的变化。实验表明在悬浮培养过程中细胞干物质积累可分为四个时期,即延迟期、缓慢增重期、线性增重期和减慢静止期。过氧化物酶同工酶谱的变化与干物质积累相关,在延迟期和减慢静止期的同工酶谱带较少,活力较低,在增重期的同工酶谱带较多,活力较高。蛋白质含量在接种后的第2至5天达到高峰,随后便逐渐降低,这些大分子的变化是在一定条件下基因表达的引发或阻抑的结果。     

Formation of the population composition of a stationary cell culture and the participation of nonproliferating cells with a doubled DNA content in regulating its density

The conditions of the cultivation of chick embryo diploid cells were alternated (prolonged maintenance with or without medium replacement, with or without consequent cell replating in fresh medium). In different times of culture growth, the cell DNA content was assessed by cytophotometry; the percentage of non-labeled mitoses after incubating the cells with 3H-thymidine and colcemide, as well as the cell density were determined. The phenomenon, detected earlier, of the accumulation of cells containing 4c DNA during the transition of the culture from logarithmic into the stationary phase of growth, was confirmed. These cells were shown to differ in their ability to survive in conditions of stationary culture and by proliferative potential. The fraction of cells reversibly arrested in G2-period was described, by which fraction the change of the cell population size is occurring after the decrease of its proliferation rate. The transitional stage is distinguished at the beginning of the stationary phase of culture growth. During this stage the stabilization of structural and numerical composition of the population is taking place.     

Croissance,teneur en auxine et catabolisme auxinique chez Rhizobium

Summary Rhizobium is cultivated on a synthetic medium in presence of tryptophan. The exponential phase in the bacterial growth is over after three days. During the stationary phase, the IAA content of the medium continues to increase regularly after four days. The auxin degradation by cell-free preparations of 4, 8, 12-day old cultures decreases with time.These correlations between auxin catabolism, IAA content and bacterial growth are compared with those described in tissues of higher plants.     

烟草花发育过程中花药和花粉IAA分布规律的研究

以烟草（Nicotiana tabacumL.）花药为材料,通过4’,6-二脒基-2-苯基吲哚（DAPI）染色详细观察花粉发育过程,获得了花药发育时期与花蕾大小的对应关系;通过吲哚乙酸（IAA）单克隆抗体、免疫组织化学技术以及DR5∶∶GUS转基因植株的GUS活性对花药和花粉发育过程中生长素的分布规律进行了研究。免疫酶标记结果表明,在不同的花药发育时期IAA水平呈现出明显的差别。小孢子母细胞时期,IAA在整个花药中均有分布,并且在小孢子母细胞发育晚期,IAA信号集中在小孢子母细胞的细胞核中;随着小孢子母细胞减数分裂后形成四分体,IAA信号逐渐减弱,四分体中几乎没有信号;单核花粉期的花药中IAA信号进一步减弱,仅存在于花药壁中;待小孢子继续发育为成熟二核期时,花粉和整个花药组织中均出现较强的IAA信号。GUS活性检测结果表明,烟草DR5∶∶GUS转基因植株中花药和花粉粒的GUS信号与IAA免疫酶定位结果基本一致。总的来说,IAA在烟草花药和花粉中的积累呈现出由强到弱、再由弱到强的分布规律,暗示IAA在被子植物花药和花粉发育过程中可能起着较为重要的作用。     

强旱生小灌木绵刺劈裂生长过程中内源激素含量变化的研究

 研究强旱生小灌木绵刺(Potaninia mongolica)劈裂生长过程中内源激素含量的变化。结果表明：1）4种生长状态中,完全劈裂的植株的叶片及劈裂发生部位ABA的含量比其它3种状态的都低,而其根中ABA的含量最大。同其它几种激素相比,ABA在绵刺体内的含量最大;2）劈裂生长发生之前,在劈裂发生部位IAA积累量大,尤其是在即将劈裂的过渡植株的劈裂发生部位IAA含量最大;3）劈裂生长发生过程中GA3含量的变化与IAA的变化有同步性;4）ZR的含量也是在劈裂生长发生前的绵刺的劈裂发生部位中较大,随着劈裂生长的发生,植物从根部向叶片及劈裂发生部位运输的ZR有逐渐降低的趋势,而在劈裂生长发生的过渡阶段,ZR从根部向劈裂发生部位运输的比例较大,分别为19.44%和20%;5）IAA、GA3、ZR 三者协调促进劈裂发生部位细胞的生长和分裂,而ABA的积累对绵刺适应干旱的环境条件起到了一定的调节作用。     

油菜生长发育期间内源激素含量的变化

初花期至盛花期华双3号、华杂4号、恢5900等3个品种花蕾的iPAs含量呈明显上升趋势,而秦油2号则刚好相反(表2)。对双低品种华双3号功能叶的研究表明：苗期至盛花期IAA含量始终最高,其后依次是GA1 3;、iPAs、ABA。功能叶IAA的含量在越冬期处于整个生育期的最低水平,蕾薹期达到高峰,随后下降：GA1 3和iPAs含量随生育进程逐渐升高,并在初花期达到峰值;ABA在苗期及抽薹后一直处于很低水平,但在越冬期达到最高值(图1、2)。蕾薹期IAA主要分布在幼嫩和正在生长的器官中并起重要作用,而在功能叶中相对要少;幼叶GA1 3和iPAs含量最高,功能叶其次,花蕾最低(表1)。角果皮与籽粒的内源激素含量差异极显著,在开花后第39天,籽粒中IAA、GA1 3;、iPAs的含量大大超过角果皮(表3)。结果 表明iPAs在促进籽粒的充实饱满、物质积累转化方面发挥重要作用。     

Effect of Growth Conditions on Yield and Heme Content of Vitreoscilla

Vitreoscilla, a gliding bacterium in the Beggiatoaceae, is an obligate aerobe in which cytochrome o functions as the terminal oxidase. Protoheme IX is the only heme type present in this organism. The yield and heme content of Vitreoscilla cells grown in yeast extract, peptone, and acetate were dependent on growth conditions. Cells harvested in early stationary phase contained roughly three times as much heme as cells in early log phase. There was an optimal shaking rate for maximum heme content of cells harvested in stationary phase at fixed initial nutrient concentration. The heme content of cells grown at a fixed shaking rate increased from 5 nmol/g (wet weight) in media which had low nutrient concentration to a maximum of 45 nmol/g (wet weight) in media which had high nutrient concentration, and there was a corresponding sixfold increase in cytochrome o content and an eightfold increase in respiratory rate, evidence that some of the additional heme was incorporated into respiratory pigments. Heme content may be controlled jointly by competition for oxygen and availability of nutrients. Temperature and initial pH affected the growth rate but not the final yield or heme content. Growth rate was optimal at pH 8.0 to 8.5. A defined medium for Vitreoscilla, which is based on glutamate as the carbon source, is described; the other organic components of this medium are acetate, tryptophan, thiamine, biotin, and riboflavin.     

拟南芥色氨酸与吲哚乙酸生物合成的研究进展

拟南芥色氨酸生物合成途径的研究已逐渐成为植物分子生物学家了解植物基因结构和表达调控最主要的模式系统之一。到目前为止,编码拟南芥色氨酸合成途径的七种酶蛋白的基因已经全部被克隆,并进行了不同程度的分子生物学研究。长期以来,色氨酸一直被认为是植物生长素吲哚乙酸（ＩＡＡ）生物合成（从头合成）的前体物,但近年来人们发现生长素合成的非色氨酸途径可能是其在植物中生物合成的主要途径。植物在不同的发育阶段可能采用不同的方式合成ＩＡＡ。