Inside or outside? Localization of the receptor relevant to auxin-induced growth

The localization of the auxin receptor relevant to the control of elongation growth is still a matter of controversy. Auxin-induced elongation of maize coleoptile segments was measured by means of a high resolution auxanometer. When indole-3-acetic acid (IAA) was removed from the bathing solution, a rapid cessation of auxin-induced elongation was detected. This decline was delayed when the auxin efflux carrier was blocked by the phytotropins naphthylphthalamic acid (NPA) and pyrenoylbenzoic acid (PBA) or by triiodobenzoic acid (TIBA). The IAA concentration in NPA-pretreated segments was 2–3 times higher than in NPA-free controls 35 min after the removal of IAA in the bathing medium.
A similar rapid drop of growth after removal of auxin was observed for the rapidly-transported synthetic auxin, naphthaleneacetic acid (NAA). When the auxin efflux was blocked, growth induced by NAA was sustained much longer than IAA-stimulated elongation.
In comparison with NAA, the synthetic auxin 2,4-dichlorophenoxyacetic acid (2,4-D) is known to be excreted very slowly by the efflux carrier. 2,4-D-induced growth remained at a stimulated level when the auxin was washed off, even in the absence of any auxin efflux inhibitor. We conclude from these results that the presence of intracellular auxin is a necessary and sufficient condition for sustained auxin-induced elongation growth, at least for the phases during the 2 h after its application. Consequently, we postulate the existence of an intracellular auxin receptor relevant to the control of growth.     

Enzymatic characterization of the recombinant Arabidopsis thaliana nitrilase subfamily encoded by the NIT2/NIT1/NIT3-gene cluster

Three of the nitrilase isoenzymes of Arabidopsis thaliana (L.) Heynh. are located on chromosome III in tandem and these genes (NIT2/NIT1/NIT3 in the 5′→3′ direction) encode highly similar polypeptides. Copy DNAs encompassing the entire coding sequences for all three nitrilases were expressed in Escherichia coli as fusion proteins containing a C-terminal hexahistidine extension. All three nitrilases were obtained as enzymatically active proteins, and their characteristics were determined, including a detailed comparative analysis of their substrate preferences. All three nitrilases converted indole-3-acetonitrile (IAN) to indole-3-acetic acid (IAA), albeit, compared to the most effective substrates found, phenylpropionitrile (PPN), allylcyanide, (phenylthio)acetonitrile and (methylthio)acetonitrile, with low affinity and velocity. The preferred substrates are either naturally occurring substrates, which may originate from glucosinolate breakdown, or they are close relatives of these. Thus, a major function of NIT1, NIT2 and NIT3 is assigned to be the conversion to carboxylic acids of nitriles from glucosinolate turnover or degradation. While all nitrilases exhibit a similar pH optimum around neutral, and NIT1 and NIT3 exhibit a similar temperature optimum around 30 °C independent of the substrate analyzed (IAN, PPN), NIT2 showed a remarkably different temperature optimum for IAN (15 °C) and PPN (35–40 °C). A potential role for NIT2 in breaking seed dormancy in A. thaliana by low temperatures (stratification), however, was ruled out, although NIT2 was the predominantly expressed nitrilase isoform in developing embryos and in germinating seeds, as judged from an analysis of β-glucuronidase reporter gene expression under the control of the promoters of the four isogenes. It is possible that NIT2 is involved in supplying IAA during seed development rather than during stratification. Received: 13 May 2000 / Accepted: 14 August 2000     

Gibberellic acid induces cytoplasmic acidification in maize coleoptiles

Indole-3-acetic acid (IAA), fusicoccin and weak acids all lower the cytoplasmic pH (pH_i) and induce elongation growth of maize (Zea mays L.) coleoptiles. Gibberellic acid (GA₃) also induces elongation growth and we have used confocal laser scanning microscopy to study the effects of GA₃ on pH_i employing the pH-indicator dyes, 2,7-bis(2-carboxyethyl)-5-(and-6) carboxyfluorescein and carboxy-semi-naphthorhodafluor-1. We confirm that GA₃ induces growth significantly in light-grown but only slightly or not at all in dark-grown coleoptiles. The growth induced by IAA treatment was similar in light- and dark-grown coleoptiles. The pH_i decreased by up to 0.6 units during the first 7 min of GA₃ or IAA treatment of both light- and dark-grown coleoptiles. Gibberellic acid inhibited IAA-induced growth of dark-grown coleoptiles. Hence, in dark-grown coleoptiles GA₃ may activate either directly or indirectly reactions that interfere with the signalling pathway leading to elongation growth. The possible role of pH_i in growth is discussed.Abbreviations ABA abscisic acid - AM acetoxymethyl ester - BCECF 2,7-bis(2-carboxyethyl)-5-(and-6) carboxyfluorescein - [Ca²⁺]_i cytoplasmic free calcium - GA_(n) gibberellin A_(n) - GA₃ gibberellic acid - IAA indole-3-acetic acid - PGR plant growth regulator - pH_i cytoplasmic pH - Pipes piperazine-N,N-bis[2-ethanesulfonic acid] - Snarf-1 carboxy-semi-naphthorhodafluor-1 We thank Dr R. King (CSIRO, Canberra) for providing the GA₁ and T. Phillips for processing the photographic material. H.R. Irving was supported by an Australian Research Council Research Fellowship and the work was supported by an Australian Research Council grant.     

代谢组学信息获取与数据预处理瓶颈问题探讨

经过近15 年的快速发展,代谢组学已逐步成熟并渗透到生命科学和医学研究领域的各个层面。随着认识的不断深入,各种影响代谢组学研究的细节因素和技术瓶颈逐步被揭示。从生物样品采集与制备、原始数据采集、数据预处理和方法学验证等方面系统探讨了影响代谢组学研究的主要瓶颈问题,以期推动代谢组学研究的精细化和规范化发展。     

Effect of applied and endogenous indol-3-yl-acetic acid on maize root growth

The level of endogenous Indol-3-yl-acetic acid (IAA) measured by gas chromatography-mass spectrometry in the elongating zone of intact primary roots of Zea mays showed a good linear correlation with the growth rate of these roots. When they were treated with IAA, their relative elongation decreased; this indicates a supraoptimal content of endogenous IAA. However, the growth of some of the relatively rapidly extending roots was enhanced by such treatment. Interactions between endogenous and applied IAA in the control of root growth are discussed.Abbreviations GC-MS gas chromatography-mass spectrometry - IAA Indol-3-yl-acetic acid     

Gibberellin-induced ethylene production and its effect on cowpea epicotyl elongation

The effect of gibberellin A₁ (GA₁) on production of ethylene by cowpea (Vigna sinensis cv Blackeye pea no. 5) epicotyl explants and its relationship to epicotyl elongation was investigated. The explants were placed upright in water and incubated in sealed culture tubes or in large jars. GA, and IAA in ethanol solution were injected into the subapical tissues of the decapitated epicotyls. Cowpea epicotyl explants elongated after GA but not after IAA treatment, and they were very sensitive to exogenous ethylene. As little as 0.14 1/1 ethylene reduced significantly GA₁-induced epicotyl elongation.Treatment with GA₁ induced the production of ethylene which began 10 h after GA application, showed a peak at about 22 h and then declined. The yield of ethylene was proportional to the amount of GA, injected. The inhibition of epicotyl elongation in closed tubes was avoided by absorbing ethylene released with Hg(Cl0₄)₂ , or by adding AVG to the incubation solution to inhibit ethylene production. Treatment with IAA elicited a rapid production of ethylene which ceased about 10 h after application. The effects of IAA and GA₁ on ethylene production were additive.Abbreviations AVG aminoethoxyvinylglycine 2-amino-4-(2-aminoethoxy)-trans-3butenoic acid - ACC 1-aminocyclopropane-1-carboxylic acid - GA gibberellin - IAA indole-3-acetic acid     

甘蓝叶制汁工艺研究

对甘蓝叶的预处理、榨汁方式和澄清工艺等进行了研究,结果以经预冻、解冻预处理,以离心式打浆榨汁与真空抽滤相结合的方式制汁,所得出汁率最高,为52.22%.所得甘蓝叶原汁经85℃,5 min;4 000 r/min,15 min 的离心后,再用复合澄清荆(A组份200 r/min,B组份400 mg/kg)进行澄清,可以获得良好澄清效果,其汁液透光率可达69.8%.     

The changing sensitivity to auxin of the plasma-membrane H+-ATPase: Relationship between plant development and ATPase content of membranes

The auxin sensitivity of the plasma-membrane H⁺-ATPase from tobacco leaves (Nicotiana tabacum L. cv. Xanthi) depends on the physiological state of the plant (Santoni et al., 1990, Plant Sci. 68, 33–38). Results based on the study of auxin sensitivity according to culture conditions which accelerate or delay tobacco development demonstrate that the highest auxin sensitivity is always associated with the end of the period of induction to flowering. Auxin stimulation of H⁺-translocation activity corresponds to an increase of the apparent ATPase affinity for ATP. The plasma-membrane H⁺-ATPase content, measured with an enzyme-linked immunosorbent assay using a specific anti-H⁺-ATPase antibody, varies according to plant development, and was found to increase by 100% during floral induction. The specific molecular ATPase activity also changes according to plant development; more particularly, the decrease in molecular ATPase activity upto and during the floral-induction period parallels the increase of sensitivity to indole-3-acetic acid.Abbreviations ELISA enzyme-linked immunosorbent assay - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulfate Authors are grateful to Mrs. Grosclaude (Lab. Virologie, INRA, Jouy-en-Josas, France) and Mrs. Boudon (Lab. Mycoplasmes, INRA, Dijon, France) for support and advice in the preparation of antibodies. This work was supported by grants No. 89/512/6 from the E.P.R of Bourgogne and No. 89 C 0662 from M.R.T.