Strigolactone mimic 2-nitrodebranone is highly active in Arabidopsis growth and development

Strigolactones play crucial roles in regulating plant architecture and development, as endogenous hormones, and orchestrating symbiotic interactions with fungi and parasitic plants, as components of root exudates. rac-GR24 is currently the most widely used strigolactone analog and serves as a reference compound in investigating the action of strigolactones. In this study, we evaluated a suite of debranones and found that 2-nitrodebranone (2NOD) exhibited higher biological activity than rac-GR24 in various aspects of plant growth and development in Arabidopsis, including hypocotyl elongation inhibition, root hair promotion and senescence acceleration. The enhanced activity of 2NOD in promoting AtD14–SMXL7 and AtD14–MAX2 interactions indicates that the molecular structure of 2NOD is a better match for the ligand perception site pocket of D14. Moreover, 2NOD showed lower activity than rac-GR24 in promoting Orobanche cumana seed germination, suggesting its higher ability to control plant architecture than parasitic interactions. In combination with the improved stability of 2NOD, these results demonstrate that 2NOD is a strigolactone analog that can specifically mimic the activity of strigolactones and that 2NOD exhibits strong potential as a tool for studying the strigolactone signaling pathway in plants.     

Regulation and integration of plant jasmonate signaling: a comparative view of monocot and dicot

The phytohormone jasmonate plays a pivotal role in various aspects of plant life, including developmental programs and defense against pests and pathogens. A large body of knowledge on jasmonate biosynthesis, signal transduction as well as its functions in diverse plant processes has been gained in the past two decades. In addition, there exists extensive crosstalk between jasmonate pathway and other phytohormone pathways, such as salicylic acid (SA) and gibberellin (GA), in co-regulation of plant immune status, fine-tuning the balance of plant growth and defense, and so on, which were mostly learned from studies in the dicotyledonous model plants Arabidopsis thaliana and tomato but much less in monocot. Interestingly, existing evidence suggests both conservation and functional divergence in terms of core components of jasmonate pathway, its biological functions and signal integration with other phytohormones, between monocot and dicot. In this review, we summarize the current understanding on JA signal initiation, perception and regulation, and highlight the distinctive characteristics in different lineages of plants.     

NO在植物生长发育和环境胁迫响应中的作用

一氧化氮（NO）是具有生物活性和信号转导作用的气体活性分子,它不仅对植物的许多生命活动如种子萌发、生长和衰老等具有直接的生理调节功能,而且作为防御反应中的关键信使,参与了植物对外界环境胁迫的响应,如干旱胁迫、热胁迫、盐胁迫、UV-B辐射、臭氧胁迫、重金属胁迫、机械损伤以及植物抗病反应.NO与各种激素如乙烯、脱落酸、水杨酸、生长素和细胞分裂素等,在调节植物的生理活动与信号转导方面有明显的协同作用,通过激素起作用可能是植物内源NO作用的机理之一.探明在正常生长状况下植物内源NO对植物生长发育的调控机制及其参与信号转导的生理机制是目前研究的重点.     

植物激素对破囊壶菌生长与产DHA的影响

研究了植物激素对破囊壶菌(Thraustochytrium roseum) MF2产DHA的影响作用。实验结果表明：植物激素对T.roseum MF2的生长和产DHA有很大影响;赤霉素(GA)能促进DHA的合成,6苄基腺嘌呤(BA)能显著促进T.roseum　MF2的生长,二者的配合使用能明显增加DHA的产量;培养基中适宜的添加量为2mg/L GA和3mg/L BA,可使DHA产量达到982mg/L。     

微藻生产油脂培养新技术

近年来,随着全球性能源短缺和环境污染等问题日益严重,利用微藻开发绿色、清洁的生物能源已成为了研究热点。但是微藻油脂的低合成速率和高成本限制了微藻油脂的大规模生产。为了有效开发利用微藻资源,双阶段及共培养技术被发展并取得了显著进展。此外,除了改变培养条件,更为简单的添加生长代谢调节因子的策略也被证明是一种有效的提高微藻油脂的技术。对各种新发展的微藻培养技术及其技术原理进行了详细介绍,在此基础上,初步展望了微藻产油研究的未来发展方向。     

Rhodethrin: a novel indole terpenoid ether produced by Rhodobacter sphaeroides has cytotoxic and phytohormonal activities

A novel metabolite was isolated from the culture supernatants of Rhodobacter sphaeroides OU5 when grown on l-tryptophan as sole source of nitrogen under photoheterotrophic conditions. It was identified by IR, NMR (¹H, ¹³C) and MS as an indole terpenoid ether [3-hydroxy-6-(1H-indol-3-yloxy)-4-methylhexanoic acid] and is named as rhodethrin. Rhodethrin at 0.5 μM gave positive test in auxin bioassay and initiated early rooting in tissue-cultured plants than IAA at 5 μM. Rhodethrin has cytotoxic activity against Sup-T₁ lymphoma and Colo-125 cancer cell lines at 10 nM.     

Isomerization of the phytohormone precursor 12-oxophytodienoic acid (OPDA) in the insect gut: a mechanistic and computational study

12-Oxophytodienoic acid (OPDA) is isomerized in the gut of herbivorous insects to tetrahydrodicranenone B (iso-OPDA). The transformation is achieved by a glutathione S-transferase present in the gut epithelium. Experiments with 9-[(2)H]-iso-OPDA demonstrated the complete retention of the deuterium atom in the product 11-[(2)H]-OPDA consistent with an intramolecular 1,3-hydrogen shift. Homology modeling based on the x-ray structure of a glutathione S-transferase from Anopheles gambiae revealed that the co-factor glutathione does not covalently bind to the substrate but appears to be involved in the initial deprotonation and enolization of the OPDA. The transformation resembles that of a mammalian GST-catalyzed isomerization of Δ(5)-3-ketosteroids to Δ(4)-3-ketosteroids or the conversion of prostaglandin A(1) to the biologically inactive prostaglandin B(1).     

Ethylene signaling: identification of a putative ETR1-AHP1 phosphorelay complex by fluorescence spectroscopy

The plant ethylene receptor ETR1, which shows substantial sequence homology to typical bacterial histidine kinases, is involved in the coordination of several growth and development processes. Fluorescence polarization studies presented here demonstrate a specific interaction of ETR1 with the histidine-containing transfer protein AHP1, supporting the idea that a phosphorelay module is involved in ethylene signaling. The sensitive assay employed in our studies allows analysis of protein-protein interactions in a homogenous aqueous environment, exact control of external parameters, and quantitative analysis of the affinity and stability of the complex. Thereby it provides the basics for a more quantitative elucidation of phosphorelay modules acquired in phytohormone signaling.     

Growth, ageing and death of a photoautotrophic plant cell culture

 Batch cultures of photoautotrophic cell suspensions of Chenopodiumrubrum L., growing in an inorganic medium on CO₂ under a daily balanced light–dark regime of 16 : 8 h could be maintained for approximately 100 d without subcultivation. The long-lived cultures showed an initial cell division phase of 4 weeks, followed by a stationary phase of another 4 weeks, after which ageing and progressive cell death reduced the number of living cells and the cultures usually expired after another 3–4 weeks. These developmental phases of the cell culture were characterised with respect to photosynthetic performance, dark respiration, content of phytohormones and capacity of cell division. Cell division of the majority of the cells finished in the G1- or G0-phase of the cell cycle, caused by a pronounced decline in the endogenous levels of auxin and cytokinins. Supply of these growth factors to resting cells resulted in resumption of cytokinesis, at least by some of the cells. However, responsiveness to the phytohomones declined during the stationary phase, and subcultivation was no longer possible beyond day 60 when the phases of ageing and death commenced. Ageing was characterised by a further decline in the photosynthetic capacity of the cells, by a climacteric enhancement of dark respiration, but also by a slight increase in the level of IAA and cytokinins concomitant with a decrease in ethylene. Similarities and differences between the development of batch-cultured photoautotrophic cells of C. rubrum and that of a leaf are discussed with respect to using the cell culture as a model for a leaf. Received: 30 April 1999 / Accepted: 21 August 1999     

葡萄蔗糖转化酶基因家族的生物信息学及响应逆境胁迫分析

蔗糖转化酶(invertase, INV)在植物生长发育和抵御胁迫中发挥着重要作用。研究从葡萄基因组数据库中鉴定出19个蔗糖转化酶基因,对基因结构和编码蛋白质的理化性质进行生物信息学分析,并利用qRT-PCR技术分析基因在不同激素和非生物胁迫条件下的表达特征,为进一步探索葡萄INV基因家族参与葡萄逆境响应提供了一定的理论依据。结果表明,(1)该基因家族编码蛋白的氨基酸长度在150～766 aa之间,理论等电点介于4.43～9.1之间,亚细胞定位预测发现其主要在细胞质中表达,此外液泡和细胞壁也存在部分基因表达;(2)共线性结果显示VvCINV与其他5个物种复制频率较高;(3)保守基序分析表明VvCwINV包含了所有的保守基序,且Glyco＿32和Glyco＿hydro＿100是VvINV基因主要结构域;(4)组织特异性表达分析发现多数基因在葡萄生长发育进程中都有表达;(5)qRT-PCR分析结果显示,VvINV基因家族在叶片中对激素处理和非生物胁迫的响应出现上调,VvCINV1在50 mg/L GA₃和10%PEG处理后上调表达极显著,VvCINV4在盐胁迫、ABA...