290 resultados para Auxin
Resumo:
The goal of this research is to understand the function of allelic variation of genes underpinning the stay-green drought adaptation trait in sorghum in order to enhance yield in water-limited environments. Stay-green, a delayed leaf senescence phenotype in sorghum, is primarily an emergent consequence of the improved balance between the supply and demand of water. Positional and functional fine-mapping of candidate genes associated with stay-green in sorghum is the focus of an international research partnership between Australian (UQ/DAFFQ) and US (Texas A&M University) scientists. Stay-green was initially mapped to four chromosomal regions (Stg1, Stg2, Stg3, and Stg4) by a number of research groups in the US and Australia. Physiological dissection of near-isolines containing single introgressions of Stg QTL (Stg1-4) indicate that these QTL reduce water demand before flowering by constricting the size of the canopy, thereby increasing water availability during grain filling and, ultimately, grain yield. Stg and root angle QTL are also co-located and, together with crop water use data, suggest the role of roots in the stay-green phenomenon. Candidate genes have been identified in Stg1-4, including genes from the PIN family of auxin efflux carriers in Stg1 and Stg2, with 10 of 11 PIN genes in sorghum co-locating with Stg QTL. Modified gene expression in some of these PIN candidates in the stay-green compared with the senescent types has been found in preliminary RNA expression profiling studies. Further proof-of-function studies are underway, including comparative genomics, SNP analysis to assess diversity at candidate genes, reverse genetics and transformation.
Resumo:
Fruit drop can cause major yield losses in Australian lychee orchards, the severity varying with cultivar and season. Research in China, South Africa and Israel has demonstrated the potential for synthetic auxins used as foliar sprays to reduce fruit drop in lychee. Trials tested the efficacy of the synthetic auxin 3-5-6 trichloro-2-phridyl-oxyacetic acid (TPA) applied as a foliar spray at 50 ppm on fruit drop and fruit size on the cultivars ‘Fay Zee Siu’, ‘Kaimana’, ‘Kwai Mai Pink’, ‘Souey Tung’ and ‘Tai So’. TPA reduced fruit drop when applied to fruit greater than 12 mm in length but increased fruit drop when fruit were smaller. Fruit size at the time of application had less effect on the response than the level of natural fruit drop. When natural fruit drop was high, TPA significantly reduced it; by up to 18.7 in ‘Fay Zee Siu’, 37.1 in ‘Kaimana’, 39.8 in ‘Kwai Mai Pink’, 15.1 in ‘Souey Tung’ and 7.7 in ‘Tai So’. TPA was less effective when natural fruit drop was low. TPA increased the number of large fruit and frequently increased the number of small fruit at harvest. The small fruit were associated with an increase in the retention of fruit with poorly developed (chicken tongue) seed. Average fruit size was generally larger (up to 12.7 in ‘Souey Tung’ and 22 in ‘Tai So’) with TPA applications.
Resumo:
Many plantation eucalypts are difficult to propagate from cuttings, and their rooted cuttings often possess very few adventitious roots. We microscopically examined the stem anatomy of cuttings from 12 species of eucalypts and we determined whether adventitious root formation in auxin-treated cuttings of four species was limited to particular positions around the vascular tissue. Most species contained a central pith that was arranged in a four-pointed stellate pattern. The surrounding vascular tissue was also arranged in a stellate pattern near the shoot apex but it developed a more rectangular shape at the outer phloem as the stems enlarged radially. Adventitious roots formed at, or slightly peripheral to, the vascular cambium, and they formed at both the corners and the sides of the rectangular-shaped vascular tissue. The study highlighted that auxin-treated eucalypt cuttings can produce roots at multiple positions around the vascular tissue and so propagation methods can aim to produce more than four adventitious roots per rooted cutting. Higher numbers of adventitious roots could improve the root system symmetry, stability, survival and growth rate of clonal eucalypt trees. © 2015 by the authors; licensee MDPI, Basel, Switzerland.
Resumo:
Lignin is a complex plant polymer synthesized through co-operation of multiple intracellular and extracellular enzymes. It is deposited to plant cell walls in cells where additional strength or stiffness are needed, such as in tracheary elements (TEs) in xylem, supporting sclerenchymal tissues and at the sites of wounding. Class III peroxidases (POXs) are secreted plant oxidoreductases with implications in many physiological processes such as the polymerization of lignin and suberin and auxin catabolism. POXs are able to oxidize various substrates in the presence of hydrogen peroxide, including lignin monomers, monolignols, thus enabling the monolignol polymerization to lignin by radical coupling. Trees produce large amounts of lignin in secondary xylem of stems, branches and roots. In this study, POXs of gymnosperm and angiosperm trees were studied in order to find POXs which are able to participate in lignin polymerization in developing secondary xylem i.e. are located at the site of lignin synthesis in tree stems and have the ability to oxidize monolignol substrates. Both in the gymnosperm species, Norway spruce and Scots pine, and in the angiosperm species silver birch the monolignol oxidizing POX activities originating from multiple POX isoforms were present in lignifying secondary xylem in stems during the period of annual growth. Most of the partially purified POXs from Norway spruce and silver birch xylem had highest oxidation rate with coniferyl alcohol, the main monomer in guaiacyl-lignin in conifers. The only exception was the most anionic POX fraction from silver birch, which clearly preferred sinapyl alcohol, the lignin monomer needed in the synthesis of syringyl-guaiacyl lignin in angiosperm trees. Three full-length pox cDNAs px1, px2 and px3 were cloned from the developing xylem of Norway spruce. It was shown that px1 and px2 are expressed in developing tracheids in spruce seedlings, whereas px3 transcripts were not detected suggesting low transcription level in young trees. The amino acid sequences of PX1, PX2 and PX3 were less than 60% identical to each other but showed up to 84% identity to other known POXs. They all begin with predicted N-terminal secretion signal (SS) peptides. PX2 and PX3 contained additional putative vacuolar localization determinants (VSDs) at C-terminus. Transient expression of EGFP-fusions of the SS- and VSD-peptides in tobacco protoplasts showed SS-peptides directed EGFP to secretion in tobacco cells, whereas only the PX2 C-terminal peptide seems to be a functional VSD. According to heterologous expression of px1 in Catharanthus roseus hairy roots, PX1 is a guaicol-oxidizing POX with isoelectric point (pI) approximately 10, similar to monolignol oxidizing POXs in protein extracts from Norway spruce lignifying xylem. Hence, PX1 has characteristics for participation to monolignol dehydrogenation in lignin synthesis, whereas the other two spruce POXs seem to have some other functions. Interesting topics in future include functional characterization of syringyl compound oxidizing POXs and components of POX activity regulation in trees.
Resumo:
Cuscuta stem (vines) exhibits two modes of growth—longitudinal elongation forming free-hanging vines, or coiling growth to twine around the host. The elongation zone of free-hanging vine extended up to 160 mm from the stem apex and in vivo growth rate (during 8 h of growth) was maximal in the 20-to-40-mm region. While gibberellic acid (GA3) or fusicoccin (FC) could maintain (GA3) or enhance (FC) the growth rate of apical (10 or 25 mm) segments, indole-3-acetic acid (IAA) (10 mgrM) induced growth only in subapical (5–160 mm) segments. In vitro growth rate induced by IAA (10 mgrM) was similar to the in vivo growth rate up to 40 mm. Thereafter, up to 100 mm, IAA induced growth rate exceeded in vivo growth. p ]Subapical segments (sim13 mm) from 5- to 40-mm regions responded to a cytokinin (BA, Z, or iP) or to low IAA (0.1 mgrM) with curved growth, whereas the segments grew straight in the presence of high IAA (10 mgrM). Curvature (measured as the angle subtended at the center of the circle of which the segment formed an arc) induced by BA and low (0.1 mgrM) IAA was greater than either added separately. Besides, segments induced to curve in BA + low-IAA solution could be made to straighten out by transferring to a solution containing high IAA (10 mgrM) with or without BA. Thus in vivo patterns of straight and coiling growth could be mimicked reversibly in vitro by adjusting the relative concentrations of cytokinin and auxin; low auxin and cytokinin induced coiling growth, whereas high auxin and cytokinin induced straight growth. p ]Beyond 40 mm, BA had no growth-promoting or curvative-inducing effect.Cuscuta vine segments thus showed sequential sensitivity to applied hormones, the apical region (0–25 mm) to GA3, the subapical (5–40 mm) region to BA and IAA and the region beyond (40–160 mm) to IAA alone.
Resumo:
Cytokinins induced haustoria formation in excised 10-mm segments ofCuscuta vine, the subapical 25-to-50-mm region being most responsive, producing a mean of 4–6 haustoria per segment. The order of effectiveness of cytokinins continuously applied (72 h) was 6-benzylaminopurine (BA) ges isopentenyladenine (iP) Gt zeatin (Z). Ribosides of BA and Z were as effective as the bases, whereas riboside of iP ([9R]iP) was half as effective as iP. Haustoria induction was influenced by weather and seasonal conditions at the time of vine collection; materials obtained on warm, sunny days responded better than those obtained on rainy, cloudy, or cool days. Haustoria were induced equally well all around the segment, and no thigmostimulus was needed for induction. p ]A 10-min pulse of 100 mgrM BA induced half as many haustoria as a 60-min pulse or continuous application of BA. White light inhibited haustoria induction elicited by a short (30-min) pulse of BA, whereas a longer (120-min) BA application overcame this light inhibition. Auxins (IAA or NAA, 1–10 mgrM), gibberellin (GA3, 1–10 mgrM), ethylene (as ethrel, 10–100 mgrM), and abscisic acid (ABA, 100 mgrM) were individually inhibitory (60–80%) with respect to haustoria induction when given continuously with 50 mgrM BA. A 60-min pulse of auxins (10 mgrM), GA3 (100 mgrM), or ethrel (10 mgrM), given at various time intervals during or after a 60-min pulse of 100 mgrM BA, showed that inhibition was maximal (70–95%) between 4 and 16 h of BA application and negligible (GA3) or much reduced (auxin, ethrel) at 20 h, indicating a ldquocommitmentrdquo to haustoria formation by this time.
Resumo:
Rapid multiplication of axillary meristems and direct shoot development occurred from nodal explants of mature Eucalyptus tereticornis Sm. with 5.3 mgrM NAA, 1.1 mgrM IAA and 4.4 mgrM BA in Murashige-Skoog medium. Repeated subcultures of the second generation shoot cultures into low cytokinin-auxin containing media (0.44�0.88 mgrM BA+0.1 mgrM NAA) yielded axillary microshoots in large numbers. Half-strength MS liquid medium with 4.9 mgrM IBA, 5.5 mgrM IAA and 5.3 mgrM NAA for four days, half-strength semi-solid hormonefree MS medium with charcoal, and MS liquid medium without charcoal and hormones, in sequence, induced rooting of shoots in the dark. This system is suitable for the mass propagation of this difficult-to-root eucalypt.
Resumo:
Callus cultures of sandalwood (Santalum album L.) were established from shoot segments and shoot tips of trees over 20 years old. Shoots were induced directly from shoot tip callus, while in shoot segments embryoids developed from the callus within 4 weeks after subculturing on to a medium supplemented with gibberellic acid (GA). Embryoids of 4–5 mm were transferred to basal medium or basal medium supplemented with low concentrations of auxin showed plantlet development.
Resumo:
The identification of small molecules that affect T cell activation is an important area of research. Three molecules that regulate plant growth and differentiation, but not their structurally similar analogs, were identified to enhance primary mouse CD4(+) T cell activation in conjunction with soluble anti-CD3 stimulation: Indoleacetic acid (natural plant auxin), 1-Napthaleneacetic acid (synthetic plant auxin) and 2,4-Dichlorophenoxyacetic acid (synthetic plant auxin and herbicide). These effects are distinct in comparison to Curcumin, the well known phenolic immunomodulator, which lowers T cell activation. An investigation into the mechanisms of action of the three plant growth regulators revealed a rapid induction of reactive oxygen species (ROS), mainly comprising H2O2 . In addition, these three molecules synergize with soluble anti-CD3 signaling to enhance intracellular Ca2+ concentrations Ca2+](i), leading to greater T cell activation, e.g. induction of CD25 and IL-2. Enhanced production of TNF alpha and IFN gamma by CD4+ T cells is also observed upon plant growth regulator treatment with soluble anti-CD3. Interestingly, maximal IL-2 production and CD4(+) T cell cycle progression are observed upon activation with soluble anti-CD3 and phorbol 12-myristate 13-acetate (PMA), a phorbol ester. Additionally, stimulation with PMA and Ionomcyin (a Ca2+ ionophore), which activates T cells by circumventing the TCR, and plant growth regulators also demonstrated the role of the strength of signal (SOS): T cell cycle progression is enhanced with gentle activation conditions but decreased with strong activation conditions. This study demonstrates the direct effects of three plant growth regulators on CD4(+) T cell activation and cycling. (C) 2010 Elsevier B.V. All rights reserved.
Resumo:
SEPALLATA (SEP) MADS box transcription factors mediate floral development in association with other regulators. Mutants in five rice (Oryza sativa) SEP genes suggest both redundant and unique functions in panicle branching and floret development. LEAFY HULL STERILE1/OsMADS1, from a grass-specific subgroup of LOFSEP genes, is required for specifying a single floret on the spikelet meristem and for floret organ development, but its downstream mechanisms are unknown. Here, key pathways and directly modulated targets of OsMADS1 were deduced from expression analysis after its knockdown and induction in developing florets and by studying its chromatin occupancy at downstream genes. The negative regulation of OsMADS34, another LOFSEP gene, and activation of OsMADS55, a SHORT VEGETATIVE PHASE-like floret meristem identity gene, show its role in facilitating the spikelet-to-floret meristem transition. Direct regulation of other transcription factor genes like OsHB4 (a class III homeodomain Leu zipper member), OsBLH1 (a BEL1-like homeodomain member), OsKANADI2, OsKANADI4, and OsETTIN2 show its role in meristem maintenance, determinacy, and lateral organ development. We found that the OsMADS1 targets OsETTIN1 and OsETTIN2 redundantly ensure carpel differentiation. The multiple effects of OsMADS1 in promoting auxin transport, signaling, and auxin-dependent expression and its direct repression of three cytokinin A-type response regulators show its role in balancing meristem growth, lateral organ differentiation, and determinacy. Overall, we show that OsMADS1 integrates transcriptional and signaling pathways to promote rice floret specification and development.
Resumo:
Roles for the transcription factor RFL in rice axillary meristem development were studied. Its regulatory effects on LAX1, CUC1, and OsPIN3 reveal its functions in axillary meristem specification and outgrowth.Axillary meristems (AMs) are secondary shoot meristems whose outgrowth determines plant architecture. In rice, AMs form tillers, and tillering mutants reveal an interplay between transcription factors and the phytohormones auxin and strigolactone as some factors that underpin this developmental process. Previous studies showed that knockdown of the transcription factor gene RFL reduced tillering and caused a very large decrease in panicle branching. Here, the relationship between RFL, AM initiation, and outgrowth was examined. We show that RFL promotes AM specification through its effects on LAX1 and CUC genes, as their expression was modulated on RFL knockdown, on induction of RFL:GR fusion protein, and by a repressive RFL-EAR fusion protein. Further, we report reduced expression of auxin transporter genes OsPIN1 and OsPIN3 in the culm of RFL knockdown transgenic plants. Additionally, subtle change in the spatial pattern of IR4 DR5:GFP auxin reporter was observed, which hints at compromised auxin transport on RFL knockdown. The relationship between RFL, strigolactone signalling, and bud outgrowth was studied by transcript analyses and by the tillering phenotype of transgenic plants knocked down for both RFL and D3. These data suggest indirect RFL-strigolactone links that may affect tillering. Further, we show expression modulation of the auxin transporter gene OsPIN3 upon RFL:GR protein induction and by the repressive RFL-EAR protein. These modified forms of RFL had only indirect effects on OsPIN1. Together, we have found that RFL regulates the LAX1 and CUC genes during AM specification, and positively influences the outgrowth of AMs though its effects on auxin transport.
Resumo:
Cleome spinosa é uma espécie herbácea de uso na medicina popular, especialmente no Nordeste do Brasil. A cultura in vitro de raízes adventícias da espécie foi iniciada com segmentos radiculares (0,5 e 1,0 cm) obtidos a partir de duas fontes de explantes: plantas propagadas in vitro e plantas oriundas do processo de germinação in vitro. Os explantes foram inoculados em meio MS líquido suplementado ou não com as auxinas ANA, AIA e AIB em diferentes concentrações (0,5; 1,0; 1,5; 3,0; 5,0 mg.L-1). As culturas foram mantidas em sala de crescimento, sob agitação (100 rpm) e sob fotoperíodo de 16h ou no escuro, com subculturas a cada 45 dias. Explantes oriundos de plantas propagadas in vitro também foram cultivados em meio contendo a citocinina BAP em associação com auxinas, na presença de sorbitol (isoladamente ou em associação com sacarose), em meio MS contendo redução na concentração total de sais minerais (MS1/2 e MS1/4) e em meio sólido. Os resultados mostraram que a adição de auxinas ao meio de cultura foi essencial à multiplicação das raízes, uma vez que em meio MS0 ocorreu significativo desenvolvimento de brotos. A suplementação com ANA não foi eficiente para a produção de raízes e acarretou no calejamento dos explantes, enquanto que a presença de AIA e AIB resultaram na multiplicação das raízes. Ainda assim, independentemente das manipulações realizadas no meio de cultivo, a capacidade de multiplicação mostrou-se reduzida. Uma expressiva multiplicação de raízes foi observada em culturas iniciadas a partir de explantes oriundos de plantas obtidas por germinação in vitro. A maior produção de biomassa foi alcançada em culturas iniciadas com segmentos radiculares de plantas obtidas por germinação in vitro cultivadas em meio contendo com 3,0 mg.L-1 de AIB e mantidas no escuro. Culturas estabelecidas nas melhores condições para acúmulo de biomassa foram acompanhadas por três subculturas, sendo avaliados períodos de cultura de 45 dias e de 60 dias. Culturas mantidas a intervalos de 45 dias apresentaram maior produção de raízes durante a segunda subcultura, enquanto que para o intervalo de 60 dias, embora tenha sido observada a capacidade de multiplicação das raízes, a maior produção de biomassa ocorreu nos primeiros 60 dias de cultivo. A partir de materiais in vivo e in vitro foram realizadas extrações com solventes de polaridade crescente (hexano, diclorometano, acetato de etila e metanol) e os extratos foram submetidos a avaliações cromatográficas. As análises por cromatografia em camada delgada mostraram a presença de terpenos nos extratos obtidos com hexano e diclorometano, tanto em material obtido a campo como naqueles produzidos in vitro e de compostos fenólicos nos extratos em acetato de etila obtidos a partir de material de campo. Pelas análises por cromatografia líquida associada à espectrometria de massas foi possível observar a presença de flavonoides nas culturas in vitro, não detectados no material de campo. As análises por cromatografia de fase gasosa associada à espectrometria de massas apontaram a presença de esteroides nos extratos em hexano de raízes coletadas a campo e nas culturas in vitro de raízes. Os resultados obtidos mostraram a viabilidade da produção de culturas de raízes in vitro para a espécie C. spinosa e o potencial deste material para a produção de substâncias bioativas, algumas não encontradas em material coletado a campo
Resumo:
第一部分 光敏核不育水稻农垦58S花药IAA的免疫组织化学分析 光周期敏感核不育水稻农垦58S是研究光周期调节花发育作用机理的好材料。在此方面已取得很大进展。有关植物激素的研究已发现长日照诱导农垦58S不育的信号传导环节之一是IAA的亏缺。本文首次应用免疫组织化学分析方法对长日和短日处理后的农垦58S和对照农垦58花药中的IAA进行了定位研究和相对水平的比较。结果表明此方法可反映游离态IAA在花药中的分布及其相对水平的变化。从雌雄蕊原基形成期至单核晚期的五个时期中,经长日照处理的农垦58S花药中的IAA水平都低于短日照处理的农垦58S及在不同光周期处理下的家垦58花药。对花药中生长素的亏缺与育性的关系以及IAA亏缺的原因也进行了讨论。 第二部分 不同水稻品种成花诱导阶段光周期敏感性及光敏色素mRNA丰度的比较 对光敏核不育水稻十多年的研究表明,光敏色素是感受光周期信号调节水稻成花诱导和育性转换的主要光受体。同时还发现光敏核不育基因导入不同遗传背景后,其基因表达条件,如临界光长、光敏温度范围、光温互补作用强弱等都表现明显差异。为了进一步探讨水稻光周期反应的作用机理,了解不同品种遗传背景对光周期信号感受的特点,我们选取籼稻、粳稻、早熟、晚熟共11个品种,比较光照阶段在长同、短同条件下叶片光敏色素B mRNA含量的差异。初步结果表明,光敏色素B的转录不受光调控,在长日、短日处理条件下没有明显差别。在多数品种间光敏色素B表达没有明显差异,说明其与品种感光性、籼粳性无明显相关。只有早熟粳稻铁粳23的光敏色素B mRNA含量较高,是一个例外。实验结果尚需进一步重复。这方面的工作可以为水稻发育光温互作本质的研究积累一些初步资料。
Resumo:
锌指蛋白在植物生长发育中具有重要功能,它们可以识别并结合特定的DNA序列进行转录调控,还能够参与蛋白之间相互作用的调节。我们根据锌指蛋白等转录因子特征结构域的序列特点,从来自10 K水稻芯片的EST数据库中筛选出编码58个EST序列。通过对器官表达特异性的比较分析,从中选出七个只在单一器官表达的基因,并对这七个基因的功能进行研究。对其转基因水稻的表型分析发现,C1基因调节水稻的株高和穗的发育;LIM 家族的F9影响小花的形态,主要体现在雌蕊与雄蕊的发育;锌指蛋白S34调控叶倾角的变化;F14基因编码一个核定位的TFIIIA类锌指蛋白,具体功能尚不清楚;锌指蛋白F35转基因水稻主根缩短,侧根数目显著减少。它编码一个推测的ArfGAP (Arf GTPase activating protein),据此我们将其命名为OsAGAP,并对其进行深入研究。 OsAGAP的cDNA全长为1328bp,编码的蛋白由320个氨基酸组成,含有两个保守结构域:锌指结构域和C2 结构域。其中锌指结构域属于CX2CX16CX2C类,即ArfGAP domain的特征结构。GTP酶活性测定试验表明,OsAGAP蛋白能够激活水稻Arf的GTP酶活性,另外,OsAGAP还能够恢复酵母ArfGAP缺失突变体的表型。说明OsAGAP编码的蛋白是水稻中的一个ArfGAP。 OsAGAP在水稻各器官中均有表达,但强弱有所不同。RNA原位杂交结果显示,它在茎尖分生组织与侧生原基及侧根部位表达强烈;它在根尖主要分布于中央维管组织、分生区、皮层细胞,最有趣的是恰好与生长素在根尖极性运输路径相吻合。在亚细胞水平,OsAGAP广泛分布于细胞膜、细胞质、细胞核。 OsAGAP超表达水稻主根、不定根长度缩短,侧根数目显著减少表现出类似于生长素极性运输突变体的表型。其主根伸长对TIBA的抑制作用不敏感,这暗示OsAGAP超表达水稻的生长素极性运输被破坏;另外,其对各种生长素的作用敏感性也发生变化,对IAA、2,4-D的不敏感,而对NAA的反应与野生型一致,根据各类生长素进出细胞机制不同,可以推测超表达水稻的输入能力存在缺陷。极性运输实验结果表明,超表达水稻极性运输能力被破坏;对生长素输入能力的测定进一步表明,超表达水稻根载体的介导的生长素输入能力显著下降。另外,NAA处理能够恢复超表达水稻中侧根发育受抑的表型缺陷。由此可见,OsAGAP在水稻中超表达破坏了生长素极性运输的输入能力。 FM1-43是一类特异标记囊泡运输的荧光染料。经其染色标记后,OsAGAP超表达水稻细胞内囊泡成片聚集,形成“BFA区间”,表现出囊泡运输被破坏的典型特征。透射电镜观察发现,超表达水稻细胞内有大量的小液泡,其中积累了电子密度很高的颗粒物质。由此推测,可能由于细胞的囊泡运输被破坏,导致胞内的代谢物质不能被正常运送或分泌,而在液泡中暂时贮存以维持细胞环境的稳定。 在酵母和动物细胞中的研究表明, ArfGAP是调控囊泡运输的一个重要因子,然而目前还没有关于ArfGAP在植物细胞中生理作用的报道。我们的结果说明,OsAGAP作为的一个ArfGAP,它通过调控水稻中的囊泡运输,而影响了生长素的极性运输,具体表现在对生长素输入能力的调控。由此,我们推测ArfGAP可能在生长素的极性运输中也起着重要的调控作用。 但OsAGAP在拟南芥中却通过调控植株生长素的水平,而影响了转基因拟南芥根的发育。每种生物都有多个ArfGAP,它们之间的分工存在联系,但各不相同。OsAGAP是拟南芥的外源基因,它在拟南芥中可能以不同于水稻的机制起作用。
Resumo:
小G蛋白作为信号转导中重要的分子开关, 进化相当保守,与许多不同的调控因子和效应器分子相互作用,产生细胞功能的多样性。近年来,人们不断发现植物中小G蛋白家族的新成员,也不断揭示小G蛋白的新功能,许多植物特有的信号途径和功能需要小G蛋白这个重要的分子开关来完成,使它越来越成为人们研究的热点问题。但是,有关植物中Ran GTPase及其编码基因的研究工作报道很少,对与之相互作用的调控蛋白研究进展也刚刚开始。 TaRAN1 (AF488730) 是小麦来源的Ran同源蛋白编码基因,全长1055 bp, 编码221个氨基酸,它在植物发育过程中的功能还没有任何报道。本论文在验证了它是小G蛋白Ran家族的成员后,从分子水平上还发现它在植物细胞周期调控、对生长素以及胁迫应答信号转导过程中都起着重要作用,这也说明了它可能作为信号转导过程中重要的转换因子,参与了很多细胞的基本生理过程。 利用原核表达系统及亲和色谱的方法纯化了TaRAN1融合蛋白,并用放射性标记的GTP和竞争实验证实了它具有特异的GTP结合活性。TaRAN1的转录产物在小麦幼茎和花芽等分生组织活动旺盛的器官表达较多,而在老叶中表达较少。利用洋葱表皮瞬时表达系统分析表现,TaRAN1蛋白主要定位于细胞核,但其没有典型的核定位信号。 细胞周期一直是生物学领域中的热门问题,人们虽然在动物细胞中取得了很大进展,但在植物细胞中的研究远落后于动物。裂殖酵母(Schizosaccharomyces pombe)是研究细胞形态和细胞周期的良好系统,利用此系统发现超表达TaRAN1的酵母细胞表现出许多新的细胞学表型,例如G2细胞周期延滞、染色体对紫外线敏感、细胞超长或多隔细胞的出现等;反义表达TaRAN1的酵母细胞呈近圆型、具有高度凝集的核并且生长速度缓慢、核质混合和无核细胞的数目明显增加。流式细胞仪检测实验也证实其细胞周期的异常。这些结果推测TaRAN1蛋白可能参与细胞周期的有丝分裂过程和发育的调控机制,并且在维持染色体结构稳定和完整性方面起着重要的作用。通过免疫荧光实验观察表明,超表达转基因酵母的微管多呈异常的狭小扇形结构,反义表达TaRAN1的酵母微管不能形成丝状结构,推测TaRAN1还可能参与微管(包括纺锤体)的结构形成过程。最后,我们用超表达TaRAN1的转基因拟南芥和水稻也证实了它的功能,其生长点表现出分生组织增多的原基、根生长点的有丝分裂指数有所改变、出现异常的细胞分裂时相等有关细胞周期异常的现象,更进一步说明了TaRAN1确实参与着细胞周期的调控过程,推测其与细胞周期从G2期进入M期的过程有关。 TaRAN1基因受IAA的诱导表达,且随着浓度的增加表达量增强。超表达的TaRAN1植株(包括拟南芥和水稻)的根表现出对外源生长素异常敏感,侧根显著变少,地上部分表现出生长素过量的表现型,顶端优势减弱,分蘖增多,生长周期延长等。HPLC测定转基因植物的IAA含量,明显高于对照。所以,TaRAN1可能还参与了复杂的生长素信号转导过程。TaRAN1基因还受各种胁迫处理的诱导表达,并且超表达植株对胁迫的忍受能力有明显提高,这说明TaRAN1还参与了胁迫信号应答的相应机制。Ran蛋白这些新功能目前还未见到其它报道。
