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1.
蓝光、紫外光的受体及其对CHS表达诱导的研究   总被引:14,自引:1,他引:13  
王曼  王小菁 《植物学通报》2002,19(3):265-271
植物在进化过程中形成了对环境信号反应的能力,光是植物生长发育中的一个重要的环境信号,综述了蓝光,紫外光的受体及蓝光,紫外光对编码植物类黄酮合成中的一个重要的限速酶-苯基苯乙烯酮合酶基因CHS的诱导作用,并介绍该反应信号转导的可能组分。  相似文献   

2.
采用黑暗摇瓶发酵和蓝光照射静置培养的两步培养法,进行蛹虫草(Cordyceps militaris L.)液体发酵产类胡萝卜素的蓝光诱导。结果表明蛹虫草在2d的黑暗培养和5d的蓝光照射静置培养后,其类胡萝卜素的含量可达到最高值558.4μg/gFW。而以黑暗摇瓶培养2d后,进行不同时间的蓝光照射静置培养。结果表明,蓝光照射最初2d,蛹虫草类胡萝卜素含量变化不明显,随后快速增加,并在第5天达到最大值558.4μg/gFW,随后类胡萝卜素的含量并无明显变化。通过研究解决了蛹虫草液体发酵产类胡萝卜素的培养过程中蓝光的给光问题。  相似文献   

3.
真菌诱导子对植物次生代谢物的影响及应用   总被引:1,自引:0,他引:1  
近年来,真菌诱导子在诱导植物次生代谢物生产上已成为一大热点。概述真菌诱导子调节植物次生代谢物的作用机理、影响次生代谢物生产的因素及其在次生代谢物生产上的应用。  相似文献   

4.
真菌诱导物在植物次生代射中的调节作用   总被引:14,自引:0,他引:14  
本文介绍真菌诱导物的概念,组成结构,信号传递和它对植物次生代谢调控三方面的研究进展。  相似文献   

5.
古绍彬  龚慧  杨彬  卜美玲 《生物工程学报》2013,29(11):1558-1572
真菌诱导子是一类能诱导植物和微生物产生次级代谢产物的活性物质,它一经识别,将通过信号转导途径,引起相关基因表达发生变化,从而调节次级代谢产物合成途径中相关酶的活性,诱导特定次级代谢产物的积累。近年来国内外在真菌诱导子诱导途径及机制方面进行了深入研究,同时在生物工业领域,尤其在发酵工业中的应用也引起了广泛关注。以下结合本实验室的研究工作,重点介绍了真菌诱导子在植物和微生物细胞次级代谢产物合成方面的应用现状、诱导机制和存在的问题及展望。  相似文献   

6.
电诱导细胞融合仪的研制及在真菌原生质体融合中的应用   总被引:3,自引:0,他引:3  
细胞融合仪是进行细胞融合研究的核心装置。作者研制出一种性能参数较好而造价低廉的电诱导细胞融合仪。其输出交流电场频率及电压峰峰值分别为0.5-4.0MHz和0-70V;脉冲时程和幅度分别为4-100μs和0-500V;带负载能力大于几种国内外产品。用本装置对香菇和丝核菌原生质体进行了融合诱导,对电场诸参数与融合效果之间的关系进行了探讨。结果表明本装置性能稳定,使用效果不次于进口日本产品,可用于真菌、细菌或植物的细胞融合研究。  相似文献   

7.
文章介绍植物隐花色素、向光素和其他蓝光受体的研究进展。  相似文献   

8.
为了全面了解蓝光受体信号转导组分及其调节机制的研究进展,着重地阐述了蓝光受体的信号转导组分中的Ca~(2 )、蛋白质的可逆磷酸化、阴离子通道和G蛋白,以及植物如何通过多条信号转导途径调节其形态和发育的变化以适应环境的变化等。  相似文献   

9.
赵建娜  刘红霞 《生态科学》2008,27(3):134-137
在1/2MS基本培养基中,分别加入由野生春兰和华石斛根部分离到的内生真菌所制成的4种菌丝提取物,对象牙白种子萌发形成的原球茎进行诱导培养。结果表明:4种菌株诱导子中3种可不同程度地促进象牙白的生长和分化。对象牙白原球茎的诱导作用依次为HF26>CF6>CF8,与对照相比,HF26菌株显著提高了象牙白的鲜重(P<0.05),鲜重增长率分别为96.13%、86.86%和61.18%;干物质重分别增加了130.70%、96.50%和124.30%,均达到极显著水平(P<0.01)。此外,CF8菌株能促进根条数的增加;HF26菌株最有利于原球茎的增殖;CF6菌株在促进成苗和根原基的分化上效果显著。结论:在象牙白原球茎生长的不同阶段,能够促进其达到最佳生长状态的菌株是不同的。  相似文献   

10.
植物蓝光调节的反应主要有向光性、抑制幼茎伸长、叶绿体迁移、刺激气孔张开和调节基因表达等。蓝光反应的有效波长是蓝光和近紫外光(320—400am),故蓝光受体也叫蓝光/近紫外光受体。植物蓝光受体研究近年来取得较大进展。以拟南芥为例,已得到确认的受体至少有隐花色素(CRY1、2)和向光蛋白(phototropin)两大类。转基因拟南芥对蓝光、紫外光和绿光敏感,并发现CRY1是一个可溶性蛋白。CRY2编码一个核蛋白,蓝光在转录水平对该蛋白进行调节,它的作用是增加拟南芥对蓝光的敏感性。CRY1和CRY2共同介导了拟南芥植物的向光性。隐花色素的蛋白与辅基之间以非共价键连接,可以吸收蓝光和近紫外光。CRY1和CRY2蛋白之间,尤其是N端相似性很高。向光蛋白目前只发现PHOT1和PHO12两种,向光蛋白作为丝/苏氨酸激酶蓝光受体含有两个光氧化结构域(LOV)并参与了植物向光性叶绿体运动、气孔开放等。  相似文献   

11.
Sporangiophores of the zygomycete fungus Phycomyces blakesleeanus are sensitive to near UV and blue light. The quantum effectiveness of yellow and red light is more than 6 orders of magnitude below that of near UV or blue light. Phototropism mutants with a defect in the gene madC are about 106 times less sensitive to blue light than the wild type. These mutants respond, however, to yellow and red light when the long wavelength light is given simultaneously with actinic blue light. In the presence of yellow or red light the photogravitropic threshold of madC mutants is lowered about 100-fold though the yellow and the red light alone are phototropically ineffective. A step-up of the fluence rate of broad-band red light (> 600 nm) from 6 × 10?3 to 6W m?2 elicits, in mutant C 148 madC, a transient deceleration of the growth rate. The growth rate of the wild type is not affected by the same treatment. The results are interpreted in terms of a red light absorbing intermediate of the blue light photoreceptor of Phycomyces. The intermediate should be short-lived in the wild type and should accumulate in madC mutants.  相似文献   

12.
蓝光是环境中的重要信号因子,可影响微生物特别是真菌的生理周期、形态变化、基因表达,进而影响微生物的代谢活动。在国外,蓝光对微生物的影响研究是一个热点问题,并进行了较深入的研究,已在真菌中发现了一些蓝光受体因子。主要综述了蓝光对真菌影响的一些研究进展。  相似文献   

13.
孙铭明  靳硕  刘祥林  何奕昆 《遗传》2006,28(6):754-760
种子植物含有5个已分离的光受体和至少1个未鉴定的蓝光/紫外光-A受体。隐花色素(CRY1、CRY2和CRY3) 调节植物的生长发育,而向光蛋白(PHOT1和PHOT2) 调节植物对光的营养反应。黄素可以吸收蓝光和紫外光-A,是生色团。对这些光受体的结构和作用模式已了解很多。苔藓植物小立碗藓中含有2个已分离的隐花色素(CRY1a和CRY1b),负责调节侧枝形成和生长素代谢;有4个向光蛋白(PHOTA1,PHOTA2,PHOTB1,PHOTB2) 调节叶绿体的运动。苔藓细胞内蓝光/紫外光-A刺激引发的信号转导有Ca2+参与。  相似文献   

14.
It has been reported that pigmentation In plants Is stimulated by light and cytoklnln (CTK); however, the signaling pathways and the relationship between light and CTK Involved In the regulation of anthocyanln accumulation remain to be elucidated. We Investigated (i) the role of blue light (BL) and CTK In anthocyanln accumulation ; and (ii) the relationship between BL and CTK In wild type (WT) and by4 mutants of Arabidopsis thaiiana. Two-d-old seedlings grown on medium with or without klnetln (KT) or zeatln (ZT) In darkness were Irradiated using BL at different fluence rates for 3 d before the anthocyanln content was determined using a spectrophotometrlc method. Anthocyanln accumulation was strongly Induced by BL In WT seedlings but not In hy4 seedlings, which demonstrated that CRY1 Is the main photoreceptor for BL. Both KT and ZT enhanced the response of the WT seedlings to BL In a dose-dependent manner, whereas they were not sufficient to promote anthocyanln eccumulatlon In darkness. In addition, data from experiments using the hy4 mutant showed that the CTK effect of BL was also CRYl-dependent. The results from experiments with three different treatment programs showed that the relationship between BL and KT In anthocyanln accumulation of Arabidopsis seedlings seems neither muItlpllcatlve nor additive coactlon, but rather Interaction. BL Is necessary for anthocyanln accumulation, and KT might be Involved In the BL signaling pathway.  相似文献   

15.
Wheat seedling grown with their shoot bottom exposed to red light (400 μmol m−2 s−1) either with constant illumination or light-dark cycles did not accumulate chlorophyll. This near-etiolation response was manifested by a critical threshold intensity of red light and did not need continuous illumination. The inhibition of the greening process resulted from reduced synthesis of glutamate-1-semialdehyde and consequent reduction in tetrapyrrole precursor 5-aminolevulinic acid. Red light perceived by the shoot bottom down regulated the protein and/or gene expression of enzymes involved in the biosynthesis of tetrapyrroles. The contents of endogenous cytokinins, i.e., isopentenyl-adenosine and dihydrozeatinriboside, were reduced in seedlings grown in red light having their shoot bottom exposed. Application of exogenous cytokinin and its analogue to roots of seedlings grown in red light reversed the down regulation of the greening process. The reversal of red-light-induced near-etiolation morphogenesis by far-red (200 μmol m−2 s−1) or blue (25 μmol m−2 s−1) light suggests that it could be a very high red-irradiance response of phytochrome, in the meristematic layers of the shoot bottom, that works in concert with blue light receptor(s). This work was supported by a competitive grant from the Department of Science and Technology, Govt. of India (DST/SP/SO/A-49/95) to BCT. Suchi Sood Varsha Gupta: Equal contributors  相似文献   

16.
蓝光、白光和黑暗对绿豆下胚轴愈伤组织形成和生长过程中蛋白质代谢的影响不同。培养后3~18 d ,蓝光处理材料的可溶性蛋白质含量明显高于白光处理,更高于黑暗培养的材料。蓝光和白光明显促进3H亮氨酸掺入蛋白质,而蓝光和白光处理后游离氨基酸含量与黑暗对照相比,下降时间早,幅度大。在培养过程中,蛋白酶活性的变化与游离氨基酸相似。蛋白质合成抑制剂环己酰亚胺(CHM) 抑制愈伤组织生长,其中以蓝光最大,白光次之,黑暗最小。在培养基中加入CHM 愈早,抑制程度愈大。实验表明,CHM 抑制愈伤组织蛋白质合成,也是以蓝光最甚。由此可见,蓝光促进绿豆下胚轴愈伤组织的形成、生长和蛋白质合成。  相似文献   

17.
In white light of 33.2 μmol . m?2 . s?1 oxygen evolution of Chlorella kessleri is about 30 % higher after growth in blue light than after growth in red light of the same quantum fluence rate. When determined by the light-induced absorbance change at γ 820 nm, blue light-adapted cells possess about 60% more reaction centres per total chlorophyll in photosystem II. Correspondingly, the cells exhibit about 30% more Hill activity of PS II. Conversely, red light-adapted cells contain relatively more reaction centres and higher electron flow capacities of photosystem I. The distribution of total chlorophyll among the pigment-protein complexes, CPI, CPIa, CPa, and LHC II, corresponds to these data. There is more chlorophyll associated with the light-harvesting complex of PS II, LHC II, in cells under blue light conditions, but more chlorophyll bound to both complexes of PS I, CPI and CPIa, in cells under red light conditions. The respective ratios of chlorophyll a/chlorophyll b of all complexes are identical for blue and red light-adapted cells. This results in a higher relative amount of chlorophyll b in blue light-adapted cells. Total carotenoids per total chlorophyll are increased by 20% in red light-adapted cells. Their distribution among the pigment-protein complexes is unknown, however the ratios of lutein, neoxanthin and violaxanthin extractable from LHC II are different in blue (32.1:35.9:32.0) and in red (51.4:26.7:21.9) light-adaptod cells.  相似文献   

18.
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