phytochrome

  • 网络光敏色素;光敏素;植物光敏素;植物色素
phytochromephytochrome
  1. Phytochrome directly binds to transcription factor to regulate gene expression and development

    光敏色素与转录因子结合直接调控植物基因表达和发育

  2. Disruption of Phytochrome A Changes Expression Pattern of Auxin Response Factor 8

    破坏光敏色素A改变生长素反应因子8的表达谱

  3. Phytochrome was involved in regulating starch accumulation in rice leaves .

    红光夜中断效应可为随后的远红光所逆转,说明光敏色素参与调节水稻叶片中淀粉积累。

  4. In addition , protein functions of maize phytochrome A are confirmed partly .

    此外,玉米光敏色素A的部分蛋白功能也被证实。

  5. Construction and transformation of antisense RNA expression vector of Arabidopsis phytochrome A gene

    拟南芥光敏色素A反义RNA载体的构建及转化

  6. Role of Calcium Ions in Phytochrome Responses : An Update

    钙离子在光敏素反应中的作用:新进展

  7. This method should eventually help to identify substances that phytochrome reacts with inside the cell .

    这个方法终将有助于检识细胞内同光敏色素发生反应的物质。

  8. Relation between phytochrome action modes and possible multiple pathways for phototropic signal transduction was analyzed based on the experiment results .

    根据上述研究发现探讨了植物光敏素作用模式与不同向光性反应信号转导途径之间可能存在的相互关系。

  9. The effect of temperature on phytochrome induced swelling of ETIOLATED-MUNG Bean Hypocotyl Protoplasts

    温度对光敏色素诱导的黄化绿豆幼苗下胚轴原生质体膨大的影响

  10. Of the four light receptors , the phytochrome is the initial light receptor . It controls the whole process of plant growth and development .

    其中光敏色素是红光和远红光最初的光受体,它控制着植物生长发育的整个过程。

  11. Phytochrome Interacting Factors ( PIFs ) in Plant

    植物中与光敏色素相互作用的因子PIFs

  12. Phytochrome Control of Hypocotyl Length , Anthocyanin Biosynthesis and Inflorescence Initiation of Tomato Plants Grown Under White Light

    白光下光敏素对番茄幼苗胚轴长度、花青素含量及开花的控制

  13. Interactions within a network of UV-B , cryptochrome and phytochrome signaling pathways regulate CHS expression .

    UV-B、隐花色素和光敏色素信号传递途径之间的相互作用调控CHS表达。

  14. Phytochrome and cryptochrome are the receptors of photoperiod response .

    光敏色素和隐花色素等是光周期反应的受体。

  15. The study of phytochrome and its signal transduction pathway is a topic of central issue in cytobiology , developed biology and molecular biology .

    植物光敏色素及由它介导的信号传导途径是目前细胞生物学、发育生物学和分子生物学研究的热点之一。

  16. Effects of the Different Storage Methods , Phytochrome and Rare Earth Element on the Germination of Tree Peony Seeds and the Growth of Tree Peony Seedlings

    不同贮藏方法及激素、稀土等对牡丹种子发芽及幼苗生长的影响

  17. Preliminary study on the relationships between the alteration between sterility and fertility of Hubei light-inducing nuclear sterility rice and phytochrome

    湖北光敏感核不育水稻育性转换与光敏色素相关性的初步研究

  18. These indicated that phytochrome induced the breaking of the balance of the reactive oxygen species metabolism , which was related to female sterility induction .

    暗示光敏色素调节了雌花活性氧代谢的失衡,而且与诱导雌性败育相关。

  19. As a one of the important phytochrome family members , Phytochrome B ( PHYB ) plays an important role in many physiological processes in plants .

    光敏色素B(PhytochromeB,PHYB)作为光敏色素家族的重要成员之一,在植物的很多生理进程中起着重要作用。

  20. Effect of light on the formation of endodermis in stem was not regulated by phytochrome , but shown to be dependent on light intensity .

    但是,茎中内皮层产生与否不受典型的红光/远红光逆转的光敏素调节,它与光强度有更大的依赖性。

  21. In plants , light receptors including four kinds : Phytochrome , UV-B receptor , and blue / UV-A receptors , the light pigment .

    在植物体中,光受体包括四类:光敏色素、UV-B受体、蓝/UV-A受体和向光色素。

  22. Although people have hardly studied effects on alfalfa fall dormancy of phytochrome and plant hormone so far , this paper brought forward prospects of research at this aspect .

    虽然迄今为止人们极少研究光敏色素和植物激素在苜蓿秋眠中的作用,但对此方面提出了研究展望。

  23. Day length is sensed by phytochrome in the young leaves , suggesting that a hormone is involved in transmitting the signal to the meristem .

    日长是通过幼叶中的光敏色素感受的,这其中可能有一种激素参与从幼叶向分生组织传递信号。

  24. It was indicated that phytochrome is the photoreceptor of female photoperiod-sensitive sterility in PFSR .

    暗示光敏色素是PFSR雌性育性光敏性的光受体。

  25. In addition to exploration of transferring endogene and improvement of shade tolerance ability , it also help to study the mechanism and function of phytochrome A of the maize .

    除探索转化利用内源光敏色素基因,提高玉米耐阴性的可能性外,也有助于研究光敏色素A在光信号转导系统的有关机理及作用。

  26. Here , we revealed multiple action points for each phytochrome in the critical daylength response of florigen expression by using single and double phytochrome mutant lines of rice .

    本研究通过水稻光敏色素单突变和双突变株系,揭示了不同光敏色素在成花素基因应答日照长度的过程的多种作用。

  27. Therefore , each phytochrome gene of rice has distinct roles , and all of the phytochrome actions coordinately control the critical daylength response of florigen expression in rice .

    因此,水稻中每个光敏色素基因都有着独特的作用,这些光敏色素协同调控水稻成花素基因的表达对临界日长的应答。

  28. This paper cited 53 family over 100 genus in light need from background materials and mainly recommend and analyse their concept , types , occurrence , germination and conditions , phytochrome function and ecological significance .

    本文列举53科100多属的需光种子的材料,并对它的概念、类型、发生、萌发习性与条件、光敏素的作用及其生态学意义进行介绍与分析。

  29. Phytochrome is the functional pigment protein photosensitizing light in plants and bacteria . It plays an important role in the formation of photomorphogenesis in plant and phototaxis movement in bacteria .

    光敏色素是存在于植物和细菌中的感受光的功能色素蛋白,在植物的光形态发生和细菌的趋光性运动中发挥重要作用。

  30. And the anthocyanin accumulation increased with sucrose concentrations increase . 2 . Phytochrome interacting factors ( PIFs ) are bHLH type transcription factors , which are negative regulators of photomorphogenesis .

    随着蔗糖浓度的上升,花青素积累量增加。2.光敏色素作用因子(Phytochromeinteractingfactors,PIFs)是一类bHLH型转录因子,是光形态建成的负调节因子。