2017年2月22日,国际学术权威刊物自然出版集团旗下子刊《Scientific Reports》杂志在线发表了中国科学院西双版纳热带植物园能源植物分子育种研究组徐增富研究组的一篇研究论文,研究结果题为Three TFL1 homologues regulate floral initiation in the biofuel plant Jatropha curcas。研究报道了研究人员从能源植物小桐子基因组中发现3个开花抑制基因。博士研究生李超琼与科研人员付乾堂为论文共同第一作者,徐增富研究员为论文通讯作者。
开花是高等植物由营养生长进入生殖生长的重要标志,受促进或抑制开花基因的双重调控。FT/TFL1基因家族在植物的成花过程中起着重要的作用,其中TFL1(TERMINAL FLOWER 1)类基因发挥着抑制开花的功能。
研究人员对能源植物小桐子(Jatropha curcas)的3个TFL1同源基因JcTFL1a、JcTFL1b和JcTFL1c分别进行了功能分析。研究结果发现,在野生型拟南芥和拟南芥的tfl1-14突变体中超量表达JcTFL1b和JcTFL1c基因均表现出极度晚花现象,且转基因拟南芥的花序和果荚均呈现发育异常;但超量表达JcTFL1a的转基因拟南芥并未呈现开花相关表型异常现象。科研人员进一步分别将3个JcTFL1基因在小桐子中进行超量表达,结果表明:3个JcTFL1基因超量表达的转基因小桐子则均呈现出延迟开花的表型;同时发现促进开花的基因JcFT和JcAP1在转基因植株中显著下调表达。另外,通过RNA干涉技术获得的JcTFL1b 基因沉默的转基因小桐子则表现出早花现象。该研究结果表明,JcTFL1类基因是小桐子的成花抑制基因,具有抑制植物开花的功能。
超量表达JcTFL1类基因的转基因小桐子呈现晚花现象。A、B、C图分别为超量表达JcTFL1a、JcTFL1b、JcTFL1c的转基因小桐子, E、F、G分别为其对应的茎尖生长状态,均处于营养生长期。D图为野生型小桐子,H为野生型小桐子果序。
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原文摘要:
Recent research revealed that TERMINAL FLOWER 1 (TFL1) homologues are involved in the critical developmental process of floral initiation in several plant species. In this study, the functions of three putative TFL1homologues (JcTFL1a, JcTFL1b and JcTFL1c) in the biofuel plant Jatropha curcas were analysed using the transgenic approach. JcTFL1b andJcTFL1c, but not JcTFL1a, could complement the TFL1 function and rescue early flowering and determinate inflorescence phenotype in tfl1-14 Arabidopsis mutant, thus suggesting that JcTFL1b and JcTFL1c may be homologues of TFL1. Transgenic Jatropha overexpressing JcTFL1a, JcTFL1b or JcTFL1c showed late flowering, wheras only JcTFL1b andJcTFL1c overexpression delayed flowering in transgenic Arabidopsis. JcTFL1b-RNAi transgenic Jatropha consistently exhibited moderately early flowering phenotype. JcFT and JcAP1 were significantly downregulated in transgenic Jatropha overexpressing JcTFL1a, JcTFL1b orJcTFL1c, which suggested that the late flowering phenotype of these transgenic Jatropha may result from the repressed expression of JcFTand JcAP1. Our results indicate that these three JcTFL1 genes play redundant roles in repressing flowering in Jatropha.
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