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菊花磷脂酶基因的耐逆表达特性

朱晓晨,宋爱萍,刘鹏,阳淑金,陈发棣,房伟民,管志勇,陈素梅**   

  1. (南京农业大学园艺学院, 南京 210095)
  • 出版日期:2014-07-10 发布日期:2014-07-10

Expression profiles of Chrysanthemum morifolium phospholipose  gene in response to biotic and abiotic stresses.

ZHU Xiao-chen, SONG Ai-ping, LIU Peng, YANG Shu-jin, CHEN Fa-di, FANG Wei-min, GUAN Zhi-yong, CHEN Su-mei**   

  1. (College of Horticulture, Nanjing Agricultural University, Nanjing 210095, China)
  • Online:2014-07-10 Published:2014-07-10

摘要: 本研究设计了切花菊‘神马’磷脂酶基因(CmPLDα)的特异性引物,利用荧光定量的方法分析了CmPLDα的组织表达特性及其在非生物胁迫、脱落酸(ABA)、黑斑病接种处理下的表达特性,研究了菊花CmPLDα在胁迫应答中的作用。结果表明:CmPLDα在根、茎、叶、花等组织均有表达,在茎、叶、花中表达量较高,在根中表达较低;CmPLDα的表达几乎不受低温影响,整体上受机械损伤抑制,受高温明显抑制,受缺磷显著诱导,盐胁迫诱导了胁迫后期CmPLDα的增加,CmPLDα受ABA处理的快速诱导;黑斑病菌接种2 d后也可诱导CmPLDα的表达。由此可知,CmPLDα为组成型表达,该基因参与了菊花多种胁迫过程,包括温度、缺磷、ABA信号及黑斑病等。

关键词: N沉降, 养分释放, 细根分解, 根径

Abstract: In present study, the primers specific to CmPLDα from chrysanthemum ‘Jinba’ was designed for qRT-PCR analysis of CmPLDα expression profiles in different tissues and in response to abiotic stresses, and exogenous abscisic acid (ABA) and leaf black spot (Alternaria alternata) inoculation, and the roles of CmPLDα in stress responses were disclosed. Result showed that CmPLDα expressed in root, stem, leaf and flower at higher levels in stem, leaf and flower than in the root. Expression of CmPLDα was little affected by cold while generally inhibited by mechanical wound. Heat stress significantly decreased the expression of CmPLDα. Pi deficiency significantly induced the expression of CmPLDα. CmPLDα expression was induced in the late period of salt treatment but induced quickly by ABA treatment. The expression of CmPLDα increased two days after leaf black spot inoculation. It was suggested that expression of CmPLDα was constitutive, and the gene was involved in a variety of physiological processes including temperature stress, Pi deficiency stress, ABAinduced signals and leaf black spot inoculation.

Key words: nutrient release, nitrogen deposition, fine root decomposition, root diameter