• Title of article

    4-Coumarate:CoA ligase family members from elicitor-treated Sorbus aucuparia cell cultures

  • Author/Authors

    Mariam M. Gaid، نويسنده , , Helge Scharnhop، نويسنده , , Hussein Ramadan، نويسنده , , Till Beuerle، نويسنده , , Ludger Beerhues، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2011
  • Pages
    8
  • From page
    944
  • To page
    951
  • Abstract
    Sorbus aucuparia cell cultures accumulate biphenyl and dibenzofuran phytoalexins in response to elicitor treatment. These polyketide derivatives arise from the starter substrate benzoyl-CoA, the biosynthesis of which is largely unresolved. Two CoA ligases involved are cinnamate:CoA ligase and benzoate:CoA ligase, which were assumed to be related in S. aucuparia to the ubiquitous 4-coumarate:CoA ligase (4CL). cDNAs encoding three distinct 4CLs from elicitor-treated S. aucuparia cell cultures were isolated using RT-PCR and RACE techniques and functionally expressed in Escherichia coli as His6-tagged proteins (Sa4CL2 and Sa4CL3) or GST-fusion protein (Sa4CL1). All three isoenzymes preferred 4-coumaric acid over cinnamic acid in spectrophotometric assays and failed to utilize benzoic acid in radioisotopic assays. After elicitor treatment of S. aucuparia cell cultures, the transcript levels of all three Sa4CLs increased but were significantly lower than the maximum expression rates of the phenylalanine ammonia-lyase (PAL) and biphenyl synthase 1 (BIS1) genes. The substrate specificities and the expression profiles indicate that the three 4CL isoenzymes are not involved in benzoyl-CoA biosynthesis in S. aucuparia cell cultures. Sa4CL3 and PAL transcripts also accumulated in response to light treatment. Phylogenetically, Sa4CL1 and Sa4CL2 belong to the class I cluster and Sa4CL3 groups in the class II cluster. Sa4CL3 contains a 49-amino acid N-terminal extension, which includes a chloroplast sorting signal.
  • Keywords
    Benzoic acid biosynthesis , Sorbus aucuparia , 4-Coumarate:CoA ligase , Elicitor treatment , Biphenyl biosynthesis
  • Journal title
    Journal of Plant Physiology
  • Serial Year
    2011
  • Journal title
    Journal of Plant Physiology
  • Record number

    1282099