A TM3-like MADS-box gene from Eucalyptus expressed in both vegetative and reproductive tissues

Veronique Decroocq, Xiaomei Zhu, Maggie Kauffman, Junko Kyozuka, W. James Peacock, Elizabeth S. Dennis, Danny J. Llewellyn

Research output: Contribution to journalArticlepeer-review

24 Citations (Scopus)

Abstract

MADS-box genes in plants are a diverse class of transcription factors that are involved in regulating developmental processes, particularly meristem and organ identity during floral development. They are characterized by a highly conserved MADS-box domain of 59 amino acids that binds to specific DNA sequences. We report the characterization of a cDNA clone, ETL (Eucalyptus TM3 Like), from Eucalyptus globulus subspecies bicostata encoding a putative transcription factor of the MADS-box class that is strongly expressed in both vegetative and floral tissues, suggesting that it regulates processes other than floral development. The clone was isolated from a floral bud cDNA library with a probe generated from Eucalyptus genomic DNA by PCR using degenerate primers to the MADS-box of the floral regulatory gene APETALA 1. The ETL cDNA clone encodes a putative protein of 206 amino acids that contains an N-terminal MADS-box and a helical domain of approx. 60 amino acids predicted to form a coiled-coil (K-box). These structural features are characteristic of plant MADS-box proteins. The MADS-box domain contains all the signature residues of a class of MADS-box genes typified by the tomato gene TM3 and overall, ETL shows 56% amino acid identity to TM3. Like TM3, the ETL gene is expressed in both vegetative and reproductive organs, predominantly in root and shoot meristems and organ primordia, as well as in developing male and female floral organs.

Original languageEnglish
Pages (from-to)155-160
Number of pages6
JournalGene
Volume228
Issue number1-2
DOIs
Publication statusPublished - 1999 Mar 4
Externally publishedYes

Keywords

  • Eucalyptus
  • Homeotic gene
  • MADS-box gene
  • Plant development
  • Transcription factor

ASJC Scopus subject areas

  • Genetics

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