Journal Article

Sequence Upstream of the Wheat (<i>Triticum aestivum</i> L.) <i>ALMT1</i> Gene and its Relationship to Aluminum Resistance

Takayuki Sasaki, Peter R. Ryan, Emmanuel Delhaize, Diane M. Hebb, Yasunari Ogihara, Kanako Kawaura, Kazuhiro Noda, Toshio Kojima, Atsushi Toyoda, Hideaki Matsumoto and Yoko Yamamoto

in Plant and Cell Physiology

Published on behalf of Japanese Society of Plant Physiologists

Volume 47, issue 10, pages 1343-1354
Published in print October 2006 | ISSN: 0032-0781
Published online October 2006 | e-ISSN: 1471-9053 | DOI:
Sequence Upstream of the Wheat (Triticum aestivum L.) ALMT1 Gene and its Relationship to Aluminum Resistance

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  • Biochemistry
  • Molecular and Cell Biology
  • Plant Sciences and Forestry


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Aluminum (Al) resistance in wheat relies on the Al-activated malate efflux from root apices, which appears to be controlled by an Al-activated anion transporter encoded by the ALMT1 gene on chromosome 4DL. Genomic regions upstream and downstream of ALMT1 in 69 wheat lines were characterized to identify patterns that might influence ALMT1 expression. The first 1,000 bp downstream of ALMT1 was conserved among the lines examined apart from the presence of a transposon-like sequence which did not correlate with Al resistance. In contrast, the first 1,000 bp upstream of the ALMT1 coding region was more variable and six different patterns could be discerned (types I–VI). Type I had the simplest structure, while the others had blocks of sequence that were duplicated or triplicated in different arrangements. A pattern emerged among the lines of non-Japanese origin such that the number of repeats in this upstream region was positively correlated with the levels of ALMT1 expression and Al resistance. In contrast, many of the Japanese lines exhibited a large variation in ALMT1 expression and Al resistance despite possessing the same type of upstream region. Although ALMT1 expression was also poorly correlated with Al-activated malate efflux in the Japanese lines, a strong correlation between malate efflux and Al resistance suggested that malate efflux was still the primary mechanism for Al resistance, and that additional genes are involved in the post-transcriptional regulation of ALMT1 function.

Keywords: ALMT1 gene — Aluminum resistance — Genomic upstream sequence — Malate transporter — Triticum aestivum L

Journal Article.  7206 words.  Illustrated.

Subjects: Biochemistry ; Molecular and Cell Biology ; Plant Sciences and Forestry

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