Variation in Its C-Terminal Amino Acids Determines Whether Endo-{beta}-Mannanase Is Active or Inactive in Ripening Tomato Fruits of Different Cultivars

doi:10.1104/pp.011890

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Published on October 15, 2002; 10.1104/pp.011890

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Received July 29, 2002
Returned for revision August 8, 2002
Accepted August 13, 2002

Variation in Its C-Terminal Amino Acids Determines Whether Endo-ß-Mannanase Is Active or Inactive in Ripening Tomato Fruits of Different Cultivars

Richard Bourgault and J. Derek Bewley ^*

Department of Botany, University of Guelph, Guelph, Ontario, Canada N1G 2W1

^* Corresponding author; email: dbewley{at}uoguelph.ca.

Endo-ß-mannanase cDNAs were cloned and characterized fromripening tomato (Lycopersicon esculentum Mill. cv Trust) fruit,which produces an active enzyme, and from the tomato cv Walter,which produces an inactive enzyme. There is a two-nucleotidedeletion in the gene from tomato cv Walter, which results ina frame shift and the deletion of four amino acids at the Cterminus of the full-length protein. Other cultivars that produceeither active or inactive enzyme show the same absence or presenceof the two-nucleotide deletion. The endo-ß-mannanase enzymeprotein was purified and characterized from ripe fruit to ensurethat cDNA codes for the enzyme from fruit. Immunoblot analysisdemonstrated that non-ripening mutants, which also fail to exhibitendo-ß-mannanase activity, do so because they fail toexpress the protein. In a two-way genetic cross between tomatocvs Walter and Trust, all F₁ progeny from both crosses producedfruit with active enzyme, suggesting that this form is dominantand homozygous in tomato cv Trust. Self-pollination of a plantfrom the heterozygous F₁ generation yielded F₂ plants that bearfruit with and without active enzyme at a ratio appropriateto Mendelian genetic segregation of alleles. Heterologous expressionof the two endo-ß-mannanase genes in Escherichia coliresulted in active enzyme being produced from cultures containingthe tomato cv Trust gene and inactive enzyme being producedfrom those containing the tomato cv Walter gene. Site-directedmutagenesis was used to establish key elements in the C terminusof the endo-ß-mannanase protein that are essential forfull enzyme activity.

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