Identification and characterization of a matrix metalloproteinase (Pta1-MMP) expressed during Loblolly pine (Pinus taeda) seed development and germination
Ratnaparkhe, Supriya M
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Extracellular matrix (ECM) modifications occur during plant growth, development, and in response to environmental stimuli. Key modulators of ECM modification in vertebrates, the extracellular matrix metalloproteinases (MMPs), have also been described in a few plants. Here, we report the identification of Loblolly pine (Pinus taeda) Pta1-MMP and its characterization during seed development and germination. The Pta1-MMP protein has the structural characteristics of other plant MMPs, and a recombinant protein (rPta-MMP) generated by using EST sequences for a seed-expressed MMP exhibits Zn2+-dependent protease activity, and is inhibited by the active site-binding hydroxamate inhibitor GM6001 and EDTA. The Pta1-MMP gene is expressed during embryo development, with transcript levels increasing from proembryo to early cotyledonary stage, then declining during late cotyledonary expansion and maturation drying. Protein extracts exhibited similar developmental-stage MMP-like activity. Seed imbibition in water facilited germination, which was stimulated by GA3 and inhibited by ABA. The timing of germination was mirrored by the presence of MMP-like protease activity in both water- and GA3-imbibed embryos. Pta1-MMP transcript levels increased in association with germination for both GA3- and water-treated embryos, in agreement with MMP-like activity. In contrast, by 10 days after imbibition, Pta1-MMP transcripts in ABA-treated embryos were at levels similar to the other treatments, although MMP-like activity was not observed. The application of GM6001 during Loblolly pine seed imbibition inhibited germination in a dose-dependent manner. Our results suggest that Pta1-MMP is required for ECM modification, facilitating the cell division and expansion required for both embryo development and germination. To our knowledge, this is the first report of an MMP in any gymnosperm and also its involvement in embryo development and subsequent germination.
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