The epidermis is not only the interphase between the plant and the environment but also a growth-limiting tissue. Understanding the initiation and regulation of its expansion growth is essential for addressing the need for more food and fuel. We used mass spectrometry to identify proteins from auxin (indole-3-acetic acid; IAA)-induced rapidly growing corn (Zea mays) coleoptiles to find possible candidates controlling this growth as well as the underlying cell wall and cuticle biosynthesis. Excised sections were incubated for 4 h in the absence or presence of IAA, protein extracted, and analyzed using LC-ESI-MS/MS. Of 86 proteins identified, 15 showed a predicted association with cell wall/cuticle biosynthesis or trafficking machinery; four identifications revealed novel proteins of unknown function. In parallel, real-time PCR indicated that the steady-state mRNA levels of genes with a known or predicted role in cell-wall biosynthesis increase upon treatment with auxin. Importantly, genes encoding two of the hypothetical proteins also show higher levels of mRNA; additionally, their gene expression is down-regulated as coleoptile growth ceases and up-regulated in expanding leaves. This suggests a major role of those novel proteins in the regulation of processes related to cell and organ expansion and thus plant growth.
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