CONTROL OF STEM ELONGATION BY GIBBERELLIN A(1) - EVIDENCE FROM GENETIC-STUDIES INCLUDING THE SLENDER MUTANT SLN

Information from well-known stem length mutants, both short and elonga ted, is discussed in the context of criteria necessary to demonstrate that the level of GA(1) controls stem elongation in wildtype plants of the garden pea. Whilst this evidence is compelling, a mutant which ov er-produces GA(1) would afford further insight, particularly into whet her GA(1) levels are saturating for growth in the wild-type. In this p aper we further characterise the first reported garden pea mutant (sln ) which possesses elevated levels of GA(1). Evidence is presented from studies using this mutant that GA(1) is normally limiting for growth over the early internodes in wild-type plants. In the developing seed, the mutant sln is shown to block the metabolism of [C-13, H-3]GA(29) to [C-13, H-3]GA(29)-catabolite, particularly in the testa. Associated with this there were dramatically elevated GA(20) levels in the dry s eed from sln plants (400 times) compared with seeds from Sln plants. U pon germination, it appears that some of this GA(20) is converted to G A(1), which leads to substantial elongation of the early internodes. T his hypothesis is supported by the observation that the inhibitor of a n early step in GA biosynthesis, paclobutrazol, reduces elongation of sln plants when applied to developing seeds but not when applied at th e start of germination. By contrast, prohexadione-calcium (BX-112), wh ich inhibits the step GA(20) to GA(1), dramatically reduces internode length of sln plants when applied to seeds at the start of germination . Finally, application of GA(20) to the dry seed of a wild-type (Sln) line (before sowing) resulted in a phenocopy of the sln mutant.