Stowe B B, Hudson V W
Department of Biology, Kline Biology Tower, Yale University, New Haven, Connecticut 06520.
Plant Physiol. 1969 Jul;44(7):1051-7. doi: 10.1104/pp.44.7.1051.
C(14), C(15), and C(16) alkyl nitriles, and C(16) and C(18) alkyl acetylenes at 10 to 105 micromolar concentrations promote the growth of stem sections from red-light-exposed seedlings of dwarf peas (Pisum sativum L. cv. Progress No. 9). Similar results were obtained with substances active as insect juvenile hormones, namely farnesol, the racemic ethyl ester of 1 of the natural hormones, and a "synthetic juvenile hormone" mixture, the latter 2 having as high an activity in the pea assay as any lipid reported previously. A sterically nearly identical compound, methyl-RS-10,11-epoxyfarnesoate, is a weak insect hormone and did not promote plant growth. Thus activity in peas and in insects is in some cases parallel. Other similarities and some differences are discussed. Peas appear to require molecules longer than 20A, while insect activity is maximal at that length. All active molecules are ineffective in promoting pea stem elongation by themselves, indole acetic acid must also be present. The lipid effect in plants and the juvenile hormone response in insects have much in common and the evidence suggests they could have a similar locus of action in a membrane controlling respiratory function.
10至105微摩尔浓度的C(14)、C(15)和C(16)烷基腈以及C(16)和C(18)烷基乙炔可促进经红光照射的矮生豌豆(Pisum sativum L. cv. Progress No. 9)幼苗茎段的生长。具有昆虫保幼激素活性的物质,即法尼醇、天然激素之一的外消旋乙酯以及一种“合成保幼激素”混合物,也得到了类似结果,后两者在豌豆试验中的活性与先前报道的任何脂质一样高。一种空间结构几乎相同的化合物,甲基-RS-10,11-环氧法尼酸酯,是一种弱昆虫激素,不能促进植物生长。因此,在某些情况下,豌豆和昆虫中的活性是平行的。文中还讨论了其他的相似点和一些差异。豌豆似乎需要长度超过20埃的分子,而昆虫活性在该长度时最大。所有活性分子自身都不能有效促进豌豆茎伸长,还必须有吲哚乙酸存在。植物中的脂质效应和昆虫中的保幼激素反应有许多共同之处,证据表明它们在控制呼吸功能的膜中可能有类似的作用位点。
