Bartley M R, Frankland B
School of Biological Sciences, Queen Mary College (University of London), Mile End Road, London E1 4NS, United Kingdom.
Plant Physiol. 1984 Mar;74(3):601-4. doi: 10.1104/pp.74.3.601.
It has previously been demonstrated that far-red irradiation of dry Lactuca sativa L. seeds results in inhibition of subsequent germination. Although red has no effect on dry seeds, a red irradiation following a farred irradiation reverses the effect of far-red. This phenomenon is most noticeable in seeds with artificially raised levels of phytochrome in the far-red absorbing form. Qualitatively similar results have been found for the seeds of Plantago major L., Sinapis arvensis L., and Bromus sterilis L. Action spectra studies on Plantago seeds show that the action peaks for promotion and inhibition of germination of hydrated seeds are at 660 and 730 nanometers, respectively. The action spectrum for inhibition of subsequent germination following irradiation of dry seeds is qualitatively and quantitatively similar to that for hydrated seeds, with an action peak at 730 nanometers, indicating absorption by phytochrome in the far-red absorbing form. However, the action spectrum for the reversal of this far-red effect on dry seeds has a broad peak at 680 nanometers and subsidiary peaks at 650 and 600 nanometers. It is proposed that this effect is due to light absorption by the phytochrome intermediate complex meta-Fa, and that the action spectrum reflects the in vivo absorption properties of this intermediate.
此前已证明,对干燥的莴苣种子进行远红光照射会抑制其随后的萌发。虽然红光对干燥种子没有影响,但在远红光照射之后进行红光照射会逆转远红光的作用。这种现象在人工提高远红光吸收型光敏色素水平的种子中最为明显。对于大车前、野芥菜和无芒雀麦的种子,也发现了定性相似的结果。对车前种子的作用光谱研究表明,水合种子萌发促进和抑制的作用峰分别在660纳米和730纳米处。干燥种子照射后对随后萌发抑制的作用光谱在定性和定量上与水合种子相似,作用峰在730纳米处,表明是远红光吸收型光敏色素的吸收。然而,干燥种子上这种远红光效应逆转的作用光谱在680纳米处有一个宽峰,在650纳米和600纳米处有次峰。有人提出,这种效应是由于光敏色素中间复合物meta-Fa的光吸收,并且该作用光谱反映了这种中间体在体内的吸收特性。