Nagasawa Nobuhiro, Miyoshi Masahiro, Kitano Hidemi, Satoh Hikaru, Nagato Yasuo
Faculty of Agriculture, University of Tokyo, 113, Tokyo, Japan.
Department of Biology, Aichi University of Education, 448, Kariya, Japan.
Planta. 1996 Apr;198(4):627-633. doi: 10.1007/BF00262651. Epub 2017 Mar 18.
How floral organ number is specified is an interesting subject and has been intensively studied in Arabidopsis thaliana. In rice (Oryza sativa L.), mutations associated with floral organ number have been identified. In three mutants of rice, floral organ number 1 (fon1) and the two alleles, floral organ number 2-1 (fon2-1) and floral organ number 2-2 (fon2-2), the floral organs were increased in number centripetally. Lodicules, homologous to petals, were rarely affected, and stamens were frequently increased from six to seven or eight. Of all the floral organs the number of pistils was the most frequently increased. Among the mutants, fon1 showed a different spectrum of organ number from fon2 -1 and fon2 -2. Lodicules were the most frequently affected in fon1, but pistils of more than half of fon1 flowers were unaffected; in contrast, the pistils of most flowers were increased in fon2 -1 and fon2-2. Homeotic conversion of organ identity was also detected at a low frequency in ectopically formed lodicules and stamens. Lodicules and stamens were partially converted into anthers and stigmas, respectively. Concomitant with the increased number of floral organs, each mutant had an enlarged apical meristem. Although meristem size was comparable among the three mutants and wild type in the early phase of flower development, a significant difference became apparent after the lemma primordium had differentiated. In these mutants, the size of the shoot apical meristem in the embryo and in the vegetative phase was not affected, and no phenotypic abnormalities were detected. These results do not coincide with those for Arabidopsis in which clavatal affects the sizes of both shoot and floral meristems, leading to abnormal phyllotaxis, inflorescence fasciation and increased floral organs. Accordingly, it is considered that FON1 and FON2 function exclusively in the regulation of the floral meristem, not of the vegetative meristem.
花器官数量是如何确定的是一个有趣的课题,并且已经在拟南芥中进行了深入研究。在水稻(Oryza sativa L.)中,已经鉴定出与花器官数量相关的突变。在水稻的三个突变体中,花器官数量1(fon1)以及两个等位基因,花器官数量2 - 1(fon2 - 1)和花器官数量2 - 2(fon2 - 2),花器官数量向心增加。与花瓣同源的浆片很少受到影响,雄蕊数量经常从六个增加到七个或八个。在所有花器官中,雌蕊数量增加最为频繁。在这些突变体中,fon1表现出与fon2 - 1和fon2 - 2不同的器官数量谱。在fon1中浆片受影响最频繁,但超过一半的fon1花的雌蕊未受影响;相比之下,大多数fon2 - 1和fon2 - 2花的雌蕊数量增加。在异位形成的浆片和雄蕊中也低频检测到器官特性的同源异型转化。浆片和雄蕊分别部分转化为花药和柱头。伴随着花器官数量的增加,每个突变体的顶端分生组织都有所增大。虽然在花发育早期,这三个突变体与野生型之间的分生组织大小相当,但在外稃原基分化后,显著差异变得明显。在这些突变体中,胚胎期和营养期的茎尖分生组织大小不受影响,也未检测到表型异常。这些结果与拟南芥的情况不同,在拟南芥中,clavatal会影响茎尖和花分生组织的大小,导致叶序异常、花序密集和花器官增加。因此,认为FON1和FON2仅在花分生组织的调控中起作用,而不在营养分生组织中起作用。
