Departamento de Fisiología Vegetal, Facultad de Farmacia, Universidad de Santiago de Compostela, 15780, Santiago de Compostela, Spain.
Centro de Biotecnología y Genómica de Plantas (UPM-INIA), Universidad Politécnica de Madrid, Campus de Montegancedo, Pozuelo de Alarcón, 28223, Madrid, Spain.
Planta. 2018 Mar;247(3):649-661. doi: 10.1007/s00425-017-2815-4. Epub 2017 Nov 21.
Mannans but not endo-β-mannanases are mainly found in the mucilage layer of two Brassicaceae seeds. Nonetheless, mannanase mobilization from inner to outer seed layers cannot be ruled out. The contribution of endo-β-mannanase (MAN) genes to the germination of the wild-type Sisymbrium officinale and cultivated Brassica rapa (Brassicaceae) species has been explored. In both species, mannans have been localized to the imbibed external seed coat layer (mucilage) by fluorescence immunolocalization and MAN enzymatic activity increases in seeds as imbibition progresses, reaching a peak before 100% germination is achieved. The MAN gene families have been annotated and the expression of their members analyzed in vegetative and reproductive organs. In S. officinale and B. rapa, MAN2, MAN5, MAN6, and MAN7 transcripts accumulate upon seed imbibition. SoMAN7 is the most expressed MAN gene in S. officinale germinating seeds, as occurs with its ortholog in Arabidopsis thaliana, but in B. rapa, the most abundant transcripts are BrMAN2 and BrMAN5. These genes (MAN2, MAN5, MAN6, and MAN7) are localized, by mRNA in situ hybridization, to the micropylar at the endosperm layer and to the radicle in S. officinale, but in B. rapa, these mRNAs are faintly found to the micropylar living seed coat layer and are mainly present at the radicle tip and the vascular bundles. If the domestication process undergone by B. rapa is responsible for these different MAN expression patterns, upon germination remains to be elucidated. Since mannans and MAN genes are not spatially distributed in the same seed tissues, a movement of MAN enzymes that are synthesized with typical signal peptides from the embryo tissues to the mucilage layer (via apoplastic space) is necessary for the mannans to be hydrolyzed.
甘露聚糖,但不是内切-β-甘露聚糖酶,主要存在于两种十字花科种子的黏液层中。尽管如此,甘露聚糖从种子内层到外层的动员仍不能排除。已经探索了内-β-甘露聚糖酶(MAN)基因对野生拟南芥和栽培油菜(十字花科)种子萌发的贡献。在这两个物种中,通过荧光免疫定位将甘露聚糖定位到吸胀的外部种皮层(黏液),并且随着吸胀的进行,MAN 酶活性在种子中增加,在达到 100%萌发之前达到峰值。MAN 基因家族已被注释,并分析了其成员在营养和生殖器官中的表达。在拟南芥和油菜中,MAN2、MAN5、MAN6 和 MAN7 的转录物在种子吸胀时积累。SoMAN7 是拟南芥萌发种子中表达最丰富的 MAN 基因,就像其在拟南芥中的同源基因一样,但在油菜中,最丰富的转录物是 BrMAN2 和 BrMAN5。这些基因(MAN2、MAN5、MAN6 和 MAN7)通过 mRNA 原位杂交定位于拟南芥的珠孔端的胚乳层和油菜的胚根,但在油菜中,这些 mRNA 在珠孔端的活种皮层中微弱表达,主要存在于胚根尖端和维管束中。如果油菜经历的驯化过程是导致这些不同 MAN 表达模式的原因,那么仍需要阐明在萌发过程中这些模式的作用。由于甘露聚糖和 MAN 基因不在同一种子组织中空间分布,因此需要从胚组织中合成具有典型信号肽的 MAN 酶,通过质外体(apoplastic space)移动到黏液层,以便水解甘露聚糖。
