Departamento Biomedicina y Biotecnología (Genética), Universidad de Alcalá Madrid, Spain.
GM Trait Discovery, Biogemma - Centre de Recherche de Chappes Chappes, France.
Front Plant Sci. 2014 May 6;5:180. doi: 10.3389/fpls.2014.00180. eCollection 2014.
In the course of a project aimed to isolate transfer cells-specific genes in maize endosperm we have identified the BETL9 gene. BETL9 encodes for a small protein very similar in sequence to the product of the barley transfer cell-specific gene END-1. Both BETL9 and END-1 proteins are lipid transfer proteins, but their function is currently unknown. In situ hybridization analysis confirms that the BETL9 gene is exclusively transcribed in the basal endosperm transfer cell layer during seed development since 10 days after pollination. However, immunolocalization data indicates that the BETL9 protein accumulates in the maternal placento-chalaza cells located just beside the transfer cell layer. This suggests that the BETL9 protein should be transported to the maternal side to exert its, still unknown, function. In addition, we have identified a second maize gene very similar in sequence to BETL9 and we have named it BETL9like. In situ hybridization shows that BETL9like is also specifically transcribed in the developing maize endosperm within the same time frame that BETL9, but in this case it is exclusively expressed in the aleurone cell layer. Consequently, the BETL9 and BETL9like genes are transcribed in a non-overlapping pattern on the outer surface of the maize endosperm. The BETL9 and BETL9like promoter sequences, fused to the GUS reporter gene, accurately reflected the expression pattern observed for the genes in maize. Finally, we have identified in the Arabidopsis genome a set of four genes orthologous to BETL9 and BETL9like and analyzed the activity of their promoters in Arabidopsis transgenic plants carrying fusions of their promoter sequences to the GUS reporter. As in the case of the maize genes, the Arabidopsis orthologs showed highly complementary expression patterns.
在一个旨在分离玉米胚乳中转细胞特异性基因的项目中,我们鉴定了 BETL9 基因。BETL9 编码一个小蛋白,其序列与大麦转细胞特异性基因 END-1 的产物非常相似。BETL9 和 END-1 蛋白都是脂质转移蛋白,但它们的功能目前尚不清楚。原位杂交分析证实,BETL9 基因仅在授粉后 10 天的种子发育过程中在基底胚乳转细胞层中转录。然而,免疫定位数据表明,BETL9 蛋白在位于转细胞层旁边的母体胎盘珠层细胞中积累。这表明 BETL9 蛋白应该被运送到母体侧以发挥其未知的功能。此外,我们还鉴定了第二个与 BETL9 序列非常相似的玉米基因,并将其命名为 BETL9like。原位杂交显示,BETL9like 也在同一时间框架内在发育中的玉米胚乳中特异性转录,但在这种情况下,它仅在糊粉层细胞层中表达。因此,BETL9 和 BETL9like 基因在玉米胚乳的外表面以非重叠的模式转录。BETL9 和 BETL9like 启动子序列与 GUS 报告基因融合,准确反映了在玉米中观察到的基因表达模式。最后,我们在拟南芥基因组中鉴定了一组与 BETL9 和 BETL9like 同源的四个基因,并分析了携带其启动子序列与 GUS 报告基因融合的拟南芥转基因植物中它们的启动子活性。与玉米基因的情况一样,拟南芥同源基因表现出高度互补的表达模式。
