雌核发育银鲫原肠期胚胎和尾芽期胚胎差异表达基因的呈现

构建了雌核发育银鲫原肠期胚胎和尾芽期胚胎间的抑制性差减杂交cDNA质粒文库。对原肠期’739个和尾芽期816个PCR阳性克隆进行斑点杂交,得到72个原肠期和98个尾芽期斑点杂交阳性克隆。测序和基因数据库比对结果表明：72个原肠期斑点杂交阳性克隆中,包括19个已知基因的cDNA片段和31个没有同源性的cDNA片段;98个尾芽期斑点杂交阳性克隆中,包括52个已知基因的cDNA片段和37个没有同源性的cDNA片段。采用虚拟Northern杂交和RT-PCR证实了部分基因在银鲫胚胎发育过程中的差异表达。这些差异表达基因的呈现为进一步研究银鲫胚胎发育的分子机制奠定了基础。     

The analysis of differential gene expression in early somatic embryogenesis on Lycium barbarum

Direct exposure of calluses of Lycium barbarum L. to an auxin-free medium can induce somatic embryogenesis. Somatic embryogenesis of Lycium barbarum L. is controlled artificially by regulating 2,4-D concentration. The total RNA that was isolated from calluses, embryonic calluses and early somatic embryos was used for analyzing differential genes expression. We obtained three cDNAs from early somatic embryogenesis which were not found in calluses. The results indicate that these cDNAs were early embryogenesis-specific cDNAs and this gene expression was induced in cultured calluses after a transfer to an auxin- free medium. A cDNA library was constructed using poly(A)⁺-RNA derived from early somatic embryos of Lycium barbarism L. Two full-length cDNAs were isolated from the library by differential screening. Northern blot hybridization analysis indicated that the expression of the full-length cDNA only existed in embryogenic calluses and early somatic embryos of Lycium barbarum L. This revised version was published online in June 2006 with corrections to the Cover Date.     

Characterization of a dehydrin-like phosphoprotein (ECPP-44) relating to somatic embryogenesis in carrot

Somatic embryogenesis in carrot can be induced by the treatment of shoot apices with various kinds of stress chemicals. Using this system, we previously identified a phosphoprotein (ECPP-44) that appears to be involved in the induction of somatic embryogenesis. We have also isolated and characterized a cDNA encoding ECPP-44. In this study, to further characterize ECPP-44, we performed Western blot and immuno-precipitation analyses. Western blot analysis revealed that ECPP-44 was present in embryogenic cells, stress- and non-stress-treated tissues, and somatic embryos but was absent in non-embryogenic cells. Furthermore, ECPP-44 was found in some parts of the carrot plant, such as tap roots, leaves, and flowers (18–26 days after fertilization) but not in mature dry seeds. Interestingly, we could detect phosphorylated ECPP-44 in embryogenic cells and somatic embryos but not in non-embryogenic cells, tap roots, and non-stress-treated shoot apices by immunoprecipitation analysis, even though the protein existed. Our results suggest that ECPP-44 may perform some role in the induction or maintenance of embryogenic competence.