[ Objective] The aim was to observe the ultrastructure of different callus structures in Heiya No. 14 by transmission electron microscopy. [Methods] Sample preparation and observation were both carried out by conventi...[ Objective] The aim was to observe the ultrastructure of different callus structures in Heiya No. 14 by transmission electron microscopy. [Methods] Sample preparation and observation were both carried out by conventional transmission electron microscopy. [ Results] It was showed by transmission electron microscopy that the initial callus cells had a large central vacuole, which squeezed its cytoplasm to be a thin layer around the brim of cell, Meanwhile the nuclear was also squeezed to distribute in the corner of cell, but its nucleolus could be still observed; Compared embryogenic callus with initial callus, its cell wall became thick, and many starch grains and chloroplasts including starch grains could be observed in the cytoplasm area of cell membrane; In non-embryoenic callus, no organelles except for the vacuole could be observed; In browning callus, there was almost no organelles in cells. [ Conclusion] There are significant differences in different types of flax callus at the cell ultrastructure level, which can be as an index for reflecting the differentiation ability of callus cell.展开更多
Although male and female pronuclei reside in the same zygotic cytoplasm, they differ in many respects, such asvolume and transcriptional activity. The aim of this study is to investigate whether these differences are ...Although male and female pronuclei reside in the same zygotic cytoplasm, they differ in many respects, such asvolume and transcriptional activity. The aim of this study is to investigate whether these differences are lost during thefirst mitosis. For this purpose, a new method was developed to inhibit the mixing of two parental chromosomes duringmitosis, thus to induce the formation of two nuclei after they exit from the mitotic phase. In this method, one-cellembryos are arrested at metaphase by treatment with nocodazole, and whn exitting from the mitotic phase, two nucleiwere formed in a single karyocyte following treatment with 6-dimethylaminopurine (6-DMAP). These embryos weredesignated as post-mitotic embryos (PM-embryos), in which the two nuclei were derived from the male and femalegenomes. We found that in the control one-cell embryos that had not been treated with the reagents, the volume of themale pronucleus was about 1.65-fold greater than that of the female pronucleus, whereas the volumes of the two nucleiin the PM-embryos were similar (volume ratio of 1.01). Although a two-fold difference in transcriptional activity wasdetected between the male and female pronuclei in the control embryos, no difference in transcriptional activity wasdetected between the two nuclei of PM-embryos. The ratio of transcriptional activity in the nucleus derived from thepaternal genome to that from the maternal genome was 1.02, for which no significant difference was detected by the χ2fitness test. Therefore, the volumes and transcriptional activities of the male and female nuclei were approximately equalin PM-embryos, which suggests that the asymmetries of pronuclear volume and transcriptional activity between maleand female genomes are somehow losted during the first mitosis.展开更多
基金Supported by Harbin Postdoctoral Foundation(LRB08-491)~~
文摘[ Objective] The aim was to observe the ultrastructure of different callus structures in Heiya No. 14 by transmission electron microscopy. [Methods] Sample preparation and observation were both carried out by conventional transmission electron microscopy. [ Results] It was showed by transmission electron microscopy that the initial callus cells had a large central vacuole, which squeezed its cytoplasm to be a thin layer around the brim of cell, Meanwhile the nuclear was also squeezed to distribute in the corner of cell, but its nucleolus could be still observed; Compared embryogenic callus with initial callus, its cell wall became thick, and many starch grains and chloroplasts including starch grains could be observed in the cytoplasm area of cell membrane; In non-embryoenic callus, no organelles except for the vacuole could be observed; In browning callus, there was almost no organelles in cells. [ Conclusion] There are significant differences in different types of flax callus at the cell ultrastructure level, which can be as an index for reflecting the differentiation ability of callus cell.
文摘Although male and female pronuclei reside in the same zygotic cytoplasm, they differ in many respects, such asvolume and transcriptional activity. The aim of this study is to investigate whether these differences are lost during thefirst mitosis. For this purpose, a new method was developed to inhibit the mixing of two parental chromosomes duringmitosis, thus to induce the formation of two nuclei after they exit from the mitotic phase. In this method, one-cellembryos are arrested at metaphase by treatment with nocodazole, and whn exitting from the mitotic phase, two nucleiwere formed in a single karyocyte following treatment with 6-dimethylaminopurine (6-DMAP). These embryos weredesignated as post-mitotic embryos (PM-embryos), in which the two nuclei were derived from the male and femalegenomes. We found that in the control one-cell embryos that had not been treated with the reagents, the volume of themale pronucleus was about 1.65-fold greater than that of the female pronucleus, whereas the volumes of the two nucleiin the PM-embryos were similar (volume ratio of 1.01). Although a two-fold difference in transcriptional activity wasdetected between the male and female pronuclei in the control embryos, no difference in transcriptional activity wasdetected between the two nuclei of PM-embryos. The ratio of transcriptional activity in the nucleus derived from thepaternal genome to that from the maternal genome was 1.02, for which no significant difference was detected by the χ2fitness test. Therefore, the volumes and transcriptional activities of the male and female nuclei were approximately equalin PM-embryos, which suggests that the asymmetries of pronuclear volume and transcriptional activity between maleand female genomes are somehow losted during the first mitosis.
