辐照诱变对小麦生理学效应的影响

以小麦品种小偃81为材料, 利用低能N+离子, 60Co-γ射线以及紫外线UV-C等为诱变源, 对种子胚部进行辐照处理。 研究其对小麦发芽势、 发芽率、 根长及苗高等生理指标的影响。 以辐照后的幼苗为材料研究了低能N+注入对过氧化氢酶（CAT）、 过氧化物酶（POD）、 超氧化物歧化酶（SOD）活性及还原型谷胱甘肽（GSH）含量的影响。 研究结果表明: N+注入后种子活力先升高后降低, 苗高在5×1017 N+/cm2时显著低于对照; 60Co和紫外线辐照对种子活力有较显著的影响, 辐照后的根长和苗高均显著低于对照; N+束辐照后的幼苗CAT酶活随剂量的变化规律性不明显, POD和SOD酶活总体趋势随剂量的增加先升高后降低, GSH含量随剂量的增大先降低后升高。 由此可知, 辐照诱变可以诱导小麦一系列的生理变化。60Co-γ射线和紫外线UV C对小麦胚根的伤害较大, 导致幼苗在后期大量死亡。N+注入对小麦的损伤效应较60Co和紫外线γ射线和紫外线UV-C小, 一定注量的N+注入处理可促进小麦生长。 In this paper, the biological effects,such as germination percentage, germination index and the length of seedlings and roots were investigated by using low energy N+, 60Co- γ rays and ultraviolet UV C to irradiate the embryos of wheat seeds （Xiaoyan81）. The anti oxidative enzyme system (CAT,POD, SOD) and GSH content were studied as well. The results show that the vitality of seed increased and then reduced with increasing the dosage of N+ ion implantation. The length of roots and seedlings were significantly higher than control. The seed vigor was significant effected after irradiated by 60Co-γ rays and ultraviolet UV-C, but the length of roots and seedlings were significantly lower than control. After N+ implantation, the changing pattern of CAT was not obviously. The enzymatic activity of POD and SOD were increased at low dosage and reduced at high dosage. The content of GSH was reduced and then raised. The results proved that the damage induced by γ ray and UV C to the radicle of wheat was severe that result in a large number of seedling died. However the damage induced by N+ implantation was lower than that by rays and UV C irradiation. Certain dosage of ion implantation can promote the growth of wheat.     

激光扫描共聚焦显微技术对水稻不育系花粉减数分裂的特性研究

以不育系新稻97200A为材料,利用激光扫描共聚焦显微镜对其花粉母细胞减数分裂及成熟花粉育性进行观察研究,此外还调查了不育系自交结实率和人工授粉异交结实率。结果表明：不育系异常减数分裂占15.8%,包括拖拽染色体、落后染色体、三极纺锤体、染色体桥、微核和子染色体分离不同步等。成熟花粉育性检验典败花粉占6.15%,圆败花粉占10.26%,染败花粉占80.77%。绝大部分的花粉败育可能是由于减数分裂过程中出现的染色体异常配对、异常分裂、染色体断裂及细胞质分布不均匀等使得花粉粒发育不能正常进行而导致的。     

离子束诱变水稻多胚苗突变株的筛选及其多胚来源

以低能氮离子束为诱变源, 通过对同源四倍体水稻品系“IR36 4X”进行离子注入后在其第2代群体内筛选得到了1株具有多胚苗性状特征的突变株（IR36 双）, 对该突变株后代的多胚苗形态特征及其多胚来源进行了研究。 结果表明, 多胚苗突变株系“IR36 双”在双胚苗性状的表现形态上有其特异性, 在同一纯合株系的群体内双胚苗的苗位有非完全双苗和完全双苗两种类型。 非完全双苗包括单胚轴单胚根双苗和单胚根异胚轴双苗这两种类型; 完全双苗也可以进一步划分为正常双苗和异常双苗两种类型。 在多胚苗材料中, 单胚根单胚轴双苗所占的比例相对较大。 其多胚（额外胚）的来源主要有4种可能性, 即双套胚囊形成多胚、 多卵卵器形成多胚、 反足细胞团发育形成不定胚及胚乳细胞形成不定胚（胚乳细胞胚状体）。 由此可见, “IR36 双”植株表现双胚苗性状有其胚胎学根源。