AGAMOUS在花发育中的核心功能研究进展

花是植物重要的生殖器官,受到多种花发育因子的调控。AGAMOUS(AG)在花发育的不同阶段有着不同的表达模式,对于植物的繁殖和发育有着重要的作用。AG与其他花发育基因、蛋白之间的相互作用决定了植物花器官的形态建成。近年来研究发现,AG基因对于花序分生组织向花分生组织的转化起到了关键的调控作用,特别是它与WUSCHEL(WUS)基因的反馈调节途径促进了植物生殖器官的发育。本综述总结了AG基因在植物花发育调控网络中的作用及生物学功能,展望了花发育未来的研究方向与发展趋势。     

苹果梨花芽孕育期生长锥细胞超微结构的观察

利用透射电镜对苹果梨花芽孕育期芽内生长锥细胞进行了观察，结果显示，在花芽孕育形成的过程中，生长锥细胞的超微结构发生了一系列变化：蛋白体和脂类小滴逐渐增加；核外膜向外延伸到胞质中与内质网相连，其上分布的核糖体增多；线粒体和内质网数目丰富且分布均匀；核糖体大量游散在胞质中；质体呈浅裂，中央缢缩；微管分布于靠近质膜处等。以上超微结构的变化表现出细胞旺盛分裂和分化的特点，反映了花芽孕育过程中的细胞学特征。     

苹果组培芽露地嫁接技术研究

提高苹果组培芽露地嫁接成活率的关键技术措施,主要有三个方面:培育壮芽,嫁接前对组培芽进行3至5天通风锻炼,增强其对外部环境条件的适应性;正确选择砧木及嫁接部位和方法,尽可能缩小砧穗间形态结构及木质化程度的差异,人为创造适宜的环境条件,搭棚遮荫避免阳光直射,适时灌水增加土壤及空气湿度,滴注激素促进接口愈合.本试验组培芽露地嫁接成活率达到93.3%,枝条最大月生长量为38厘米.     

杏花器官组织抗寒性研究

通过人工模拟霜害试验,研究了杏花抗寒性与花器官组织结构的关系,并统计了冻害率。结果表明:4个仁用杏品种的抗寒性由强到弱为优一、白玉扁、一窝蜂、龙王帽;在同一朵花中,抗寒性强弱为花瓣>雄蕊>雌蕊;未接种冰核细菌的花比接菌的抗寒性强。-3℃低温处理后,各品种的子房显微结构均受到不同程度的破坏。     

小菊花器若干性状在F1代的表现

 以‘水晶白’、‘晚霞’等30个小菊品种为亲本，配制成28个杂交组合，对杂交后代的花器性状进行统计分析。结果发现，红色遗传能力大于黄色，且表现出较强的偏母性遗传特点，而原始色黄色和白色没有明显的偏母性遗传，以白色系品种作母本后代会出现许多亲本不具有的花色；杂交后代的舌状花数目、筒状花数目和花序直径与双亲比较，F，代表现出明显的遗传优势，杂种总平均舌状花数目、筒状花数目和花序直径分别相当于亲中值的122.6% 、128.7%、124.7% ，随着母本舌状花数目和筒状花数目的增大，杂种平均舌状花数目、筒状花数目和花序直径的增加幅度变缓，甚至出现衰弱的趋势，但花序直径除外。在花型上，平盘型的遗传能力比单窄瓣型的强。     

金边瑞香花芽形态分化研究

 金边瑞香花芽由顶芽发育而成，花芽分化包括花序分化和小花分化两个过程，分为未分化、开始分化、花序原基分化、小花原基分化、花瓣分化、雄蕊分化和雌蕊分化7个时期，分化的顺序是向心的；分化的临界期为5月中旬，分化时期长达7个月，花芽分化既持续又表现出两个分化高峰，还受温度等因素的影响。     

百合花发育相关MADS box基因的克隆

 利用RT-PCR的方法，从百合中克隆得到了3个接近全长的花发育相关MADS box基因片段 LfMADS1-3。其中LfMADS1和LfMADS3以往未见报道，分别与多种作物的AG、SEP同源基因具有较高的同源性；LfMADS2与已发表的LMADS2对应区段的氨基酸同源性高达98.99%，推测可能是同一个基因。     

不同光湿环境对葡萄花芽分化和叶绿体类囊体膜磷酸酯酶活性的影响

以欧亚种葡萄美人指(Vitisviniferacv.ManicureFinger)为试材,正常光湿为对照,采用正常光偏高湿、偏弱光正常湿度、偏弱光高湿、偏弱光临界高湿、临界弱光偏高湿和临界弱光临界高湿6种处理。试验表明:单一偏弱光处理,葡萄叶片叶绿素含量上升,其余处理叶绿素含量下降;6种处理叶绿体类囊体膜磷酸酯酶活性都低于对照,叶绿体类囊体膜磷酸酯酶活性与光照和湿度有关;正常光偏高湿和偏弱光正常湿度部分芽能分化花原基,但在偏弱光高湿或偏弱光临界高湿花芽分化质量严重下降,临界弱光偏高湿和临界弱光临界高湿几乎未发现花原基;单一的弱光因子比单一的高湿因子对叶绿体类囊体膜磷酸酯酶活性和花芽形态分化影响更大,但弱光与高湿同时存在比单一弱光或高湿因子作用于葡萄时,叶绿体类囊体膜磷酸酯酶活性下降更为显著,花芽更难以形成。     

Study of some factors affecting the growth and development of myoga (Zingiber mioga Roscoe)

In order to optimise production of the edible flower buds produced by myoga (Zingiber mioga Roscoe) a greater understanding of the growth and development of the plant and factors influencing flower initiation and development are required. The vegetative growth phase in myoga was characterised by a distinct period of pseudostem development from the planted rhizome piece followed by an extended period of rhizome growth from both the base of pseudostems and the planted rhizome piece. The transition from pseudostem formation to the initiation of rhizome growth occurred at the same time as the dry weight of the planted rhizome piece ceased to decline. Flower bud initiation and development occurred over an extended period, beginning soon after the commencement of new rhizome growth and ending prior to foliage senescence. Flower buds were observed at the terminal meristem of first, second, third and fourth order rhizomes. Increasing temperatures stimulated both increased vegetative growth and flower bud initiation and development. Low flower bud yields recorded under conditions of low temperature were the result of reduced rate of floral initiation and not abortion of flower buds. Increased shading of plants grown under glasshouse conditions resulted in reduced flower bud yield and similarly the response resulted from decreased initiation rather than abortion.     

Seasonal variation in pigmentation and anthocyanidin phenetics in commercial Eustoma flowers

The seasonal change in petal color and pigmentation of 29 commercial Eustoma cultivars was studied. The flowers are basically divided into four groups according to the major anthocyanidin phenotype in association with petal coloration, i.e., delphinidin (Dp)-based (purple flower), cyanidin (Cy)-based (reddish purple flower), pelargonidin (Pg)-based (pink flower), and none (white flower) groups. The constitution of petal anthocyanidins was not changed by forcing treatment in most of the flowers. Lightness (L^*) and chroma (C^*, color saturation) showed a change along with the increase/decrease of hue angle difference (ΔH^*), thus simultaneously the chromatic tonalities tended to move to redder and bluer, respectively. Floral pigment clustering described two flower groups in a dendrogram, based on anthocyanidin constitutions as phenetic markers, which are apparently the Dp- and Pg-based phenotypes of anthocyanidin syntheses. The Cy-based flowers made a subcluster with the Pg-based flowers, indicating a close relationship in the biosynthesis of the two anthocyanidins, and suggesting the Dp- and Pg-syntheses complement one another.