大麦小孢子再生植株气孔保卫细胞长度与倍性的相关性

为了建立一种快速鉴定大麦小孢子来源植株倍性的方法,对大麦品种"花30"不同倍性(种子来源二倍体,小孢子来源单倍体和单倍体加倍系)早期植株的不同叶位、不同叶片部位的气孔保卫细胞长度进行了测定,考察了不同取材部位气孔保卫细胞长度的差异,对种子来源二倍体、小孢子来源单倍体和单倍体加倍材料的气孔保卫细胞长度的分布进行了区分。结果表明,"花30"单倍体材料的气孔保卫细胞长度在不同叶位以及不同叶片部位差异较小,而单倍体加倍材料和种子来源二倍体材料受叶片部位影响较大,单倍体和二倍体材料间气孔保卫细胞的长度差异显著,而单倍体加倍材料和种子来源二倍体材料间气孔保卫细胞长度未观察到明显差异。单倍体和单倍体加倍材料气孔保卫细胞的长度值范围分别为26.9~37.7μm和36.7~62.1μm;利用37μm临界值可对大麦小孢子来源的DH群体中的单倍体进行快速区分。     

家禽骨髓内红细胞、白细胞发生的显微和亚显微结构特点

利用光镜和电镜对鹅、鸭和鸡骨髓内红细胞和白细胞发生的显微和亚显微结构进行了研究。结果显示 :鹅骨髓内红细胞系的体积比鸭的略大。光镜下鸭、鹅异嗜性粒细胞 ,在早幼阶段胞质内出现少量圆形颗粒 ;在晚幼阶段出现较多暗红色的圆形、杆状、梭形颗粒。嗜酸性粒细胞在早幼阶段胞质内出现少量着桔红色的圆形颗粒 ;晚幼阶段颗粒多呈杆状 ,胞核轮廓清楚。嗜碱性粒细胞在各阶段胞质内散布紫红色的细小颗粒。电镜下鸡原始红细胞多附着在窦壁上 ,核周隙窄 ,核孔数量较多 ;而成熟红细胞多分布在近血窦中央处 ,核周隙宽 ,核孔数量较少。异嗜性颗粒在早幼阶段可分 A型和 B型。嗜碱性颗粒分为 型和 型 ,它们分别在中幼和晚幼阶段出现。嗜酸性颗粒呈均质的圆形     

Functional genomics of microspore embryogenesis

Isolated plant microspores, when stressed and cultured in vitro, can be diverted from their normal gametophytic pathway towards sporophytic development, with the formation of haploid embryos and ultimately doubled-haploid plants. This process is called androgenesis or microspore embryogenesis, and is widely used in plant breeding programmes to generate homozygous lines for breeding purposes. Protocols for the induction of microspore embryogenesis and the subsequent regeneration of doubled haploid (DH) plants have been successfully developed for more than 200 species. These practical advances stand in stark contrast to our knowledge of the underlying molecular genetic mechanism controlling this process. The majority of information regarding the genetic and molecular control of the developmental switch from gametophytic to sporophytic development has been garnered from four intensely studied (crop) plants comprising two dicotyledonous species, rapeseed (Brassica napus) and tobacco (Nicotiana tabacum), and two monocotyledonous species, wheat (Triticum aestivum) and barley (Hordeum vulgare). In these species the efficiency of microspore embryogenesis is very high and reproducible, making them suitable models for molecular studies. In the past, molecular studies on microspore embryogenesis have focussed mainly on the identification of genes that are differentially expressed during this developmental transition and/or early in embryo development, and have identified a number of genes whose expression marks or predicts the developmental fate of stressed microspores. More recently, functional genomics approaches have been used to obtain a broad overview of the molecular processes that take place during the establishment of microspore embryogenesis. In this review we summarise accumulated molecular data obtained in rapeseed, tobacco, wheat and barley on embryogenic induction of microspores and define common aspects involved in the androgenic switch.     

甘蓝型油菜小孢子培养胚发生能力的遗传分析

用 4× 4完全双列杂交研究了甘蓝型油菜小孢子培养胚状体发生能力的遗传规律。结果表明 :多数F1的胚产量与具高胚发生能力的亲本相近 ,部分F1的胚产量与双亲中亲值接近。胚状体发生能力主要由基因的加性效应控制。高胚发生能力由显性核基因控制。广义和狭义遗传力分别为 97 2 %和 81 1%。由Lisandra(高胚发生能 )×Kamikita(低胚发生能 )的F2 群体胚发生数的分离结果得出小孢子胚状体发生能力由具加性效应特点的两个基因位点控制     

核不育芝麻小孢子败育机理的细胞学研究

核不育芝麻小孢子败育发生在四分体形成之后的无液泡小孢子期,败育在很短的时间内完成。败育前小孢子大量液泡化,其线粒体异常膨大与质体的基质化可作为小孢子开始败育的标志。败育小孢子缺少花粉外壁上的覆盖层。芝麻花药绒毡层的异常,包括有机物贮量的降低;细胞内含物的异位分布及迅速减少与消失;不能及时或缺乏分泌胼胝质     

几种雄性不育玉米小孢子发育的显微荧光观察

采用高灵敏度的显微荧光术研究同一背景材料的细胞质不育和细胞核不衣小孢子发育过程，目的在于比较同核异质及同质近等系的小孢子发育过程，从中找出规律性的现象。结果表明，几种不育类型小孢子均表现核物质的降解，只是降解的时期不同。由此认为，雄性不育的细胞学实质就是细胞的自我降解。     

芝麻基因雄性不育系的研究

通过群体改良对芝麻雄性不育原始材料进行基因重组，产生了大量优秀变异。用系内连续姊妹交，回效等手段育在敢综合农艺性状良好，不育度为９９％以上，不育株率稳定在５０％左右可供可杂交种生产应用的ｍｓ８６－１不育系。形态学研究证明，所选不育系雄蕊败育彻 底，雌蕊发育正常，具有正常的结籽能力；小孢子败育发生在四分体后的无液泡小孢子期；雄性不育性具有良好的环境稳定性。根据初步的遗传分析推测，不育性可能不是受单隐     

In vitro somatic embryogenesis in turf-type bermudagrass: roles of abscisic acid and gibberellic acid, and occurrence of secondary somatic embryogenesis

Bermudagrass is an important warm‐season turfgrass species that is recalcitrant in regeneration in tissue culture. In a previous report, we observed that somatic embryogenesis of immature inflorescence culture was substantially improved when low levels of 2,4‐dichloro‐phenoxy acetic acid (1 mg/l) and 6‐benzylaminopurine (BAP, 0.01 mg/l) were included in the callus induction medium. The object of this study was to further improve the culture conditions to enhance somatic embryo formation and plantlet regeneration. It was shown that the abscisic acid supplement (2 or 5 mg/l) to the above callus induction medium further enhanced somatic embryogenesis in hybrid bermudagrass (Cynodon dactylon×Cynodon transvaalensis) cv. ‘Tifgreen’. The addition of gibberellic acid (0. 2 mg/l) to the BAP (1 mg/l)‐containing regeneration medium accelerated germination/regeneration of the somatic embryos. Secondary and repetitive somatic embryogenesis, which is rarely reported in monocots, was observed in common bermudagrass (Cynodon dactylon, cv. ‘Savannah’), and a full course of such a development was captured by a periodical microphotography. Scanning electron microscopy further confirmed the observation.     

小麦D型细胞质雄性不育系和保持系小孢子发育的超微结构观察

对小麦D型细胞质雄性不育系和保持系小孢子发育的超微结构观察发现,D型不育系小孢子在“小液泡期”即表现出败育迹象。花粉败育过程中,小孢子液泡膜和细胞质膜断裂破碎,细胞质解体,线粒体、质体、内质网等细胞器解体或退化,绒毡层持续不解体,并缺少乌氏体的分泌。小孢子细胞解体顺序为：细胞膜首先断裂,细胞质分解变稀薄,然后是核膜断裂,细胞核降解,细胞质及细胞核降解物质充满整个药室,最后核仁解体。     

玉米新不育胞质WBMs小孢子败育的细胞学观察

 利用普通光学显微镜和透射电子显微镜研究了新发现的玉米细胞质雄性不育材料WBMs的小孢子败育过程。观察到Mo17cms-WBMs的小孢子在单核花粉中期以前发育正常，部分小孢子从单核花粉晚期质核出现异常，多数小孢子可正常发育到二核花粉期，随后开始崩溃，形成空瘪皱缩的花粉粒。雄性不育材料WBMs胞质的小孢子败育过程与S组唐徐胞质不育材料类似，败育发生晚，绒毡层等体细胞活动正常，属典型的配子体不育类型。