以基因枪介导获转ps1—barnase基因的工程雄性不育水稻植株

以ps1-barnase(brn)为目的基因,pHcintG(PG)为选择/标记基因进行共转化,以PDS-1000-氦气基因枪介导,将brn及PG基因转化到水稻台北309及秋光的核DNA中,得到了转ps1-barnase基因的工程雄性不育植株。以悬浮细胞作为基因枪轰击的靶材料,转化植株再生频率较初级愈伤组织的为高。转brn基因植株的其他主要性状与供体亲本无显著差异,但却表现不育。其不育的程度在不同的植株之间表现不同。在转brn基因植株中观察到全不育(占全部brn阳性植株的40.6％)、高不育(占15.6％)及半不育的个体(占43.7％)。全不育的转基因植株自交完全不能结实(结实率为零),除个别植株外,花粉完全不被I-KI染色;而人工授以正常的花粉则可以获得杂交种子。而brn基因的阴性植株及未进行转化的对照植株则完全可育,表明转基因植株之雄性不育乃brn基因所致。结果表明,brn基因在水稻中是完全可以正常表达的,其表达的时期推测在花粉母细胞减数分裂前至花粉形成之间的整个时期。     

芝麻核雄性不育系ms86-1微粉发生的细胞学观察

芝麻(Sesamum indicum)核雄性不育系ms86-1姊妹交后代表现为可育、部分不育(即微粉)及完全不育(简称不育)3种类型。不同育性类型的花药及花粉粒形态差异明显。Alexander染色实验显示微粉植株花粉粒外壁为蓝绿色, 内部为不均一洋红色, 与可育株及不育株花粉粒的染色特征均不相同。为探明芝麻微粉发生机理, 在电子显微镜下比较观察了可育、微粉、不育类型的小孢子发育过程。结果表明, 可育株小孢子母细胞减数分裂时期代谢旺盛, 胞质中出现大量脂质小球; 四分体时期绒毡层细胞开始降解, 单核小孢子时期开始出现乌氏体, 成熟花粉时期花粉囊腔内及花粉粒周围分布着大量乌氏体, 花粉粒外壁有11–13个棱状凸起, 表面存在大量基粒棒, 形成紧密的覆盖层。不育株小孢子发育异常显现于减数分裂时期, 此时胞质中无脂质小球出现, 细胞壁开始积累胼胝质; 四分体时期绒毡层细胞未见降解; 单核小孢子时期无乌氏体出现; 成熟花粉时期花粉囊腔中未发现正常的乌氏体, 存在大量空瘪的败育小孢子, 外壁积累胼胝质, 缺乏基粒棒。微粉株小孢子在减数分裂时期可见胞质内有大量脂质小球, 四分体时期部分绒毡层发生变形, 单核小孢子时期有部分绒毡层开始降解; 绒毡层细胞降解滞后为少量发育进程迟缓的小孢子提供了营养物质, 部分小孢子发育为正常花粉粒; 这些花粉粒比较饱满, 表面有少量颗粒状突起, 但未能形成覆盖层, 花粉囊腔中及小孢子周围存在少量的乌氏体。小孢子形成的育性类型与绒毡层降解是否正常有关。     

雄性不育与可育楸树花发育的细胞学比较研究

楸树（Catalpa bungei C.A.Meyer.）属紫葳科(Bignoniaceae)梓树属(Catalpa),落叶乔木,是我国特有的珍贵优质用材树种。本文用石蜡切片法对可育株和雄性不育株楸树的大、小孢子发生及雌、雄配子体发育过程进行了详细地比较观察。结果表明：可育株和不育株楸树雌蕊的发育基本相同,胚珠倒生,薄珠心,单珠被,胚囊发育为蓼型。可育株雄蕊花药四室,药隔薄壁组织发达;异型绒粘层,由药壁绒粘层和药隔绒粘层组成;花药壁表皮细胞在小孢子母细胞减数分裂前后开始径向伸长加厚,直到花药开裂并不降解,这可能与花药开裂有关;成熟花粉为四合花粉。雄性不育株花药的早期发育到次生造胞细胞时期与可育雄蕊的相同,小孢子母细胞减数分裂前绒毡层发育不充分;四分体时期,绒毡层细胞高度液泡化,细胞质稀薄,已提前降解,小孢子四分体因绒毡层结构和功能异常而不能正常发育,因此楸树雄性不育为结构型雄性不育。     

远缘杂交油菜核不育系的创建及其细胞学和形态学研究

在甘蓝型油菜与诸葛菜以及芥菜型油菜与诸葛菜属间杂交后代中分别发现1个和3个不育材料,经杂交和多代近交育成了相应的甘蓝型油菜不育系。通过对核不育系体细胞鉴定表明,所有新发现的不育系染色体数为38,均已恢复到甘蓝型油菜。这些不育系绝大部分花粉母细胞（PMC）在中期Ⅰ、后期Ⅰ和后期Ⅱ 3个时期染色体行为表现正常,但不同时期的PMC均会出现一定比例的异常现象,主要表现为染色体落后或染色体桥等。这些不育系属于单核败育型,不育株与可育株的花器形态差异明显,不育系还存在不同程度的死蕾等特点。通过对花器生长过程的研究,发现不育株雌蕊生长随雄蕊败育进程逐渐加快,而可育株雌蕊生长则存在两个生长缓慢阶段。此外,文章还讨论了这些不育系的应用前景。     

The DUET gene is necessary for chromosome organization and progression during male meiosis in Arabidopsis and encodes a PHD finger protein

Progression through the meiotic cell cycle is an essential part of the developmental program of sporogenesis in plants. The duet mutant of Arabidopsis was identified as a male sterile mutant that lacked pollen and underwent an aberrant male meiosis. Male meiocyte division resulted in the formation of two cells instead of a normal tetrad. In wild type, male meiosis extends across two successive bud positions in an inflorescence whereas in duet, meiotic stages covered three to five bud positions indicating defective progression. Normal microspores were absent in the mutant and the products of the aberrant meiosis were uni- to tri-nucleate cells that later degenerated, resulting in anthers containing largely empty locules. Defects in male meiotic chromosome organization were observed starting from diplotene and extending to subsequent stages of meiosis. There was an accumulation of meiotic structures at metaphase 1, suggesting an arrest in cell cycle progression. Double mutant analysis revealed interaction with dyad, a mutation causing chromosome cohesion during female meiosis. Cloning and molecular analysis of DUET indicated that it potentially encodes a PHD-finger protein and shows specific expression in male meiocytes. Taken together these data suggest that DUET is required for male meiotic chromosome organization and progression.     

太空诱变玉米核不育材料花粉败育的细胞学观察(简报)

玉米是最早利用雄性不育系生产杂交种的作物之一。在玉米T型细胞质雄性不育杂交种遭受毁灭性病害侵袭之后,科学家认识到利用细胞质雄性不育制种存在潜在的遗传脆弱性,从此试图通过多种途径来创造新的雄性不育．并对雄性不育材料的遗传多样性进行研究。空间诱变育种是80年代于我国发展起来的新技术,在农作物品种改良和种质创新上已初见成效。[第一段]     

Pollen semi-sterility1 encodes a kinesin-1-like protein important for male meiosis, anther dehiscence, and fertility in rice

In flowering plants, male meiosis produces four microspores, which develop into pollen grains and are released by anther dehiscence to pollinate female gametophytes. The molecular and cellular mechanisms regulating male meiosis in rice (Oryza sativa) remain poorly understood. Here, we describe a rice pollen semi-sterility1 (pss1) mutant, which displays reduced spikelet fertility (~40%) primarily caused by reduced pollen viability (~50% viable), and defective anther dehiscence. Map-based molecular cloning revealed that PSS1 encodes a kinesin-1-like protein. PSS1 is broadly expressed in various organs, with highest expression in panicles. Furthermore, PSS1 expression is significantly upregulated during anther development and peaks during male meiosis. The PSS1-green fluorescent protein fusion is predominantly localized in the cytoplasm of rice protoplasts. Substitution of a conserved Arg (Arg-289) to His in the PSS1 motor domain nearly abolishes its microtubule-stimulated ATPase activity. Consistent with this, lagging chromosomes and chromosomal bridges were found at anaphase I and anaphase II of male meiosis in the pss1 mutant. Together, our results suggest that PSS1 defines a novel member of the kinesin-1 family essential for male meiotic chromosomal dynamics, male gametogenesis, and anther dehiscence in rice.     

白菜细胞核雄性不育花药的细胞化学观察

对一种由一对隐性基因控制的白菜细胞核雄性不育和可育株的花药进行了细胞学和组织化学研究。种子播种后,有1／4植株为不育株,其余的为可育株。通过对不育株和可育株花药发育的细胞学观察,确认不育花粉的败育发生在小孢子发育时期。用组织化学的方法研究了可育株和不育株花药发育过程中的多糖和脂类的分布动态,发现在减数分裂前,可育花药和不育花药的药隔细胞中都储藏了大量的淀粉粒。二者的差异仅是不育花药的绒毡层细胞液泡化明显。在减数分裂后的小孢子发育时期,可育花药的绒毡层细胞具有将药隔细胞中的淀粉粒多糖吸收并转化成脂类的功能,小孢子及以后的二胞花粉中也积累了大量的脂类储藏物质。在不育花药中,虽然减数分裂后药隔细胞中的淀粉粒也都消失,但绒毡层细胞中的脂类物质相比很少,同时绒毡层细胞显示了明显的多糖反应,表明不育花药的绒毡层细胞将糖类转化为脂类的功能受阻。在小孢子的表面有些脂类物质,但在细胞质中却没有脂类积累。这一结果暗示在该种白菜细胞核雄性不育株中,由于花药绒毡层细胞转换多糖为脂类的功能失常,导致了小孢子的败育。     

大麦核质互作型雄性不育系花粉败育过程的细胞学研究(简报)

雄性不育系在作物的杂种优势利用中具有重要的价值。研究其花粉败育过程有利于了解败育机理,并为化学杀雄和化学保雄提供理论     

新型甘蓝型油菜温敏核不育系SP2S的花药发育解剖学观察

SP2S是西北农林科技大学选育的甘蓝型油菜温敏核不育系,本文采用半薄树脂切片、扫描电镜对SP2S及其可育近等基因系SP2F的花药发育及花粉形态进行观察比较,发现SP2S花药发育在减数分裂时期出现异常,单核花粉时期彻底败育。其主要特征是：减数分裂时期绒毡层已经径向肥大且出现大液泡,胼胝质不能及时降解,使得单核小孢子相互粘连在一起,小孢子无花粉壁的形成且细胞质物质逐渐降解,最后小孢子仅剩下空壳残留物,聚集在一起。SP2S败育特征与现有的核不育材料不同,表明其有可能是一种新型温敏核不育材料。     

TA29—Barnase嵌合基因导入对烟草花药绒毡层及花粉发育的影响

比较研究了烟草(Nicotiana tabacum L.)TA29-Barnase转基因不育植株和正常植株的花药绒毡层及花粉发育的全过程。研究表明,外源基因在花药中特异表达导致绒毡层细胞的提前降解,这种降解一般在减数分裂早期开始,至四分体时期完成,而正常花药绒毡层的降解发生在二细胞雄配子体初期,至花粉发育的后期方才完成。转基因植株花药绒毡层的降解在细胞结构上表现为:最初发生细胞的液泡化,然后细胞核凝聚,最后整个细胞溃解。转基因植株的花粉母细胞则在减数分裂过程中逐渐降解、退化,只有少数花粉母细胞能够顺利完成减数分裂发育成小孢子。观察结果还表明外源基因在花药中的表达是不均一的。对转基因不育和自然败育在细胞结构上的不同表现进行了讨论。     

Effects of Introducing the Chimaeric Gene TA29 Barnase on the Tapetum and Pollen Development in Tobacco

The development of tapetum and pollen in transgenic tobacco (Nicotiana tabacum L. ) harboring a chimaeric gene TA29-Barnase was compared with that of the wild-type plant. The specific expression of the exogenous genes in anther led to premature tapetal degradation, which started at the early stage of meiosis and terminated at the tetrad stage. In the wild-type anthers, tapetal degradation started at the early stage of bicellular microgametophyte and ended at the later stage of pollen development. The cytological changes of tapetal degradation in the transgenic plants were characterized by vacuolization of the tapetal cells, then nuclear condensation, and consequent massive degradation of tapetal cells. Meanwhile, the pollen mother cells gradually degraded and became destroyed along with the progress of meiosis, leaving only a few which could successfully complete their meiosis to form microspores. This observation also indicated that the TA29-Barnase gene in anther was not uniformly expressed. In addition, the structural difference between the male sterility induced by exogenous gene and the natural sterile was also discussed.     

Linker histones play a role in male meiosis and the development of pollen grains in tobacco

To examine the function of linker histone variants, we produced transgenic tobacco plants in which major somatic histone variants H1A and H1B were present at approximately 25% of their usual amounts in tobacco chromatin. The decrease in these major variants was accompanied by a compensatory increase in the four minor variants, namely, H1C to H1F. These minor variants are smaller and less highly charged than the major variants. This change offered a unique opportunity to examine the consequences to a plant of major remodeling of its chromatin set of linker histones. Plants with markedly altered proportions of H1 variants retained normal nucleosome spacing, but their chromosomes were less tightly packed than those of control plants. The transgenic plants grew normally but showed characteristic aberrations in flower development and were almost completely male sterile. These features correlated with changes in the temporal but not the spatial pattern of expression of developmental genes that could be linked to the abnormal flower phenotypes. Preceding these changes in flower morphology were strong aberrations in male gametogenesis. The earliest symptoms may have resulted from disturbances in correct pairing or segregation of homologous chromosomes during meiosis. No aberrations were observed during mitosis. We conclude that in plants, the physiological stoichiometry and distribution of linker histone variants are crucial for directing male meiosis and the subsequent development of functional pollen grains.     

长春蒲公英雄性不育株形态学观察与败育细胞学研究

在长春蒲公英(Taraxacum junpeianum Kitam.)株群中发现雄性不育现象,为研究其败育机理及特点,探寻其不育基因,采用形态观察法、石蜡切片技术和染色体压片法,对长春蒲公英野生型及其雄性不育株的花药发育过程和花粉母细胞减数分裂过程进行了观察。结果表明:(1)长春蒲公英雄性不育株花药中部发红、干瘪、无花粉散出。与野生型比较,雄性不育株雄蕊更短,子房更窄,种子形态更加狭长;(2)长春蒲公英雄性不育株败育时期为四分体到单核小孢子前期,败育方式为小孢子自身异常发育,绒毡层异常分解,互相粘连败育;(3)长春蒲公英雄性不育株花粉母细胞减数分裂二分体时期出现落后微核,随后产生极少四分体,并且四分体产生大量染色体桥,小孢子营养物质流失,彻底败育。因此,长春蒲公英雄性不育株败育彻底、稳定,并且有种的特点。小孢子自身异常发育和绒毡层异常分解是导致败育的主要原因。     

Ectopic expression of <Emphasis Type="Italic">MNX</Emphasis> gene from <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> involved in auxin biosynthesis confers male sterility in transgenic cotton (<Emphasis Type="Italic">Gossypium hirsutum</Emphasis> L.) plants

A transgenic male sterile line of upland cotton was generated by the ectopic expression of the monooxygenase (MNX) gene from Arabidopsis thaliana via Agrobacterium-mediated transformation. The bacterium harbored a plasmid pBinplus carrying a 1.25-kb MNX coding sequence together with a GUS reporter gene; the former was driven by the MS2 promoter of a male sterility gene in Arabidopsis, and the latter was under the control of CaMV 35S promoter. Twenty-seven putative transgenic plants (T₀) were obtained, all of which showed GUS activity and positive signals of NPTII and MNX genes by PCR analysis, and also showed male sterility to some extent. It was further confirmed by Southern blotting that one copy of the NPTII and MNX gene was integrated in the genome of the plants which expressed male sterility to a higher degree. Northern blotting assay also demonstrated that the transgenes stably transcribed in the genome of the transgenic plants in F₄ generation. The male sterile plants usually display lower plant height, shortened internodes, shrunken anthers without pollen grains or with some abortive pollen grains, and unusual leaves with deeper multi-lobes. Microscope observations on the meiosis processes of pollen mother cells (PMCs) showed that the abortion of pollen grains mainly resulted from abnormalities of meiosis such as direct degeneration of PMCs, degenerations of dyad and tetrads, amitosis, lagging chromosomes, and the multi-polar segregations of chromosomes and so on. This study indicates a method of developing novel cotton male sterile materials for potential application in agriculture and for engineering of male sterility in other important crops.     

Meiotic abnormality in dominant genic male sterile Brassica napus

Rs1046AB is a dominant genic male sterile (DGMS) Brassica napus line derived from Yi-3A. Until now the molecular mechanism of its male sterility is still unknown. In this paper, cytological observations demonstrated that all cells in sterile plants contained condensed nuclei at the beginning stage of meiosis; this implied that meiotic cells were degenerating. Although 31% (93/300) cells escaped from the state of nuclei condensation in buds about 3 mm in length (in such length, normal plants are at tetrade stage), no cells could pass the pachytene stage. Then pachytene or zygotene like chromatin/chromosomes sometimes congregated into two or more groups with different size, which resulted in the formation of micronuclei. Nucleoplasmic bridge could also be found in some meiotic cells. Even when the "microspore's analogue" appeared in sterile buds about 4 mm in length (in such length, mature pollens could be detected in normal buds), the nuclei condensation and escaped cells with pachytene like chromosome still could be found in the sterile anthers. So it could be concluded that male sterility was caused by meiotic abnormality. According to our previous research, four genes related to cell cycle/DNA processing were identified in fertile plants. RT-PCR further confirmed that three DNA repair genes were partially or completely repressed in the sterile plants, and were only expressed in the early stage fertile flower buds, i.e. the buds <3 mm in length. Therefore, DGMS of rapeseed was probably caused by the abnormality in DNA damage repair system during meiosis. According to these results, some possible mechanisms of fertility control were discussed.     

白菜核雄性不育系可育和不育花药中Ca2+的分布

研究了白菜(Brassica campestris L. ssp.chinensis Makino)细胞核雄性不育系花药中Ca2 的分布特征.在可育花药发育过程中,减数分裂后花药壁细胞中钙颗粒明显增加.早期小孢子开始积累钙颗粒并特异性地附在小液泡膜上.小孢子分裂后,大液泡消失过程中又伴随着许多钙颗粒附在小液泡膜上,显示出Ca2 与花粉中液泡的形成和分解有关.在不育花药中,最早出现的钙颗粒异常分布是在小孢子母细胞的胼胝质壁中积累了较多的钙颗粒.然而,在小孢子细胞质中钙颗粒一直很少,也不形成大液泡,最后通过细胞质收缩的方式败育.这是首次发现Ca2 参与调控花药发育过程,其异常分布与花粉败育密切相关.     

Drought-induced male sterility in rice: Changes in carbohydrate levels and enzyme activities associated with the inhibition of starch accumulation in pollen

Male reproductive development of rice (Oryza sativa L.) is very sensitive to drought. A brief, transitory episode of water stress during meiosis in pollen mother cells of rice grown under controlled environmental conditions induced pollen sterility. Anthers containing sterile pollen were smaller, thinner, and often deformed compared to normal anthers of well-watered plants. Only about 20% of the fully developed florets in stressed plants produced grains, compared to 90% in well-watered controls. Water stress treatments after meiosis were progressively less damaging. Levels of starch and sugars and activities of key enzymes involved in sucrose cleavage and starch synthesis were analyzed in anthers collected at various developmental stages from plants briefly stressed during meiosis and then re-watered. Normal starch accumulation during pollen development was strongly inhibited in stress-affected anthers. During the period of stress, both reducing and non-reducing sugars accumulated in anthers. After the relief of stress, reducing sugar levels fell somewhat below those in controls, but levels of non-reducing sugars remained higher than in controls. Activities of acid invertase and soluble starch synthase in stressed anthers were lower than in controls at comparable stages throughout development, during as well as after stress. Stress had no immediate effect on ADP-glucose pyrophosphorylase activity, but had an inhibitory aftereffect throughout post-stress development. Sucrose synthase activity, which was, relatively speaking, much lower than acid invertase activity, was only slightly suppressed by stress. The results show that it is unlikely that pollen sterility, or the attendant inhibition of starch accumulation, in water-stressed rice plants are caused by carbohydrate starvation per se. Instead, an impairment of enzymes of sugar metabolism and starch synthesis may be among the potential causes of this failure.