温度对桃离体花药散粉及花粉萌发的影响

以目前生产栽培较多的‘湖景蜜露’、‘霞晖6号’和‘白凤’3个桃品种为试材,连续2年调查了不同温度处理下花药失水率、花药散粉时间以及花粉离体萌发特性等变化。结果表明：桃花药于相对低温条件下散粉失水率较低,随散粉温度升高失水率相应上升;花药开裂所需时间与处理温度呈相反趋势;3个品种花粉离体萌发率随散粉温度的升高而下降。离体花药在超过30℃的温度条件下散出的花粉在萌发过程中出现花粉管变短、花粉瘪小的概率增多的现象,表明高温促使花药脱水和散粉加快,但降低了花粉活力。在桃树花期以及制备花粉时外界环境温度应控制在30℃以下。     

桔梗开花期花粉活力变化对其结实能力的影响

对桔梗花粉离体萌发培养条件进行了筛选,并采用花粉离体萌发法测定了桔梗花粉发育过程中其活力的动态变化,采用人工授粉法对开花后不同时间花粉的授粉结实能力进行了研究.结果显示:(1)桔梗花粉离体萌发的最适温度为30℃,培养1.5 h是花粉管测定的最佳时间.桔梗花蕾期和开花当时花粉离体萌发率和花粉管长度均较低,开花后花粉继续发育,活力逐渐提高,到花后6 h其萌发率和花粉管长度均达到最高,分别为92.2%和602.9 μm,之后活力逐渐下降,花后120 h桔梗花粉的萌发率为63.1%,而花粉管长度只有287.0 μm,仅为花后6 h花粉管长度的47.6%,开花120 h(5 d)后花粉活力下降速度明显加快.(2)桔梗开花后当天花粉人工授粉的结果率、结籽率最高,之后随着花后天数的增加,结果率和结籽率均迅速下降,开花后3 d的花粉结籽率降为0,已完全丧失授粉结实能力.研究表明,在田间条件下,桔梗花粉寿命可保持5 d以上,而授粉结实能力只有2 d左右;花粉管生长缓慢、长度变短可能是导致花后3 d花粉丧失授粉结实能力的主要原因.     

铁皮石斛花粉块结构及发育过程的解剖学特征研究北大核心CSCD

兰科植物的有性生殖特殊,每朵花只有1个花药,且花粉有聚集成块发育的特征。为了揭示铁皮石斛花粉块的发育特征,该研究以野生铁皮石斛不同时期的花药为材料,采用半薄切片和植物组织化学方法对其发育过程进行解剖学观察分析,并对成熟花粉块进行离体培养,观察花粉管的萌发状况。结果表明:(1)铁皮石斛花药壁由1层表皮细胞,2层药室内壁细胞,1层中层细胞和1层绒毡层细胞组成。开花时,绒毡层细胞退化,中层细胞没有退化,药室内壁细胞则形成纤维状细胞壁;药室中的小孢子母细胞没有明显的胼胝质壁结构。(2)小孢子发生属同时型,减数分裂后四分体小孢子不分散,以四合花粉状态发育,并进一步连接形成花粉块。(3)在小孢子发育中,孢粉素覆盖在整个花粉块表面形成花粉外壁,但花粉块内部的花粉没有花粉外壁结构;在花粉块表面的花粉外壁上未见花粉萌发孔。(4)在花粉离体萌发实验中,具有花粉外壁的花粉块表面花粉未见萌发,仅由花粉块内部的花粉萌发出花粉管。     

菠萝蜜花药发育及花粉萌发研究

研究花药发育过程和花粉萌发条件是菠萝蜜稳产优质的基础。采用石蜡切片和离体培养的方法,对菠萝蜜花药的发育和花粉萌发进行了研究,结果表明：菠萝蜜的花药有4个花粉囊;减数分裂的胞质分裂有连续型和同时型两种形式,形成了等双面体排列和四面体排列的四分体;成熟花药的表皮细胞积累有大量的单宁。160 g·L^-1的蔗糖和0.25 g·L^-1的硼酸混合溶液对菠萝蜜花粉萌发具有明显的促进作用,CaCl₂对菠萝蜜花粉萌发作用不明显。     

香港木兰开花生物学研究

对香港木兰的花果期物候、花朵结构、单花期、开花特性及花粉在离体培养和人工授粉条件下的萌发现象进行观察和研究。结果表明,该种的开花习性限制蜂类昆虫在其柱头可授期内进入花内传粉,为专一的甲虫传粉植物;花粉萌发时间长、开花不集中、花期适逢雨季都影响到昆虫的传粉活动和有效受精。     

七叶树花粉活力和柱头可授性变化的研究

采用花粉离体萌发法研究不同蔗糖浓度、硼酸浓度和不同温度对七叶树花粉萌发的影响及花粉活力测定,用联苯胺-过氧化氢法测定柱头可授性.结果表明:七叶树花粉萌发的最佳培养基是12％蔗糖+30 mg/L硼酸,花粉萌发的最适温度为25℃.雄花在开花当天花粉活力最高达75.69％,并在开花当天的上午10:00时,花粉活力最强,10:00～16:00花粉活力保持较高活力,是最佳授粉时段.两性花的柱头可授期持续时间较长,为8～9 d,开花3d达到最强,开花1～4 d柱头可授性保持较高水平,为授粉的最佳时间段.因此,从七叶树的花部特征、花粉活力与柱头可授性及花粉萌发的条件看,在长期的自然选择下七叶树在花部结构和开花生理上都是相配合的,以保障生殖成功.     

响应面法优化麻疯树花粉离体萌发培养基的研究

麻疯树因其种子含油率较高,种子油提炼的生物柴油可部分替代汽油,而成为一种极具潜能的能源作物,但由于产量低,麻疯树在热带、亚热带的发展受到极大限制。杂交育种是提高产量的重要手段,杂交亲本花粉生活力的高低直接影响到育种的成效。因此,寻求麻疯树离体花粉萌发的最适培养基配方,探明花粉萌发培养基中各主要培养基成分间的交互作用对生产上麻疯树杂交结实率和种子产量的提高具有重要意义。该研究以麻疯树开花初期雄花上花药刚散粉时的成熟花粉粒为材料,采用Box-Behnken设计(Box-Behnken design,BBD)的响应面法,对麻疯树花粉离体萌发培养基中各主要培养基成分的浓度配比及各主要培养基成分的交互作用进行了研究。以花粉萌发率为响应指标,建立了4种营养成分(蔗糖、硼酸、硝酸钙、硝酸钾)与花粉萌发率的响应面模型,并对各主要培养基成分的浓度配比进行了优化。通过R软件进行响应面分析的结果表明:4因素对花粉萌发率的影响顺序为蔗糖硼酸硝酸钙硝酸钾;蔗糖与硼酸、蔗糖与硝酸钙、蔗糖与硝酸钾之间的交互作用显著。响应面建模优化后的最佳培养基为13.77%蔗糖+32.14 mg·L~(-1)硼酸+22.21 mg·L~(-1)硝酸钙+19.95 mg·L~(-1)硝酸钾+200 mg·L~(-1)硫酸镁,在此条件下的理论萌发率为99.73%。采用此培养基成分配比得到麻疯树花粉离体试验萌发率为98.97%,与理论响应值相吻合,同时也表明利用BBD设计的响应面模型进行麻疯树花粉离体萌发培养条件优化方法的有效性。     

烟草脱外壁花粉人工萌发与离体授粉实验系统的建立

通过花蕾低温处理、花药漂浮培养与花粉短时酶解程序可脱去花粉外壁,分离出烟草(Nicotianatabacum L.)的脱外壁花粉。研究了分离过程中的酶液渗透压、培养基中聚乙二醇(PEG)与蔗糖以及添加水解乳蛋白等因素对脱外壁花粉人工萌发的影响。在含30％PEG-6000与0.1％水解乳蛋白的D_2培养基中,萌发率最高达57.8％;花粉管生长正常,培养24h后一半以上的花粉管中生殖细胞分裂成精子。用微滴和贴滤纸小片的方法将30～40粒脱外壁花粉授予柱头上,近一半能萌发花粉管并在花柱中生长。采取授粉后子房培养方法,获得了种子与幼苗。从而建立了脱外壁花粉离体授粉实验系统。讨论了脱外壁花粉人工萌发与离体授粉实验系统的建立对于研究外壁在花粉萌发中的生物学功能以及开拓新的转基因技术等方面的意义。     

桃花粉低温和超低温保存方法比较研究

桃(Prunus persica(L.)Batsch)是我国重要的无性繁殖作物种质资源,目前主要保存于3个国家无性繁殖作物种质圃。随着以茎尖、花粉、休眠芽为保存载体的超低温保存技术的发展,超低温保存已成为无性繁殖作物重要备份保存方式。本研究以15份桃种质花粉为研究对象,开展含水量、回湿处理和保存温度(4℃低温保存和液氮超低温保存)对保存后花粉离体萌发率的影响研究。研究结果:明确了桃种质花粉超低温保存的含水量;揭示了回湿处理对部分桃种质花粉超低温保存产生显著影响;超低温保存后花粉离体萌发率最高可达83%;4℃低温保存和超低温保存比较研究结果表明,超低温保存4年后14份桃种质花粉离体萌发率仍可保持30%以上,11份桃种质花粉离体萌发率与保存前花粉离体萌发率相比无显著变化甚至显著提高,而4℃低温保存的花粉离体萌发率降至0。该研究为国家种质库建立花粉规模化超低温保存提供技术支撑。     

光皮桦花粉离体萌发试验

设置若干温度的培养环境以及各种浓度蔗糖、蔗糖+硼酸、蔗糖+硝酸钙、蔗糖+硼酸+硝酸钙培养基,研究温度以及蔗糖、硼、钙对光皮桦花粉离体萌发的影响,探明光皮桦花粉萌发的适宜温度和最佳培养基。结果表明:合适浓度的蔗糖、硼酸和硝酸钙均能显著促进光皮桦花粉萌发,而高浓度的蔗糖、硼和钙均抑制其花粉萌发;光皮桦花粉离体萌发的合适培养基为10%蔗糖+200mg.L-1硼酸+200mg.L-1硝酸钙,适宜培养温度为30℃;在此条件下培养4h后花粉萌发率基本稳定,培养6h后花粉管长度亦趋于稳定。     

Revision of the relationship between anther morphology and pollen sterility by cold stress at the booting stage in rice

Background and AimsCold stress in rice (Oryza sativa) plants at the reproductive stage prevents normal anther development and causes pollen sterility. Tapetum hypertrophy in anthers has been associated with pollen sterility in response to cold at the booting stage. Here, we re-examined whether the relationships between anther abnormality and pollen sterility caused by cold stress at the booting stage in rice can be explained by a monovalent factor such as tapetum hypertrophy.MethodsAfter exposing plants to a 4-d cold treatment at the booting stage, we collected and processed anthers for transverse sectioning immediately and at the flowering stage. We anatomically evaluated the effect of cold treatment on anther internal morphologies, pollen fertilities and pollen numbers in the 13 cultivars with various cold sensitivities.Key ResultsWe observed four types of morphological anther abnormalities at each stage. Pollen sterility was positively correlated with the frequency of undeveloped locules, but not with tapetum hypertrophy as commonly believed. In cold-sensitive cultivars grown at low temperatures, pollen sterility was more frequent than anther morphological abnormalities, and some lines showed remarkably high pollen sterility without any anther morphological alterations. Most morphological anomalies occurred only in specific areas within large and small locules. Anther length tended to shorten in response to cold treatment and was positively correlated with pollen number. One cultivar showed a considerably reduced pollen number, but fertile pollen grains under cold stress. We propose three possible relationships to explain anther structure and pollen sterility and reduction due to cold stress.ConclusionsThe pollen sterility caused by cold stress at the booting stage was correlated with the frequency of entire locule-related abnormalities, which might represent a phenotypic consequence, but not a direct cause of pollen abortion. Multivalent factors might underlie the complicated relationships between anther abnormality and pollen sterility in rice.     

Combination of reversible male sterility and doubled haploid production by targeted inactivation of cytoplasmic glutamine synthetase in developing anthers and pollen

Reversible male sterility and doubled haploid plant production are two valuable technologies in F₁-hybrid breeding. F₁-hybrids combine uniformity with high yield and improved agronomic traits, and provide self-acting intellectual property protection. We have developed an F₁-hybrid seed technology based on the metabolic engineering of glutamine in developing tobacco anthers and pollen. Cytosolic glutamine synthetase (GS1) was inactivated in tobacco by introducing mutated tobacco GS genes fused to the tapetum-specific TA29 and microspore-specific NTM19 promoters. Pollen in primary transformants aborted close to the first pollen mitosis, resulting in male sterility. A non-segregating population of homozygous doubled haploid male-sterile plants was generated through microspore embryogenesis. Fertility restoration was achieved by spraying plants with glutamine, or by pollination with pollen matured in vitro in glutamine-containing medium. The combination of reversible male sterility with doubled haploid production results in an innovative environmentally friendly breeding technology. Tapetum-mediated sporophytic male sterility is of use in foliage crops, whereas microspore-specific gametophytic male sterility can be applied to any field crop. Both types of sterility preclude the release of transgenic pollen into the environment.     

Allelic interaction of F1 pollen sterility loci and abnormal chromosome behaviour caused pollen sterility in intersubspecific autotetraploid rice hybrids

The intersubspecific hybrids of autotetraploid rice has many features that increase rice yield, but lower seed set is a major hindrance in its utilization. Pollen sterility is one of the most important factors which cause intersubspecific hybrid sterility. The hybrids with greater variation in seed set were used to study how the F(1) pollen sterile loci (S-a, S-b, and S-c) interact with each other and how abnormal chromosome behaviour and allelic interaction of F(1) sterility loci affect pollen fertility and seed set of intersubspecific autotetraploid rice hybrids. The results showed that interaction between pollen sterility loci have significant effects on the pollen fertility of autotetraploid hybrids, and pollen fertility further decreased with an increase in the allelic interaction of F(1) pollen sterility loci. Abnormal ultra-structure and microtubule distribution patterns during pollen mother cell (PMC) meiosis were found in the hybrids with low pollen fertility in interphase and leptotene, suggesting that the effect-time of pollen sterility loci interaction was very early. There were highly significant differences in the number of quadrivalents and bivalents, and in chromosome configuration among all the hybrids, and quadrivalents decreased with an increase in the seed set of autotetraploid hybrids. Many different kinds of chromosomal abnormalities, such as chromosome straggling, chromosome lagging, asynchrony of chromosome disjunction, and tri-fission were found during the various developmental stages of PMC meiosis. All these abnormalities were significantly higher in sterile hybrids than in fertile hybrids, suggesting that pollen sterility gene interactions tend to increase the chromosomal abnormalities which cause the partial abortion of male gametes and leads to the decline in the seed set of the autotetraploid rice hybrids.     

Induction of embryogenic pollen grains in situ and subsequent in vitro pollen embryogenesis in Nicotiana tabacum by treatments of the pollen donor plants with feminizing agents

Tobacco plants ( Nicotiana tabacum L., var. Badischer Burley) were treated with chemicals (sprays and soil drenches) known to affect sex expression in other species. Their effect was tested on sex balance, pollen sterility, embryogenic pollen grain (P-grain) formation in situ, and on pollen plant formation in anther and pollen cultures after anther preculture. Napthalene acetic acid (NAA) increased the length of pistils and stamens and shifted sex balance towards femaleness when the plants were raised in long or short days at 24 or 15°C. In parallel, pollen sterility, P-grain frequency in situ and pollen plant production from anther and pollen cultures were increased by NAA. Alar 85 redueed the length of pistils and stamens and shifted sex balance towards femaleness when the plants were raised in long days at 24°C, but shifted it towards maleness in short days and/or at 15°C. In parallel, pollen sterility, P-grain frequency in situ, and pollen plant production in vitro were increased when plants in long days at 24°C were treated with Alar 85, but decreased when plants in short days and/or at 15°C were treated. Ethrel, Cycocel, and GA₃ applied in a similar manner, were ineffective. Water sprays and nitrogen starvation shifted sex balance towards femaleness in long days at 15°C and increased pollen sterility, P-grain frequency in situ and pollen plant production in vitro. At 24°C, water sprays and nitrogen starvation had no effect.     

Expression of <Emphasis Type="Italic">Aprotinin</Emphasis> in Anther Causes Male Sterility in Tobacco var <Emphasis Type="Italic">Petit havana</Emphasis>

Expression of many proteinases has been documented during anther development. Although their roles are not completely understood, their inhibition could possibly result in impairment of anther development leading to male sterility. We proposed that such an impairment of anther development can be engineered in plants resulting in male sterile plants that can be used for hybrid seed production. Here, we report that anther-specific expression of Aprotinin gene (serine proteinase inhibitor) in tobacco has resulted in male sterility. Southern analysis and zymogram analysis confirmed the integration and expression of Aprotinin gene in the anthers of the transgenic plants. Transverse sections of anthers of transgenic male sterile plants showed damaged tapetum. The pollen germination in the transgenic plants ranged between 2% and 65% that confirmed the impairment in pollen production leading to male sterility and low seed yield. Thus, inhibition of serine proteinases that are expressed during anther development has resulted in impaired pollen production and male sterility, though the exact role of these proteinases in anther development still has to be elucidated.     

Reversible male sterility in transgenic tobacco carrying a dominant-negative mutated glutamine synthetase gene under the control of microspore-specific promoter

Metabolic engineering was used to disrupt glutamine metabolism in microspores in order to block pollen development. We used a dominant-negative mutant (DNM) approach of cytosolic glutamine synthetase (GS1) gene under the microspore-specific promoter NTM19 to block glutamine synthesis in developing pollen grains. We observed partial male sterility in primary transgenic plants by using light microscopy, FDA, DAPI and in vitro pollen germination test. Microspores started to die in the early unicellular microspore stage, pollen viability in all primary transgenic lines ranged from 40-50%. All primary transgenics produced seeds like control plants, hence the inserted gene did not affect the sporophyte and was inherited through the female germline. We regenerated plants by in vitro microspore embryogenesis from 4 individual lines, pollen viability of progeny ranged from 12 to 20%, but some of them also showed 100% male sterility. After foliage spray with glutamine, 100% male-sterile plants were produced viable pollen and seed set was also observed. These results suggested that mutated GS1 activity on microspores had a significant effect on normal pollen development. Back-cross progenies (T2) of DH 100% male-sterile plants showed normal seed set like primary transgenics and control plants.     

Somaclonal variability of sugarbeet plants on the basis of pollen sterility

The nature of pollen sterility in sugarbeet regenerated plants obtained from callus cultures of inbred lines has been investigated. It has been shown that detected male sterility of plants can be caused both by epigenetic and mutation factors. The forms with cytoplasmic and nuclear sterility have been selected.     

In-situ seed production after pollination with in-vitro-matured,isolated pollen

Immature tobacco (Nicotiana tabacum L.) pollen has been isolated from anthers in three distinct stages of development, including the microspore stage. In in-vitro cultures, fully functional, mature pollen was obtained. In a germination medium, this pollen produced pollen tubes. After application to stigmas in situ, the in-vitro-matured pollen fertilized ovules, and seeds were produced. Genetic tests with seedlings obtained from pollinations with in-vitro-matured pollen from a transgenic plant revealed normal Mendelian segregation of two marker genes, the neomycin-phosphotransferase II gene and the nopaline-synthase gene. These results are of interest with respect to the control of self-incompatibility, cytoplasmic male sterility and pollen-allergen formation, and it offers an alternative route for gene transfer in those plants which cannot be regenerated in vitro.Abbreviations cms cytoplasmic male sterility; AMGLU, MS, M2S, MR26 - GK culture media, see Material and methods     

Male Sterility in Tomato

Male sterility research has been directed toward two goals: identifying genes required for the pollen development pathway and, more practically, identifying genetically stable lines that can be used in hybrid seed-breeding programs. The present resurgence of interest in male sterility remains true to these goals, but in addition seeks a molecular understanding of pollen development in order to genetically engineer controllable male sterility for hybrid seed production. In this review, we discuss the genetic and histochemical studies of tomato male sterile mutants that were conducted prior to 1970 in the context of gene expression and interaction. We also examine the use of molecular biological techniques in recent studies of male sterility and report on the current strategies being used for hybrid seed production.     

辣椒雄性不育材料小孢子发生的细胞形态学观察

用石蜡切片技术,在光学显微镜下观察了辣椒雄性不育材料1A及其保持系1B的小孢子发育过程和各时期的形态特征.结果表明,雄性不育材料1A的小孢子败育发生在四分体至单核花粉粒时期,此时绒毡层细胞异常肥大,四分体受到挤压后破裂并降解,无法形成正常的单核花粉粒.扫描电镜观察结果表明,保持系1B的花粉粒结构完整,表面有3个明显的萌发沟;而雄性不育材料1A的成熟花粉粒形状不规则,空瘪,有部分花粉粒解体,败育比较彻底,说明该雄性不育材料在辣椒育种工作中有较高的利用价值.