荞麦亲和与不亲和授粉后柱头和花粉管中ATP酶的超微细胞化学定位

利用磷酸铅沉淀技术对荞麦(Fagopyrum esculentum Month.)pin型植株分别进行亲和授粉和不亲和授粉后的柱头、花粉粒、花粉管进行了ATPase的超微细胞化学定位。结果表明(1)亲和授粉和不亲和授粉后0.5h,柱头细胞的ATPase活性反应水平较低或基本无酶活性;柱头表面、柱头上附着的花粉粒内ATPase活性在不亲和授粉时较低,亲和授粉时较高,花粉粒内ATPase主要定位于线粒体和精子细胞;(2)授粉后1.5h,不亲和授粉的柱头细胞及花粉管的ATPase活性均较低,花粉管停止生长,细胞质开始解体;而亲和授粉的柱头细胞及花粉管的ATPase活性均较高,ATPase主要定位于柱头细胞的质膜、胞基质以及花粉管的壁、质体的膜、高尔基体、线粒体上。根据不同时期不同部位ATPase活性的差异,我们认为荞麦发生自交不亲和时,花粉管在花柱中停止生长不仅是因为花粉管得不到花柱中的营养物质而引起的,可能也与花粉管自身物质代谢发生障碍有关。     

艳丽耳草的二型花柱及异型自交不亲和系统

异型花柱是一种受遗传因素控制的花型多态性现象,包括二型花柱和三型花柱两种类型.本文以茜草科艳丽耳草(Hedyotis pulcherrima)为实验材料,通过对其野外居群的花型、花部形态及花粉特征等观察,发现艳丽耳草野外居群同时存在长花柱型花和短花柱型花,长/短花柱型花的数量比例为1∶1.两型花具有精确的交互式雌雄异位特征,并且该特征与花冠长度相关性显著.长/短花柱型花的柱头裂片长度、花粉大小及淀粉含量等具有二型性.花粉体外培养时花粉萌发率及花粉管生长速率无显著性差异.人工授粉后,艳丽耳草长/短花柱型花型间异交花粉管生长形态正常,授粉24 h后花粉管均已进入子房.而长/短花柱型花在自交及型内异交下均表现为不亲和,花粉管生长停止于柱头,花粉管顶端累积胼胝质并膨大.艳丽耳草没有无融合生殖现象,型间人工辅助异交授粉结实率为100％,显著高于自然结实率.本研究结果表明,艳丽耳草是典型的二型花柱植物,并具有异型自交不亲和系统.     

百合远缘杂交花粉萌发及花粉管生长过程观察

利用荧光显微镜对百合远缘杂交组合Bernini×Pollyanna花粉萌发及花粉管生长过程进行观察研究,结果显示,授粉后3~30 h内花粉萌发形成花粉管,且花粉管生长速度由快到慢,48~51 h内花粉管停止生长,花粉管最后深入到花柱的1/3处,并观察到一些异常的花粉管形态;花粉管生长过程中还伴随着一系列的胼胝质反应,出现的部位依次是乳突细胞、花粉管、花柱通道细胞、胚珠中的胚囊.结果表明该杂交组合不亲和.研究认为Berni-ni柱头乳突细胞是阻碍Pollyanna花粉管生长的第一道屏障,花柱通道细胞是抑制花粉管在花柱内生长的第二道屏障.     

枇杷少核株系花粉管生长差异研究

以‘大五星’枇杷退化种子少核株系‘川农1号’(C1)为试材,以‘大五星’枇杷自花授粉为对照,采用荧光显微技术,对枇杷少核株系自花、异花授粉后花粉管生长情况进行观察。结果表明:(1)C1株系异花授粉后花粉能在柱头上萌发,并伸入中央花柱道,在授粉后48h左右到达花柱基部。(2)C1株系自花授粉后,花粉萌发与花粉管的伸长速度相对于异花授粉滞后,自花授粉后36h大多数花粉管到达花柱的中上部并停止生长,且伴随产生花粉管顶端形态异常、荧光异常明亮等现象,最终只有极少数花粉管能到达花柱基部。研究表明,C1株系为配子体自交不亲和,C1株系的自交不亲和性是引起其少核的重要原因之一。     

猕猴桃花粉原位生长过程中Ca2+的超微细胞化学定位

应用扫描电镜和荧光显微镜对软枣猕猴桃同种花粉在柱头上原位萌发及花粉管生长情况进行了观察,并用焦锑酸盐沉淀法对其授粉前后柱头及花柱中Ca2+进行超微细胞化学定位.结果显示:(1)猕猴桃柱头属于干性柱头,具有一道裂沟,乳突呈长圆柱形,授粉前后形态差异不明显.(2)授粉后3 h,花粉管生长穿过柱头表面,授粉后7 h,花粉管生长到达花柱底部;(3)授粉前后,柱头接受面靠近柱头外围细胞的角质层一侧细胞器内含有丰富的钙,而柱头非接受表面钙颗粒分布很少;(4)授粉前和授粉后3 h,花柱顶端钙颗粒较少,基部钙颗粒较多;授粉后7 h,花柱顶端和基部钙分布密度无明显差别;(5)授粉前后花柱顶端钙主要均匀分布在细胞质膜位置;在花柱基部授粉前钙主要分布在引导组织胞间隙中,授粉后3 h主要分布在细胞质内,授粉后7 h主要存在于细胞质、内质网上.研究表明,猕猴桃授粉前后,柱头和花柱组织中均含有钙,授粉前和授粉后3 h花柱中的钙呈现出梯度分布,授粉后7 h钙的梯度分布现象减弱甚至消失.     

‘晚大新高’梨授粉及受精过程的显微动态研究

应用荧光显微法和石蜡切片解剖法对‘晚大新高’梨授粉受精过程进行了系统观察研究。结果表明：‘晚大新高’梨自花授粉不结实;异花最佳授粉品种为‘黄花’,其次为‘翠冠’和‘丰水’。与选用‘黄花’为异花授粉品种相比,自花和异花的授粉受精过程存在明显差异,自花花粉在授粉后2h开始萌发,8h花粉管生长至离柱头约1／3处停止生长,顶端膨大呈球形,表现出自交不亲和性;异花花粉在授粉后1h开始部分萌发,8h花粉管生长至花柱中部,24h到达花柱基部并进入子房,48h进入胚囊,72h完成双受精过程。     

青花菜自交不亲和特性的荧光鉴定

利用亲和指数和荧光显微测定法对青花菜高代自交材料进行自交不亲和特性的快速鉴定。利用蕾期和花期授粉进行亲和指数测定。荧光显微观察发现自交亲和材料与不亲和材料蕾期授粉花粉能够正常萌发,花粉管穿越柱头乳突细胞到达子房完成授粉受精过程;自交不亲和材料花期授粉后花粉与柱头乳突细胞表面发生强烈胼胝质反应,花粉在柱头上不能萌发,即使有少量萌发,其花粉管生长也不正常,最终不能伸入柱头。荧光显微观察法结果准确、方便,受外界环境条件影响较小,且与亲和指数法鉴定结果相一致,可有效应用于青花菜自交不亲和特性的快速鉴定,从而加速新品种选育进程。     

羊蹄甲种间杂交不亲和初探

通过花粉活力测定和荧光显微技术对南非羊蹄甲与湖北羊蹄甲种间杂交不亲和原因进行了探讨.结果发现,花粉活力不是限制杂交不亲和的主要因子;通过荧光观察发现,南非羊蹄甲的花粉可以在湖北羊蹄甲的柱头上萌发生长,但伴有大量异常现象出现,表现为授粉后柱头的乳突细胞立即出现胼胝质反应,花粉管在柱头上盘绕,生长弯曲折叠,顶端膨大,异常变细,或先端沉积胼胝塞而中途停止生长,初步推断杂交后花粉管生长的异常行为是种间杂交不亲和的主要原因;从杂交后胚囊处的胼胝质反应看,杂交不亲和原因也有可能是雌雄配子体未能结合,或能正常受精,但受精后胚和胚乳发育不协调导致雌蕊脱落而不能得到种子.     

青篱柴通过促进亲和花粉生长而提高传粉精确性

异型花柱植物的适应意义在于提高亲和花粉的传递, 从而促进异交, 但是有不少研究发现柱头上落置了大量不亲和花粉。目前, 很少有人研究柱头是否有利于亲和花粉的萌发和花粉管伸长, 以及通过去雄处理排除花内和植株内不亲和花粉干扰从而验证二型花柱植物是否可以促进异交。本研究以亚麻科青篱柴属(Tirpitzia)的二型花柱植物青篱柴(T. sinensis)为研究对象, 分居群调查了青篱柴长、短柱型的植株数量, 测量不同柱型的花粉与柱头大小以及观察其表面纹饰, 测定不同开花时间长、短柱型的柱头活性与花粉活力, 统计自然状态下柱头上落置的不同表型花粉比例, 进一步统计花内、株内去雄和自然对照下柱头上落置的不同表型花粉比例, 计算型间、型内和混合授粉花粉管长度和花粉萌发率, 人工授粉检测其是否型内异交不亲和与自交不亲和。结果表明, 自然居群中长、短柱型青篱柴植株数量没有显著性差异; 短柱型青篱柴花粉体积显著大于长柱型, 且二者花粉表面纹饰不同, 但不同柱型的柱头表面积与表面纹饰无差异; 青篱柴开花第一天的花粉活力显著高于开花第二天, 而柱头活性在开花前两天无显著性差异; 自然状态下柱头上落置的不亲和花粉比例显著高于亲和花粉; 在长柱型青篱柴中, 花内和株内去雄显著提高了柱头上亲和花粉的落置比例; 柱头上授型内花粉, 其花粉萌发率和花粉管的长度都显著低于授型间花粉; 授粉结果表明青篱柴为型内异交不亲和与自交不亲和。二型花柱植物通过促进亲和花粉的萌发和花粉管的伸长而有利于型间授粉, 从而显著提高其传粉精确性。     

观察荞麦花柱中花粉管的方法

观察花粉粒在柱头上萌发和花粉管在花柱中的生长情况 ,较简便的方法是利用脱色苯胺蓝染色 ,在荧光显微镜下观察。此法简单 ,而且效果也很好 ,但是只能临时观察 ,不能长期保存 ,而且要求实验室必须有荧光显微镜设备 ,因此在实际教学中仍有许多不便之处。我们根据前人观察花粉管的方法 ,在荞麦花粉管的观察中进行了试验 ,并做了某些改进 ,效果较好 ,现介绍如下。1　取材　　取当天上午开花并授粉后的荞麦花柱 (授粉后 3 0～60 min之间为宜 ,以保证花粉管萌发生长在花柱中 )。2　操作步骤1 )固定　用卡诺氏固定液或 FAA固定液固定。然后换洗…     

Fluorescence and scanning electron microscopic study on self-incompatibility in distylous Averrhoa carambola L.

Various combinations of intermorph, selfing and intramorph pollinations were carried out in Averrhoa carambola and the pollinated pistils were observed under fluorescence and scanning electron microscopes in time-course experiments. In both compatible and incompatible pollinations, similar behavior of pollen germination and penetration was observed in the first 4 h after pollination. In compatible intermorph pollination, pollen tubes were found at the base of the transmitting tract of the style at 8 h and 24 h after pollination in both the pin and thrum morphs. With thrum flowers, selfing resulted in pollen tubes being uniformly arrested at the junction between the stigmatic and stylar tissues. Penetration of pollen tubes into the upper portion of style was observed in thrum intramorph pollination and, when the second member was treated as the gynoecial tissue under the same pollination, penetration of tubes was further enhanced. Pin flowers, on selfing, resulted in pollen tube penetration farther down the style than was the case with thrum selfing. Intramorph pollination of pin morph behaved in a similar manner to selfing and was not affected by genotypes. Beside the stamen-style dimorphism, the receptive surface of the cob stigma was larger in pin than thrum flowers. While pin pollen was round, thrum pollen was oblong in shape with pin to thrum ratio on the polar axis being 1.2 and on the equatorial axis 0.8. The stigma of pin morph belonged to the dry type, while that of the thrum resembled the wet type.     

Studies on heteromorphic self-incompatibility systems: Physiological aspects of the incompatibility system of Primula obconica

Summary In Primula obconica, a species with a heteromorphic self-incompatibility system, the distinction between compatible and incompatible pollen tubes takes place on the stigma surface in thrum flowers, self tubes growing randomly over the papillar cells. No differences were seen between self and cross tube behaviour on the pin stigma surface, but self tubes were inhibited within the stigmatic tissue with differences in tube length evident after 24 h. The stigma surface bears a proteinaceous pellicle and binds the lectin Concanavalin A. Removal of the stigma removes the incompatibility barrier in mature gynoecia. Bud pollination shows that pollen tubes cannot grow in a normal manner on immature stigmas; the random growth of tubes over the stigma surface resembles that of mature thrum selfs. Fewer compatible tubes reach the style base of young gynoecia and smaller numbers of seeds are set than in mature flowers. Pin and thrum pollen grains germinate and grow in aqueous media, thrum tubes growing longer than pin. The presence of H₃BO₄ and CaCl₂ in the growth medium promotes tube elongation and lengths equivalent to compatible styles can be obtained. The pollen grains have proteinaceous materials in their walls which diffuse out on moistening. Prolonged washing in aqueous media removes these materials but the incompatibility reaction remains unchanged. Thus the incompatibility reaction is between pollen tubes and stigmatic tissue and differs from the homomorphic, sporophytic system where pollen wall proteins elicit the incompatibility response.     

Adhesion and guidance in compatible pollination

The mechanisms of compatible pollination are less studied than those of incompatible pollination and yet most of the angiosperms show self-compatibility. From the release of pollen from anthers to the penetration of the micropyle by the pollen tube tip, there are numerous steps where the interaction between pollen and the pistil can be regulated. Recent studies have documented some diverse ways in which pollen tubes carrying sperm cells are guided to the ovules through the pistil extracellular matrices of the transmitting tract. What is still missing is an understanding of pollen tube cell biology in vivo. A recent finding supports the role of the synergids in the crucial guidance cue for the pollen tube tip at the micropyle, but experimental evidence for other 'guidepost' cells in the pistil is still lacking. The fact that the pollen tube must first travel through the matrices of the stigma and style before it can respond to the cue from the ovule makes it likely that there is a hierarchy of signalling events in pollen-pistil interactions starting at the stigma and ending at the micropyle. On the pistil side, several model systems have been used in the discovery of molecules implicated in either physical or chemical guidance. In lily, which has a hollow style, adhesion molecules (pectin and SCA) are implicated in guidance. SCA alone is also capable of inducing pollen chemotropism in an in vitro assay, suggesting that this peptide plays a dual role in lily pollination: chemotactic in the stigma and haptotactic (adhesion mediated) in the style.     

Growth of Trifolium pratense L. Pollen tubes in compatible and incompatible styles of excised pistils

Summary The excised pistil technique was used to study effects of pollen treatments on self-incompatibility in red clover. Pollen was treated directly with infrared or ultraviolet radiation, and indirectly with chemicals that were applied to the stigmas before pollination. The chemicals (boric acid, calcium nitrate, colchicine, cyclohexamide, gibberellic acid, glycine, and indole butyric acid) were each used at five concentrations. High dosage rates of most treatments inhibited pollen growth in styles that were genetically compatible, but none of the treatments had a specific effect on the self-incompatibility mechanism.The effects of growth of compatible or incompatible pollen tubes in a style on subsequent growth of both types of pollen tubes in the same style were studied in an experiment with 6 hr between pollinations. The passage of some compatible pollen tubes through the style did not influence either self- or cross-compatibility in the style after the second pollination. The passage of some self-incompatible tubes into the styles caused a slightly higher number of incompatible tubes to penetrate the style after the second pollination. Each pollen tube appeared to traverse the style independently of other tubes.Cooperative research by Crops Research Division, Agricultural Research Service, U.S. Department of Agriculture, and the Kentucky Agricultural Experiment Station. This article (70-3-163) is published with approval of the Director of the Kentucky Agr. Exp. Sta.     

Pollen-tube behavior and embryo development in interspecific crosses among the genus<Emphasis Type="Italic">Fagopyrum</Emphasis>

Common buckwheat (Fagopyrum esculentum Moench) is an agriculturally and pharmaceutically valuable crop due to its wellbalanced essential amino acids and rutin content. However, global mass production of buckwheat is limited because its genetic self-incompatibility results in low seed sets and poor grain yield. Therefore, this study was conducted to classify the modes of pistil-pollen interaction between species belonging to the genusFagopyrum and to determine the optimal combination of outcrosses for the most successful pollinations. Based on the interaction between pistils and pollen, we classified the modes of pollen tube growth during interspecific crosses ofFagopyrum species into five categories: (i) Highly compatible: normal pollen tube elongation and style penetration within 6~24 hours of pollination, (ii) Slightly compatible: delayed (for 1~6 hours) pollen tube elongation and normal style penetration, (iii) Incompatible type I: pollen tube inhibition at the stigma, (iv) Incompatible type II: pollen tube inhibition at the style, and (v) Incompatible type III: pollen tube inhibition at the stylodium. Based on the observed pollen tube elongation and the following embryo development, highly compatible pollinations were found to be crosses betweenF. esculentum x F. cymosum and betweenF. esculentum (thrum)x F. homotropicum.     

Analysis of stylar self-incompatibility competence by use of heat induced inactivation

Summary Immersion of Lilium longiflorum pistils in 49 °C water for increasing durations of 1,2,3, or 4 minutes immediately prior to incompatible pollination resulted in a correspondingly progressive decrease in the stylar self-incompatibility competence, as determined from the lengths attained by pollen tubes during 48 hours growth in the styles at 24 °C. Neither pistils remaining on the plant nor those detached from the plant which were immersed after anthesis in 49 °C water for 5 minutes regained self-incompatibility competence during a 48 hour incubation at 24 °C prior to incompatible pollination. Heat treatment of detached pistils as early as 39 hours prior to bud anthesis also resulted in an inactivation of stylar self-incompatibility competence when incompatible pollination was made at 24 hours after anthesis. Experiments utilizing heat treatment of partial lengths of detached whole styles revealed that pollen tubes which have grown through as much at 45 millimeters of either a physiologically incompatible or compatible portion of the style are still capable of shifting to either a higher growth rate or lower growth rate upon entry into respectively either a physiologically compatible or incompatible portion of the style.     

The influence of RNA-synthesis inhibitors on in vivo pollen tube growth and the self-incompatibility reaction in Lilium longiflorum thunb

Summary Injection of 3 X 10^–4 g/ml acridine orange, 2 X 10^–5 g/ml actinomycin-D, or 1.34 X 10^–3 g/ml 6-methyl-purine in stigmatic exudate into the hollow styles of Lilium longiflorum immediately before, or 6 or 12 hr after pollination restricted compatible pollen tube growth to lengths typical of incompatible tubes. Treatment 24 hr after pollination resulted either in no effect on compatible tube growth or in a significant retardation of compatible tube growth but not to the length of tubes in incompatibly pollinated styles. Aqueous solutions of these inhibitors at the same concentrations injected into lily styles 6 or 12hr before pollination significantly stimulated incompatible pollen tube growth. These results suggest that RNA synthesis in the style is necessary for the self-incompatibility reaction and RNA synthesis in the pollen tube is required for compatible tube growth. The RNA synthesis in the pollen tube may be completed by 24 hr after pollination.Paper number 7439 of the Scientific Journal Series, Minn. Agr. Exp. Sta., St. Paul, Minn. The author gratefully acknowledges the support of the Graduate School, Univ. of Minn. and the United Bulb Co., Mount Clemens, Mich.     

Post‐pollination process in a partially self‐compatible distylous plant,Primula sieboldii (Primulaceae)

Pollen germination and pollen‐tube growth under natural conditions were observed in a population of a distylous species, Primula sieboldii, in which partial self‐compatibility has been demonstrated in some long‐styled genets. We observed post‐pollination processes microscopically in styles collected after self‐morph and inter‐morph hand pollination (with standardized pollen load on the stigmas) in four genets each from the following three ‘genet types’: self‐incompatible long‐styled (SI), partially self‐compatible long‐styled (SC) and self‐incompatible short‐styled morph genets. Irrespective of the genet type, pollen germination began within 24 h after pollination and tubes of pollen reached to the style base with 48–96 h after inter‐morph pollination. Although pollen tubes germinated after self‐pollination in the SC genets, the number of germinated pollen tubes was significantly lower than in the case of inter‐morph pollination. Few pollen tubes germinated after self‐pollination of the SI or short‐styled genets. In SC genets, the rate of pollen‐tube growth did not differ between self‐morph and inter‐morph pollination (～1.9 mm/day). Therefore, differences in self‐compatibility between SC and SI genets in P. sieboldii are likely to be attributable to differential pollen germination rates rather than to differential pollen‐tube growth rates.     

Observations of pollen tube growth in Nicotiana alata and their implications for the mechanism of self-incompatibility

 Style squashes and stylar grafts were used to examine the growth of Nicotiana alata pollen tubes in self-compatible and self-incompatible styles. Compatible tubes typically showed a uniform layer of callose deposition in the walls and in small plugs spaced at regular intervals within the tube. Incompatible tubes were characterised by the variability of callose deposition in the walls and by larger, closer and more irregularly spaced plugs. There was no difference in the growth rate of compatible and incompatible tubes during growth through the stigma, but within the style most compatible tubes grew 20–25 mm day^-1 (maximum 30 mm day^–1), whereas incompatible tubes grew 1.0–1.5 mm day^-1 (maximum 5 mm day^–1). Many incompatible tubes continued to grow until flowers senesced, and only a small proportion died as a consequence of tip bursting. Grafting compatibly pollinated styles onto incompatible styles showed that the incompatible reaction could occur in pollen tubes between 2 and 50 mm long, and that inhibition of pollen tube growth occurred in both the upper and lower parts of the transmitting tract. Grafting incompatibly pollinated styles onto compatible styles showed that the incompatible reaction was fully reversible in at least a proportion of the pollen tubes. The findings are not consistent with the cytotoxic model of inhibition of self-pollen tubes in solanaceous plants, which assumes that the incompatible response results from the degradation of a finite amount of rRNA present in the pollen tube. However, if pollen tubes do in fact synthesise rRNA, the findings become consistent with this model. Received: 23 May 1996 / Revision accepted: 22 August 1996