烟草种间杂交亲和性

以野生烟草Nicotiana alata、N.rustica、N.repanda、N.stocktonnii与栽培烟草K326、红花大金元、Yun87、Yun97为材料,进行种间正反杂交,研究种间杂交亲和性.田间观察杂交后的坐果情况并统计坐果率,采用显微荧光染色观察授粉后花粉管在雌蕊上的生长情况,并结合杂交后代萌发检测的方法.结果表明:N.rustica、N.repanda、N.stocktonnii与栽培烟草杂交不亲和.N.rustica花粉能够穿过K326花柱,N.repanda和N.stocktonnii花粉在K326柱头上很少萌发生长.N.alata花粉可以穿过K326的花柱,并得到果实,但是萌发实验显示其种子无活力.N.alata作为母本与栽培烟草杂交不亲和.     

梨远缘花粉原位萌发及生长特性

应用荧光标记方法对梨远缘花粉在‘丰水’和‘噢嗄二十世纪’柱头上萌发及花粉管生长特性进行观察,结果表明:(1)梨远缘花粉均能在柱头上萌发,但其萌发率不同,授粉后24 h,在‘丰水’柱头上‘红叶桃’花粉萌发率最高,达62.8%,而‘盖县大李’花粉萌发率仅为12.0%,各种远缘花粉在‘丰水’柱头萌发率均高于‘噢嗄二十世纪’柱头。(2)各种远缘花粉管在梨柱头或花柱内生长情况也有差异,‘红叶桃’等核果类花粉管在梨柱头上均表现为扭曲、盘绕等现象,不能穿过柱头;‘红星’和‘红富士’花粉管虽然有少量穿过柱头,但不能进一步在花柱内生长,表现为扭曲变形、先端膨大等不亲和性现象。因此,梨与远缘果树杂交不亲和在柱头上就已发生,这与梨自交不亲和反应发生在花柱内的现象不同。     

猕猴桃种间及种内杂交亲和性研究

以3个种的9个猕猴桃品种为试材,通过培养法比较它们的花粉活力,用荧光显微镜观察猕猴桃种间与种内杂交亲和性,并统计其亲和指数及坐果率,为猕猴桃的杂交育种以及最佳授粉树的选配提供依据.结果表明:猕猴桃花粉活力在种间表现为美味猕猴桃＞中华猕猴桃＞狗枣猕猴桃;中华猕猴桃和美味猕猴桃种间和种内杂交组合的柱头识别反应快,花粉在柱头粘附多、生长快且萌发率高、亲和性较强且坐果率较高,而用狗枣猕猴桃与中华猕猴桃和美味猕猴桃种间杂交的花粉在柱头上萌发生长发育缓慢,其亲和性弱,平均坐果率仅为19.81%;30个杂交组合中亲和指数最高的是'金阳'×'金阳'雄株,亲和指数为960.33,坐果率为95.56%,最低的是'狗枣'×'金阳'雄株,亲和指数201.60,坐果率为12.22%.研究发现,猕猴桃的种间亲和性小于种内亲和性,同种内不同品种间的亲和性与坐果率也不同.     

高山杜鹃与大喇叭杜鹃种间杂交过程的观察研究

以高山杜鹃‘Nova Zembla’为母本,大喇叭杜鹃为父本进行人工杂交授粉,利用荧光显微镜对杂交组合花粉萌发及花粉管生长过程进行观察,并统计其杂交的田间坐果率。结果显示:(1)授粉后1d花粉开始萌发形成花粉管,其萌发率在授粉后1～5d内显著增长,其后增长缓慢,到第12天萌发率最高达37.36%。(2)花粉萌发后花粉管生长速度由慢变快,授粉后2d花粉管进入花柱,7d进入子房,10d进入胚珠;实验中杂交花粉管与胚珠虽有结合,但与胚珠结合率低,授粉后12d仅7.42条花粉管进入胚珠。(3)在花粉管生长过程中,伴有大量异常现象,表现为授粉后柱头细胞、花粉管、花柱引导组织、子房组织、胚珠中的胚囊等部位依次出现胼胝质沉积反应,花粉管生长中出现的膨大、先端沉积胼胝塞而中途停止生长、螺旋扭曲、粗细不均、杂乱生长或螺旋膨大且逆向生长等异常。(4)该实验杂交的田间坐果率为零。研究表明,高山杜鹃‘Nova Zembla’与大喇叭杜鹃杂交不亲和,杂交后花粉管生长的异常行为可能是种间杂交不亲和的主要原因,且受精前障碍与受精后障碍可能同时存在。     

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.     

烟草、小麦试管受精研究初报

(1)将带有胎座的烟草未受精胚珠接种在Nitsch培养基上,并在胚珠表面上授以无菌的成熟花粉。结果在栽培种烟草品种间以及栽培种烟草与黄花烟草、光烟草等种间的杂交组合中获得了试管种子和幼苗。此外,观察到柱头和花柱的保留对试管受精效果明显产生有利的影响。 (2)将未授粉的小麦雌蕊接种在MS培养基上,并对其柱头授以成熟花粉,结果获得了1.9—7.1％的结实率。其胚和种子均能萌发,并发育成植株。     

普通烟草与野生种烟草的种间试管受精

野生种烟草(N.repanda)具有抗栽培烟草的大多数病害,有人曾用常规技术和胚珠培养方法使其与栽培烟草(N.tabacum)杂交,但均未取得结果。我们对普通烟草(N.tabacum)与野生种烟草(N.repanda)的试管受精进行了研究,成功地克服了其种间杂交不亲和性,获得了杂种种子、幼苗和成年植株。杂种植株具有双亲特征;花粉粒败育;根尖细胞染色体数2n=48。     

梨花柱S-RNase对花粉管超微结构的影响

采用光学显微镜和透射电子显微镜研究了离体条件下不同品种梨花柱S—RNase对异花(亲和)及自花(不亲和)花粉萌发和花粉管生长及其超微结构的影响。结果表明,花柱S—RNase抑制不亲和花粉的萌发和花粉管的生长,对亲和花粉的萌发和花粉管的生长基本没有影响。花粉生长初期,亲和及不亲和花粉管超微结构相似;但培养24h以后,亲和花粉管中充满细胞质和细胞器,而不亲和花粉管中只有靠近花粉管前端有少量细胞质,细胞壁增厚,细胞壁与细胞质之间有一层胼胝质和电子透明区间隔。     

野生烟草花粉活力与柱头可授性及繁育特性研究

采用TTC法测定2个野生烟草材料(花烟草、哥西氏烟草)和1个栽培品种(K326)的花粉活力及其日变化情况,通过联苯胺-过氧化氢法测定3个烟草材料的柱头可授性、利用直接授粉法测定不同开花天数柱头可授性变化,并通过估算花粉胚珠比(P/O)、杂交指数(OCI)及授粉试验分析3个烟草材料的繁育特性。结果表明:(1)哥西氏烟草的花粉活性(74.9%)显著高于K326(52.2%)和花烟草(45.3%),且K326与花烟草间差异不显著;3个烟草材料花粉活力日变化均呈双峰曲线,峰值分别在13:00与15:00左右,且3个烟草材料的花粉活力日最低值与气温日最高值同时出现在14:00。(2)K326柱头可授性显著高于花烟草和哥西氏烟草,且2个野生烟草间可授性无显著差异;不同烟草的最佳授粉时期不同,哥西氏烟草自开花前1d至花后4d,一直保持较高的柱头可授性;花烟草的最佳授粉时期为花后2~3d;K326的柱头在开花前1d至开花后1d授粉最佳。(3)K326以自交为主,存在异交现象;哥西氏烟草繁育类型为兼性异交,自交亲和;花烟草繁育以异交为主,自交亲和性差。研究认为,野生烟草柱头可授性显著低于栽培品种从而影响其结实性,花烟草结实率低主要是由自交不亲和性造成的,而缺乏有效的传粉机制是造成哥西氏烟草结实性差的主要原因。     

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.     

Ethylene response to pollen tube growth in Nicotiana tabacum flowers

In flowers of Nicotiana tabacum L., pollination induces a transient increase in ethylene production by the pistil. The characteristic dynamics of the increase in ethylene correspond to the main steps of the pollen-tube journey into the pistil: penetration into the stigma, growth through the style, entry into the ovary and fertilization. Ethylene is synthesized de novo in the pistil, and its production is reduced in the dark. Ethylene production was monitored in tobacco flowers after pollination with incongruous pollen from three different Nicotiana species, N. rustica, N. repanda and N. trigonophylla, and with pollen from Petunia hybrida. Pollen from all of these different sources can germinate on the stigma surface but each pollen type shows a different behavior and efficiency in penetrating the pistil tissues. Thus, these different crosses provided a model with which to study the response of the pistil to pollination and fertilization. Ethylene evolution upon pollination in tobacco differed in each cross, suggesting that ethylene is correlated with the response to pollen tube growth in the tobacco flower.     

Pollination in Nicotiana alata stimulates synthesis and transfer to the stigmatic surface of NaStEP, a vacuolar Kunitz proteinase inhibitor homologue

After landing on a wet stigma, pollen grains hydrate and germination generally occurs. However, there is no certainty of the pollen tube growth through the style to reach the ovary. The pistil is a gatekeeper that evolved in many species to recognize and reject the self-pollen, avoiding endogamy and encouraging cross-pollination. However, recognition is a complex process, and specific factors are needed. Here the isolation and characterization of a stigma-specific protein from N. alata, NaStEP (N. alata Stigma Expressed Protein), that is homologous to Kunitz-type proteinase inhibitors, are reported. Activity gel assays showed that NaStEP is not a functional serine proteinase inhibitor. Immunohistochemical and protein blot analyses revealed that NaStEP is detectable in stigmas of self-incompatible (SI) species N. alata, N. forgetiana, and N. bonariensis, but not in self-compatible (SC) species N. tabacum, N. plumbaginifolia, N. benthamiana, N. longiflora, and N. glauca. NaStEP contains the vacuolar targeting sequence NPIVL, and immunocytochemistry experiments showed vacuolar localization in unpollinated stigmas. After self-pollination or pollination with pollen from the SC species N. tabacum or N. plumbaginifolia, NaStEP was also found in the stigmatic exudate. The synthesis and presence in the stigmatic exudate of this protein was strongly induced in N. alata following incompatible pollination with N. tabacum pollen. The transfer of NaStEP to the stigmatic exudate was accompanied by perforation of the stigmatic cell wall, which appeared to release the vacuolar contents to the apoplastic space. The increase in NaStEP synthesis after pollination and its presence in the stigmatic exudates suggest that this protein may play a role in the early pollen-stigma interactions that regulate pollen tube growth in Nicotiana.     

Glucosides of ionone-related compounds in several nicotiana species

The β-glucosides of 3-oxo-α-ionol and 5,6-epoxy-5,6-dihydro-3-hydroxy-β-ionol were isolated from fresh leaves of Nicotiana rustica. Two or more of the glucosides of 3-oxo-α-ionol, 5,6-epoxy-5,6-dihydro-3-hydroxy-β-ionol, 3-hydroxy-β-damascone, blumenol A, 4-(3-hydroxybutylidene)-3,5,5-trimethyl-2-cyclohexenl-one and blumenol C were shown to be present and the amounts measured in N. alata, N. repanda, N. rustica, N. undulata, N. accuminata, N. sylvestris and N. tabacum. No glucosides were detected in N. paniculata.     

The diversity of interspecific pollen-pistil incongruity in Nicotiana

Nicotiana tabacum was used as a pistillate parent and crossed with three self-compatible species, N. rustica, N. repanda and N. trigonophylla, which were previously reported to have pollen tubes unilaterally inhibited by N. tabacum pistil. Temporal and morphological observations revealed distinct differences of pollen tube behavior among these incongruous crosses. Pollen tubes of N. repanda were arrested in stigma and those of N. rustica in the middle of the style. On the other hand, pollen tubes of N. trigonophylla continued growing at a slow rate. Tubes of N. repanda and N. rustica showed morphological abnormalities such as swelling, thick wall, and irregular callose deposition. In addition, tubes of N. rustica often elongated in reverse direction and wound about in the middle of the style. Although the tubes of N. trigonophylla were apparently normal in morphology, they were distributed throughout the transmitting tissue, differing from the self-pollination of N. tabacum in which they were confined to the peripheral region of it. The diversity of pollen tube behavior indicates that physiological causes of incongruity are different among the three crosses. Bud pollination enabled pollen tubes to reach the ovary in all crosses, indicating that the N. tabacum pistil acquired its ability to inhibit foreign pollen tube elongation with its development. When interspecific hybrids between N. tabacum and the other three species were pollinated by parental species, tubes reached the ovary in all crosses, but the elongation rate of tubes slowed down and morphology was abnormal.     

S RNase and Interspecific Pollen Rejection in the Genus Nicotiana: Multiple Pollen-Rejection Pathways Contribute to Unilateral Incompatibility between Self-Incompatible and Self-Compatible Species

In self-incompatible (SI) plants, the S locus acts to prevent growth of self-pollen and thus promotes outcrossing within the species. Interspecific crosses between SI and self-compatible (SC) species often show unilateral incompatibility that follows the SI x SC rule: SI species reject pollen from SC species, but the reciprocal crosses are usually compatible. The general validity of the SI x SC rule suggests a link between SI and interspecific pollen rejection; however, this link has been questioned because of a number of exceptions to the rule. To clarify the role of the S locus in interspecific pollen rejection, we transformed several Nicotiana species and hybrids with genes encoding SA2 or SC10 RNase from SI N. alata. Compatibility phenotypes in the transgenic plants were tested using pollen from three SC species showing unilateral incompatibility with N. alata. S RNase was implicated in rejecting pollen from all three species. Rejection of N. plumbaginifolia pollen was similar to S allele-specific pollen rejection, showing a requirement for both S RNase and other genetic factors from N. alata. In contrast, S RNase-dependent rejection of N. glutinosa and N. tabacum pollen proceeded without these additional factors. N. alata also rejects pollen from the latter two species through an S RNase-independent mechanism. Our results implicate the S locus in all three systems, but it is clear that multiple mechanisms contribute to interspecific pollen rejection.     

烟草挥发物对2近缘种夜蛾产卵行为的影响及其成分分析

寡食性烟夜蛾Helicoverpa assulta (Guenée)和广食性棉铃虫H.armigera (Hübner)是铃夜蛾属2近缘种,烟草是其共同寄主.室内实验测定了1个普通烟草品种和4个黄花烟草品种叶片挥发物对二者电生理和行为反应的影响.结果表明,烟夜蛾处女雌蛾和交配雌蛾对4个黄花烟草品种叶片挥发物的EAG反应均显著高于普通烟草,而棉铃虫对普通烟草叶片挥发物的反应显著高于黄花烟草;二者的行为反应与EAG测试结果相似,黄花烟草叶片挥发物对烟夜蛾有较强的引诱作用,棉铃虫对普通烟草叶片挥发物有较强趋性;两种夜蛾雄蛾对这些挥发物的EAG和行为反应均没有雌蛾强烈,性别差异显著;GC-MS分析表明,与K326相比,马合烟叶片挥发物中尼古丁的相对含量高(76.91%),绿叶气味种类多但芳香族化合物种类少,挥发物种类和含量的不同是否与两种夜蛾产卵趋性差异相关,有待进一步研究.     

A pollen tube growth-promoting arabinogalactan protein from nicotiana alata is similar to the tobacco TTS protein

Upon germination on the stigma, pollen tubes elongate in the stylar transmitting tract, aided by female factors, with speed and directionality not mimicked in in vitro pollen tube growth cultures. We have shown that a stylar transmitting tissue arabinogalactan protein (AGP) from Nicotiana tabacum (tobacco), TTS protein, stimulates pollen tube growth in vivo and in vitro and attracts pollen tubes grown in a semi-in vivo culture system. It has been reported that the self-incompatible Nicotiana alata produced a stylar glycoprotein, GaRSGP, which had a backbone polypeptide that shared 97% identity with those of TTS proteins but some of its properties were different from those described for TTS proteins. We report here the characterization of a family of stylar transmitting tissue glycoproteins from N. alata that is virtually identical to tobacco TTS proteins and which we refer to as NaTTS proteins. Like their tobacco counterparts, NaTTS proteins are recognized by the traditional AGP-diagnostic reagent beta-glucosyl Yariv reagent, and they are also recognized by JIM13, a monoclonal antibody against AGP. NaTTS proteins also stimulate pollen tube elongation in vitro and attract pollen tubes in a semi-in vivo pollen tube culture system. Biochemical and immunological characterization of NaTTS proteins revealed that they have extraordinary variability in the extent of sugar modifications of their polypeptide backbones. The extent of sugar modifications on NaTTS proteins significantly affects their biochemical properties, influences how they interact with the transmitting tissue extracellular matrix, and affects their solubility from this matrix. Our results suggest that the strategy used to purify GaRSGP only recovered a less glycosylated, more tightly extracellular matrix-bound sub-population of the entire spectrum of N. alata TTS proteins.     

Sulfinylated azadecalins act as functional mimics of a pollen germination stimulant in Arabidopsis pistils

Polarized cell elongation is triggered by small molecule cues during development of diverse organisms. During plant reproduction, pollen interactions with the stigma result in the polar outgrowth of a pollen tube, which delivers sperm cells to the female gametophyte to effect double fertilization. In many plants, pistils stimulate pollen germination. However, in Arabidopsis, the effect of pistils on pollen germination and the pistil factors that stimulate pollen germination remain poorly characterized. Here, we demonstrate that stigma, style, and ovules in Arabidopsis pistils stimulate pollen germination. We isolated an Arabidopsis pistil extract fraction that stimulates Arabidopsis pollen germination, and employed ultra‐high resolution electrospray ionization (ESI), Fourier‐transform ion cyclotron resonance (FT‐ICR) and MS/MS techniques to accurately determine the mass (202.126 Da) of a compound that is specifically present in this pistil extract fraction. Using the molecular formula (C₁₀H₁₉NOS) and tandem mass spectral fragmentation patterns of the m/z (mass to charge ratio) 202.126 ion, we postulated chemical structures, devised protocols, synthesized N‐methanesulfinyl 1‐ and 2‐azadecalins that are close structural mimics of the m/z 202.126 ion, and showed that they are sufficient to stimulate Arabidopsis pollen germination in vitro (30 μm stimulated approximately 50% germination) and elicit accession‐specific response. Although N‐methanesulfinyl 2‐azadecalin stimulated pollen germination in three species of Lineage I of Brassicaceae, it did not induce a germination response in Sisymbrium irio (Lineage II of Brassicaceae) and tobacco, indicating that activity of the compound is not random. Our results show that Arabidopsis pistils promote germination by producing azadecalin‐like molecules to ensure rapid fertilization by the appropriate pollen.     

The stylar 120 kDa glycoprotein is required for S-specific pollen rejection in Nicotiana

S-RNase participates in at least three mechanisms of pollen rejection. It functions in S-specific pollen rejection (self-incompatibility) and in at least two distinct interspecific mechanisms of pollen rejection in Nicotiana. S-specific pollen rejection and rejection of pollen from Nicotiana plumbaginifolia also require additional stylar proteins. Transmitting-tract-specific (TTS) protein, 120 kDa glycoprotein (120K) and pistil extensin-like protein III (PELP III) are stylar glycoproteins that bind S-RNase in vitro and are also known to interact with pollen. Here we tested whether these glycoproteins have a direct role in pollen rejection. 120K shows the most polymorphism in size between Nicotiana species. Larger 120K-like proteins are often correlated with S-specific pollen rejection. Sequencing results suggest that the polymorphism primarily reflects differences in glycosylation, although indels also occur in the predicted polypeptides. Using RNA interference (RNAi), we suppressed expression of 120K to determine if it is required for S-specific pollen rejection. Transgenic SC N. plumbaginifolia x SI Nicotiana alata (S105S105 or SC10SC10) hybrids with no detectable 120K were unable to perform S-specific pollen rejection. Thus, 120K has a direct role in S-specific pollen rejection. However, suppression of 120K had no effect on rejection of N. plumbaginifolia pollen. In contrast, suppression of HT-B, a factor previously implicated in S-specific pollen rejection, disrupts rejection of N. plumbaginifolia pollen. Thus, S-specific pollen rejection and rejection of N. plumbaginifolia pollen are mechanistically distinct, because they require different non-S-RNase factors.