白芥自交亲和性分析

对不同来源的8份白芥材料,采用人工自交法分析其自交亲和性。结果显示:白芥的自交亲和性存在较大幅度的变异,自交亲和指数在0.01~4.10之间,8份参试材料中,自交亲和指数小于1的材料有3个,自交亲和指数大于1的材料有5个。表明白芥中存在自交亲和材料,白芥自交亲和性变异不仅存在于材料间,而且也存在于同一材料内不同个体间。按自交亲和指数的高低,可将参试材料分为3种类型:高自交亲和类型(自交亲和指数大于3.00,如民乐洪水芥麻、04(X)等)、自交亲和类型(自交亲和指数为1.00~2.99)、自交不亲和类型(自交亲和指数0.00~1.00)。     

芸芥自交亲和性变异的初步研究

为了判断芸芥(Eruca sativa)自交亲和性的变异情况, 采用套袋自交、剥蕾自交和开放授粉3种方法, 对来源于中国、伊朗和巴基斯坦的52份芸芥的自交亲和指数及相对亲和指数进行了统计分析。结果表明: (1) 芸芥为高度自交不亲和植物, 其不同品种(系)中存在自交亲和基因; (2) 芸芥不同品种间自交亲和性存在广泛的变异, 品种间自交亲和指数介于0-4.98之间, 品种内不同个体间自交亲和性也存在广泛的变异; (3) 参试材料分为4种类型, 即高自交亲和、自交亲和、自交不亲和(0<自交亲和指数<1.00)及高自交不亲和; (4) 芸芥自交亲和性因生态类型而异, 西南地区的材料自交亲和性最高, 西北地区次之, 华北地区最低。总之, 芸芥为一种高度自交不亲和植物, 其自交亲和性状存在广泛的变异, 共有4种变异类型。     

不结球白菜自交不亲和S单元型的鉴定研究

依据甘蓝SRK基因保守序列设计SRK特异引物并进行验证,通过PCR-RFLP法分析16份不结球白菜自交系材料的SRK基因的多态性,根据其差异鉴定不结球白菜S单元型及自交不亲和性.结果表明:16个不结球白菜自交系SRK基因共产生6种不同的带型,其中有1个是强自交不亲和系,4个是弱自交不亲和系,且与田间测定的亲和指数相符,说明利用SRK基因的多态性鉴定不结球白菜纯合自交系的自交不亲和性和S单元型是可行的.同时对部分材料的SRK基因的核苷酸序列进行分析验证,表明相同类型SRK基因序列一致性较高,且SRK基因存在明显的单核苷酸多态性,为进一步自交不亲和性的研究奠定了基础.     

白菜自交不亲和性的荧光测定

通过亲和指数法及荧光显微观察对白菜的自交不亲和性进行了测定。结果表明,白菜自交不亲和的反应部位在柱头,自花授粉后柱头表面产生明显的胼胝质反应。两种观测法的结果相吻合,荧光显微镜观察法准确、方便,可应用于白菜自交不亲和系的育种实践。     

河北省大豆地方品种遗传基础

以50份河北省大豆地方品种为材料,通过两年对12个农艺性状鉴定和30个SSR位点的分析,结果表明,地方品种农艺性状平均多样性指数为0．83,数量性状平均变异系数为20．15％,30个SSR位点平均等位变异数5．03,平均多样性指数为0．61,参试材料遗传距离平均0．869。利用Bayesian模型将参试材料分为4组。分析结果表明,河北省地方品种的遗传多样性与地理来源或不同熟期类型间没有显著相关。     

4个油茶物种杂交亲和性分析

为探明油茶的自交亲和状况,以山茶属攸县油茶(Camellia yuhsienensis Hu)、浙江红山茶(C.chekiangoleosa Hu)、多齿红山茶(C.polyodonta How)、南山茶(C.semiserrata Chi)、为试验材料,采用自交异交控制授粉,结合田间座果率动态调查,统计分析不同授粉处理后的结实性及果实的性状特征,并计算自交亲和指数。结果表明,4份材料的自交亲和指数有差异,自交亲和指数高低依次为:攸县油茶(0.288 8)多齿红花油茶(0.251 1)浙江红花油茶(0.122 2)南山茶(0)。4个物种自交亲和指数均小于1,因而,认为4个物种均为自交不亲和植物。4种授粉方式后的结实率及结籽数呈现异株异花自由授粉同株异花自交自花自交的趋势。在蒴果性状上,自交处理所得果实的性状指标均低于异交处理水平。油茶自交授粉后,落果迅速,异株异交授粉处理在各个时期座果率均高于自交处理的水平。4种油茶具有普遍自交不亲和性,自交不亲和是4个物种落花落果,结实低,产量低的主要原因。     

宁夏枸杞繁育系统初步研究

运用TTC法、联苯胺—过氧化氢法、P/O比、OCI和套袋实验,对宁夏枸杞种内各参试材料花粉活力、柱头可授性及繁育系统进行了研究。结果表明:宁夏枸杞花粉数量/胚珠比大于4 000,杂交指数介于3～4,结合人工授粉和套袋实验结果可以确定在参试的13个品种(系)中麻叶系材料(宁杞1号、2号、大麻叶、小麻叶)表现为部分自交亲和;而其它材料(白花、白条、宁杞3号、尖头圆果、圆头圆果、蒙杞1号、扁果、0701、0616)表现为自交不亲和,同株异花、异株异花几乎不坐果,自然条件下只有通过与其他材料混植的途经来实现结实。由于自交亲和水平极低,宁夏枸杞的繁育系统应属于专性异交(除麻叶系材料)。     

芥菜型油菜和白菜型油菜种间杂种遗传分析

种间杂交是一种拓宽栽培作物遗传基础和转移优良性状的重要手段,已经广泛地用于作物品质的改良。本研究通过芥菜型油菜（Brassica juncea L.）和白菜型油菜（Brassica rapa L.）种间杂交,将芥菜型油菜的有利性状转移到白菜型油菜中,创造新型白菜型油菜,以改良白菜型油菜的农艺性状、提高抗逆性和拓宽其遗传基础。研究结果表明：以芥菜型油菜作母本、白菜型油菜作父本的杂交组合较易获得杂交种子,杂种F1植株营养生长具有较明显的杂种优势,但花粉完全不育;以白菜型油菜回交获得的BC1植株间表型差异明显,平均花粉可染率为34.8%,介于 0~84%之间,群体自交不亲和;BC1F1和BC2群体变异广泛,出现自交亲和植株和黄籽植株,平均花粉可染率分别为79.7%和79.1%。     

西藏白菜型油菜遗传多样性的RAPD分析

通过利用22个10bp随机引物对来自西藏高原地区107份白菜型油菜种质资源材料的PAPD分析,探讨了西藏白菜型油菜品种之间的遗传分化关系,结果表明：（1）供试的107份材料共产生236条谱带,其中210条谱带有多态性,占88．98％,说明白菜型油菜在西藏高原地区具有较丰富的遗传多样性;（2）根据引物扩增出的DNA指纹图谱,运用UPGMA分析法,在遗传距离为0．078处,可将供试的107份白菜型油菜划分为11个类群,发现来自于同一地区或气候相似区的品种往往聚在一起,表明西藏高原白菜型油菜品种的相似性与其原产地的地理,气候背景密切相关,并在此基础上,结合西藏高原农业发展历史,气候背景以及地形地貌特点和植物地理学,植物区系学,植物进化论等方面的综合分析,提出西藏高原是世界白菜型油菜起源地的观点。     

菊花自交不亲和性初步研究

以菊花品种杂交为对照,通过自交亲和指数、受精作用及自交有性过程荧光显微镜观察,对菊花自交不亲和性进行了研究。结果表明:菊花自交难以结实,具不亲和性;菊花自交不亲和的反应部位在雌蕊柱头,表现为花粉粒粘附少、萌发率低及诱导胼胝质生成,花粉管在柱头上出现各种异常现象而难以进入花柱。     

Breeding systems of the Paraguaná coastal plain plants, Venezuela.

Breeding systems were evaluated for 51 plant species according to life form, pollination system, vegetation type, and phenology, in the coastal plain of Paraguaná Peninsula, Venezuela. Sexual systems were no associated to life form, pollination system, vegetation type, and phenology. The frequency distribution of sexual system was 82.3% hermaphroditism, 15.6% monoecy, and 1.9% dioecy. All sexual systems had a peak during the lowest rainfall. Genetic system distribution was 64.8% self-compatibility (including partially self-compatibility) and 35.2% self-incompatibility. Among self-compatible species, 45.1% were autogamous (19.6% not autogamous). The genetic systems were associated significantly to: (1) plant life form: self-compatible species tend to be herbaceous and self-incompatible plants tend to be woody species; (2) vegetation type: self-compatible species were predominant in the three vegetation types, but in the mangrove the frequency of self-compatible and self-incompatibles was similar; and (3) pollination system: most of the self-compatible species were polyphilous. Mating systems: xenogamous and autogamous species were associated only with plant life forms. Xenogamous plants were mostly woody species and autogamous plants were mostly herbaceous species. The high incidence of hermaphroditism, self-compatibility, and autogamy are related to herbaceous life form, polyphilous pollination system, and climatic conditions, together the insularity of the Paraguaná peninsula.     

Characterization of self-compatibility in sweet cherry varieties by crossing experiments and molecular genetic analysis

Self-compatibility is a major breeding objective in sweet cherry. The identification and characterization of new sources of self-compatibility will be useful for breeding and research purposes. In this work, self-compatibility of four local Spanish sweet cherry varieties was investigated by crossing experiments and molecular genetic analysis of two self-incompatibility loci. Crossing experiments included self- and cross-pollinations in the laboratory followed by microscopic observation of pollen tube growth and fruit set assay in the field. After crossing experiments, two accessions, ‘Son Miró’ and ‘Talegal Ahín’, were self-compatible while the other two were self-incompatible. Inheritance of S-locus and microsatellite EMPaS02 (linked to self-compatibility, Sc) were investigated in self-pollination progeny of both self-compatible genotypes. Results indicate that self-compatibility in ‘Talegal Ahín’ is similar to self-compatibility described in sweet cherry ‘Cristobalina’ and may be caused by the same mutation. That is a pollen part mutation not linked to the S-locus but linked to microsatellite EMPaS02 in cherry LG3. In ‘Son Miró’ self-compatibility seems more complex, affecting pollen and style function, and probably involving more than one mutation not described previously in sweet cherry. Together with ‘Cristobalina’, the newly described self-compatible varieties ‘Son Miró’ and ‘Talegal Ahín’ confirm the existence of unique self-compatible plant material in local germplasm from Spain that should be conserved and characterized for its use in breeding and research.     

Self-incompatibility in the Commelinaceae

This paper reports on a survey of self-incompatibility in 110species of 22 genera in the family Commelinaceae. Genera fromboth tribes, Tradescantieae and Commelineae are included. Fifty-fivespecies were found to be self-incompatible, 50 species self-compatible,and five species comprised individuals which were self-incompatibleand individuals which were self-compatible. This variabilityand its possible evolutionary significance are discussed. Self-incompatible species had actinomorphic flowers and themajority of these were in the Tradescantieae. Species with zygomorphicflowers which were more commonly found in the Commelineae wereself-compatible. The ubiquitous presence of binucleate pollengrains supports previous data that self-incompatibility is ofthe gametophytic type. The site of pollen tube arrest, however,was on the stigma at or near the base of the stigma papillacells. There were two exceptions to this viz. an unnamed Dichorisandraspecies and Siderasis fuscata where pollen tube arrest was stylar. The significance of these data to taxonomy also receives comment. Commelinaceae, incompatibility, self-compatibility     

REPRODUCTIVE BIOLOGY OF A TROPICAL PALM SWAMP COMMUNITY IN THE VENEZUELAN LLANOS

The reproductive biology of a tropical palm swamp community, called morichal in the Venezuelan Central Llanos, was studied. Of the 128 woody and herbaceous species of plants recorded, 99 (77.34%) were hermaphrodites, 25 (19.53%) were monoecious, and four (3.13%) were dioecious. The morichal is characterized by a low number of species with obligate cross-fertilization. The frequencies of species with different breeding systems in a subsample of 26 species showed that eight (30.77%) were self-incompatible, 14 (53.85%) were self-compatible, and four (15.38%) were agamospermous. Ten of 14 self-compatible species were autogamous. Regardless of the self-incompatibility level estimated, seed and fruit set were greater in self-fertilized flowers than in hand-pollinated flowers in three of the nine self-incompatible species. These results are related to the facts that: 1) the relative isolation of the plant population limits the gene flow among similar communities and enforces the intrapopulation pollen flow; 2) the overlapping flowering patterns and infrequent and unspecialized pollinators may be enforcing self-compatibility and agamospermy; 3) self-compatibility is the rule among short-lived species in the morichal; and 4) three out of four agamospermous species are of the Melastomataceae family.     

Self-incompatibility and floral parameters in Hypochaeris sect. Hypochaeris (Asteraceae)

We studied the relationships between self-incompatibility mechanisms and floral parameters in the genus Hypochaeris L. sect. Hypochaeris (consisting of H. glabra, H. radicata, H. arachnoidea, and H. salzmanniana). We assessed at intra- and interspecific levels (1) the self-incompatibility (SI) mechanism and its distribution among populations, (2) the relationship between SI and floral parameters, and (3) the relationship of SI to reproductive success. Hypochaeris salzmanniana is semi-incompatible, H. glabra is self-compatible, and H. arachnoidea and H. radicata are self-incompatible. Floral parameters differed among populations of H. salzmanniana: plants in self-compatible populations had fewer flowers per head, a smaller head diameter on the flower, and a shorter period of anthesis than self-incompatible populations. We also detected this pattern within a semi-compatible population of H. salzmanniana, and these differences were also found between species with different breeding mechanisms. Fruit to flower ratio in natural populations was generally high (>60%) in all species, regardless of breeding system. It is hypothesized that self-compatibility may have arisen through loss of allelic diversity at the S locus due to bottleneck events and genetic drift.     

Breeding systems in a secondary deciduous forest in Venezuela: The importance of life form, habitat, and pollination specificity

Breeding systems and mating systems of plants in a previously studied secondary deciduous forest were reanalysed in the context of new data. In this analysis, we increased the number of plant species (up to approximately 25% of the plant species in the community), included other life forms (23 annual and perennial species, plus habitat disturbance categories), and considered information about pollinator specificity. The frequencies of species with different sexual systems in a sample of 51 species were 82% hermaphrodite, 14% monoecious, and 4% dioecious. The frequencies of breeding systems in the sample of 49 hermaphroditic and monoecious species were 53% self-incompatible and 47% self-compatible. Self-compatible species included seven partially self-compatible, three self-compatible non-autogamous, and 13 self-compatible autogamous species. None of the species evaluated proved to be agamospermous. Fifty-five percent of the species tested were obligate outbreeders. The proportion of self-incompatible species was higher among trees and shrubs than among annual herbs. The proportion of self-compatible species for perennial herbs and lianas was not different. The association between annual herbs and autogamy was not strong: seven of 13 species were autogamous, five were partially self-compatible, and one was self-incompatible. The main characteristics or factors associated with breeding system were life cycle and successional stage. Short-lived species were mostly self-compatible, and xenogamy tended to be associated with forest and forest-border. In contrast, pollination specificity and life form were not consistently related to breeding system (self-compatibility or self-incompatibility) and mating system (xenogamy or autogamy).     

Characterization and mapping of non-S gametophytic self-compatibility in sweet cherry (Prunus avium L.)

Self-incompatibility in Prunus (Rosaceae) species, such as sweet cherry, is controlled by a multiallelic locus (S), in which two tightly linked genes, S-RNase and SFB (S haplotype-specific F-box), determine the specificity of the pollen and the style. Fertilization in these species occurs only if the S-specificities expressed in the pollen and the pistils are different. However, modifier genes have been proposed to be necessary for a full manifestation of the self-incompatibility response. 'Cristobalina' is a spontaneous self-compatible sweet cherry cultivar that originated in Eastern Spain. Previous studies with this genotype suggested that pollen modifier gene(s), not linked to the S-locus, may be the cause of self-incompatibility breakdown. In this work, an F(1) population from 'Cristobalina' that segregates for this trait was used to identify molecular markers linked to self-compatibility by bulked segregant analysis. One simple sequence repeat (SSR) locus (EMPaS02) was found to be linked to self-compatibility in this population at 3.2?cM. Two additional populations derived from 'Cristobalina' were used to confirm the linkage of this marker to self-compatibility. Since EMPaS02 has been mapped to the sweet cherry linkage group 3, other markers located on the same linkage group were analysed in these populations to confirm the location of the self-compatibility locus.     

Expression of a self-incompatibility gene in a self-compatible line of Brassica oleracea.

In cruciferous plants, self-pollination is prevented by the action of genes situated at the self-incompatibility locus or S-locus. The self-incompatibility reaction is associated with expression of stigma glycoproteins encoded by the S-locus glycoprotein (SLG) gene. Only a few cases of self-compatible plants derived from self-incompatible lines in the crucifer Brassica have been reported. In these cases, self-compatibility was generally ascribed to the action of single genes unlinked to the S-locus. In contrast, we report here a line of Brassica oleracea var acephala with a self-compatible phenotype linked to the S-locus. By means of both biochemical and immunochemical analyses, we showed that this self-compatible (Sc) line nonetheless possesses stigmatic SLGs (SLG-Sc) that are expressed with a similar spatial and temporal pattern to that described for the SLGs of self-incompatible Brassica plants. Moreover, the SLG-Sc products segregate with the self-compatibility phenotype in F2 progeny, suggesting that changes at the S-locus may be responsible for the occurrence of the self-compatibility character. A cDNA clone encoding the SLG-Sc product was isolated, and the deduced amino acid sequence showed this glycoprotein to be highly homologous to the pollen recessive S2 allele glycoprotein. Hence, self-compatibility in this Brassica Sc line correlates with the expression of a pollen recessive-like S allele in the stigma.     

Functional gametophytic self-incompatibility in a peripheral population of Solanum peruvianum (Solanaceae)

The transition from self-incompatibility to self-compatibility is a common transition in angiosperms often reported in populations at the edge of species range limits. Geographically distinct populations of wild tomato species (Solanum section Lycopersicon (Solanaceae)) have been described as polymorphic for mating system with both self-incompatible and self-compatible populations. Using controlled pollinations and sequencing of the S-RNase mating system gene, we test the compatibility status of a population of S. peruvianum located near its southern range limit. Pollinations among plants of known genotypes revealed strong self-incompatibility; fruit set following compatible pollinations was significantly higher than following incompatible pollinations for all tested individuals. Sequencing of the S-RNase gene in parents and progeny arrays was also as predicted under self-incompatibility. Molecular variation at the S-RNase locus revealed a diverse set of alleles, and heterozygosity in over 500 genotyped individuals. We used controlled crosses to test the specificity of sequences recovered in this study; in all cases, results were consistent with a unique allelic specificity for each tested sequence, including two alleles sharing 92% amino-acid similarity. Site-specific patterns of selection at the S-RNase gene indicate positive selection in regions of the gene associated with allelic specificity determination and purifying selection in previously characterized conserved regions. Further, there is broad convergence between the present and previous studies in specific amino-acid positions inferred to be evolving under positive selection.