Differential pollen tube growth in inbred self-compatible almond genotypes

Pistil and pollen behavior during self- and cross-pollinations in 10 inbred almond seedlings with self-compatible genotypes and self-incompatible phenotypes were studied. Pollen from these inbred seedlings was examined for the pollen tube growth in self and non-self styles, while pistils from these seedlings were tested for their ability to support self and non-self pollen tube growth. Pistils and pollen of inbred genotypes were compatible with unrelated genotypes but the pistils were unable to support the growth of related pollen, which showed a slower tube growth rate. This may be a consequence of inbreeding, resulting in a silenced self-compatibility or cryptic self-incompatibility in some genetically self-compatible genotypes. This reaction would be a mechanism favoring crossing with unrelated genotypes and reducing inbreeding in future generations.     

Identification and genetic characterization of different resistance sources to ascochyta blight within the genus Lens

The self-incompatibility mechanism in 10 local radish cultivars was investigated through seed set analysis and pollen tube growth behavior. The objective was to identify self-incompatible local radish lines for hybrid seed production. Based on a seed set ratio as an estimate for self-incompatibility, cultivars Tangail Local, Tasaki, Kuni, Aushi and Indian Aushi were identified as self-compatible. An intermediate seed ratio was observed in ‘Red Mollika’, ‘Pinky’ and ‘Red Bongi’. Moderately strong self-incompatibility was observed in ‘Red Kalpin’ and ‘Kuni White’. Pollen tube growth behavior revealed that self-incompatible lines had a relatively lower number of germinated pollen grains per stigma and pollen tubes per style than those of self-compatible lines. The two self-incompatibility test methods gave comparable results. None of the cultivars under study was found to be fully self-incompatible. This revised version was published online in July 2006 with corrections to the Cover Date.     

Elucidating the behaviour of pollen tubes in intra-and interspecific pollinations of Phaseolus vulgaris L. and P. coccineus Lam.

Summary The behaviour of pollen tubes in intra-and interspecific pollinations of P. vulgaris and P. coccineus has been examined using a combination of phase-contrast, and UV fluorescence microscopy. The results indicate that P. coccineus is self-compatible in terms of pollen tube growth, and that pollen tube inhibition is not responsible for the reciprocal differences in seed set which have been observed in crosses between these species.     

自交亲和与自交不亲和日本梨中S4基因的研究进展

综述了近20年日本梨中与自交亲和和自交不亲和有关的S4基因的研究进展。这些结果包括：“二十世纪”(基因型为S2S4)为自交不亲和品种,其突变品种“奥嗄二十世纪”(基因型 为S2S4SM,SM=stylar part mutant;花柱部分突变)为自交亲和型。“奥嗄二十世纪”自交亲和的原因有三点：(1)S4SM基因被删除或者是低水平表达。(2)S4SM基因仅在柱头表达。(3)S4SM基因表达较迟。这主要是由于“二十世纪”S基因座上的S4等位基因发生了高度突变成为S4SM基因或者S4等位基因被删除,导致其基因产物花柱中的S4-RNase受到高度抑制或缺乏的缘故。S4基因由997bp组成,其中85~768bp为684bp的阅读框,925~931bp和943~950bp为多聚腺苷酸信号。S4基因的表达产物为S4蛋白,S4蛋白由228个氨基酸残基组成,其中N端的27个氨基酸残基为信号肽,成熟的S4蛋白由201个氨基酸残基组成。S4蛋白的生理功能是抑制花粉的萌发和花粉管的伸长。     

Unilateral incompatibility: hypotheses,debate and its implications for plant breeding

Summary Unilateral incompatibility, its evolution and the hypotheses put forward to explain this phenomenon have been discussed. A new hypothesis is presented giving an easy explanation of the problems arisen and of the results obtained hitherto. The results to be expected from crosses between self-compatible and self-incompatible species and the crossability and (in)compatibility behaviour of their hybrids and segregating generations are elaborated. It has been shown how self-compatible hybrids and segregants could be selected and introduced into a breeding program aiming at combining characters from self-compatible and self-incompatible parents.     

Genetics of self-compatibility in dihaploids of Solanum tuberosum L. 4. Linkage between an S-bearing translocation and a locus for virescens

Summary Three dihaploids of Solanum tuberosum (two self-compatible, one self-incompatible) were found to be heterozygous for a monogenic recessive virescent mutant. Intercrossing resulted in the expected 3 : 1 ratio only in crosses involving one self-compatible and one self-incompatible parent. Self-compatible x self-compatible matings produced F₁'s in which 6:1 was found. The same ratio was observed in the self progeny of the two self-compatible dihaploids. This significant deviation could be explained by assuming linkage (25% crossing-over) between v and an S-bearing translocation. This translocation causes self-compatibility in the dihaploids used and early lethality when homozygous.     

Adaptive properties of Picea abies progenies are influenced by environmental signals during sexual reproduction

Summary Several independent tests have shown that climate and weather during sexual reproduction influence the adaptive properties of the Picea abies progenies. This phenomenon is expressed in seed orchards established by moving parent trees, propagated as grafts, from north to south, from high to low elevation, or from outdoor to indoor greenhouse conditions. The progenies exhibit delayed flushing in the spring, later growth cessation of leader shoots in the summer, delayed bud-set, higher frequency of lammas shoots and delayed development of frost hardiness in the autumn compared to progenies reproduced in the colder native environment. The altered performance is persistent. We have found no effect on progenies of photoperiod and temperature treatments given to the males during meiosis and pollen production. However, when crosses were made in early spring (March), inside a heated greenhouse (short day, high temperature), the progenies are less frost hardy during cold acclimation than progenies from identical crosses performed in late spring (May; long day high temperature) in the greenhouse. The most hardy offspring were from crosses performed under outdoor conditions in May (long day, low temperature). These results indicate that some stages in reproduction, such as female meiosis, pollen tube growth, syngamy and early embryo development, are sensitive to temperature and/or photoperiod which then alter the phenotypic performance of the offspring. The most likely explanation is the existence of a regulatory mechanism affecting the expression of genes controlling adaptive traits. If this is true, it must have implications for the genetic interpretation of provenance differences in Norway spruce.     

Breeding system,taxonomy, and breeding strategy in cauliflower,Brassica oleracea var. botrytis L.)

Summary Cauliflowers representing those maturing in Britain in autumn, winter and spring were assessed for self-compatibility by self-pollen tube growth. A tendency existed for groups taking longer to mature to be more self-incompatible, but a range of incompatibilities was apparent in all groups. These results complement those of other workers.It is argued that despite demonstrable heterosis within many groups of cauliflowers, radical advances are probably best made by selecting self-compatible material from annual × biennial hybrid populations.     

Cross compatibility between Abelmoschus esculentus and A. moschatus

Interspecific cross compatibility between cultivated and wild okra (Abelmoschus esculentus and A. moschatus) and pollen tube growth behaviour in the crosses among a local cultivar of A. esculentus, A. moschatus and their F₁s were studied. Fruit set was observed in all the crosses except one and seed setting was absent in two of the crosses which set fruit. All seed produced were shrivelled but F₁ plants were obtained from two crosses where cultivated okra was used as the seed parent. The F₁ plants were perennial in nature with very low pollen viability and seed set. A high percentage of pollen germination and profuse pollen tube penetration in the style were observed in the cross A. esculentus × A. moschatus but low pollen tube penetration with abnormal pollen tubes was observed in the reciprocal cross. The number of pollen tubes was very low but they appeared to be normal in the backcross A. esculentus × F₁, but were generally abnormal in the reciprocal cross. Both pre- and postzygotic barriers seemed to occur in crosses between the two species. The present studies indicate that these barriers can be overcome and desirable characters from A. moschatus transferred to cultivated okra using conventional hybridisation techniques. This revised version was published online in July 2006 with corrections to the Cover Date.     

Location of the self-incompatibility gene on the almond linkage map

A progeny obtained from the almond cross ‘Ferragnès’בTuono’ (Prunus amygdalus Batsch) was used to study the self-incompatibility trait in three different ways: fruit set, pollen tube growth and stylar ribonuclease activity. As expected from the genotypes of the parents, all progeny appeared phenotypically as self-compatible. However, the progeny could be scored for the segregation of stylar ribonuclease isozymes and thus allowed the incompatibility locus to be placed on the almond linkage map.     

S-RNase genotyping and incompatibility group assignment by PCR and pollination experiments in Japanese plum

Most Japanese plum-type cultivars are self-incompatible and cross pollination is necessary to ensure fruit set. In this study, the S -RNase genotype and the incompatibility group of 68 Japanese plum-type cultivars were determined by PCR amplification of the S-RNase gene. The S -RNase genotype of 50 cultivars is first reported here and five new Japanese plum S -RNase alleles ( So , Sp , Sq , Sr , Ss ) were identified. The results obtained, together with information compiled from previous studies, allowed describing 12 new incompatibility groups (VIII–XIX). The self-incompatibility of several cultivars and the cross-compatibility among different incompatibility groups were verified by self- and cross-pollination experiments followed by observation of pollen tube growth. Five cultivars behaved as self-compatible, but two of them do not have the Se allele, which has been correlated with self-compatibility. Thus, additional sources of self-compatibility different from Se appear to be involved in Japanese plum self-compatibility.     

Methods of overcoming interspecific barriers in Trifolium

Summary Barriers to interspecific hybridization in Trifolium were investigated by manipulation of mentor pollen treatments, ploidy levels, and compatibility and male sterility systems. Crosses involving the addition of mentor pollen produced fewer seeds and hybrids than crosses involving normal pollination. Lower seed set with mentor pollen was deduced to result from the use of less viable pollen, approximately half the pollen having been killed by alcohol. Pollinations at the diploid level resulted in more hybrids than at the tetraploid level, perhaps because genes for male sterility produced higher female sterility in the tetraploids. The self-compatible stock produced more seeds, mostly selfs, than the self-incompatible stock, but produced more hybrids only in one cross, T. pratense L. × T. diffusum Ehrh. The use of male-sterile female parents reduced selfing but produced fewer hybrids than male-fertile female parents. Techniques of this study were designed to affect prefertilization barriers, but the lack of effect may indicate that postfertilization barriers in Trifolium are of greater importance.Journal Article No. 98-3-208 of Kentucky Agricultural Experiment Station. Published with approval of the Director.     

Fertility,plant morphology,and transmission rates of the extra chromosome in single and double trisomics of Solanum tuberosum L. Group Tuberosum

Summary Initial single and double trisomics of S. tuberosum Group Tuberosum cv. Gineke were successfully crossed with and backcrossed to clones obtained through inbreeding of self-compatible dihaploids of the same variety. Some trisomics showed reduced flowering or flower abnormalities and contributed therefore only to a small extent. Berry-set and seed-set varied considerably. There was no relation between these phenomena, nor was there any relation between either berry-or seed-set and the identity of the extra chromosome in the female parent. Seed-set seemed to be influenced by the male parent. When a more inbred male parent was used in the crosses with trisomics this often resulted in less seed per cross. There was no clear relation between seed-set and stainability of the pollen grains, but both the strong selection for good pollen and the high level of self-compatibility, have apparently contributed to the success of the crosses. The double trisomic plants yielded less seed than most single trisomics. Only three of the single trisomics produced stainable pollen and two of them yielded progeny when used as male parent in crosses or selfings.In the progenies several of the trisomic types could be distinguished on the basis of plant morphology in the young seedling stage. For ten different trisomics the morphotype is being described. The average rate of female transmission of the extra chromosome was about twenty per cent, but there was a wide variation, both between and within the various trisomic types. The results indicated that for chromosomes 3 and 8 the rate of transmission was higher than the average value. In one out of two trisomic types male transmission of the extra chromosome occurred, with a rate of 4.7%. The possible causes for the observed differences in female transmission of the extra chromosome are being discussed.     

Genetic analysis of four self-incompatible lines in Brassica napus

Reciprocal hybridization between four self-incompatible lines of Brassica napus: 271, 181, 184 and ‘White Flower’, revealed incompatibility. The reciprocal F₁s obtained by bud pollination showed self-incompatible reactions, and no segregation for self-incompatibility was observed in all the reciprocal F₂ populations, indicating that lines 271, 181, 184 and ‘White Flower’ were genetically identical with regard to self-incompatibility. Observations of self-incompatibility in 17 hybrids from crosses between line 271 and 17 varieties of B. napus showed 10 of the F₁ hybrids to be self-compatible, while four were partially self-compatible and three were self-incompatible. Genetic analysis based on F₂ and BC₁ populations from five self-compatible F₁ hybrids and two self-incompatible F₁ hybrids suggested the existence of at least two loci controlling the self-incompatibility of line 271: one is the S locus, with dominant and recessive relationships between the S alleles, and the other is the suppressor (sp) of the S locus. The sp locus is genetically different from the S locus, and also shows dominant and recessive relationships between the sp alleles.     

Species hybridization in Trifolium

In this investigation, pollen tubes were traced in intraspecific and interspecific crosses in Trifolium. Pollen tube growth was slower in the interspecific crosses examined but no failure of pollen germination was observed. Incompatibility of the pollen tube and stylar tissue proved to be an important pre-fertilization barrier to compatibility and a parallel could be drawn between the success of the pollen and the success of vegetative grafting of the genotypes.     

Interspecific hybridization among cultivars of hardy Hibiscus species section Muenchhusia

Rose mallows belong to the Muenchhusia section of the Hibiscus genus. They represent a small group of cold tolerant North American plants and are popular ornamentals mainly because of their abundant, large and colorful flowers. Due to their geographical origin they are well suited for garden use in temperate regions worldwide. The aim of the study was to investigate hybridization barriers in crosses among cultivars of Hibiscus species from the Muenchhusia section: H. coccineus, H. laevis and H. moscheutos. Crossing barriers were identified as both pre- and post-zygotic. The analysis of pollen tube growth revealed inhibition of pollen tubes and their abnormal growth. In specific crosses the fertilization success was low. The pre-fertilization barriers did not cause a complete reproductive isolation between the hybridization partners. In relation to post-fertilization barriers, the occurrence of hybrid incompatibilities such as unviability, chlorosis, necrosis, stunted growth and albinism were the main drawback in production of hybrids. The appearance of symptoms of hybrid incompatibilities was dependent upon specific parental plants. The obtained progeny had intermediate leaf morphology and flower morphology compared to parental plants. Hybridity state was verified by morphological analysis and RAPD markers. Based on the overall plant morphology, 472 hybrid progenies were obtained.     

Variation in pollen performance among plants of Fagopyrum esculentum

Summary In genetically-heterogeneous outcrossing species, there is the opportunity for selection based on the male gamete. Buckwheat (Fagopyrum esculentum Moench) is self-incompatible with one ovule per flower, so pollen competition at each ovule can be studied. The occurrence of selection among pollen parents was determined, as well as the relative importance of prezygotic and post-zygotic selection. Mixed pollinations from two donors produced nonrandom paternity, with one of the donors being favored about 2:1 on several females. Individual plants showed significant variation in the speed of pollen-tube growth. Therefore, prezygotic selection is likely to have occurred based on the speed of pollen tube growth. In single-donor pollinations, donors had equal success as expected in the absence of post-zygotic selection among donors. However, a significant male x female interaction was found, consistent with postzygotic selection against particular parental combinations. To test whether male fitness is reduced by increased allocation to seed filling during pollen production, large- and small-seeded lines were compared, both as pollen donor and as pollen recipient. The large-seeded line was better in both roles, thus there was no evidence that greater allocation to seeds reduced the quality of the pollen.     

Genetic diversity within cultivated teas based on nucleotide sequence comparison of ribosomal RNA maturase in chloroplast DNA

The wild tuber-bearing Solanumspecies represent a genetic pool of enormous diversity, embracing high variability for many agronomic traits. S. kurtzianum (ktz), S. chacoense(chc) and S. ruiz-lealii (rzl) are wild diploid self-incompatible relatives of the common potato, Solanum tuberosumssp. tuberosum, with resistance to adverse biotic and abiotic factors. Pollen-pistil/style compatibility relations and seed set in intra- and interspecific crosses among ktz, chc and rzl were investigated. Pre- and post-zygotic hybridization barriers were detected in the three species, with variable incidence because the percentage of genotypic combinations that produced seeds was15–30% and 7–28% in intra and interspecific crosses, respectively. In pollen-pistil/style incompatible combinations, either pollen grains did not germinate or pollen tube growth was arrested at different sites of the style, but mainly in its upper third. Unilateral incompatibility was detected in both intra-and interspecific crosses, as well as bilateral incompatibility in certain combinations. The incompatibility relations observed could be explained by a genetic model with dominant genes in pistils that interact with corresponding dominant genes in pollen, that are independent of the S-locus. The complex arrangement of compatibility relationships found could not be directly related to taxonomic hypothesis or geographic distribution. These results suggest that divergence between the three species has occurred recently, and that internal barriers of reproductive isolation have not been an important factor in their evolution. This revised version was published online in July 2006 with corrections to the Cover Date.     

Compatibility and incompatibility in witloof-chicory (Cichorium intybus L.). 1. The influence of temperature and plant age on pollen germination and seed production

Summary For the production of inbred lines and F₁ hybrids in witloof-chicory information is wanted on characteristics such as the incompatibility system. These characteristics can only be studied properly if the influence of temperature and physiological status of the plant on pollen germination and seed production is known. Investigations were carried out with 9 self-incompatible (SI) and 6 self-compatible (SC) clones in glasshouses of the IVT phytotron at constant temperatures of 10, 14, 17, 20, 23 and 26°C. In general, in vivo pollen germination percentages were rather low after self pollination with an optimum for germination around 17–20°C. No seeds were formed at the lowest temperature (10°C) while seed production for SC clones was usually (rather) good at higher temperatures. At 26°C seed production in some clones decreased. Both pollen germination and seed production decreased at the end of the flowering period. There was a rather positive relationship at e.g. 17 and 20°C between pollen germination after selfing and seed production. When no pollen germination was observed, no seed formation occurred. When pollen grains did germinate, seed development would not necessarily occur in all cases. So this relationship only enables negative mass selection for SC.     

In vitro induction of tetraploids in colchicine-treated cocoyam plantlets

A self-compatible (SC) variant of a wild diploid potato species, Solanum chacoense, which is normally self-incompatible (SI), was investigated for the nature and genetics of self-compatibility. It was crossed with a SI cultivated diploid potato species, S. phureja. The F₁ progeny segregated SC vs. SI. Diallel crosses were made among 15 F₁'s. Self-compatibility was tested in a selfed family of a parental SC variant and in sib-mated and selfed families of F₁ progeny. All the data suggest that there is a single dominant gene (Sli) with sporophytic action inhibiting S gene expression in the pollen. Plants having a ‘Sli’ gene, produce pollen which is compatible to its own parent and plants with similar S genes. The ‘Sli’ gene has been maintained in a heterozygous condition through eight selfing generations (S₈) implying that dominant homozygotes might be associated with lethality. This revised version was published online in July 2006 with corrections to the Cover Date.