Do s genes or deleterious recessives control late-acting self-incompatibility in Handroanthus heptaphyllus (Bignoniaceae)? A diallel study with four full sib progeny arrays

Abstract Background and Aims Genetically controlled self-incompatibility (SI) mechanisms constrain selfing and thus have contributed to the evolutionary diversity of flowering plants. In homomorphic gametophytic SI (GSI) and homomorphic sporophytic SI (SSI), genetic control is usually by a single multi-allelic locus S. Both GSI and SSI prevent self pollen tubes reaching the ovary and so are pre-zygotic in action. In contrast, in taxa with late-acting self-incompatibility (LSI), rejection is often post-zygotic, since self-pollen tubes grow to the ovary where fertilization may occur prior to floral abscission. Alternatively, lack of self fruit set could be due to early-acting inbreeding depression (EID). The aim of our study was to investigate mechanisms underlying lack of selfed fruit set in Handroanthus heptaphyllus in order to assess the likelihood of LSI versus EID. Methods We employed four full sib diallels to study the genetic control of LSI in Handroanthus heptaphyllus using a precociously flowering variant. We also used fluorescence microscopy to study the incidence of ovule penetration by pollen tubes in pistils that abscised following pollination or initiated fruits. Key Results All diallels showed reciprocally cross-incompatible full-sibs (RCI), reciprocally cross compatible full-sibs (RCC), and non-reciprocally compatible full-sibs (NRC) in almost equal proportions. There was no significant difference between the incidence of ovule penetrations in abscised pistils following self- and cross-incompatible pollinations, but those in successful cross pollinations were around twofold greater. Conclusions A genetic model postulating a single S locus with four s alleles, one of which, in the maternal parent, is dominant to the other three, will produce RCI, RCC and NRC situations each at 33 %, consistent with our diallel results. We favour this simple genetic control over an early-acting inbreeding depression (EID) explanation since none of our pollinations, successful or unsuccessful, resulted in partial embryo development, as would be expected under a whole genome EID effect.

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Self-incompatibility in Eucalyptus globulus ssp. globulus (Myrtaceae)

Australian Journal of Botany ◽

10.1071/bt01076 ◽

2002 ◽

Vol 50 (3) ◽

pp. 365 ◽

Cited By ~ 33

Author(s):

L. M. Pound ◽

M. A. B. Wallwork ◽

B. M. Potts ◽

M. Sedgley

Keyword(s):

Fluorescence Microscopy ◽

Seed Production ◽

Eucalyptus Globulus ◽

Pollen Tubes ◽

The Self ◽

Self Incompatibility ◽

Seed Maturity ◽

Significant Difference ◽

Site Of Action ◽

Ovule Penetration

Controlled pollinations with self- and cross-pollen were applied to individual flowers of five mature Eucalyptus globulus Labill. ssp. globulus trees to investigate the site of action of the self-incompatibility mechanism. Growth of pollen tubes in styles at 2 weeks after pollination and ovule penetration by pollen tubes at 2 and 4 weeks after pollination were investigated by fluorescence microscopy. Some pollinated flowers were left to develop to seed maturity, then harvested to quantify the level of self-incompatibility of each tree. Trees ranged from 76 to 100% self-incompatible. There was no significant difference in the number of pollen tubes in the style between treatments although variation was present between trees. The number of pollen tubes present was similar to the number of ovules present within flowers. Penetration of ovules by pollen tubes over all five trees combined revealed no difference between treatments at 2 weeks after pollination; however, there was slightly greater penetration by cross-pollen tubes at 4 weeks after pollination. This difference was not large enough to account for the near complete lack of selfed-seed production, suggesting late pre- or post-zygotic arrest of selfed ovules.

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Self-sterility May Be Due to Prezygotic Late-acting Self-incompatibility and Early-acting Inbreeding Depression in Chinese Chestnut

Journal of the American Society for Horticultural Science ◽

10.21273/jashs04634-18 ◽

2019 ◽

Vol 144 (3) ◽

pp. 172-181 ◽

Cited By ~ 2

Author(s):

Huan Xiong ◽

Feng Zou ◽

Sujuan Guo ◽

Deyi Yuan ◽

Genhua Niu

Keyword(s):

Inbreeding Depression ◽

Fruit Set ◽

Paraffin Section ◽

Forest Tree ◽

The Self ◽

Self Incompatibility ◽

Double Fertilization ◽

Chinese Chestnut ◽

Section Technique ◽

Ovule Penetration

Chinese chestnut (Castanea mollissima), which is native to China, has been cultivated as a nontimber forest tree species for 4000 years. This species has been found to display self-sterility, which results in a significantly lower seed set following self-pollination (SP) compared with that following cross-pollination (CP). Self-sterility can be induced by prezygotic or postzygotic late-acting self-incompatibility (LSI) or early-acting inbreeding depression (EID). To elucidate the causes of self-sterility in chestnut, we investigated pollen–pistil interactions, fertilization, and early ovule development following SP and CP by using a paraffin section technique and fluorescence microscopy. The fruit set percentage and seed characteristics also were evaluated among different pollination treatments. The results show that there were no significant differences in pollen tube behavior following SP vs. CP, regardless of the stigmatic or stylar level. Double fertilization was significantly greater following CP (18.09%) than SP (2.58%). The significantly lower percentages of ovule penetration and double fertilization in the selfed vs. crossed ovules support a prezygotic LSI mechanism in C. mollissima. The fruit set resulting from chase-pollination (CHP; 53.85% to 63.64%) was greater than that resulting from SP (12.12% to 14.00%). In addition, the distribution of aborted seed sizes after SP showed a widely clumped pattern. Abortion occurred at different stages during seed development rather than at a uniform stage, which supported the idea that EID was operating in C. mollissima. Levels of self-sterility in the chinese chestnut trees ranged from 88.2% to 90.5%. Thus, partial prezygotic LSI and EID contributed to self-sterility in the C. mollissima ‘Yanshanzaofeng’, with prezygotic LSI rejecting part of the self-pollen in the ovary and EID aborting part of the self-fertilized seeds.

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Pollination Biology of Hydrangea macrophylla

HortScience ◽

10.21273/hortsci.40.2.335 ◽

2005 ◽

Vol 40 (2) ◽

pp. 335-338 ◽

Cited By ~ 5

Author(s):

Sandra M. Reed

Keyword(s):

Pollen Tube ◽

Pollen Tube Growth ◽

Pollen Germination ◽

Pollen Tubes ◽

Tube Growth ◽

Self Incompatibility ◽

Stigma Receptivity ◽

Hydrangea Macrophylla ◽

Significant Difference ◽

Days After Anthesis

Little information is available on the reproductive behavior of Hydrangea macrophylla (Thunb. Ex J.A. Murr.) Ser. The objectives of this study were to investigate time of stigma receptivity, viability of pollen from sterile flowers, and self-incompatibility in this popular ornamental shrub. Pollen germination and pollen tube growth in styles were examined using fluorescence microscopy. Stigma receptivity was examined in cross-pollinations made from 1 day before anthesis to 8 days after anthesis. Maximum stigma receptivity for the two cultivars examined occurred from anthesis to 4 days after anthesis. Viability of pollen from sterile flowers was evaluated through pollen staining and observations of pollen tube growth. No significant difference in percent stainable pollen between fertile and sterile flowers was observed in any of the six taxa examined. Pollen germination and pollen tube growth were studied in cross-pollinations made using pollen from fertile and sterile flowers of two cultivars. For both cultivars, pollen tubes from fertile and sterile flowers grew to the same length and had entered ovules by 72 hours after pollination. Self-incompatibility was evaluated by comparing pollen germination and pollen tube growth in cross- and self-pollinations. In the five taxa examined, self pollen tubes were significantly shorter than cross pollen tubes in flowers that were examined 72 hours after pollination. This finding indicates the presence of a gametophytic self-incompatibility system in H. macrophylla.

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Intra- and Inter-specific Pollination of Santalum spicatum and S. album

Australian Journal of Botany ◽

10.1071/bt96079 ◽

1997 ◽

Vol 45 (6) ◽

pp. 1083 ◽

Cited By ~ 12

Author(s):

A. Rugkhla ◽

J. A. McComb ◽

M. G. K. Jones

Keyword(s):

Fruit Set ◽

Embryo Sac ◽

Pollen Tubes ◽

Flower Morphology ◽

Self Incompatibility ◽

Immature Fruit ◽

Sexual Compatibility ◽

Santalum Spicatum ◽

Western Australian ◽

Days After Anthesis

The flower morphology, receptivity and sexual compatibility between genotypes and species were determined in Western Australian sandalwood (Santalum spicatum) and Indian sandalwood (S. album). The results showed that the stigma of both species became receptive at anthesis and reached a peak at 3 or 4 days after anthesis. Pollen tubes took 2 days to grow to the ovary when pollinated at anthesis, and 1 day when pollinated 2 or 3 days after anthesis. The egg apparatus matured at least 2 days after pollination and varied between genotypes. Fertilisation occurred 2 or 3 days following cross pollination. Although 10–40% of ovules were fertilised following intra-specific crosses of both species, the average initial fruit set was much lower: 4% in S. spicatum and 19% in S. album. Most immature fruit (75–80%) abscised following intra-specific pollination. The number of pollen tubes that grew in styles after self-and inter-specific pollination was lower than that for intra-specific pollination. Following self and inter-specific pollination, growth of pollen tubes was arrested in the style, ovary and around the embryo sac; a few penetrated the embryo sac. Initial fruit set was low and developing fruit abscised prematurely. The results indicated that pre- and post-fertilisation mechanisms control self-incompatibility and inter-specific incompatibility between the sandalwood species.

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A Dual-Successive-Screen Model at Pollen/Stigma and Pollen Tube/Ovary Explaining Paradoxical Self-Incompatibility Diagnosis in the Olive Tree—An Interpretative Update of the Literature

Plants ◽

10.3390/plants10091938 ◽

2021 ◽

Vol 10 (9) ◽

pp. 1938

Author(s):

Catherine Marie Breton ◽

Daniela Farinelli ◽

Georgios Koubouris ◽

Franco Famiani ◽

Michel Raymond ◽

...

Keyword(s):

Pollen Tube ◽

Pollen Germination ◽

Fruit Set ◽

Laboratory Data ◽

Olive Tree ◽

Pollen Tubes ◽

Self Incompatibility ◽

New Model ◽

Self Compatibility ◽

Screen Model

The ‘pollen test’ and ‘fruit set test’ following controlled crossing combinations of parents are the most commonly used methods for pollination incompatibility studies in Olea europaea L. Self-incompatibility (SI), with diagnoses based on the pollen test and pollen germination, indicating self-compatibility, is not always followed by fruit set in this species. To solve this dispute, we have reconciled all observations into a new model. Mismatches between field and laboratory data and between methods are resolved by the dual-successive-screen model (DSSM) supposing two different loci for the expression of the two SI mechanisms. Pollen/stigma is controlled by diallelic SI, or DSI, inferring two G1 and G2 compatibility/incompatibility (C/I) groups for varieties, whereas pollen tubes in ovaries are controlled by poly-allelic SI or PASI with twenty C/I groups. To explain the selfing of varieties, we have suggested that some determinants in the pollen tube and stigma are unstable and degrade (DS-D for degradation of S-determinant) after three to five days, enabling some pollen tubes to avoid being rejected, hence reaching ovules. DSI and PASI in the DSSM and DS-D mechanisms, plus the andromonoecy of the olive tree, complexify SI studies. Inferences from DSSM and DS-D mechanisms in olive orchard practice are detailed.

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Testing of self-(in)compatibility in apricot cultivars from European breeding programmes

Horticultural Science ◽

10.17221/219/2012-hortsci ◽

2013 ◽

Vol 40 (No. 2) ◽

pp. 65-71 ◽

Cited By ~ 3

Author(s):

D. Milatović ◽

D. Nikolić ◽

B. Krška

Keyword(s):

Fluorescence Microscopy ◽

Pollen Tube ◽

Pollen Tube Growth ◽

Reliable Method ◽

Pollen Tubes ◽

Tube Growth ◽

Self Incompatibility ◽

Breeding Programmes

Self-(in)compatibility was tested in 40 new apricot cultivars from European breeding programmes. Pollen-tube growth in pistils from laboratory pollinations was analysed using the fluorescence microscopy. Cultivars were considered self-compatible if at least one pollen tube reached the ovary in the majority of pistils. Cultivars were considered self- incompatible if the growth of pollen tubes in the style stopped along with formation of characteristic swellings. Of the examined cultivars, 18 were self-compatible and 22 were self-incompatible. Fluorescence microscopy provides a relatively rapid and reliable method to determine self-incompatibility in apricot cultivars.      

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Cytological Observation and Transcriptome Comparative Analysis of Self-Pollination and Cross-Pollination in Dendrobium Officinale

Genes ◽

10.3390/genes12030432 ◽

2021 ◽

Vol 12 (3) ◽

pp. 432

Author(s):

Yaling Chen ◽

Benchang Hu ◽

Fantao Zhang ◽

Xiangdong Luo ◽

Jiankun Xie

Keyword(s):

Pollen Tubes ◽

The Self ◽

Dendrobium Officinale ◽

Self Incompatibility ◽

Related Gene ◽

Cytological Observation ◽

Lectin Receptor ◽

Cross Pollination ◽

Self Pollination ◽

Medicinal Value

Dendrobium officinale is a rare and traditional medicinal plant with high pharmacological and nutritional value. The self-incompatibility mechanism of D. officinale reproductive isolation was formed in the long-term evolution process, but intraspecific hybridization of different germplasm resources leads to a large gap in the yield, quality, and medicinal value of D. officinale. To investigate the biological mechanism of self-incompatibility in D. officinale, cytological observation and the transcriptome analysis was carried out on the samples of self-pollination and cross-pollination in D. officinale. Results for self-pollination showed that the pollen tubes could grow in the style at 2 h, but most of pollen tubes stopped growing at 4 h, while a large number of cross-pollinated pollen tubes grew along the placental space to the base of ovary, indicating that the self-incompatibility of D. officinale may be gametophyte self-incompatibility. A total of 63.41 G basesum of D. officinale style samples from non-pollinated, self-pollination, and cross-pollination by RNA-seq were obtained, and a total of 1944, 1758, and 475 differentially expressed genes (DEGs) in the comparison of CK (non-pollinated) vs. HF (cross-pollination sample), CK vs. SF (self-pollination sample) and SF vs. HF were identified, respectively. Forty-one candidate genes related to self-incompatibility were found by function annotation of DEGs, including 6 Ca2+ signal genes, 4 armed repeat containing (ARC) related genes, 11 S-locus receptor kinase (SRK) related genes, 2 Exo70 family genes, 9 ubiquitin related genes, 1 fatty acid related gene, 6 amino acid-related genes, 1 pollen-specific leucine-rich repeat extensin-like protein (LRX) related gene and 1 lectin receptor-like kinases (RLKs) related gene, showed that self-incompatibility mechanism of D. officinale involves the interaction of multiple genes and pathways. The results can provide a basis for the study of the self-incompatibility mechanism of D. officinale, and provide ideas for the preservation and utilization of high-quality resources of D. officinale.

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Action of the Style Product of the Self-Incompatibility Gene of Nicotiana alata (S-RNase) on in Vitro-Grown Pollen Tubes.

The Plant Cell ◽

10.1105/tpc.3.3.271 ◽

1991 ◽

pp. 271-283 ◽

Cited By ~ 66

Author(s):

J. E. Gray ◽

B. A. McClure ◽

I. Bonig ◽

M. A. Anderson ◽

A. E. Clarke

Keyword(s):

Pollen Tubes ◽

The Self ◽

Nicotiana Alata ◽

Self Incompatibility

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Genetic control of self-incompatibility in red-osier dogwood

Journal of Heredity ◽

10.1093/oxfordjournals.jhered.a109654 ◽

1982 ◽

Vol 73 (4) ◽

pp. 308-309 ◽

Cited By ~ 6

Author(s):

R. L. Hummel ◽

P. D. Ascher ◽

H. M. Pellett

Keyword(s):

Genetic Control ◽

Self Incompatibility

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Ultrastructural Aspects of the Self-Incompatibility Mechanism in Lycopersicum Peruvianum Mill

Journal of Cell Science ◽

10.1242/jcs.12.2.403 ◽

1973 ◽

Vol 12 (2) ◽

pp. 403-419 ◽

Cited By ~ 1

Author(s):

D. DE NETTANCOURT ◽

M. DEVREUX ◽

A. BOZZINI ◽

M. CRESTI ◽

E. PACINI ◽

...

Keyword(s):

Pollen Tube ◽

Tube Wall ◽

Degradation Mechanism ◽

Embryo Sac ◽

Pollen Tubes ◽

Self Incompatibility ◽

Weak Reaction ◽

General Hypothesis ◽

Incompatible Pollen ◽

Compatible Pollen

The experimental results obtained show that the tip of the incompatible pollen tube bursts open after the outer-wall has considerably expanded in the intercellular spaces of the conducting tissue and the inner-wall has disappeared and numerous particles have accumulated in the tube cytoplasm. These particles, which measure approximately 0.2 µm in diameter and give a weak reaction to the test of Thiéry, differ in many respects from the vesicles normally present in compatible pollen tubes growing through the style; they appear to resemble, in some cases, the spheres which are discharged by the compatible pollen tubes after they have reached the embryo-sac. It is considered that these observations support the current belief that the tube wall is the site of action for the incompatibility proteins and suggest that self-incompatibility is not a passive process resulting from lack of growth stimulation but an active event which leads to the destruction of the incompatible pollen tubes. The degradation mechanism involved appears similar to the one which enables the compatible pollen tube to release its contents in the degenerated synergid and presents some analogies with the lytic process taking place in virus-infected cells. The general hypothesis is presented that the particles observed in the cytoplasm of self-incompatible pollen tubes consist of a mixture of incompatibility proteins and of basic constituents of the tube wall.

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