Morphological and Molecular Characterization of Orchid Fruit Development

Dirks‐Mulder, Anita; Ahmed, Israa; Broek, Mark uit het; Krol, Louie; Menger, Nino; Snier, Jasmijn; Winzum, Anne van; Wolf, Axel; Wout, Martijn van't; Zeegers, Jamie J.; Butôt, Roland; Heijungs, Reinout; Heuven, Bertie Joan van; Kruizinga, Jaco; Langelaan, Rob; Smets, Erik; Star, Wim; Bemer, Marian; Gravendeel, Barbara

doi:10.3389/fpls.2019.00137

Cited by 19 publications

(22 citation statements)

References 51 publications

(79 reference statements)

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“…The increased volume of parenchymatic layers of the mesocarp was the main factor in the growth in diameter of the fruit, which has already been described for some orchids [47,48]. The presence of sclerenchyma cells in the fruit mesocarp was described for Orchidaceae species that have been studied so far, with the exception of our research [39,47,[49][50][51][52][53].…”

Section: Anatomy Of Reproductive Organssupporting

confidence: 63%

Reproductive development and genetic structure of the mycoheterotrophic orchid Pogoniopsis schenckii Cogn.

et al. 2021

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Background Pogoniopsis schenckii Cogn. is a mycoheterotrophic orchid that can be used as a model to understand the influence of mycoheterotrophy at different stages of the reproductive cycle. We aimed to verify the presence of endophytic and epiphytic fungi at each stage of the reproductive process and investigated how the breeding system may relate to genetic structure and diversity of populations. In this study we performed anatomical and ultrastructural analyses of the reproductive organs, field tests to confirm the breeding system, and molecular analysis to assess genetic diversity and structure of populations. Results During the development of the pollen grain, embryo sac and embryogenesis, no fungal infestation was observed. The presence of endophytic fungal hyphae was observed just within floral stems and indehiscent fruit. Beyond assuring the presence of fungus that promote seed germination, specific fungi hyphae in the fruit may affect other process, such as fruit ripening. As other mycoheterotrophic orchids, P. schenckii is autogamous, which may explain the low genetic diversity and high genetic structure in populations. Conclusions We discuss an interesting interaction: fungal hyphae in the indehiscent fruit. These fungal hyphae seem to play different roles inside fruit tissues, such as acting in the fruit maturation process and increasing the proximity between fungi and plant seeds even before dispersion occurs. As other mycoheterotrophic orchids, P. schenckii is autogamous, which may explain the low genetic diversity and high genetic structure in populations. Altogether, our findings provide important novel information about the mechanisms shaping ecology and evolution of fragmented populations of mycoheterotrophic plant.

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Section: Anatomy Of Reproductive Organssupporting

confidence: 63%

Reproductive development and genetic structure of the mycoheterotrophic orchid Pogoniopsis schenckii Cogn.

et al. 2021

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“…These mutations include many genes, expressed in the sporophytic tissue and not expressed in the haploid cell line, that impair the maturation of megagametophyte. AINTEGUMENTA ( ANT ), BELL1 , SEEDSTICK (STK) and other genes (reviewed by Pinto et al, 2019; see also Dirks‐Mulder et al, 2019 and references therein) encode transcription factors involved in sporophytic integument development. In ant and bell1 mutants, ovules have reduced or absent integuments, and embryo sacs are arrested at the 1‐nucleate stage, confirming the importance of the sporophytic maternal tissues to promote and control megagametophyte formation and the existence of continuous crosstalk between the two generations.…”

Section: Figurementioning

confidence: 99%

Ecological and phylogenetic constraints determine the stage of anthetic ovule development in orchids

Mayer

Scopece

Lumaga

et al. 2021

American J of Botany

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Premise Unlike most flowering plants, orchid flowers have under‐developed ovules that complete development only after pollination. Classical studies reported variation in the stage in which ovule development is arrested, but the extent of this variation and its evolutionary and ecological significance are unclear. Methods Here, we used light microscopy to observe ovule development at anthesis for 39 species not previously studied and surveyed the literature gaining information on 94 orchid species. Tropical and temperate members of all five orchid subfamilies as well as species with contrasting pollination strategies (rewarding versus deceptive) and life forms (epiphytic versus terrestrial) were represented. We analyzed the data using statistical comparisons and a phylogenetic generalized least square (PGLS) analysis. Results Apostasioideae, the sister to the rest of the orchids, have mature ovules similar to other Asparagales, while under‐differentiated ovules are present in the other subfamilies. Ovule developmental stages showed high variation even among closely related groups. Ovules were more developed in terrestrial than in epiphytic, in temperate than in tropical, and in rewarding than in deceptive pollination orchid species. This latter comparison was also significant in the PGLS analysis. Conclusions These results suggest that ovule developmental stage in orchids can be shaped by ecological factors, such as seasonality and pollination strategy, and can be selected for optimizing female reproductive investment.

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“…Moreover, SEP- like genes were also involved in orchid fruit development. In Erycina pusilla , the SEP-like genes EpMADS8 and − 9 were expressed throughout fruit development, and protein–protein interaction studies revealed that MADS domain complexes comprised of SEP, FRUITFULL (FUL), and AGAMOUS (AG)/SHATTERPROOF (SHP) orthologs can also be formed in E. pusilla ( Lin et al, 2016 ; Dirks-Mulder et al, 2019 ). To date, no SEP genes have been identified in Paphiopedilum .…”

Section: Introductionmentioning

confidence: 99%

Characterization of Three SEPALLATA-Like MADS-Box Genes Associated With Floral Development in Paphiopedilum henryanum (Orchidaceae)

et al. 2022

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Paphiopedilum (Orchidaceae) is one of the world’s most popular orchids that is found in tropical and subtropical forests and has an enormous ornamental value. SEPALLATA-like (SEP-like) MADS-box genes are responsible for floral organ specification. In this study, three SEP-like MADS-box genes, PhSEP1, PhSEP2, and PhSEP3, were identified in Paphiopedilum henryanum. These genes were 732–916 bp, with conserved SEPI and SEPII motifs. Phylogenetic analysis revealed that PhSEP genes were evolutionarily closer to the core eudicot SEP3 lineage, whereas none of them belonged to core eudicot SEP1/2/4 clades. PhSEP genes displayed non-ubiquitous expression, which was detectable across all floral organs at all developmental stages of the flower buds. Furthermore, subcellular localization experiments revealed the localization of PhSEP proteins in the nucleus. Yeast two-hybrid assays revealed no self-activation of PhSEPs. The protein–protein interactions revealed that PhSEPs possibly interact with B-class DEFICIENS-like and E-class MADS-box proteins. Our study suggests that the three SEP-like genes may play key roles in flower development in P. henryanum, which will improve our understanding of the roles of the SEP-like MADS-box gene family and provide crucial insights into the mechanisms underlying floral development in orchids.

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Morphological and Molecular Characterization of Orchid Fruit Development

Cited by 19 publications

References 51 publications

Reproductive development and genetic structure of the mycoheterotrophic orchid Pogoniopsis schenckii Cogn.

Reproductive development and genetic structure of the mycoheterotrophic orchid Pogoniopsis schenckii Cogn.

Ecological and phylogenetic constraints determine the stage of anthetic ovule development in orchids

Characterization of Three SEPALLATA-Like MADS-Box Genes Associated With Floral Development in Paphiopedilum henryanum (Orchidaceae)

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