• Title/Summary/Keyword: shed pollen

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Microspore Division and Plant Regeneration from Shed Pollen Culture in Rice

  • Kim, Hyun-Soon;Kang, Hyeon-Jung;Lee, Young-Tae;Lee, Seung-Yeob;Nam, Jeong-Kwon;Kim, Tae-Soo;Rha, Eui-Shik;Jin, Il-Doo
    • KOREAN JOURNAL OF CROP SCIENCE
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    • v.47 no.1
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    • pp.62-67
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    • 2002
  • An efficient system of rice microspore culture could contribute to the production of genetically modified rice. The microspores were isolated by mechanical or shed methods. The number of microspores per 100 anthers isolated at uninucleate stage was higher than (or similar to) those at binucleate stage in isolation method with pestle or spatular, but microspore divisions were not easily observed on both stages. On the other hand, pollen division in shed pollen culture was observed more frequently at uninuclear than at binuclear stage. Cold pretreatment at 1$0^{\circ}C$ for 10 days resulted in the best multicellular division to produce microcalli at 12.5% efficiency in shed microspores. Heat shock at 33$^{\circ}C$ for one hour before or after pollen shedding enhanced cell division and callus formation. Out of twelve green regenerants, two were haploids and ten were diploids based on the chromosome analysis of root tips. The size of stoma was 12$^{m}$ m in haploids and 15 ${\mu}{\textrm}{m}$ in diploids determined by scanning electron microscope (SEM).

Effect of Phenylacetic Acid (PAA) on Embryo Formation in Anther and Microspore Culture of Paeonia lactiflora (작약의 약 및 소포자 배양에서 Phenylacetic Acid [PAA]가 배형성에 미치는 영향)

  • Kwon, Yong-Sham;Shin, Young-Ae;Sohn, Jae-Keun
    • Journal of Plant Biotechnology
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    • v.29 no.3
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    • pp.193-198
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    • 2002
  • The objective of this study was to determine the effects of phenylacetic acid (PAA) on embryo production in anther and microspore culture of herbaceous peony (Paeonia lactiflora Pall.). The anthers of herbaceous peony were cultured on MS medium with 0 to 100 mg/L PAA according to two-step culture method. The ruptured anthers were transferred onto embryo formation medium without growth regulators. The MS medium with 2 mg/L PAA was effective in enhancing of direct embryogenesis and producing of normal embryo with two cotyledons from the cultured anthers. However, the increase of PAA concentration more than 5 mg/L PAA inhibited the embryo formation and promoted to callus formation from the anthers. The PAA affects significantly on the division of microspore and embryo formation in shed pollen culture and the best result was obtained from a medium supplement with 2 mg/L PAA. The preculture of anther for 10 days on solid medium with 2 mg/L PAA was effective for embryo formation from shed microspore of herbaceous peony.

Sex Morph, Fruiting Characteristics, and Seed Viability of Acer palmatum var. matsumurae (Koidz.) Makino (뜰단풍의 성 형태, 결실특성 및 종자활력)

  • Kim, Gab Tae
    • Journal of Korean Society of Forest Science
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    • v.100 no.2
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    • pp.131-135
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    • 2011
  • To examine the sex morph, fruiting characteristics and seed viabilities of Acer palmatum var. matsumurae (Koidz.) Makino, the flowers and seed-sets of 101 trees were collected from early April to late October 2010, and floral structure and seed viability were studied. Among investigated 101 trees, 73.3% of trees were protandrous (PA: pollen is shed before stigmas are receptive) and 26.7% were protogynous (PG: stigmas are receptive before pollen is shed). Acer palmatum var. matsumurae has heterodichogamous sexual system. Number of flowers and seed-sets per inflorescence are significantly different between sex morphs, and PA has more flowers and seed-sets per inflorescence than PG. Rates of sound seeds and decayed seeds are significantly different between sex morphs. Rates of sound seeds were 46.4% in PA, but 65.6% in PG. and rates of decayed seeds were 49.6% in PA, but 23.6% in PG. The differences of decayed seeds' rates between sex morphs might be related with the timing of pistil flower blooming and insect pests' outbreak.

Advances of Self-incompatibility Genetics in Genus Fagopyrum

  • Woo Sun-Hee;Soo-Jeong Kwon;Sung-Hyun Yun;Min-Young Park;Probir Kumar Mittra;Swapan Kumar Roy;Seong-Woo Cho
    • Proceedings of the Korean Society of Crop Science Conference
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    • 2022.10a
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    • pp.191-191
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    • 2022
  • Heterostyly continues to fascinate evolutionary biologists interested in heredity, evolution, breeding, and adaptive function. Polymorphism demonstrates how simply inherited developmental changes in the location of plant sexual associations can have important consequences for population pollination and mating biology. In contrast to homozygous self incompatibility, only a small number of mating phenotypes can be maintained in the population because insect pollinators have limitations in achieving multiple segregation sites for pollen deposition. Field studies of pollen tube growth have shown that reciprocal style-stamen polymorphisms function to increase the capacity of insect-mediated cross-pollination. The genetic pattern of style morphs is well established in various taxa, but despite recent advances, the identity, number, and structure of the genes controlling the heteromorphic syndrome have been poorly elucidated. The phenomenon of heterostyly in buckwheat has been controlled by gene complex concentrate to S-locus. Homomorphic autogamous buckwheat strains were established by the interspecific hybridization. Backcrossing of this line to the common buckwheat (pin) and selecting homostylar progenies made it possible to introduce the self-compatible gene into common buckwheat. In the result, we obtained the BC9F2 generation, and defined the strong linkage between flower type and self-incompatibility by microscopic observation of pollen tube growth. This finding suggests that self-incompatibility character is not controlled by one gene. Moreover, we defined the strong linkage between flower type and self-incompatibility. It strongly supports the S supergene theory. Therefore, we have plan to elucidate the heterostyly self-incompatibility by using molecular genetics, proteome analysis and apply to exploitation of buckwheat improvement. In near future, the expression of heterozygous syndromes in genus Fagopyrum with single isolated heterozygous species may provide clues to early stages of polymorphic assembly and shed light on evolutionary models of heterozygous strains.

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Sex Morph, Fruiting Habit, and Seed Viability of Acer palmatum (단풍나무의 성 형태, 결실특성 및 종자활력)

  • Kim, Gab Tae;Kim, Hoi Jin
    • Journal of Korean Society of Forest Science
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    • v.101 no.1
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    • pp.91-95
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    • 2012
  • To examine the sex morph, heterodichogamy, fruiting characteristics and seed viabilities of Acer palmatum, sixty three planted trees were monitered in Wonju-si for two years in terms of their sex morph, flowering and fruiting habit. Most flowers of A. palmatum are pollinated by Apis mellifera, Helophilus virgatus, a few (3.57%) are pollinated by wind. Twenty four trees (42.9%) in 2010, and twenty trees (31.7%) in 2011 were proved protandrous (PA: pollen is shed before stigmas are receptive), thirty two (50.8%) in 2010, thirty trees (47.6%) in 2011 were proved protogynous (PG: stigmas are receptive before pollen is shed). This result means that Acer palmatum has heterodichogamous sexual system. Five trees (7.9%) have changed their sex morphs; 4 trees change the sex morp PA to PG, and one does the sex morph PG to PA. Rates of sound seeds and decayed seeds were significantly different between sex morphs. Rates of sound seeds were 51.6% (2010) and 64.0% (2011) in PA, but 30.4% (2010) and 40.4% (2011) in PG. and rates of decayed seeds did 40.0% (2010) and 31.2% (2011) in PA, but 65.6% (2010) and 56.8% (2011) in PG. The differences of decayed seeds' rates between sex morphs might be related with the timing of insect pests' outbreak.

Genome-wide identification and expression profiling of the pectin methylesterase gene family in Citrus sinensis (L.) Osbeck

  • Ho Bang Kim;Chang Jae Oh;Nam-Hoon Kim;Cheol Woo Choi;Minju Kim;Sukman Park;Seong Beom Jin;Su-Hyun Yun;Kwan Jeong Song
    • Journal of Plant Biotechnology
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    • v.49 no.4
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    • pp.271-291
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    • 2022
  • Pectin methylesterase (PME) plays an important role in vegetative and reproductive development and biotic/abiotic stress responses by regulating the degree of methyl-esterification of pectic polysaccharides in the plant cell wall. PMEs are encoded by a large multigene family in higher land plant genomes. In general, the expression of plant PME genes shows tissue- or cell-specific patterns and is induced by endogenous and exogenous stimuli. In this study, we identified PME multigene family members (CsPMEs) from the sweet orange genome and report detailed molecular characterization and expression profiling in different citrus tissues and two fruit developmental stages. We also discussed the possible functional roles of some CsPME genes by comparing them with the known functions of PMEs from other plant species. We identified 48 CsPME genes from the citrus genome. A phylogenetic tree analysis revealed that the identified CsPMEs were divided into two groups/types. Some CsPMEs showed very close phylogenetic relationships with the PMEs whose functions were formerly addressed in Arabidopsis, tomato, and maize. Expression profiling showed that some CsPME genes are highly or specifically expressed in the leaf, root, flower, or fruit. Based on the phylogenetic relationships and gene expression profiling results, we suggest that some CsPMEs could play functional roles in pollen development, pollen tube growth, cross incompatibility, root development, embryo/seed development, stomata movement, and biotic/abiotic stress responses. Our results shed light on the biological roles of individual CsPME isoforms and contribute to the search for genetic variations in citrus genetic resources.