Litchi chinensis Sonn.is an important economic fruit tree in tropical and subtropical regions.Regrettably,the efficiency of plant regeneration via somatic embryogenesis in litchi is typically low due to the poor conve...Litchi chinensis Sonn.is an important economic fruit tree in tropical and subtropical regions.Regrettably,the efficiency of plant regeneration via somatic embryogenesis in litchi is typically low due to the poor conversion of embryos to plants.The purpose of this study was to establish a regeneration system via somatic embryogenesis from immature embryos explants in‘Heiye'cultivar of litchi.Our results demonstrated that MS medium supplemented with 2.0 mg L^(-1)2,4-D was optimal for callus induction.For somatic embryo(SE)induction,MS medium containing0.5 g L^(-1) activated charcoal(AC)was the most effective,while the use of zeatin(ZT)and thidiazuron(TDZ)resulted in abnormal somatic embryos.The rooting and regeneration rate of 2.15%and 17.5%,respectively,were achieved using MS medium supplemented with 0.5 g L^(-1) AC.Furthermore,transcriptome analysis was performed on embryogenic callus(EC),globular embryo(GE),and heart embryo(HE)to explore the molecular mechanisms of early somatic embryogenesis.2,587 common differentially expressed genes(DEGs)between EC_vs_GE and EC_vs_HE were identified,and the expression patterns of these common DEGs were separated into twelve major clusters.GO annotation and KEGG pathway analysis revealed that these common DEGs were implicated in plant hormone signal transduction,auxin-activated signaling pathway,and other biological processes.Additionally,differentially expressed transcription factors were identified,and the function of LcBBM2 which is specifically highly expressed during early somatic embryogenesis was verified.Overexpression of LcBBM2 in tomato promotes callus and shoot formation.Therefore,this study can provide a theoretical basis and technical support for genetic breeding improvement of litchi.展开更多
Late embryogenesis abundant (LEA) proteins generally accumulate in seeds during the later stages of maturation.Here we studied the LEA genes in two wild peanut species (Arachis duranensis and Arachis ipaensis) in an e...Late embryogenesis abundant (LEA) proteins generally accumulate in seeds during the later stages of maturation.Here we studied the LEA genes in two wild peanut species (Arachis duranensis and Arachis ipaensis) in an effort to create a genetic resource for peanut crop improvement.we identified 65 AdLEA and 69 AiLEA genes representing all 8 LEA subfamilies,which were unevenly distributed across 10 peanut chromosomes.The majority of LEA proteins were found to be highly hydrophilic.MEME analysis indicated that LEA gene motifs were conserved within groups,but not between groups.The LEA genes contained a diverse array of stress-and phytohormoneresponsive cis-acting elements,with the AdLEA2-20 and AiLEA2-20 genes containing the greatest number of elements.Both AdLEA2-20 and AiLEA2-20 were upregulated in response to cold temperatures,drought,salinity,and abscisic acid exposure,although the dynamics were tissue-dependent.This study lays the foundation for future studies on the LEA gene family and abiotic stress in peanut,and our results will be invaluable for the genetic improvement of peanut by characterizing the genetic resources of wild peanut species.展开更多
Soybean somatic cell could induce the development of embryoid which was similar to embryo morphologically and structurally. Somatic embryogenesis system of soybean was used to conduct genetic transformation of soybean...Soybean somatic cell could induce the development of embryoid which was similar to embryo morphologically and structurally. Somatic embryogenesis system of soybean was used to conduct genetic transformation of soybean because of its several advantages such as higher transformational efficiency, beetter synchronism and fewer plant chimeras among transgenic plants. After infected with agrobacterium tumefaciens,the initiation, differentiation and development of young cotyledon embryogenic cell of soybean which was cultured on selective culture medium with kanamycin were investigated through histological study. The result showed that somatic embryo was differentiated in non-bud differentiation way. The embryogenic cells were differentiated from epidermis of explant or cells in 1 layer or 2 layers, with the division of embryogenic cells and degradation and disorganization of surrounding cells, the embryogenic cells would form embryoid with analogous suspensor structure. Later, globular embryoid would extrude from epidermis then developed into heart-shape embryo. The experiment was expected to provide theoretical reference for the construction of high transformational system of using plant somatic embryogenesis induced by young cotyledon of soybean.展开更多
The evaluation on the callus embryogenesis capacity of 15 genotypes of citrus showed that stress treatments were conducive to somatic embryogenesis and could enhance the recovery of the missed capacity of embryogenes...The evaluation on the callus embryogenesis capacity of 15 genotypes of citrus showed that stress treatments were conducive to somatic embryogenesis and could enhance the recovery of the missed capacity of embryogenesis for some genotypes. Randomly amplified polymorphic DNA (RAPD) and methylation sensitive amplified polymorphism (MSAP) analysis indicated that there existed significant differences in DNA methylation status between the callus capable of producing somatic embryoids and that which missed the embryogenesis capacity of the same genotype Newhall navel orange ( Citrus sinensis Osb. cv. Newhall). The DNA methylation level of the former was lower than that of the latter. However, RAPD profiles did not show any difference between these two kinds of callus.展开更多
[Objective] The study aimed to reveal the effect of osmosis-regulating substances and organic appendices on somatic embryogenesis in wheat. [Method] The suitable concentration combination of appendices was optimized b...[Objective] The study aimed to reveal the effect of osmosis-regulating substances and organic appendices on somatic embryogenesis in wheat. [Method] The suitable concentration combination of appendices was optimized by adding different concentrations of osmosis-regulating substances including mannitol, sorbitol and organic appendices such as Gln, CH and LH, into the somatic embryogenesis in wheat. [Result] The mannitol or sorbitol lower than 40 g/L was helpful for improving somatic embryogenesis; there was no significant difference in the induction rate of somatic embryogenesis when 300-500 mg/L Gln、CH or LH was respectively added into the induced medium, while somatic embryogenesis could be enhanced dramatically in the presence of 500 mg/L Gln together with 300 mg/L CH. [Conclusion] Somatic embryogenesis could be improved to some extent by different concentrations of osmosis-regulating substances and organic appendices, which laid foundation for establishing a more perfect system of somatic embryogenesis in wheat.展开更多
A series of new cognitions on the morphogenesis of maize ( Zea mays L.) embryo have been obtained with scanning electron microscopy and semi-thin section techniques. 1. The proembryo. The proembryo from zygotic cell d...A series of new cognitions on the morphogenesis of maize ( Zea mays L.) embryo have been obtained with scanning electron microscopy and semi-thin section techniques. 1. The proembryo. The proembryo from zygotic cell divisions may be divided into three parts: proper, hypoblast and suspensor. The suspensor is short and small, and only exists transiently. As to the hypoblast there is a growth belt, which promotes elongation of the hypoblast. Eventually the upper portion of the hypoblast contributes to the formation of the coleorhiza and the remainder dries up, sticking to the end of the coleorhiza. 2. The maize embryo possesses dorsiventrality and cotyledon dimorphism. During early proembryo stage, the dorsiventrality appears in the proper of the embryo. On the ventral side, the cells are small with dense cytoplasm and few vacuoles. On the dorsal side, the cells are larger with lower cytoplasmic density and have more vacuoles. During later proembryo stage, the proper develops into two parts: the ventrum and the dorsurn. The ventrum rises up from the center of the ventral side. The dorsurn is composed of the marginal area of the ventral side and the whole dorsal side of the proper. During young embryo development, the ventrum differentiates into the coleoptile, apical meristem, hypocotyl, radicle and the main part of the coleorhiza. What is more important, the emergence of coleoptile primordium and radicular initials occur at the axis of the proper, then the coleoptile primordium expands from its two ends toward left and right to form a ring, and the endogenous radicular initials expand in all directions to form a conical radicular tip. All these morphogenetic activities of the ventrum follow a bilateral symmetrical pattern. The dorsurn forms the scutellum. primordium. Then the scutellum primordium, expands rapidly toward the left, right, front and back, while thickening itself, so as to make all components originating from the ventrum become hidden in the longitudinal groove of the scutellum. Lastly, the left and right lateral scales emerge from the edges of the longitudinal groove and expand toward the central line of the axis. As a consequence, morphologically, the bilateral symmetry of the ventral side of the embryo is revealed entirely. Morphogenetically, the coleoptile primordium and apical meristem in maize are similar to the coleoptile (apical cotyledon) and apex formation of the nice embryo, so the coleoptile of the maize embryo can also be considered as an apical cotyledon. The scutellum is a lateral cotyledon. These dimorphic cotyledons of the maize embryo originate from the dorsiventrality of the proper. 3. The true morphological structure of the maize embryo is recognized and its developmental stages are established. A maize embryo is a hypocotyl, in which the apical part is the shoot apex (or plumule) with the coleoptile, the central part consists mainly of the hypocotyl with a lateral cotyledon (scutellum), and the basal part is the radicle with coleorhiza. The left and right lateral scales derived from the scutellum overlap at the ventral side, leaving only two little pores at both ends of the seam from which the coleoptile and coleorhiza can be seen. The four sequential stages of maize embryonic development are as follows: (1) proembryo, stage. This stage covers a period from zygotic cell division to the appearance of the dorsum and ventrum. (2) ventrum rapid differentiation stage. (3) scutellum rapid expansion stage. (4) lateral scale development stage (or embryonic envelope formation stage). 4. To obtain a median longitudinal section perpendicular to the ventral surface is crucial for recognizing the genuine morphological structure of the maize embryo.展开更多
Fluctuations of levels of several endogenous plant hormones in isolated rice ( Oryza sativa ssp. japonica) embryos during early and mid-embryogenesis and early stages of germination were studied by enzyme-linked immun...Fluctuations of levels of several endogenous plant hormones in isolated rice ( Oryza sativa ssp. japonica) embryos during early and mid-embryogenesis and early stages of germination were studied by enzyme-linked immunosorbent assay (ELISA). Embryos were collected at different days after pollination (DAP) and different days after imbibition (DAI) of mature seeds. The contents of gibberellin(1) (GA(1)), abscisic acid (ABA), isopentenyladenine and isopentenyladenosine ( iPAs), zeatin and zeatin riboside ( ZRs) were immunochemically assayed. The GA(1) level was the highest among all hormones tested. The variations of GA(1) levels were opposite with the ABA levels, with some exceptions. During early and mid-embryogenesis, the levels of GA(1) and ABA were the highest at 4 DAP. From 8 to 18 DAP, GA(1) level declined, whereas the ABA level increased. During germination, GA(1) level increased at 2 DAI whereas simultaneously the ABA content decreased. The highest ratio of GA(1)/ABA was observed at 2 DAI The levels of iPAs and ZRs were maxima in the embryos at 4 DAP, decreased to a very low level and maintained constant thereafter. Our results provide further evidence that GA(1) plays an important role in the early stages of embryo development and germination. The balance between GA(1) and ABA, rather than their absolute contents, controls these processes throughout the development, whereas iPAs and ZRs may play important roles in early embryogenesis. The use of isolated embryos as starting material avoids the usual interferences with other tissues such as the endosperm. In addition, this is the first report dealing with the hormonal balance of early-embryos in rice.展开更多
[Objective] This study aimed to explore the effects of treatments with three types of exogenous oxidase solutions and H2O2.solution on the somatic embryogenesis of Fraxinus mandshurica Rupr. (Oleaceae). [Method] The...[Objective] This study aimed to explore the effects of treatments with three types of exogenous oxidase solutions and H2O2.solution on the somatic embryogenesis of Fraxinus mandshurica Rupr. (Oleaceae). [Method] The immature zygotic cotyledons were treated with PPQ (polyphenol oxidase) solution, GQD (glucose oxidase) solution, SOD (superoxide dismutase) solution and H202 (hydrogen peroxide) at different concentrations to explore the effects on the growth, browning and somatic embryogenesis on cotyledon explants in the somatic embryogenesis of F. mandshurica. Through comparative analysis on the effects of different treatments on somatic embryogenesis of F. mandshurica, the relationship between explants browning and somatic embryogenesis was uncovered during the somatic embryogenesis of F. mandshurica. [Result] H2O2 treatment not only advanced the explants browning, but also inhibited the growth and somatic embryogenesis of explants; different concentrations of PPQ promoted the growth and browning of explants, as well as improving the incidence of somatic embryogenesis; both GOD and SOD treatment could raise the explants browning rate; when somatic embryogenesis of explants treated with enzyme solutions advanced, the incidence of somatic embryogenesis was low; however, when the disparity of the incidence of somatic embryogenesis between 30 and 60 d treatments reached its peak, the incidence of somatic embryogenesis was also high. [Conclusion] The results of this study provide basis for raising the incidence and improving the status of somatic embryogenesis of F. mandshurica, as well as optimizing the somatic embryogenesis system of F. mandshurica.展开更多
[Objective] The aim was to observe embryogenesis and development of isolated microspores in Chinese cabbage. [Method] Chinese cabbage F 1 hybrids were used as the experimental materials, and optical microspore was emp...[Objective] The aim was to observe embryogenesis and development of isolated microspores in Chinese cabbage. [Method] Chinese cabbage F 1 hybrids were used as the experimental materials, and optical microspore was employed to observe the embryogenesis and development of isolated microspores. [Result] Cells swelled after heat shock treatment, which was the critical factor of embryoid induction. Three pathways equal division, unequal division and germination of microspores were discovered to lead to the embryogenesis from isolated microspores after swelling. Microspore could grow directly to embryoid through germination path way. Equally divided microspores formed the original embryos after successive multiple equal divisions. Original embryos could develop into cotyledon-shaped embryos via globular, heart-shaped and torpedo-shaped embryos. The large one of the two cells from unequally divided microspores continued to divide and finally formed a polar embryoid. [Conclusion] The study will provide cytological basis for high induction frequency and embryoid of Chinese cabbage.展开更多
Protoplasts of embryogenic suspension cells of loblolly pine (Pinus taeda L).were isolated at exponential growth stage.Influences of various concentrations of basal medium,levels of BA,and concentrations of inositol ...Protoplasts of embryogenic suspension cells of loblolly pine (Pinus taeda L).were isolated at exponential growth stage.Influences of various concentrations of basal medium,levels of BA,and concentrations of inositol on the differentiation of embryonal suspensor mass (ESM),early stage somatic embryos (ESE) ,and lae stage somatic embryos (LSE) were investigated .A study of the effect of various concentrations of LP basal medium sowed that the optimal basal medium concentration of ESM,ESE,and LSE differentiation was 1.25 LP medium.The effects of various levels of BA and inositol showed that the optimal concentrations of BA for the formation of ESM,ESE and LSE were 4 mg/L ,2mg/L and 1mg/L,respectively ,and the optimal concentrations of inositol for the ESM ,ESE and LSM formation were 400mg/L,800mg/L and 1,200mg/L,respectively.展开更多
[Objective] The aim was to observe embryogenesis and development of isolated microspores of Raphanus sativus.[Method] By using Chinese radish variety Shandong Huaye Xinlimei as the experimental materials,the caryocine...[Objective] The aim was to observe embryogenesis and development of isolated microspores of Raphanus sativus.[Method] By using Chinese radish variety Shandong Huaye Xinlimei as the experimental materials,the caryocinesia features and development of isolated microspores in radish were studied.[Result] Two types of cell division appeared in the isolated microspore:unequal division and equational division.The unequal divided microspores had two different size nucleuses,while the equational divided microspores had two same size nucleuses.The equational divided microspores developed to 4-cell structure,multi-cell structure,ball-shaped embryos,heart-shaped embryos,torpedo-stage embryos and cotyledon-stage embryos.[Conclusion] This result will provide cytological basis for the isolated microspore culture of radish.展开更多
Zebrafish(Danio rerio) Z-OTU,containing OTU and TUDOR domains,was predicted to be a member of OTU-related protease,a family of the deubiquitylating enzymes(DUBs).A previous report from our laboratory clearly descr...Zebrafish(Danio rerio) Z-OTU,containing OTU and TUDOR domains,was predicted to be a member of OTU-related protease,a family of the deubiquitylating enzymes(DUBs).A previous report from our laboratory clearly describes the expression patterns of z-otu mRNA.Here,we characterized the Z-OTU protein during zebrafish oogenesis and early embryogenesis.After prokaryotic expression,the recombinant protein of the OTU domain and GST was purified and injected into rabbits to obtain the polyclonal antibody-anti-Z-OTU,which was used for immunohistochemistry in zebrafish ovaries and embryos.Interestingly,obvious differences existed between the expression patterns of z-otu mRNA and its protein during oogenesis and early embryogenesis.In stage I oocytes,z-otu mRNA was detected in cytoplasm while its protein existed in the germinal vesicle.In addition,its protein was distributed during entire oogenesis,while mRNA was not detected in oocytes at stage IV or mature oocytes.The z-otu mRNA disappeared after midblastula transition(MBT) and its protein gradually decreased after this stage.We inferred that Z-OTU protein,like other OTU-related protease with DUB activity,was required for germinal vesicle breakdown of oocytes during meiosis,germinal vesicle migration,and embryo cleavage maintenance.展开更多
[Objective] This study aimed to regenerate plants of sweet potato (Ipomoea batatas) cultivar Xushu22 via somatic embryogenesis, using leaf and shoot apex as explants. [Method] The leaf and shoot apex of Xushu 22 were ...[Objective] This study aimed to regenerate plants of sweet potato (Ipomoea batatas) cultivar Xushu22 via somatic embryogenesis, using leaf and shoot apex as explants. [Method] The leaf and shoot apex of Xushu 22 were separately cultured on MSB medium and MSD medium. The induced embryogenic calluses were then cultured on MS medium. The regeneration frequency of leaf and shoot apex explants were respectively calculated. [Result] The average frequency of leaf explants developing somatic callus was 95.69% compared to 30.56% in case of shoot apex explants. There were different types of morphogenic structures in the process of somatic embryo development. Leaf explants gave a high regeneration frequency to 60.61%, while the regeneration frequency of shoot apices was 22%. In addition, no morphological variations were observed in the regeneration plants. [Conclusion] Leaf explant was better than shoot apices in plant regeneration of Xushu22 via somatic embryogenesis.展开更多
基金supported by the National Natural Science Fund of China(Grant Nos.31872066 and 32272663)the Science and Technology Planning Project of Guangzhou(Grant No.2023B01J2002)+1 种基金the Key Research and Development Program of Hainan(Grant No.ZDYF2023XDNY052)the Seed Industry Engineering Project of Ministry of Agriculture and Rural Affairs of Guangdong(Grant Nos.2022-NPY-00-004 and 2022-NBH-00-001)。
文摘Litchi chinensis Sonn.is an important economic fruit tree in tropical and subtropical regions.Regrettably,the efficiency of plant regeneration via somatic embryogenesis in litchi is typically low due to the poor conversion of embryos to plants.The purpose of this study was to establish a regeneration system via somatic embryogenesis from immature embryos explants in‘Heiye'cultivar of litchi.Our results demonstrated that MS medium supplemented with 2.0 mg L^(-1)2,4-D was optimal for callus induction.For somatic embryo(SE)induction,MS medium containing0.5 g L^(-1) activated charcoal(AC)was the most effective,while the use of zeatin(ZT)and thidiazuron(TDZ)resulted in abnormal somatic embryos.The rooting and regeneration rate of 2.15%and 17.5%,respectively,were achieved using MS medium supplemented with 0.5 g L^(-1) AC.Furthermore,transcriptome analysis was performed on embryogenic callus(EC),globular embryo(GE),and heart embryo(HE)to explore the molecular mechanisms of early somatic embryogenesis.2,587 common differentially expressed genes(DEGs)between EC_vs_GE and EC_vs_HE were identified,and the expression patterns of these common DEGs were separated into twelve major clusters.GO annotation and KEGG pathway analysis revealed that these common DEGs were implicated in plant hormone signal transduction,auxin-activated signaling pathway,and other biological processes.Additionally,differentially expressed transcription factors were identified,and the function of LcBBM2 which is specifically highly expressed during early somatic embryogenesis was verified.Overexpression of LcBBM2 in tomato promotes callus and shoot formation.Therefore,this study can provide a theoretical basis and technical support for genetic breeding improvement of litchi.
基金supported by the Undergraduate Training Program for Innovation and Entrepreneurship (S202110580053,202410580011)the Zhaoqing University Project (190060,QN202329)Science and Technology Program of Zhaoqing (2023040308001)。
文摘Late embryogenesis abundant (LEA) proteins generally accumulate in seeds during the later stages of maturation.Here we studied the LEA genes in two wild peanut species (Arachis duranensis and Arachis ipaensis) in an effort to create a genetic resource for peanut crop improvement.we identified 65 AdLEA and 69 AiLEA genes representing all 8 LEA subfamilies,which were unevenly distributed across 10 peanut chromosomes.The majority of LEA proteins were found to be highly hydrophilic.MEME analysis indicated that LEA gene motifs were conserved within groups,but not between groups.The LEA genes contained a diverse array of stress-and phytohormoneresponsive cis-acting elements,with the AdLEA2-20 and AiLEA2-20 genes containing the greatest number of elements.Both AdLEA2-20 and AiLEA2-20 were upregulated in response to cold temperatures,drought,salinity,and abscisic acid exposure,although the dynamics were tissue-dependent.This study lays the foundation for future studies on the LEA gene family and abiotic stress in peanut,and our results will be invaluable for the genetic improvement of peanut by characterizing the genetic resources of wild peanut species.
基金the National Natural Science Foundation of China (C02020504)the Scientific and Techrological Developing Scheme of Jilin Province (20050217-2+1 种基金20060204)the national 863 project (2006AA100104-17)~~
文摘Soybean somatic cell could induce the development of embryoid which was similar to embryo morphologically and structurally. Somatic embryogenesis system of soybean was used to conduct genetic transformation of soybean because of its several advantages such as higher transformational efficiency, beetter synchronism and fewer plant chimeras among transgenic plants. After infected with agrobacterium tumefaciens,the initiation, differentiation and development of young cotyledon embryogenic cell of soybean which was cultured on selective culture medium with kanamycin were investigated through histological study. The result showed that somatic embryo was differentiated in non-bud differentiation way. The embryogenic cells were differentiated from epidermis of explant or cells in 1 layer or 2 layers, with the division of embryogenic cells and degradation and disorganization of surrounding cells, the embryogenic cells would form embryoid with analogous suspensor structure. Later, globular embryoid would extrude from epidermis then developed into heart-shape embryo. The experiment was expected to provide theoretical reference for the construction of high transformational system of using plant somatic embryogenesis induced by young cotyledon of soybean.
文摘The evaluation on the callus embryogenesis capacity of 15 genotypes of citrus showed that stress treatments were conducive to somatic embryogenesis and could enhance the recovery of the missed capacity of embryogenesis for some genotypes. Randomly amplified polymorphic DNA (RAPD) and methylation sensitive amplified polymorphism (MSAP) analysis indicated that there existed significant differences in DNA methylation status between the callus capable of producing somatic embryoids and that which missed the embryogenesis capacity of the same genotype Newhall navel orange ( Citrus sinensis Osb. cv. Newhall). The DNA methylation level of the former was lower than that of the latter. However, RAPD profiles did not show any difference between these two kinds of callus.
文摘[Objective] The study aimed to reveal the effect of osmosis-regulating substances and organic appendices on somatic embryogenesis in wheat. [Method] The suitable concentration combination of appendices was optimized by adding different concentrations of osmosis-regulating substances including mannitol, sorbitol and organic appendices such as Gln, CH and LH, into the somatic embryogenesis in wheat. [Result] The mannitol or sorbitol lower than 40 g/L was helpful for improving somatic embryogenesis; there was no significant difference in the induction rate of somatic embryogenesis when 300-500 mg/L Gln、CH or LH was respectively added into the induced medium, while somatic embryogenesis could be enhanced dramatically in the presence of 500 mg/L Gln together with 300 mg/L CH. [Conclusion] Somatic embryogenesis could be improved to some extent by different concentrations of osmosis-regulating substances and organic appendices, which laid foundation for establishing a more perfect system of somatic embryogenesis in wheat.
文摘A series of new cognitions on the morphogenesis of maize ( Zea mays L.) embryo have been obtained with scanning electron microscopy and semi-thin section techniques. 1. The proembryo. The proembryo from zygotic cell divisions may be divided into three parts: proper, hypoblast and suspensor. The suspensor is short and small, and only exists transiently. As to the hypoblast there is a growth belt, which promotes elongation of the hypoblast. Eventually the upper portion of the hypoblast contributes to the formation of the coleorhiza and the remainder dries up, sticking to the end of the coleorhiza. 2. The maize embryo possesses dorsiventrality and cotyledon dimorphism. During early proembryo stage, the dorsiventrality appears in the proper of the embryo. On the ventral side, the cells are small with dense cytoplasm and few vacuoles. On the dorsal side, the cells are larger with lower cytoplasmic density and have more vacuoles. During later proembryo stage, the proper develops into two parts: the ventrum and the dorsurn. The ventrum rises up from the center of the ventral side. The dorsurn is composed of the marginal area of the ventral side and the whole dorsal side of the proper. During young embryo development, the ventrum differentiates into the coleoptile, apical meristem, hypocotyl, radicle and the main part of the coleorhiza. What is more important, the emergence of coleoptile primordium and radicular initials occur at the axis of the proper, then the coleoptile primordium expands from its two ends toward left and right to form a ring, and the endogenous radicular initials expand in all directions to form a conical radicular tip. All these morphogenetic activities of the ventrum follow a bilateral symmetrical pattern. The dorsurn forms the scutellum. primordium. Then the scutellum primordium, expands rapidly toward the left, right, front and back, while thickening itself, so as to make all components originating from the ventrum become hidden in the longitudinal groove of the scutellum. Lastly, the left and right lateral scales emerge from the edges of the longitudinal groove and expand toward the central line of the axis. As a consequence, morphologically, the bilateral symmetry of the ventral side of the embryo is revealed entirely. Morphogenetically, the coleoptile primordium and apical meristem in maize are similar to the coleoptile (apical cotyledon) and apex formation of the nice embryo, so the coleoptile of the maize embryo can also be considered as an apical cotyledon. The scutellum is a lateral cotyledon. These dimorphic cotyledons of the maize embryo originate from the dorsiventrality of the proper. 3. The true morphological structure of the maize embryo is recognized and its developmental stages are established. A maize embryo is a hypocotyl, in which the apical part is the shoot apex (or plumule) with the coleoptile, the central part consists mainly of the hypocotyl with a lateral cotyledon (scutellum), and the basal part is the radicle with coleorhiza. The left and right lateral scales derived from the scutellum overlap at the ventral side, leaving only two little pores at both ends of the seam from which the coleoptile and coleorhiza can be seen. The four sequential stages of maize embryonic development are as follows: (1) proembryo, stage. This stage covers a period from zygotic cell division to the appearance of the dorsum and ventrum. (2) ventrum rapid differentiation stage. (3) scutellum rapid expansion stage. (4) lateral scale development stage (or embryonic envelope formation stage). 4. To obtain a median longitudinal section perpendicular to the ventral surface is crucial for recognizing the genuine morphological structure of the maize embryo.
文摘Fluctuations of levels of several endogenous plant hormones in isolated rice ( Oryza sativa ssp. japonica) embryos during early and mid-embryogenesis and early stages of germination were studied by enzyme-linked immunosorbent assay (ELISA). Embryos were collected at different days after pollination (DAP) and different days after imbibition (DAI) of mature seeds. The contents of gibberellin(1) (GA(1)), abscisic acid (ABA), isopentenyladenine and isopentenyladenosine ( iPAs), zeatin and zeatin riboside ( ZRs) were immunochemically assayed. The GA(1) level was the highest among all hormones tested. The variations of GA(1) levels were opposite with the ABA levels, with some exceptions. During early and mid-embryogenesis, the levels of GA(1) and ABA were the highest at 4 DAP. From 8 to 18 DAP, GA(1) level declined, whereas the ABA level increased. During germination, GA(1) level increased at 2 DAI whereas simultaneously the ABA content decreased. The highest ratio of GA(1)/ABA was observed at 2 DAI The levels of iPAs and ZRs were maxima in the embryos at 4 DAP, decreased to a very low level and maintained constant thereafter. Our results provide further evidence that GA(1) plays an important role in the early stages of embryo development and germination. The balance between GA(1) and ABA, rather than their absolute contents, controls these processes throughout the development, whereas iPAs and ZRs may play important roles in early embryogenesis. The use of isolated embryos as starting material avoids the usual interferences with other tissues such as the endosperm. In addition, this is the first report dealing with the hormonal balance of early-embryos in rice.
基金Supported by National Natural Science Foundation of China(30872008)the Special Fund for Basic Research of Central Universities(DL10BA04)~~
文摘[Objective] This study aimed to explore the effects of treatments with three types of exogenous oxidase solutions and H2O2.solution on the somatic embryogenesis of Fraxinus mandshurica Rupr. (Oleaceae). [Method] The immature zygotic cotyledons were treated with PPQ (polyphenol oxidase) solution, GQD (glucose oxidase) solution, SOD (superoxide dismutase) solution and H202 (hydrogen peroxide) at different concentrations to explore the effects on the growth, browning and somatic embryogenesis on cotyledon explants in the somatic embryogenesis of F. mandshurica. Through comparative analysis on the effects of different treatments on somatic embryogenesis of F. mandshurica, the relationship between explants browning and somatic embryogenesis was uncovered during the somatic embryogenesis of F. mandshurica. [Result] H2O2 treatment not only advanced the explants browning, but also inhibited the growth and somatic embryogenesis of explants; different concentrations of PPQ promoted the growth and browning of explants, as well as improving the incidence of somatic embryogenesis; both GOD and SOD treatment could raise the explants browning rate; when somatic embryogenesis of explants treated with enzyme solutions advanced, the incidence of somatic embryogenesis was low; however, when the disparity of the incidence of somatic embryogenesis between 30 and 60 d treatments reached its peak, the incidence of somatic embryogenesis was also high. [Conclusion] The results of this study provide basis for raising the incidence and improving the status of somatic embryogenesis of F. mandshurica, as well as optimizing the somatic embryogenesis system of F. mandshurica.
基金Supported by National Natural Science Foundation of China(31101551)Natural Science Foundation of Yunnan Province(2010CD057)~~
文摘[Objective] The aim was to observe embryogenesis and development of isolated microspores in Chinese cabbage. [Method] Chinese cabbage F 1 hybrids were used as the experimental materials, and optical microspore was employed to observe the embryogenesis and development of isolated microspores. [Result] Cells swelled after heat shock treatment, which was the critical factor of embryoid induction. Three pathways equal division, unequal division and germination of microspores were discovered to lead to the embryogenesis from isolated microspores after swelling. Microspore could grow directly to embryoid through germination path way. Equally divided microspores formed the original embryos after successive multiple equal divisions. Original embryos could develop into cotyledon-shaped embryos via globular, heart-shaped and torpedo-shaped embryos. The large one of the two cells from unequally divided microspores continued to divide and finally formed a polar embryoid. [Conclusion] The study will provide cytological basis for high induction frequency and embryoid of Chinese cabbage.
文摘Protoplasts of embryogenic suspension cells of loblolly pine (Pinus taeda L).were isolated at exponential growth stage.Influences of various concentrations of basal medium,levels of BA,and concentrations of inositol on the differentiation of embryonal suspensor mass (ESM),early stage somatic embryos (ESE) ,and lae stage somatic embryos (LSE) were investigated .A study of the effect of various concentrations of LP basal medium sowed that the optimal basal medium concentration of ESM,ESE,and LSE differentiation was 1.25 LP medium.The effects of various levels of BA and inositol showed that the optimal concentrations of BA for the formation of ESM,ESE and LSE were 4 mg/L ,2mg/L and 1mg/L,respectively ,and the optimal concentrations of inositol for the ESM ,ESE and LSM formation were 400mg/L,800mg/L and 1,200mg/L,respectively.
基金Support by Ministry of Science and Technology Support Project of China "Research of Efficient Breeding Technology and Breeding of New Varieties for Facility-specific Leaf and Root Vegetables"(2009BADB8B03)~~
文摘[Objective] The aim was to observe embryogenesis and development of isolated microspores of Raphanus sativus.[Method] By using Chinese radish variety Shandong Huaye Xinlimei as the experimental materials,the caryocinesia features and development of isolated microspores in radish were studied.[Result] Two types of cell division appeared in the isolated microspore:unequal division and equational division.The unequal divided microspores had two different size nucleuses,while the equational divided microspores had two same size nucleuses.The equational divided microspores developed to 4-cell structure,multi-cell structure,ball-shaped embryos,heart-shaped embryos,torpedo-stage embryos and cotyledon-stage embryos.[Conclusion] This result will provide cytological basis for the isolated microspore culture of radish.
基金supported by grants from the ICGEB (International Center for Genetic Engineering and Biotechnology) (CRP/CHN02-01) (SONG Ping)the National Basic Research Program of China (2004CB117400) (SONG Ping)+1 种基金the National Natural Science Foundation of China (30150005 30270675) (SONG Ping)
文摘Zebrafish(Danio rerio) Z-OTU,containing OTU and TUDOR domains,was predicted to be a member of OTU-related protease,a family of the deubiquitylating enzymes(DUBs).A previous report from our laboratory clearly describes the expression patterns of z-otu mRNA.Here,we characterized the Z-OTU protein during zebrafish oogenesis and early embryogenesis.After prokaryotic expression,the recombinant protein of the OTU domain and GST was purified and injected into rabbits to obtain the polyclonal antibody-anti-Z-OTU,which was used for immunohistochemistry in zebrafish ovaries and embryos.Interestingly,obvious differences existed between the expression patterns of z-otu mRNA and its protein during oogenesis and early embryogenesis.In stage I oocytes,z-otu mRNA was detected in cytoplasm while its protein existed in the germinal vesicle.In addition,its protein was distributed during entire oogenesis,while mRNA was not detected in oocytes at stage IV or mature oocytes.The z-otu mRNA disappeared after midblastula transition(MBT) and its protein gradually decreased after this stage.We inferred that Z-OTU protein,like other OTU-related protease with DUB activity,was required for germinal vesicle breakdown of oocytes during meiosis,germinal vesicle migration,and embryo cleavage maintenance.
文摘[Objective] This study aimed to regenerate plants of sweet potato (Ipomoea batatas) cultivar Xushu22 via somatic embryogenesis, using leaf and shoot apex as explants. [Method] The leaf and shoot apex of Xushu 22 were separately cultured on MSB medium and MSD medium. The induced embryogenic calluses were then cultured on MS medium. The regeneration frequency of leaf and shoot apex explants were respectively calculated. [Result] The average frequency of leaf explants developing somatic callus was 95.69% compared to 30.56% in case of shoot apex explants. There were different types of morphogenic structures in the process of somatic embryo development. Leaf explants gave a high regeneration frequency to 60.61%, while the regeneration frequency of shoot apices was 22%. In addition, no morphological variations were observed in the regeneration plants. [Conclusion] Leaf explant was better than shoot apices in plant regeneration of Xushu22 via somatic embryogenesis.
