Background Gossypium hirsutum undergoes rapid clonal propagation to regenerate a mature plant through tissue culture.However,the correlation between cotton leaf regeneration,callus induction,and regeneration ability w...Background Gossypium hirsutum undergoes rapid clonal propagation to regenerate a mature plant through tissue culture.However,the correlation between cotton leaf regeneration,callus induction,and regeneration ability was still obscure.In this research,cotton leaf regeneration level for 21 accessions in the field(new leaves)was observed after the first harvest,and a comparison between field regeneration level and callus induction with its regeneration capacity(new shoots and roots)for the same 21 accessions was carried out.Agronomic traits,including plant height,leaf area,fresh leaf weight,dry leaf weight,the number of flowers and bolls,and biochemical(proline content)and physiological(chlorophyll and carotenoid content)traits during the flowering stage of 21 upland cotton accessions,were investigated.Result A significant correlation between physiological parameters and callus induction was discovered.Callus induction and regeneration capacity of roots and shoots for hypocotyl,cotyledons,and shoot tip tissues were used to validate field leaf regeneration level after the first harvest.CCRI 24 showed significant leaf regeneration in the field and callus induction capacity through callus induction and regeneration.Conclusion We found a substantial relationship between field regeneration capability and callus induction with its regeneration capacity for the hypocotyl,cotyledons,and shoot tip.The results showed that ZS061,Lumian 378,Jimian 863,and ZS065 have the highest moisture retention capacity,while CCRI 24,Liaoyang Duomaomian,and Beizhe Gongshemian have the lowest moisture retention capacity.CCRI 24 has the highest leaf regeneration capacity in the field,while Beizhe Gongshemian has the lowest leaf regeneration capacity.All our result provides a clue for checking the regeneration capacity through leaf regeneration level in the field.展开更多
Barley varieties Aramir and Golf were crossed with Hordeum bulbosum. Haploid embryos as well as diploid embryos of their parents were cultured for callus induction. Calli induced were irradiated in doses of 0, 5, 10, ...Barley varieties Aramir and Golf were crossed with Hordeum bulbosum. Haploid embryos as well as diploid embryos of their parents were cultured for callus induction. Calli induced were irradiated in doses of 0, 5, 10, 25 and 50 GY. Results showed that seed set and callus induction frequency of haploid and diploid embryos in combination Aramir × bulbosum were higher than that in Golf x bulbosum, Diploid and haploid calli from embryos involved Golf were more sensitive than that involved Aramir. Acorrding to dead callus frequency and regeneration frequency, the optimum dose for irradiating barley callus was above 5 GY, less than 10 GY.展开更多
Background: The conversion from non-embryogenic callus (NEC) to embryogenic callus (EC) is the key bottleneck step in regeneration of upland cotton (Gossypium hirsutum), and hinders the transgenic breeding of u...Background: The conversion from non-embryogenic callus (NEC) to embryogenic callus (EC) is the key bottleneck step in regeneration of upland cotton (Gossypium hirsutum), and hinders the transgenic breeding of upland cotton. To investigate molecular mechanisms underlying acquisition of embryogenic potential during this process, comparation analysis of transcriptome dynamics between two upland cotton cultivars with different somatic embryogenesis abilities was conducted. Results: Differentially expressed genes involved in the transformation from NEC to EC were detected in the two different cultivars. Principal component analysis based on DEGs showed that the NEC tissues of the two cultivars were highly heterogeneous, whereas the derived EC tissues were similar, which suggested the homogeneousness of EC between different lines. In the highly embryogenic cultivar CCRI 24, more of these genes were down-regulated, whereas, in the recalcitrant cultivar CCRI 12, more were up-regulated. Bioinformatics analysis on these DEGs showed that the vast majority of differentially expressed genes were enriched in metabolism and secondary metabolites biosynthesis pathways. Flavonoid biosynthesis and phenylpropanoid biosynthesis pathways were enriched in both cultivars, and the associated genes were down-regulated more in CCRI 24 than in CCRI 12. We deduced that vigorous secondary metabolism in CCRI 12 may hinder primary metabolism, resulting in tardiness of cell differentiation. Interestingly, genes involved in the plant hormone signal transduction pathway were enriched in the recalcitrant cultivar CCRI 12, but not in CCRI 24, suggesting more radical regulation of hormone signal transduction in the recalcitrant cultivar. Signal transduction rather than biosynthesis of plant hormones is more likely to be the determining factor triggering NEC to EC transition in recalcitrant cotton lines. Transcription factor encoding genes showed differential regulation between two cultivars. Conclusions: Our study provides valuable information about the molecular mechanism of conversion from NEC to EC in cotton and allows for identification of novel genes involved. By comparing transcriptome changes in transformation from NEC to EC between the two cultivars, we identified 46 transcripts that may contribute to initiating embryogenic shift.展开更多
Somatic embryogenesis in upland cotton isstrongly genotype-dependent,which is a troublein cotton genetic engineering.Cloning genesrelated to somatic embryogenesis and thenintroducing the gene into mainly cultivatedvar...Somatic embryogenesis in upland cotton isstrongly genotype-dependent,which is a troublein cotton genetic engineering.Cloning genesrelated to somatic embryogenesis and thenintroducing the gene into mainly cultivatedvarieties would be greatly helpful for cottonimprovement by gene transfer.To study展开更多
Abstract: Somatic embryogenesis from lily bulb scales has not been studied in details, although tissue culture methods have been applied to the propagation for decades. The effects of different kinds and concentratio...Abstract: Somatic embryogenesis from lily bulb scales has not been studied in details, although tissue culture methods have been applied to the propagation for decades. The effects of different kinds and concentration of auxins for oriental lily somatic embryogenesis were investigated (Lilium hybrida var. Sorbonne). 2, 4-dichlorophenoxyacetic acid (2, 4-D), thidiazuron (TDZ) and α-naphthaleneacetic acid (NAA) media with benzyladenine(6-BA) and lactalbumin hydrolysate (LH) were used for embryogenic callus in the darkness. The best response on embryogenic callus formation was obtained on MS media supplemented 2, 4-D 2.0 mg·L^-1, 6-BA 0.5 mg·L^-1 and LH 300 mg·L^-1. Transfer embryogenic callus to the media with TDZ, 6-BA, kinetin (KT) supplemented 2, 4-D. The highest number of somatic embryos has been produced on medium with 0.5 mg·L^-1 2, 4-D and 0.3 mg·L^-1 KT. Germinated embryos with shoot axes were changed to MS media with 6-BA 0.5 mg·L^-1. The results suggest that in vitro culture of somatic embryogenesis from lily bulb scales can be used for plant regeneration.展开更多
The study aimed to optimize the induction and differentiation medium by exploreing different tissue culture of Saposhnikovia divaricata (Turcz.) Schischk. In tissue culture with the root, stem segments, young leaf, ...The study aimed to optimize the induction and differentiation medium by exploreing different tissue culture of Saposhnikovia divaricata (Turcz.) Schischk. In tissue culture with the root, stem segments, young leaf, cotyledonary node and axillary bud of Saposhnikovia divaricata (Turcz.) Schischk as explants, a lot of plantleles were obtained and the corresponding plant regeneration-system was established. The results showed that when use MS+1.0 mg·L^-1 6-BA+0.2 mg·L^-1 NAA as callus induction medium, the cotyledonary node had the highest bourgeon rate, and its callus was better than any others; MS+2 mg·L^-1 6-BA+0.4 mg·L^-1 NAA was the best adventitious buds induction medium, and the best adventitious buds induced condition was 3% sucrose as carbon source, illumination for 12-14 h·d^-1 and pH 5.8, The best rootage medium was 1/2 MS+0.5 mg·L^-1 NAA.展开更多
The effects of the microspore developmental stage,hormones and culture condition on anther in vitro culture of lily(Lilium spp.) were discussed.The results showed that when the flower buds were about 23-26 mm long,t...The effects of the microspore developmental stage,hormones and culture condition on anther in vitro culture of lily(Lilium spp.) were discussed.The results showed that when the flower buds were about 23-26 mm long,the microspores were at the uninucleate stage which was suitable for culture and the culture under the darkness would promote the callus induction of anther.The induction frequency could reach 42.5% in the optimized medium which was MS+[6-BA(0.5)+KT(2.0)+2,4-D(1.0)] mg·L-1.The rate of callus differentiation could reach 31.57% in the optimized medium which was MS+ NAA(1.5,2.0) mg·L-1.展开更多
基金supported by Ministry of Agriculture and Rural Affairs(19221957).
文摘Background Gossypium hirsutum undergoes rapid clonal propagation to regenerate a mature plant through tissue culture.However,the correlation between cotton leaf regeneration,callus induction,and regeneration ability was still obscure.In this research,cotton leaf regeneration level for 21 accessions in the field(new leaves)was observed after the first harvest,and a comparison between field regeneration level and callus induction with its regeneration capacity(new shoots and roots)for the same 21 accessions was carried out.Agronomic traits,including plant height,leaf area,fresh leaf weight,dry leaf weight,the number of flowers and bolls,and biochemical(proline content)and physiological(chlorophyll and carotenoid content)traits during the flowering stage of 21 upland cotton accessions,were investigated.Result A significant correlation between physiological parameters and callus induction was discovered.Callus induction and regeneration capacity of roots and shoots for hypocotyl,cotyledons,and shoot tip tissues were used to validate field leaf regeneration level after the first harvest.CCRI 24 showed significant leaf regeneration in the field and callus induction capacity through callus induction and regeneration.Conclusion We found a substantial relationship between field regeneration capability and callus induction with its regeneration capacity for the hypocotyl,cotyledons,and shoot tip.The results showed that ZS061,Lumian 378,Jimian 863,and ZS065 have the highest moisture retention capacity,while CCRI 24,Liaoyang Duomaomian,and Beizhe Gongshemian have the lowest moisture retention capacity.CCRI 24 has the highest leaf regeneration capacity in the field,while Beizhe Gongshemian has the lowest leaf regeneration capacity.All our result provides a clue for checking the regeneration capacity through leaf regeneration level in the field.
文摘Barley varieties Aramir and Golf were crossed with Hordeum bulbosum. Haploid embryos as well as diploid embryos of their parents were cultured for callus induction. Calli induced were irradiated in doses of 0, 5, 10, 25 and 50 GY. Results showed that seed set and callus induction frequency of haploid and diploid embryos in combination Aramir × bulbosum were higher than that in Golf x bulbosum, Diploid and haploid calli from embryos involved Golf were more sensitive than that involved Aramir. Acorrding to dead callus frequency and regeneration frequency, the optimum dose for irradiating barley callus was above 5 GY, less than 10 GY.
基金supported by National Science and Technology Major Project(2016ZX08010004),China
文摘Background: The conversion from non-embryogenic callus (NEC) to embryogenic callus (EC) is the key bottleneck step in regeneration of upland cotton (Gossypium hirsutum), and hinders the transgenic breeding of upland cotton. To investigate molecular mechanisms underlying acquisition of embryogenic potential during this process, comparation analysis of transcriptome dynamics between two upland cotton cultivars with different somatic embryogenesis abilities was conducted. Results: Differentially expressed genes involved in the transformation from NEC to EC were detected in the two different cultivars. Principal component analysis based on DEGs showed that the NEC tissues of the two cultivars were highly heterogeneous, whereas the derived EC tissues were similar, which suggested the homogeneousness of EC between different lines. In the highly embryogenic cultivar CCRI 24, more of these genes were down-regulated, whereas, in the recalcitrant cultivar CCRI 12, more were up-regulated. Bioinformatics analysis on these DEGs showed that the vast majority of differentially expressed genes were enriched in metabolism and secondary metabolites biosynthesis pathways. Flavonoid biosynthesis and phenylpropanoid biosynthesis pathways were enriched in both cultivars, and the associated genes were down-regulated more in CCRI 24 than in CCRI 12. We deduced that vigorous secondary metabolism in CCRI 12 may hinder primary metabolism, resulting in tardiness of cell differentiation. Interestingly, genes involved in the plant hormone signal transduction pathway were enriched in the recalcitrant cultivar CCRI 12, but not in CCRI 24, suggesting more radical regulation of hormone signal transduction in the recalcitrant cultivar. Signal transduction rather than biosynthesis of plant hormones is more likely to be the determining factor triggering NEC to EC transition in recalcitrant cotton lines. Transcription factor encoding genes showed differential regulation between two cultivars. Conclusions: Our study provides valuable information about the molecular mechanism of conversion from NEC to EC in cotton and allows for identification of novel genes involved. By comparing transcriptome changes in transformation from NEC to EC between the two cultivars, we identified 46 transcripts that may contribute to initiating embryogenic shift.
文摘Somatic embryogenesis in upland cotton isstrongly genotype-dependent,which is a troublein cotton genetic engineering.Cloning genesrelated to somatic embryogenesis and thenintroducing the gene into mainly cultivatedvarieties would be greatly helpful for cottonimprovement by gene transfer.To study
文摘Abstract: Somatic embryogenesis from lily bulb scales has not been studied in details, although tissue culture methods have been applied to the propagation for decades. The effects of different kinds and concentration of auxins for oriental lily somatic embryogenesis were investigated (Lilium hybrida var. Sorbonne). 2, 4-dichlorophenoxyacetic acid (2, 4-D), thidiazuron (TDZ) and α-naphthaleneacetic acid (NAA) media with benzyladenine(6-BA) and lactalbumin hydrolysate (LH) were used for embryogenic callus in the darkness. The best response on embryogenic callus formation was obtained on MS media supplemented 2, 4-D 2.0 mg·L^-1, 6-BA 0.5 mg·L^-1 and LH 300 mg·L^-1. Transfer embryogenic callus to the media with TDZ, 6-BA, kinetin (KT) supplemented 2, 4-D. The highest number of somatic embryos has been produced on medium with 0.5 mg·L^-1 2, 4-D and 0.3 mg·L^-1 KT. Germinated embryos with shoot axes were changed to MS media with 6-BA 0.5 mg·L^-1. The results suggest that in vitro culture of somatic embryogenesis from lily bulb scales can be used for plant regeneration.
基金Supported by Natural Science Foundation of Heilongjiang Province (C2005-31)
文摘The study aimed to optimize the induction and differentiation medium by exploreing different tissue culture of Saposhnikovia divaricata (Turcz.) Schischk. In tissue culture with the root, stem segments, young leaf, cotyledonary node and axillary bud of Saposhnikovia divaricata (Turcz.) Schischk as explants, a lot of plantleles were obtained and the corresponding plant regeneration-system was established. The results showed that when use MS+1.0 mg·L^-1 6-BA+0.2 mg·L^-1 NAA as callus induction medium, the cotyledonary node had the highest bourgeon rate, and its callus was better than any others; MS+2 mg·L^-1 6-BA+0.4 mg·L^-1 NAA was the best adventitious buds induction medium, and the best adventitious buds induced condition was 3% sucrose as carbon source, illumination for 12-14 h·d^-1 and pH 5.8, The best rootage medium was 1/2 MS+0.5 mg·L^-1 NAA.
基金Supported by Program of Postdoctoral Funds Project of Heilongjiang Province (LBH-Z08259)Program for Innovative Research Team of Northeast Agricultural University (CXZ004)
文摘The effects of the microspore developmental stage,hormones and culture condition on anther in vitro culture of lily(Lilium spp.) were discussed.The results showed that when the flower buds were about 23-26 mm long,the microspores were at the uninucleate stage which was suitable for culture and the culture under the darkness would promote the callus induction of anther.The induction frequency could reach 42.5% in the optimized medium which was MS+[6-BA(0.5)+KT(2.0)+2,4-D(1.0)] mg·L-1.The rate of callus differentiation could reach 31.57% in the optimized medium which was MS+ NAA(1.5,2.0) mg·L-1.
