To facilitate the rapid production of lily (Liliumformolongi), conditions favoring the germination of dormant lily seeds and in vitro regeneration from tissue cultttre were studied, using the germinating plumule as ...To facilitate the rapid production of lily (Liliumformolongi), conditions favoring the germination of dormant lily seeds and in vitro regeneration from tissue cultttre were studied, using the germinating plumule as the explants. The optimal inducing conditions for dormant lily dry seeds to germinate were low tempera- ture ( 10 ℃ ) treatment for one hour followed by incubating at 18 ℃ with light illumination. After 8 days of incubation/induction, over 90% of the seeds were ger- minated. MS + 6-BA 1.0 mg,/L + NAA 0.5 mg/L was the most efficient medium formula in lily callus induction. MS + 6-BA 2.0 mg/L + NAA 0.5 mg/L was the optimal medium for calli growth. 1/2MS + NAA 1.0 mg/L was the medium gave the highest root inductive rate.展开更多
This short review is to list pros and cons which are based on the literature and personal experience in cell culture studies related to possible commercial production of artificial meat as functional food. The general...This short review is to list pros and cons which are based on the literature and personal experience in cell culture studies related to possible commercial production of artificial meat as functional food. The general view of muscle composition and determinants of meat quality are shortly described. Principles of muscle cell propagation in culture and mutual relationships between different cell types present in this organ are briefly discussed. Additionally, the effects of some cytokines and growth factors for muscle cell growth and muscle tissue development are indicated. Finally, conclusion remarks related to detrimental consequences of meat production to natural environment as well as personal opinion of author on the prospects of artificial meat production are declared.展开更多
[Objectives]This study was conducted to establish a tissue culture regeneration system in Bama hemp(Cannabis sativa L.).[Methods]Using hemp seeds as explants,a regeneration system was established through explant steri...[Objectives]This study was conducted to establish a tissue culture regeneration system in Bama hemp(Cannabis sativa L.).[Methods]Using hemp seeds as explants,a regeneration system was established through explant sterilization,callus induction,callus differentiation,and rooting culture.[Results]The results showed that the best sterilization effect was achieved when sterilizing with 75%ethanol for 30 s,followed by 0.1%HgCl 2 solution for 9 min,with a contamination rate as low as 11.4%.In presence of 3 mg/L 2,4-D and 0.1 mg/L6-BA,the callus induction effect from hemp seeds was better.The formula for better differentiation of callus was MS+2.0 mg/L 6-BA+0.2 mg/L NAA.IBA had a promoting effect on the rooting of hemp aseptic plantlets.The highest rooting rate reached 80%when MS+0.3 mg/L IBA were used.[Conclusions]This study established a hemp seed regeneration system to provide technical support for the conservation and breeding of hemp germplasm resources.展开更多
Recent advances in bionics have made it possible to create various tissue and organs.Using this cell culture technology,engineers have developed a robot driven by three-dimensional cultured muscle cells(bioactuator)—...Recent advances in bionics have made it possible to create various tissue and organs.Using this cell culture technology,engineers have developed a robot driven by three-dimensional cultured muscle cells(bioactuator)—a muscle cell robot.For more applications,researchers have been developed various tissues and organs with bio3D printer.However,three-dimensional cultured muscle cells printed by bio3D printer have been not used for muscle cell robot yet.The aim of our study is to develop easy fabrication method of bioactuator having high design flexibility like as bio3D printer.We fabricated three-dimensional cultured muscle cells using mold and dish having pin which can contribute to shape and cell alignment.In this study,we observed that our method maintained the shape of three-dimensional cultured muscle cells and caused cell alignment which is important for bioactuator development.We named three-dimensional cultured muscle cells developed in this study“bio-cultured artificial muscle(BiCAM)”.Finally,we observed that BiCAM contracted in response to electrical stimulus.From these data,we concluded our proposed method is easy fabrication method of bioactuator having high design flexibility.展开更多
Banana shoot tips extracted from in vitro grown plant materials were encapsulated in different types of alginate beads. The results obtained after conservation for one month at 4?C indicated that single layered synsee...Banana shoot tips extracted from in vitro grown plant materials were encapsulated in different types of alginate beads. The results obtained after conservation for one month at 4?C indicated that single layered synseeds (where the encapsulated shoot tip was covered by one layer of the artificial endosperm) containing activated charcoal were the best construction in stimulating conversion of synseeds, where they expressed the highest;conversion frequency, number of shoots/synseed, length of shoot and fresh weight/shoot cluster. These parameters decreased when the shoot tips were encapsulated within two layers of endosperm, except the ex vitro conversion. Conversion of banana synseeds was influenced by explant orientation inside the alginate beads, the highest conversion frequency was obtained when the shoot tip was directed upward inside the synthetic endosperm. Synthesis of seed coats around the artificial endosperm improved the conversion frequency, number of shoots/synseed and shoot length.展开更多
A protocol was discussed for high efficient plant regeneration from seven bluegrass (Poa pratensis L.) cultivars via an in- direct callus induction and somatic embryogenesis method. Mature seeds were used as explant...A protocol was discussed for high efficient plant regeneration from seven bluegrass (Poa pratensis L.) cultivars via an in- direct callus induction and somatic embryogenesis method. Mature seeds were used as explants for callus initiation. Callus induction and proliferation efficiencies were investigated on NB, modified MS (MMS) and MS media, supplemented with 2.0 mg·L^-1 2,4-dichlorophenoxyacetic acid (2,4-D). The MMS medium performed best. Based on the MMS medium, direct and indirect callus induction effects of bluegrass from mature seeds were compared at the range of 1-5 mg·L^-1 2,4-D contained in the medium. Under the direct callus induction method, the most suitable 2,4-D concentrations varied among cultivars. Under the indirect callus induction method, a significantly high callus induction frequency (93.33%-98.33%) was obtained and there were barely any statistically sig- nificant differences among the tested genetically diverse cultivars. Somatic embryos were promoted on the MMS medium supple- mented with 3 mg·L^-1 2,4-D, 0.1 mg·L^-1 kinetin and 0.8 mg·L^-1 CuSO4. Embryogenetic calli developed into plantlets on the MMS medium containing different concentrations of thidiazuron (TDZ), and the differentiation frequencies varied in the range from 20.15% to 77.65%. The 0.25 mg·L^-1 TDZ was generally the most suitable concentration for the tested cultivars.展开更多
Plant tissue culture studies are one of the pretreatments carried out to increase crop yield by preventing germination in plant seeds. In this research, repeated plant tissue culture studies were conducted with steril...Plant tissue culture studies are one of the pretreatments carried out to increase crop yield by preventing germination in plant seeds. In this research, repeated plant tissue culture studies were conducted with sterilizers specific to safflower seed, which will increase production efficiency but do not cause genetic polymorphism and corrosion in endosperm with 3N chromosomes. Corrosives were used by dilution, and this did not damage the 3N chromosome endosperm, targeting the protein walls of microorganisms on the seed surface without eroding the seed surface, thereby providing biological sterilization. Besides, because it does not contain heavy metals, it did not cause polymorphism, that is, a mutation in the genetic sequence of the seed. Moreover, the environment and the equipment were sterilized with 2 - 3 repetitions, sterilizer treatment, planting, and germination operations were performed in a sterile environment this, in turn, allowed an isolated assessment of the yield of solution G.展开更多
文摘To facilitate the rapid production of lily (Liliumformolongi), conditions favoring the germination of dormant lily seeds and in vitro regeneration from tissue cultttre were studied, using the germinating plumule as the explants. The optimal inducing conditions for dormant lily dry seeds to germinate were low tempera- ture ( 10 ℃ ) treatment for one hour followed by incubating at 18 ℃ with light illumination. After 8 days of incubation/induction, over 90% of the seeds were ger- minated. MS + 6-BA 1.0 mg,/L + NAA 0.5 mg/L was the most efficient medium formula in lily callus induction. MS + 6-BA 2.0 mg/L + NAA 0.5 mg/L was the optimal medium for calli growth. 1/2MS + NAA 1.0 mg/L was the medium gave the highest root inductive rate.
基金provided by grant from the National Science Centre in Poland (UMO-2013/11/B/NZ5/03106)
文摘This short review is to list pros and cons which are based on the literature and personal experience in cell culture studies related to possible commercial production of artificial meat as functional food. The general view of muscle composition and determinants of meat quality are shortly described. Principles of muscle cell propagation in culture and mutual relationships between different cell types present in this organ are briefly discussed. Additionally, the effects of some cytokines and growth factors for muscle cell growth and muscle tissue development are indicated. Finally, conclusion remarks related to detrimental consequences of meat production to natural environment as well as personal opinion of author on the prospects of artificial meat production are declared.
基金Supported by Guangxi Natural Science Foundation(2017JJB130027)The Basic Ability Enhancement Program for Young and Middle-aged Teachers of Guangxi(2017KY0724)Master’s Degree Authorization Unit Construction Authorization Point(GXW[2018]7)
文摘[Objectives]This study was conducted to establish a tissue culture regeneration system in Bama hemp(Cannabis sativa L.).[Methods]Using hemp seeds as explants,a regeneration system was established through explant sterilization,callus induction,callus differentiation,and rooting culture.[Results]The results showed that the best sterilization effect was achieved when sterilizing with 75%ethanol for 30 s,followed by 0.1%HgCl 2 solution for 9 min,with a contamination rate as low as 11.4%.In presence of 3 mg/L 2,4-D and 0.1 mg/L6-BA,the callus induction effect from hemp seeds was better.The formula for better differentiation of callus was MS+2.0 mg/L 6-BA+0.2 mg/L NAA.IBA had a promoting effect on the rooting of hemp aseptic plantlets.The highest rooting rate reached 80%when MS+0.3 mg/L IBA were used.[Conclusions]This study established a hemp seed regeneration system to provide technical support for the conservation and breeding of hemp germplasm resources.
基金supported by Japan Society for the Promotion of Science (JSPS)KAKENHI Grant Numbers JP18H05467,JP19K23488.
文摘Recent advances in bionics have made it possible to create various tissue and organs.Using this cell culture technology,engineers have developed a robot driven by three-dimensional cultured muscle cells(bioactuator)—a muscle cell robot.For more applications,researchers have been developed various tissues and organs with bio3D printer.However,three-dimensional cultured muscle cells printed by bio3D printer have been not used for muscle cell robot yet.The aim of our study is to develop easy fabrication method of bioactuator having high design flexibility like as bio3D printer.We fabricated three-dimensional cultured muscle cells using mold and dish having pin which can contribute to shape and cell alignment.In this study,we observed that our method maintained the shape of three-dimensional cultured muscle cells and caused cell alignment which is important for bioactuator development.We named three-dimensional cultured muscle cells developed in this study“bio-cultured artificial muscle(BiCAM)”.Finally,we observed that BiCAM contracted in response to electrical stimulus.From these data,we concluded our proposed method is easy fabrication method of bioactuator having high design flexibility.
文摘Banana shoot tips extracted from in vitro grown plant materials were encapsulated in different types of alginate beads. The results obtained after conservation for one month at 4?C indicated that single layered synseeds (where the encapsulated shoot tip was covered by one layer of the artificial endosperm) containing activated charcoal were the best construction in stimulating conversion of synseeds, where they expressed the highest;conversion frequency, number of shoots/synseed, length of shoot and fresh weight/shoot cluster. These parameters decreased when the shoot tips were encapsulated within two layers of endosperm, except the ex vitro conversion. Conversion of banana synseeds was influenced by explant orientation inside the alginate beads, the highest conversion frequency was obtained when the shoot tip was directed upward inside the synthetic endosperm. Synthesis of seed coats around the artificial endosperm improved the conversion frequency, number of shoots/synseed and shoot length.
文摘A protocol was discussed for high efficient plant regeneration from seven bluegrass (Poa pratensis L.) cultivars via an in- direct callus induction and somatic embryogenesis method. Mature seeds were used as explants for callus initiation. Callus induction and proliferation efficiencies were investigated on NB, modified MS (MMS) and MS media, supplemented with 2.0 mg·L^-1 2,4-dichlorophenoxyacetic acid (2,4-D). The MMS medium performed best. Based on the MMS medium, direct and indirect callus induction effects of bluegrass from mature seeds were compared at the range of 1-5 mg·L^-1 2,4-D contained in the medium. Under the direct callus induction method, the most suitable 2,4-D concentrations varied among cultivars. Under the indirect callus induction method, a significantly high callus induction frequency (93.33%-98.33%) was obtained and there were barely any statistically sig- nificant differences among the tested genetically diverse cultivars. Somatic embryos were promoted on the MMS medium supple- mented with 3 mg·L^-1 2,4-D, 0.1 mg·L^-1 kinetin and 0.8 mg·L^-1 CuSO4. Embryogenetic calli developed into plantlets on the MMS medium containing different concentrations of thidiazuron (TDZ), and the differentiation frequencies varied in the range from 20.15% to 77.65%. The 0.25 mg·L^-1 TDZ was generally the most suitable concentration for the tested cultivars.
文摘Plant tissue culture studies are one of the pretreatments carried out to increase crop yield by preventing germination in plant seeds. In this research, repeated plant tissue culture studies were conducted with sterilizers specific to safflower seed, which will increase production efficiency but do not cause genetic polymorphism and corrosion in endosperm with 3N chromosomes. Corrosives were used by dilution, and this did not damage the 3N chromosome endosperm, targeting the protein walls of microorganisms on the seed surface without eroding the seed surface, thereby providing biological sterilization. Besides, because it does not contain heavy metals, it did not cause polymorphism, that is, a mutation in the genetic sequence of the seed. Moreover, the environment and the equipment were sterilized with 2 - 3 repetitions, sterilizer treatment, planting, and germination operations were performed in a sterile environment this, in turn, allowed an isolated assessment of the yield of solution G.