This paper puts forward a physical and mathematical model for the rheological properties of a plant cell suspension culture system.The model can explain why the system is pseudoplastic satisfactorily,thus the rheologi...This paper puts forward a physical and mathematical model for the rheological properties of a plant cell suspension culture system.The model can explain why the system is pseudoplastic satisfactorily,thus the rheological properties of the system as the effect of the flow behavior index on plant cell concentration are interpreted correctly and the mechanism of the rheological properties of the system is further understood.Therefore the model can be applied in the technological design and optimum conditions of the system and the reformation,evaluation and scale up of reactors.展开更多
The major factors affecting plant regeneration in suspension culture were investigated.The resultsshow that,in order for cell clusters to differentiate directly in liquid medium,it is essential toestablish an embryoge...The major factors affecting plant regeneration in suspension culture were investigated.The resultsshow that,in order for cell clusters to differentiate directly in liquid medium,it is essential toestablish an embryogenic callus line with high potential for plant regeneration.Embryogenic calliwere suspended in AA basic medium supplemented with 2,4-D 1 mg/L,6-benzylaminopurine 0.5mg/L,CH 300 mg/L,sucrose 3% and mannitol 3% and subcultured 7 days for each passage.Aftermore than 6 months of culturing,a fine suspension culture of small cell clusters(SCC)wasestablished.The SCC,80-270μin diameter,were then transferred to a liquid medium(MSsupplemented with NAA 0.01 mg/L and 4-pyridylurae(4-PU)0.5 mg/L)and allowed to grow instationary culture.Finally direct differentiation from SCC was observed.Several factors in suspension-subculture exerted strong after-effects on differentiation ofSCC.Basicmedia,kinds and concentration combinations of auxin and cytokinin in the subculture media,duration of shaking at each subculture passage,and amount of packed cell volume transferred to newmedium at each subculture passage and so on,all these affected the frequency of differentiation ofSCC.Higher concentrations of NAA and kinetin in the differentiation medium inhibited the directdifferentiation of SCC.Low concentrations(0.01-0.1 mg/L)of NAA with 4-PU in thedifferentiation medium were helpful for the direct differentiation of SCC.The differentiated clusterspossessed typical embryogenic structure from which normal plantlets could develop after transferringto agar medium.展开更多
The characteristics of the interactions co-cultures of ultrafine mesoporous silica nanoparticles (MSNs) and the Liriodendron hybrid suspension cells were systematically investigated using laser scanning confocal mic...The characteristics of the interactions co-cultures of ultrafine mesoporous silica nanoparticles (MSNs) and the Liriodendron hybrid suspension cells were systematically investigated using laser scanning confocal microscope (LSCM) and scanning elec- tron microscopy (SEM). Using fluorescein isothiocyanate (FITC) labeling, the LSCM observations demonstrated that MSNs (size, 5-15 nm) with attached FITC molecules efficiently penetrated walled plant cells through endocytic pathways, but free FITC could not enter the intact plant cells, The SEM measurements indicated that MSNs readily aggregated on the surface of intact plant cells, and also directly confirmed that MSNs could enter intact plant cells; this was achieved by determining the amount of silicon present. After 24 h of incubation with 1.0 mg mL-t of MSNs, the viability of the plant cells was analyzed using fluorescein diacetate staining; the results showed that these cells retained high viability, and no cell death was observed. Interestingly, after the incubation with MSNs, the Liriodendron hybrid suspension cells retained the capability for plant regen- eration via somatic embryogenesis. Our results indicate that ultrafine MSNs hold considerable potential as nano-carriers of ex- tracellular molecules, and can be used to investigate in vitro gene-delivery in plant cells.展开更多
文摘This paper puts forward a physical and mathematical model for the rheological properties of a plant cell suspension culture system.The model can explain why the system is pseudoplastic satisfactorily,thus the rheological properties of the system as the effect of the flow behavior index on plant cell concentration are interpreted correctly and the mechanism of the rheological properties of the system is further understood.Therefore the model can be applied in the technological design and optimum conditions of the system and the reformation,evaluation and scale up of reactors.
基金This work was completed in Tohoku University,Japan
文摘The major factors affecting plant regeneration in suspension culture were investigated.The resultsshow that,in order for cell clusters to differentiate directly in liquid medium,it is essential toestablish an embryogenic callus line with high potential for plant regeneration.Embryogenic calliwere suspended in AA basic medium supplemented with 2,4-D 1 mg/L,6-benzylaminopurine 0.5mg/L,CH 300 mg/L,sucrose 3% and mannitol 3% and subcultured 7 days for each passage.Aftermore than 6 months of culturing,a fine suspension culture of small cell clusters(SCC)wasestablished.The SCC,80-270μin diameter,were then transferred to a liquid medium(MSsupplemented with NAA 0.01 mg/L and 4-pyridylurae(4-PU)0.5 mg/L)and allowed to grow instationary culture.Finally direct differentiation from SCC was observed.Several factors in suspension-subculture exerted strong after-effects on differentiation ofSCC.Basicmedia,kinds and concentration combinations of auxin and cytokinin in the subculture media,duration of shaking at each subculture passage,and amount of packed cell volume transferred to newmedium at each subculture passage and so on,all these affected the frequency of differentiation ofSCC.Higher concentrations of NAA and kinetin in the differentiation medium inhibited the directdifferentiation of SCC.Low concentrations(0.01-0.1 mg/L)of NAA with 4-PU in thedifferentiation medium were helpful for the direct differentiation of SCC.The differentiated clusterspossessed typical embryogenic structure from which normal plantlets could develop after transferringto agar medium.
基金supported by the National Natural Science Foundation of China (30930077,31000164)
文摘The characteristics of the interactions co-cultures of ultrafine mesoporous silica nanoparticles (MSNs) and the Liriodendron hybrid suspension cells were systematically investigated using laser scanning confocal microscope (LSCM) and scanning elec- tron microscopy (SEM). Using fluorescein isothiocyanate (FITC) labeling, the LSCM observations demonstrated that MSNs (size, 5-15 nm) with attached FITC molecules efficiently penetrated walled plant cells through endocytic pathways, but free FITC could not enter the intact plant cells, The SEM measurements indicated that MSNs readily aggregated on the surface of intact plant cells, and also directly confirmed that MSNs could enter intact plant cells; this was achieved by determining the amount of silicon present. After 24 h of incubation with 1.0 mg mL-t of MSNs, the viability of the plant cells was analyzed using fluorescein diacetate staining; the results showed that these cells retained high viability, and no cell death was observed. Interestingly, after the incubation with MSNs, the Liriodendron hybrid suspension cells retained the capability for plant regen- eration via somatic embryogenesis. Our results indicate that ultrafine MSNs hold considerable potential as nano-carriers of ex- tracellular molecules, and can be used to investigate in vitro gene-delivery in plant cells.
