We conducted a study in Komto Forest in East WoUega Zone, Oromia National Regional State, West Ethiopia for determining vegetation structure and regeneration status in this forest. We systematically sampled 53 quadra...We conducted a study in Komto Forest in East WoUega Zone, Oromia National Regional State, West Ethiopia for determining vegetation structure and regeneration status in this forest. We systematically sampled 53 quadrats (20 m ×20 m) along line transects radiating from the peak of Komto Mountain in eight directions. Vegetation parameters such as DBH, height, seedling and sapling density of woody species, and location and altitude of each quadrat were recorded. In total, 103 woody plant species of 87 genera and 45 families were identified. Analysis of selected tree species revealed different population structures. Generally, the forest was dominated by small trees and shrubs characteristic of secondary regeneration. Observations on the regeneration of the forest indicated that there are woody species that require urgent conservation measures. Based on the results of this study, we recommend detailed ecological studies of various environmental factors such as soil type and properties, and ethnobotanical studies to explore indigenous knowledge on uses of plants.展开更多
Human embryonic stem cells(hESCs)are pluripotent cells that have the ability of unlimited self-renewal and can be differentiated into different cell lineages,includ-ing neural stem(NS)cells.Diverse regulatory signalin...Human embryonic stem cells(hESCs)are pluripotent cells that have the ability of unlimited self-renewal and can be differentiated into different cell lineages,includ-ing neural stem(NS)cells.Diverse regulatory signaling pathways of neural stem cells differentiation have been discovered,and this will be of great benefit to uncover the mechanisms of neuronal differentiation in vivo and in vitro.However,the limitations of hESCs resource along with the religious and ethical concerns impede the pro-gress of ESCs application.Therefore,the induced pluri-potent stem cells(iPSCs)via somatic cell reprogramming have opened up another new territory for regenerative medicine.iPSCs now can be derived from a number of lin-eages of cells,and are able to differentiate into certain cell types,including neurons.Patient-specifi c iPSCs are being used in human neurodegenerative disease modeling and drug screening.Furthermore,with the development of somatic direct reprogramming or lineage reprogramming technique,a more effective approach for regenerative medicine could become a complement for iPSCs.展开更多
Liver normal cells and cancer cells co-cultured on surfaces modified by different chemical functional groups, including mercapto (-SH), hydroxyl (-OH) and methyl (-CHz) groups. The results showed that different ...Liver normal cells and cancer cells co-cultured on surfaces modified by different chemical functional groups, including mercapto (-SH), hydroxyl (-OH) and methyl (-CHz) groups. The results showed that different cells exhibited changes in response to different surfaces. Normal cells on -SH surface exhibited the smallest contact area with mostly rounded morphology, which led to the death of cancer cells, while cancer cells could not grow on -CH3 groups, which also died. In the co-culture system, the -CH3 group exhibited its unique effect that could trigger the death of cancer cells and had no effects on normal cells. Our findings provide useful information on strategies for the design of efficient and safe regenerative medicine materials.展开更多
文摘We conducted a study in Komto Forest in East WoUega Zone, Oromia National Regional State, West Ethiopia for determining vegetation structure and regeneration status in this forest. We systematically sampled 53 quadrats (20 m ×20 m) along line transects radiating from the peak of Komto Mountain in eight directions. Vegetation parameters such as DBH, height, seedling and sapling density of woody species, and location and altitude of each quadrat were recorded. In total, 103 woody plant species of 87 genera and 45 families were identified. Analysis of selected tree species revealed different population structures. Generally, the forest was dominated by small trees and shrubs characteristic of secondary regeneration. Observations on the regeneration of the forest indicated that there are woody species that require urgent conservation measures. Based on the results of this study, we recommend detailed ecological studies of various environmental factors such as soil type and properties, and ethnobotanical studies to explore indigenous knowledge on uses of plants.
基金the National Basic Research Program 973 program(No.2012CB966800)the Thousand Youth Talents Program and the Pioneer Programs of Chinese Academy of Sciences。
文摘Human embryonic stem cells(hESCs)are pluripotent cells that have the ability of unlimited self-renewal and can be differentiated into different cell lineages,includ-ing neural stem(NS)cells.Diverse regulatory signaling pathways of neural stem cells differentiation have been discovered,and this will be of great benefit to uncover the mechanisms of neuronal differentiation in vivo and in vitro.However,the limitations of hESCs resource along with the religious and ethical concerns impede the pro-gress of ESCs application.Therefore,the induced pluri-potent stem cells(iPSCs)via somatic cell reprogramming have opened up another new territory for regenerative medicine.iPSCs now can be derived from a number of lin-eages of cells,and are able to differentiate into certain cell types,including neurons.Patient-specifi c iPSCs are being used in human neurodegenerative disease modeling and drug screening.Furthermore,with the development of somatic direct reprogramming or lineage reprogramming technique,a more effective approach for regenerative medicine could become a complement for iPSCs.
基金Acknowledgements This work was in part supported by the National Basic Research Program of China (Grant No. 2011 CB606205), the National Natural Science Foundation of China (Grant No. 51272236), and the Program for 521 Excellent Talents ofZhejiang Sci-Tech University.
文摘Liver normal cells and cancer cells co-cultured on surfaces modified by different chemical functional groups, including mercapto (-SH), hydroxyl (-OH) and methyl (-CHz) groups. The results showed that different cells exhibited changes in response to different surfaces. Normal cells on -SH surface exhibited the smallest contact area with mostly rounded morphology, which led to the death of cancer cells, while cancer cells could not grow on -CH3 groups, which also died. In the co-culture system, the -CH3 group exhibited its unique effect that could trigger the death of cancer cells and had no effects on normal cells. Our findings provide useful information on strategies for the design of efficient and safe regenerative medicine materials.
