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Change of substrate geometry and laminin density stimulates axon branching
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作者 Wenwen Liu Wenfu Zheng Xingyu Jiang 《医用生物力学》 EI CAS CSCD 北大核心 2013年第S1期116-117,共2页
Axon branching enables neurons to contact with multiple targets and respond to their microenvironment.Owing to its importance in neuronal network formation,axon branching has been studied extensively during the past d... Axon branching enables neurons to contact with multiple targets and respond to their microenvironment.Owing to its importance in neuronal network formation,axon branching has been studied extensively during the past decades.It is reported that ECM(Extra Cellular Matrix)components such as laminin,collagen,and tenascin regulate the morphology and motility of neuronal growth cones in culture,but the effects of their distribution and the change of density on axon branching are not well understood.We fabricated chemically homogeneous substrate by microcontact printing(μCP)and inhomogeneous substrate with different laminin density 展开更多
关键词 LAMININ branching NEURONAL INHOMOGENEOUS chemically understood collagen motility REGULATE CONES
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Zebrafish model for assessing remyelination
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《中国药理学通报》 CAS CSCD 北大核心 2015年第B11期84-84,共1页
This study was aimed to assess remyelination and axon regeneration of compounds using Hunter Biotech' s zebrafish MS models. Zebrafish at 2 day post fertilization (2 dpf) were treated with demyelinating agent ethid... This study was aimed to assess remyelination and axon regeneration of compounds using Hunter Biotech' s zebrafish MS models. Zebrafish at 2 day post fertilization (2 dpf) were treated with demyelinating agent ethidium bromide (EB) for 72 hours (hrs) to induce demyelination. After removing EB, demyelinated zebrafish were treated with test compounds for another 24 hrs; Compound effect on demyelination-associated motility was as- sessed using a video-track motion detector. We found that compounds 2 and 9 recovered motility in EB-induced de- myelinated zebrafish ; whereas compounds 2 and 9 had significant effect on motility. Compounds 2 and 9 were con- firmed by whole mount anti-myelin basic protein (anti-MBP) immunostainging, further supporting that demyelina- tion-associated motility assay (primary assay) in combination with Fluoro Myelin staining (secondary assay) is a reliable array of methods for relatively high throughput in vivo remyelinating drug screening and assessment. 展开更多
关键词 ZEBRAFISH REMYELINATION AXON regeneration demyelination-associated motility anti-MBP
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Comparative study of standardized Centella asiatica and combination of levodopa and benzerazid HCl on Parkinson′s model zebrafish
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作者 HusnulKHOTIMAH WibiRIAWAN +4 位作者 LIZIYYANNIDA AnggiNURKHAIRINA MulyohadiALI MArisWIDODO SutimanBSUMITRO 《中国药理学与毒理学杂志》 CAS CSCD 北大核心 2015年第S1期102-102,共1页
OBJECTIVE To investigate the motility,dopamine,serotonin and pro-BDNF level of Centella asiatica(CA)comparable to the combination of levodopa and benzerazid HCL on zebrafish model Parkinson′s.METHODS Rotenone 5μg... OBJECTIVE To investigate the motility,dopamine,serotonin and pro-BDNF level of Centella asiatica(CA)comparable to the combination of levodopa and benzerazid HCL on zebrafish model Parkinson′s.METHODS Rotenone 5μg·L-1 induced to adult zebrafish(8months)for 28 dto made zebrafish model Parkinson′s.CA concentration were used 5 and 10μg·mL-1.The combination of levodopa 100 g and 25 mg benzerazid(L-DOPA agonist)was given at 1 μg·mL-1 at the same time to rotenone,and CA as well.Motility assessment conducted for every 7dstarted on day 0until day 28.Five fish were subjected in the 2L tank(25cm×16.5cm×12cm).Three vertical lines were drawn on the tank at equal distances,dividing the tank into four zones(the length of each zone was 6.25cm).Locomotor activity was measured for 5min by counting the number of lines that adult zebrafish crossed.Fish were sacrificed by decapitating on ice water.Dopamine level measured from whole brain by ELISA,serotonin and pro-BDNF by immunoreactivity at substantia nigra.RESULTS The locomotor activity of rotenone treated fish were significantly decrease starts at 7 dcompared to control group.Interestingly on 10μg·mL-1 group there are increasing motility start at day 7 and slightly decrease until day 28,but on L-DOPA group increasing motility at day 7 followed by decreasing motility significantly(P<0.05)until day 28.Dopamine level of rotenone group decreased compared to control group,CA 10μg·mL-1 and L-DOPA group increased significantly to rotenone group which CAμg·mL-1 higher than L-DOPA group.Serotonin and pro-BDNF level had the same profile.Its significantly increased on rotenone group compared to control group.Serotonin on group with CA administration significantly decreased compared to rotenone group,while rotenone plus CA 10μg·mL-1 had no significant differet to L-DOPA group(P>0.05).Pro-BDNF on rotenone with CA 5μg·mL-1 had no significant difference,while compare to rotenone with CA 10-1 μg·mLgroup and L-DOPA group were significantly different(P<0.05).CONCLUSION Rotenone produces reliable Parkinson′s zebrafish model by decreasing motility and dopamine level.CA was more stable,increasing motility than L-DOPA administration.CA and L-DOPA increased dopamine level,but decreasing serotonin and pro-BDNF. 展开更多
关键词 CENTELLA asiatica motility DOPAMINE LEVODOPA roten
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Swimming of motile gyrotactic microorganisms and suspension of nanoparticles in a rheological Jeffery fluid with Newtonian heating along elastic surface 被引量:2
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作者 Siddra RANA Rashid MEHMOOD +1 位作者 M.M.BHATTI Mohsan HASSAN 《Journal of Central South University》 SCIE EI CAS CSCD 2021年第11期3279-3296,共18页
Bioconvection plays an inevitable role in introducing sustainable and environment-friendly fuel cell technologies.Bio-mathematical modelling of such designs needs continuous refinements to achieve strong agreements in... Bioconvection plays an inevitable role in introducing sustainable and environment-friendly fuel cell technologies.Bio-mathematical modelling of such designs needs continuous refinements to achieve strong agreements in experimental and computational results.Actually,microorganisms transport a miscellaneous palette of ingredients in manufacturing industrial goods particularly in fertilizer industries.Heat transfer characteristics of molecular structure are measured by a physical phenomenon which is allied with the transpiration of heat within matter.Motivated by bioinspired fuel cells involved in near-surface flow phenomena,in the present article,we examine the transverse swimming of motile gyrotactic microorganisms numerically in a rheological Jeffery fluid near a stretching wall.The leading physical model is converted in a nonlinear system of ODEs through proper similarity alterations.A numerical technique called shooting method with R-K Fehlberg is applied via mathematical software and graphical presentations are obtained.The influence of all relative physical constraints on velocity,temperature,concentration,and volume fraction of gyrotactic microorganisms is expressed geometrically.It is found that heat and mass flux at the surface as well as density of motile microorganism’s declines for Brownian motion and thermophoresis parameter.Comparison in tabular form is made with existing literature to validate the results for limiting cases with convective boundary conditions. 展开更多
关键词 oblique stagnation point flow Jeffery fluid BIOCONVECTION swimming of motile gyrotactic NANOPARTICLES
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