Synopsis of Social media discussions
Discussions typically praise the article for introducing mitoLUHMES as a promising tool to study mitochondrial dynamics, with posts highlighting phrases like 'valuable model' and 'real-time visualization.' The tone is generally positive and interested, especially in how this model could revolutionize research into neurodegenerative diseases, reflecting a balanced view of its potential and its current significance.
Agreement
Moderate agreementMost discussions express support or approval for the research, highlighting its potential benefits, especially in neurodegenerative studies.
Interest
High level of interestMany posts show high curiosity, often mentioning the innovative techniques and the importance of mitochondrial visualization in neurons.
Engagement
Moderate level of engagementSeveral comments delve into methodological details or implications, indicating active engagement with the research's significance.
Impact
Moderate level of impactParticipants recognize the model's potential to advance understanding of mitochondrial behavior, suggesting moderate recognition of its impact on neurobiology.
Social Mentions
YouTube
3 Videos
1 Posts
Metrics
Video Views
14,640
Total Likes
84
Extended Reach
23,745
Social Features
4
Timeline: Posts about article
Top Social Media Posts
Nicole Laurent, LMHC
Vroom Vroom
https://t.co/F3n2Q3SLAl
view full post
Posts referencing the article
Mitochondria Movement Analysis in Engineered Neuronal Cells
Mitochondria motility in neurites of differentiated LUHMES cells is visualized using fluorescent proteins, showing rapid movement, fusion, and fission cycles, providing insights into mitochondrial dynamics relevant for neurodegenerative research.
September 14, 2016
12,920 views
Mitochondrial Motility in Neuronal Cells Using mitoLUHMES Model
This video demonstrates mitochondrial movement and behavior in differentiated neuronal cells expressing fluorescent proteins. It highlights mitochondrial motility, fusion, fission, and the effects of neurotoxins, providing insights for neurobiology research.
September 14, 2016
1,436 views
Mitochondria Motion Reversal in LUHMES Neuronal Cells
This video details the reversal of mitochondrial movement in neurites of differentiated LUHMES cells, a model for studying mitochondrial dynamics related to neurobiology and neurodegenerative diseases.
September 16, 2016
285 views
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Vroom Vroom https://t.co/F3n2Q3SLAl
view full postDecember 24, 2022
1
Abstract Synopsis
- The study introduces mitoLUHMES, a modified neuronal cell line that expresses fluorescent proteins to allow real-time visualization of mitochondrial movement and behavior, which is useful for studying neurodegenerative diseases.
- Researchers demonstrated that mitoLUHMES can differentiate into neurons and be used to observe processes like mitochondrial fission, fusion, and movement reversal, providing detailed insights into mitochondrial dynamics.
- Treatment with neurotoxins caused significant changes in mitochondrial morphology and dynamics, highlighting mitoLUHMES as a valuable model system for investigating mitochondrial function and dysfunction in neurobiology research.
Nicole Laurent, LMHC
@KetoCounselor (Twitter)