Neuroscience

Articles and news from the latest research reports.

141 notes

The pig, the fish and the jellyfish: Tracing nervous disorders in humans
What do pigs, jellyfish and zebrafish have in common? It might be hard to discern the connection, but the different species are all pieces in a puzzle. A puzzle which is itself part of a larger picture of solving the riddles of diseases in humans.
The pig, the jellyfish and the zebrafish are being used by scientists at Aarhus University to, among other things, gain a greater understanding of hereditary forms of diseases affecting the nervous system. This can be disorders like Parkinson’s disease, Alzheimer’s disease, autism, epilepsy and the motor neurone disease ALS.
In a project, which has just finished, the scientists have focussed on a specific gene in pigs. The gene, SYN1, encodes the protein synapsin, which is involved in communication between nerve cells. Synapsin almost exclusively occurs in nerve cells in the brain. Parts of the gene can thus be used to control an expression of genes connected to hereditary versions of the aforementioned disorders.
The pigThe SYN1 gene can, with its specific expression in nerve cells, be used for generation of pig models of neurodegenerative diseases like Parkinson’s. The reason scientists bring a pig into the equation is that the pig is well suited as a model for investigating human diseases.
- Pigs are very like humans in their size, genetics, anatomy and physiology. There are plenty of them, so they are easily obtainable for research purposes, and it is ethically easier to use them than, for example, apes, says senior scientist Knud Larsen from Aarhus University.
Before the gene was transferred from humans to pigs, the scientists had to ensure that the SYN1 gene was only expressed in nerve cells. This was where the zebra fish entered the equation.
The zebrafish and the jellyfish- The zebrafish is, as a model organism, the darling of researchers, because it is transparent and easy to genetically modify. We thus attached the relevant gene, SYN1, to a gene from a jellyfish (GFP), and put it into a zebrafish in order to test the specificity of the gene, explains Knud Larsen.
This is because jellyfish contain a gene that enables them to light up. This gene was transferred to the zebrafish alongside SYN1, so that the scientists could follow where in the fish activity occurred as a result of the SYN1 gene.
- We could clearly see that the transparent zebrafish shone green in its nervous system as a result of the SYN1 gene from humans initiating processes in the nervous system. We could thus conclude that SYN1 works specifically in nerve cells, says Knud Larsen.
The results of this investigation pave the way for the SYN1 gene being used in pig models for research into human diseases. The pig with the human gene SYN1 can presumably also be used for research into the development of the brain and nervous system in the foetus.
- I think it is interesting that the nervous system is so well preserved, from an evolutionary point of view, that you can observe a nerve-cell-specific expression of a pig gene in a zebrafish. It is impressive that something that works in a pig also works in a fish, says Knud Larsen.
Read the scientific article here.

The pig, the fish and the jellyfish: Tracing nervous disorders in humans

What do pigs, jellyfish and zebrafish have in common? It might be hard to discern the connection, but the different species are all pieces in a puzzle. A puzzle which is itself part of a larger picture of solving the riddles of diseases in humans.

The pig, the jellyfish and the zebrafish are being used by scientists at Aarhus University to, among other things, gain a greater understanding of hereditary forms of diseases affecting the nervous system. This can be disorders like Parkinson’s disease, Alzheimer’s disease, autism, epilepsy and the motor neurone disease ALS.

In a project, which has just finished, the scientists have focussed on a specific gene in pigs. The gene, SYN1, encodes the protein synapsin, which is involved in communication between nerve cells. Synapsin almost exclusively occurs in nerve cells in the brain. Parts of the gene can thus be used to control an expression of genes connected to hereditary versions of the aforementioned disorders.

The pig
The SYN1 gene can, with its specific expression in nerve cells, be used for generation of pig models of neurodegenerative diseases like Parkinson’s. The reason scientists bring a pig into the equation is that the pig is well suited as a model for investigating human diseases.

- Pigs are very like humans in their size, genetics, anatomy and physiology. There are plenty of them, so they are easily obtainable for research purposes, and it is ethically easier to use them than, for example, apes, says senior scientist Knud Larsen from Aarhus University.

Before the gene was transferred from humans to pigs, the scientists had to ensure that the SYN1 gene was only expressed in nerve cells. This was where the zebra fish entered the equation.

The zebrafish and the jellyfish
- The zebrafish is, as a model organism, the darling of researchers, because it is transparent and easy to genetically modify. We thus attached the relevant gene, SYN1, to a gene from a jellyfish (GFP), and put it into a zebrafish in order to test the specificity of the gene, explains Knud Larsen.

This is because jellyfish contain a gene that enables them to light up. This gene was transferred to the zebrafish alongside SYN1, so that the scientists could follow where in the fish activity occurred as a result of the SYN1 gene.

- We could clearly see that the transparent zebrafish shone green in its nervous system as a result of the SYN1 gene from humans initiating processes in the nervous system. We could thus conclude that SYN1 works specifically in nerve cells, says Knud Larsen.

The results of this investigation pave the way for the SYN1 gene being used in pig models for research into human diseases. The pig with the human gene SYN1 can presumably also be used for research into the development of the brain and nervous system in the foetus.

- I think it is interesting that the nervous system is so well preserved, from an evolutionary point of view, that you can observe a nerve-cell-specific expression of a pig gene in a zebrafish. It is impressive that something that works in a pig also works in a fish, says Knud Larsen.

Read the scientific article here.

Filed under nervous system neurodegenerative diseases synapsin zebrafish nerve cells neuroscience science

  1. darkkzz reblogged this from neurosciencestuff
  2. dourque reblogged this from fossilzed-tree
  3. bs-ba-ma-phd reblogged this from molecularlifesciences
  4. brainangle reblogged this from neurosciencestuff
  5. uwcdoverbiosoc reblogged this from molecularlifesciences
  6. tomblerdegabo reblogged this from molecularlifesciences
  7. astronomicona reblogged this from molecularlifesciences
  8. hotdogcephalopod reblogged this from molecularlifesciences
  9. curious-writers reblogged this from molecularlifesciences
  10. saheriouslyyy reblogged this from molecularlifesciences
  11. molecularlifesciences reblogged this from neurosciencestuff
  12. chaoticghost reblogged this from neurosciencestuff
  13. i-cant-steal-his-dick reblogged this from archdvmon
  14. archdvmon reblogged this from neurosciencestuff
  15. peylewis reblogged this from neurosciencestuff
  16. holy-shit-8 reblogged this from neurosciencestuff
  17. apatheticsensitivity reblogged this from darthfeyder
  18. slightly--nerdy reblogged this from neurosciencestuff
  19. kimssecretdiary reblogged this from neurosciencestuff
  20. darthfeyder reblogged this from neurosciencestuff
  21. the-electric-boogaloo reblogged this from neurosciencestuff
  22. imwhoreable reblogged this from neurosciencestuff
free counters