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PMID:20161754
| Citation |
Biswas, S, Reinhard, J, Oakeshott, J, Russell, R, Srinivasan, MV and Claudianos, C (2010) Sensory regulation of neuroligins and neurexin I in the honeybee brain. PLoS ONE 5:e9133 |
|---|---|
| Abstract |
Neurexins and neuroligins, which have recently been associated with neurological disorders such as autism in humans, are highly conserved adhesive proteins found on synaptic membranes of neurons. These binding partners produce a trans-synaptic bridge that facilitates maturation and specification of synapses. It is believed that there exists an optimal spatio-temporal code of neurexin and neuroligin interactions that guide synapse formation in the postnatal developing brain. Therefore, we investigated whether neuroligins and neurexin are differentially regulated by sensory input using a behavioural model system with an advanced capacity for sensory processing, learning and memory, the honeybee. |
| Links |
PubMed PMC2817746 Online version:10.1371/journal.pone.0009133 |
| Keywords |
Alternative Splicing; Animals; Association Learning/physiology; Bees/genetics; Bees/metabolism; Bees/physiology; Brain/metabolism; Brain/physiology; Cell Adhesion Molecules, Neuronal/genetics; Cell Adhesion Molecules, Neuronal/metabolism; Cell Adhesion Molecules, Neuronal/physiology; Female; Gene Expression Profiling; Insect Proteins/genetics; Insect Proteins/metabolism; Insect Proteins/physiology; Male; Membrane Proteins/genetics; Membrane Proteins/metabolism; Membrane Proteins/physiology; Nerve Tissue Proteins/genetics; Nerve Tissue Proteins/metabolism; Nerve Tissue Proteins/physiology; Odors; Olfactory Pathways/physiology; Protein Binding; Reflex/physiology; Reverse Transcriptase Polymerase Chain Reaction; Sensory Receptor Cells/physiology; Smell/physiology; Synapses/physiology |
| edit table |
Significance
Annotations
| Gene product | Qualifier | GO Term | Evidence Code | with/from | Aspect | Extension | Notes | Status |
|---|---|---|---|---|---|---|---|---|
|
involved_in |
GO:0008355: olfactory learning |
ECO:0000315: mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0007600: sensory perception |
ECO:0000315: mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
| GO:0007600: sensory perception |
ECO:0000315: |
P |
Bees where isolated and deprived of any sensory stimulus. RNA extraction was taken from the isolated bees and compared against control. It was found that deprived bees had reduced Nlgn1 expression compared to control. Figure 1. |
complete | ||||
| GO:0008355: olfactory learning |
ECO:0000315: |
P |
Figure 2, associative scent training, long term memory. Brain tissue were analyzed compared to control with no training; there was a up regulation of Nrx1, Nlgn1, Nlgn3. |
complete | ||||
|
involved_in |
GO:0008355: olfactory learning |
ECO:0000315: mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
| GO:0008355: olfactory learning |
ECO:0000315: |
P |
Figure 2, associative scent training, long term memory. Brain tissue were analyzed compared to control bees with no training; there was a up regulation of Nrx1, Nlgn1, Nlgn3. |
complete | ||||
| GO:0008355: olfactory learning |
ECO:0000315: |
P |
Figure 2, associative scent training, long term memory. Brain tissue were analyzed compared to control with no training; there was a up regulation of Nrx1, Nlgn1, Nlgn3. |
complete | ||||
|
involved_in |
GO:0008355: olfactory learning |
ECO:0000315: mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
See also
References
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