AI Article Synopsis
- Interactions between ApCREB1a, ApCREB2, and ApC/EBP were traditionally studied using methods like the yeast two-hybrid system, but their actual interactions in neurons were uncertain.
- The research developed an Aplysia two-hybrid system, discovering that ApCREB2 interacts with ApCREB1a and ApC/EBP, and that ApC/EBP can form homodimers.
- It was also found that ApCREB1a does not interact with ApC/EBP, confirming that the previously described interactions occur specifically in Aplysia neurons.
Article Abstract
Interactions between ApCREB1a, ApCREB2, and ApC/EBP have been studied using conventional methods such as the yeast two-hybrid system. However, it is unclear whether these memory-related transcription factors actually interact in the native environment in neurons. To clarify this question, we have developed an Aplysia two-hybrid system and found, consistent with previous studies that ApCREB2 interacts with ApCREB1a and ApC/EBP, and that ApC/EBP forms homodimers. We have also found that ApCREB1a and ApC/EBP do not interact. Therefore, our study shows that formerly described interactions between the proteins actually occur in the Aplysia neurons and that interactions between these transcription factors are specific.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC196654 | PMC |
| http://dx.doi.org/10.1101/lm.55303 | DOI Listing |
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