WEEK 7

Biological Basis of Memory

For years, researchers have tried to identify the biological basis of memory. This basis might take many forms, such as the model we will discuss this week, but the physical trace of the memory has become known as the engram. While it is likely that there are multiple ways in which memory is stored, the current model for the formation of new memories is Long-Term Potentiation. This model was described by Donald Hebb, who summarized it in 1949 by saying “Neurons that fire together, wire together.” This model suggests that when neurons are typically activated at the same time, the connection between those cells is strengthened. In the terms we have described earlier in our class, the postsynaptic cell becomes more responsive to the neurotransmitters released by the presynaptic cell. Nearly 20 years after Hebb’s quote, the process of LTP was actually observed in the hippocampus. Today, this model is the basis for our understanding of how new memories are formed. A more recent, and less well-understood process is long-term depression, in which the connections between two cells are actively weakened.

For this Discussion, you will explore this LTP model including the neurotransmitters and receptors involved. You will consider what activates each receptor and what changes within the receptor when it is activated.

To prepare:

• Review this week’s Learning Resources about Long-Term Potentiation.
• Use the Walden Library to locate at least two empirical articles that help to explain how LTP is beneficial to daily life.

By Day 3

Post a response to the following:

• Explain Long-Term Potentiation in your own words.
• Include a description of the receptor involved in LTP and what happens when it is stimulated by its ligand.
• Explain the changes that happen in both the presynaptic and postsynaptic cell as part of the LTP process. 
• Briefly summarize the articles you found in the library that support how LTP is beneficial in your daily life. Include full APA references for your articles.

Support your posting with specific references from literature in the Walden Library and Learning Resources.

Read a selection of your colleagues’ postings.

PLEASE WRITER IN THE END OF THE PAGE PLEASE WRITE FOR ME ANY QUESTION RELATED IT TO THE SAME SUBJECT

Required Readings

Breedlove, S. M., & Watson, N. V. (2019). Behavioral neuroscience (9th ed.). New York, NY: Oxford University Press. 

• Chapter 17, “Learning and Memory”

Carey, B. (2008, December 5). H. M., whose loss of memory made him unforgettable, dies. The New York Times.

Hannula, D. E., & Helmstetter, F. J. (2016). Hippocampal interactions with brain networks that influence learning & memory. Neurobiology of Learning and Memory, 134 Pt A, 1–4. doi:10.1016/j.nlm.2016.08.018

Milner, B. (n.d.). Reflections on the field of brain and memory: A tribute to HM. NARSAD Research Quarterly, 24–25. doi:10.1037/e546432011-008

Watson, D. J., Ostroff, L., Cao, G., Parker, P. H., Smith, H., & Harris, K. M. (2016). LTP enhances synaptogenesis in the developing hippocampus. Hippocampus, 26(5), 560–576. Retrieved from https://onlinelibrary.wiley.com/doi/full/10.1002/hipo.22536

LTP enhances synaptogenesis in the developing hippocampus by Watson, D.J., Ostroff, L., Cao, G., Parker, P.H., Smith, H., & Harris, K.M, in Hippocampus, Vol. 26/Issue 5. Copyright 2016 by John Wiley & Sons, Inc. Reprinted by permission of John Wiley & Sons, Inc. via the Copyright Clearance Center.

Required Media

Doolittle, P. (2013, June). Peter Doolittle: How your “working memory” makes sense of the world [Video file]. Retrieved from https://www.ted.com/talks/peter_doolittle_how_your_working_memory_makes_sense_of_the_world

Note: The length of this media is approximately 9 minutes.

Fogel, B. (Producer). (2015, July 10). Forget-me-not: How prions maintain memory [Audio podcast]. Retrieved from https://www.sciencefriday.com/segments/forget-me-not-how-prions-maintain-memory/

Note: The length of this media is approximately 12 minutes.

Kean, S. (2014, August). Sam Kean: What happens when you remove the hippocampus? [Video file]. Retrieved from https://www.ted.com/talks/sam_kean_what_happens_when_you_remove_the_hippocampus

Note: The length of this media is approximately 5 minutes.

Loftus, E. (2013, June). Elizabeth Loftus: How reliable is your memory? [Video file]. Retrieved from https://www.ted.com/talks/elizabeth_loftus_the_fiction_of_memory

Note: The length of this media is approximately 18 minutes.

Yue, C. (n.d.). Long term potentiation and synaptic plasticity. Retrieved May 2, 2019, from https://www.khanacademy.org/science/health-and-medicine/executive-systems-of-the-brain/memory-lesson/v/long-term-potentiation-and-synaptic-plasticity

Note: The length of this media is approximately 3 minutes.

Sinauer Associates, Inc. (Producer). (n.d.). AMPA and NMDA receptors. Available from https://www.bn8e.com/

• Animation 17.2 with your textbook

Note: The length of this media is approximately 3 minutes.

Optional Resource

Optional Reading

Glickstein, M. (2014). Neuroscience: A historical introduction. Cambridge, MA: The MIT Press.

• Chapter 14, “Learning and Memory”

Note: You will access this resource through the Walden Library databases.

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