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Writing Workshop 7/12/2019

Explore the potential of sigma-1 receptor agonists to enhance mitochondrial function in Alzheimer's disease, focusing on a comparison between wild-type and 3xTg-AD neuron mitochondria. Discover how early changes in mitochondria may contribute to AD pathogenesis.

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Writing Workshop 7/12/2019

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  1. Writing Workshop 7/12/2019 Isaac Babcock

  2. My writing issues • Clearly explaining complex ideas or methods • My information flow favors the writers knowledge rather then the readers knowledge.

  3. Tips from The Scientist’s Guide To Writing • Read and think about the writer and write and think about the reader. • “You should ask not “what should I write about?” but instead “what does my reader need to hear about?””(chapter 7 page 59) • Make a 2 sentence summary of the story you are trying to tell. Make sure all information aids and doesn’t distract from story summary

  4. If I was the writer what would be the 2 sentence summary, and what information is critical for this story? Sigma-1 receptor agonists have shown to enhance mitochondrial function. If mitochondrial properties from embryonic 3xTg-AD mouse neurons is different from wild type mouse neurons then sigma-1 receptor agonists might ameliorate these deficits and be a potential Alzheimer’s therapeutic. Mitochondrial dysfunction is found in Alzheimer’s disease (AD) patients and animal models. If mitochondrial properties from embryonic 3xTg-AD mouse neurons is different from wild type mouse neurons then early changes in mitochondria may be a key step in AD pathogenesis.

  5. Information necessary to tell this specific story • What is the 3xTg-AD mouse model? • What are the properties of WT neuron mitochondria • What are the properties of 3xTg-AD neuron mitochondria • How does a sigma-1 receptor agonist affect mitochondria in WT and 3xTg-AD neurons This paper does address the information I thought was critical for there story but the flow of information and data was not what I wanted as a reader.

  6. Their flow as the writer versus my ideal flow as the reader Their flow • Mito # and structure in DIV12-14 3xTg-AD and WT neurons • Mito movement in DIV 14 3xTg-AD and WT neurons • Mito # and structure in DIV7-9 3xTgAD and WT neurons • Effect of sigma agonist on mito movement in D7-9 3xTg-AD and WT neurons • Effect of sigma agonist on mito structure and number at DIV7-9 Readers ideal flow • Mito # and structure in DIV7-9 3xTgAD and WT neurons • Mito movement in D7-9 3xTgAD and WT neurons • Mito # and structure in DIV12-14 3xTg-AD and WT neurons • Mito movement in DIV 14 3xTg-AD and WT neurons • Effect of sigma agonist on mito movement in D7-9 3xTg-AD and WT neurons • Effect of sigma agonist on mito structure and number at DIV7-9 • Effect of sigma agonist on mito movement in D14 3xTg-AD and WT neurons • Effect of sigma agonist on mito structure and number at DIV14 • Mito # and structure in DIV7-9 3xTgAD and WT neurons • Effect of sigma agonist on mito structure and number at DIV7-9 • Effect of sigma agonist on mito movement in D7-9 3xTg-AD and WT neurons

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