Publications Search

95 Publications

2022

Rahimi M, Sohrabi S, Murphy C. 2022. 1. Novel elasticity measurements reveal C. elegans cuticle stiffens with age and in a long-lived mutant. Biophysical Society.

2021

Baumeister R, Murphy CT, Heimbucher T. 2021. 9b. Metabolic adaptation to hypoxia: do worms and cancer cells share common metabolic responses to hypotic stress?.
Choi L, Shi C, Ashraf J, Sohrabi S, Murphy CT. 2021. 8. Oleic Acid Protects Caenorhabditis Mothers From Mating-Induced Death and the Cost of Reproduction. Frontiers in Cell and Developmental Biology . Front. Cell & Dev Biol 9, 1430 .
Cota V, Murphy CT. 2021. 2. Fission and PINK-1-mediated mitophagy are required for Insulin/IGF-1 signaling mutant reproductive longevity. bioRxiv.
Lee Y, Jung Y, Jeong DE, Hwang W, Ham S, Park HH, Kwon S, Ashraf JM, Murphy CT, Lee SV. 2021. 9. Reduced insulin/IGF1 signaling prevents immune aging via ZIP-10/bZIP-mediated feedforward loop.
Moore RS, Kaletsky R, Murphy CT. 2021. 7. Protocol for transgenerational learned pathogen avoidance behavior assays in Caenorhabditis elegans. STAR protocols.
Moore RS, Kaletsky R, Lesnik C, Cota V, Blackman E, Parsons LR, Gitai Z, Murphy CT. 2021. 5. The role of the Cer1 transposon in horizontal transfer of transgenerational memory. Cell.
Mor DE, Huertas F, Morse AM, Kaletsky R, Murphy CT, Kalia V, Miller GW, Moskalenko O, Conesa A, McIntyre LM. 2021. 4. GAIT-GM integrative cross-omics analyses reveal cholinergic defects in a C. elegans model of Parkinson’s disease. bioRxiv.
Shi C, Murphy CT. 2021. 3. piRNAs regulate a Hedgehog germline-to-soma pro-aging signal. bioRxiv .
Sohrabi S, Mor DE, Kaletsky R, Keyes W, Murphy CT. 2021. 9c. High-throughput behavioral screen in C. elegans reveals novel Parkinson’s disease drug candidates. Comm Biology .
Sohrabi S, Moore RS, Murphy CT. 2021. 6. CeAid: A smartphone application for logging and plotting C. elegans assays. G3 Genes|Genomes|Genetics .

2020

Choi LS, Shi C, Murphy CT. 2020. 6. Oleic acid protects Caenorhabditis mothers from mating-induced death. bioRxiv .
Heimbucher T, Hog J, Gupta P, Murphy CT. 2020. 2. PQM-1 controls hypoxic survival via regulation of lipid metabolism. Nature Commun.
Kaletsky R, Murphy CT. 2020. 8. Transcriptional Profiling of C. elegans Adult Cells and Tissues with Age. .Methods Mol Biol. https://pubmed.ncbi.nlm.nih.gov/32410035/.
Kaletsky R, Moore RS, Vrla GD, Parsons LR, Gitai Z, Murphy CT. 2020. 9d. C. elegans “read” bacterial non-coding RNA to learn pathogenic avoidance. bioRxiv .
Kaletsky R, Moore RS, Vrla GD, Parsons LR, Gitai Z, Murphy CT. 2020. 5. C. elegans interprets bacterial non-coding RNAs to learn pathogenic avoidance. Nature.
Moore RS, Kaletsky R, Lesnik C, Cota V, Blackman E, Parsons LR, Gitai Z, Murphy CT. 2020. 1. “Horizontal and vertical transmission of transgenerational memories via the Cer1 transposon. bioRxiv. https://doi.org/10.1101/2020.12.28.424563 .
Mor DE, Sohrabi S, Kaletsky R, Keyes W, Tartici A, Kalia V, Miller GW, Murphy CT. 2020. 4. Metformin rescues Parkinson’s disease phenotypes caused by hyperactive mitochondria. Proc Natl Acad Sci U S A.
Mor DE, Sohrabi S, Kaletsky R, Keyes W, Kalia V, Miller GW, Murphy CT. 2020. 9b. Metabolic defects cause hyperactive mitochondria and Parkinson’s disease-like traits. bioRxiv.
Murphy CT. 2020. 9c. Short and sweet. Elife. https://elifesciences.org/articles/55220.
Shi C, Murphy CT. 2020. 3. Sex and Death. Curr. Topics in Dev. Biol.
Sohrabi S, Mor DE, Kaletsky R, Keyes W, Murphy CT. 2020. 9a. High-throughput behavioral screen in C. elegans reveals novel Parkinson’s disease drug candidates. bioRxiv .
Templeman NM, Cota V, Keyes W, Kaletsky R, Murphy C. 2020. 7. CREB Non-autonomously Controls Reproductive Aging through Hedgehog/Patched Signaling. Dev Cell. https://pubmed.ncbi.nlm.nih.gov/32544391/.
Templeman NM, Cota V, Keyes W, Kaletsky R, Murphy CT. 2020. 9. CREB non-autonomously regulates Reproductive Aging through Hedgehog/Patched Signalling. bioRxiv.

2019

Arey R, Kaletsky R, Murphy C. 2019. Profiling of presynaptic mRNAs reveals a role for axonal PUMILIOs in associative memory formation. bioRxiv.. doi:10.1101/733428. https://www.biorxiv.org/content/early/2019/08/13/733428.