• Aleogho BM., Mohri M., Jang MS., Tsukada S., Al-Hebri Y., Tsukada Y., Mori I., and Noma K.
    Aberrant neuronal hyperactivation causes an age- and diet-dependent decline in associative learning behavior
    bioRxiv

  • Suryawinata N.#, Yokosawa R.#, Tan KHC., Lai AL., Sone R., Mori I., and Noma K. (2024)
    Dietary E. coli promotes age-dependent chemotaxis decline in C. elegans
    Scientific Reports, 14, 5529. #equal contribution, PubMed

  • Higurashi S.#, Tsukada S.#, Aleogho BM.#, Park JH., Al-Hebri Y., Tanaka M., Nakano S., Mori I., and Noma K. (2023)
    Bacterial diet affects the age-dependent decline of associative learning in Caenorhabditis elegans
    eLife, 12:e81418. #equal contribution, bioRxiv, PubMed

  • Zhang A., Noma K., and Yan D. (2020)
    Regulation of Gliogenesis by lin-32/Atoh1 in Caenorhabditis elegans
    G3, 10, 9, 3271-3278. PubMed

  • Nakamura A., Oki C., Sawada S., Yoshii T., Kuwata K., Rudd AK., Devaraj NK., Noma K., and Tsukiji S. (2020)
    Designer Palmitoylation Motif-Based Self-Localizing Ligand for Sustained Control of Protein Localization in Living Cells and Caenorhabditis elegans
    ACS Chem Biol, 15(4), 837-843. PubMed

  • Noma K.* and Jin Y.* (2018)
    Rapid Integration of Multi-copy Transgenes Using Optogenetic Mutagenesis in Caenorhabditis elegans
    G3, 8, 1-7, *Co-corresponding author (F1000 Prime Recommended). PubMed

  • Noma K., Goncharov A., Ellisman MH., and Jin Y. (2017)
    Microtubule-dependent ribosome localization in C. elegans neurons
    eLife, 6: e26376, 1-23. PubMed

  • Noma K.* and Jin Y.* (2016)
    Optogenetic Random Mutagenesis Using Histone-miniSOG in C. elegans
    JoVE, Nov 14 (117), *Co-corresponding author. PubMed

  • Holland SM., Collura KM., Ketschek A., Noma K., Ferguson TA., Jin Y., Gallo G., and Thomas G. M. (2016)
    Palmitoylation Controls DLK Localization, Interactions and Activity to Ensure Effective Axonal Injury Signaling
    PNAS, 113(3), 763-768. PubMed

  • Noma K. and Jin Y. (2015)
    Optogenetic mutagenesis in Caenorhabditis elegans
    Nat. Commun., 6, 8868. (Research Highlight in Nature Methods, 13, p116, 2016; F1000 Prime Recommended; BioSpotlight/Citations in Biotechniques, 60(2), p55, 2016). PubMed

  • Noma K., Goncharov A., and Jin Y. (2014)
    Systematic Analyses of rpm-1 Suppressors Reveal Roles for ESS-2 in mRNA Splicing in Caenorhabditis elegans
    Genetics, 198, 1–15. PubMed

  • Yan D., Noma K., and Jin Y. (2011)
    Expanding views of presynaptic terminals: new findings from Caenorhabditis elegans
    Curr. Opin. Neurobiol. (Review), 22, 1-7. PubMed

  • Noma K., Kimura K., Minatohara K., Nakashima H., Nagao Y., Mizoguchi A., and Fujiyoshi Y., (2009)
    Triple N-Glycosylation in the Long S5-P Loop Regulates the Activation and Trafficking of the Kv12.2 Potassium Channel
    J. Biol. Chem., 284(48), 33139-33150. PubMed