1 - 20 of about 83

• 1.

  Intracellular delivery and photothermal therapeutic effects of polyhistidine peptide-modified gold nanoparticles. , Hori K., Higashida S., Osaki T., Kawano T., Inaba H., Matsuura K., and Iwasaki T. , J.Biotechnol. , vol.354 (p.34 - 44) , 2022.08 , The Multiple Authorship , English

• 2.

  Regulatory mechanism of larval diapause by a C. elegans neuropeptide, FLP-6 in the intestine. , Ono M., Hori, Y., Matsunaga, Y., Bito, T., Iwasaki, T., and Kawano, T.* , In Peptide Science 2021 (p.87 - 90) , 2022.03 , The Multiple Authorship , English

• 3.

  Regulatory mechanism of larval diapause by a C. elegans neuropeptide, FLP-3. , Nose M., Kageyama N., Ono M., Matsunaga Y., Bito,T., Iwasaki T., and Kawano T.* , In Peptide Science 2021, (p.91 - 94) , 2022.03 , The Multiple Authorship , English

• 4.

  Photothermal therapeutic effects of polyhistidine peptide-modified gold nanlpaticles. , Hori K., Higashida S., Osaki T., Kawano T., and Iwasaki T. , In Peptide Science 2021, (p.77 - 80) , 2022.03 , The Multiple Authorship , English

• 5.

  In vitro transcytosis of Helicobacter pylori histidine-rich protein through gastric epithelial-like cells and the blood-brain barrier. , Iwasaki T., Maruyama A., Inui Y., Sakurai T., and Kawano T. , Biosci. Biotechnol.Biochem , vol.86 (p.321 - 330) , 2022.02 , The Multiple Authorship , English

• 6.

  Dityrosine croslinking of lollagen and amyoid-β peptides is formed by vitamin B12 deficiency-generated oxidative stress in Caenorhabditis elegans. , Koseki K., Yamamto A., Tanimoto K., Okamono N., Teng F., Bito T., Yabuta Y., Kawano T., and Watanabe F. , Int. J. Mol. Sci. , 2021.11 , The Multiple Authorship , English

• 7.

  Direct protein delivery into intact plant cells using polyhistidine peptides. , Tanaka, Y., Nanasato, Y., Omura, K., Endoh, K., Kawano, T., and Iwasaki, T. , Biosci. Biotechnol. Biochem. , vol.85 (p.1405 - 1414) , 2021.05 , The Multiple Authorship , English

• 8.

  Regulatory mechanism of larval diapause by a C. elegans neuropeptide, FLP-6. , Ono, M., Arai, C., Kunimatsu, Y., Hori, Y., Matsunaga, Y., Bito, T., Iwasaki, T., and Kawano, T. , In Peptide Science 2020 (p.157 - 160) , 2021.02 , The Multiple Authorship , English

• 9.

  Lysosomal enzyme replacement therapy using H16 peptide. , Iwasaki, T., Hayashi, T., Murakami, N., and Kawano, T. , Peptide Science 2020 (p.pp5 - 8) , 2021.02 , The Multiple Authorship , English

• 10.

  A polylysine-polyhistidine fusion peptide for lysosome-targeted protein delivery. , Iwasaki, T., Murakami, N., and Kawano, T. , Biochem. Biophys. Res. Commun. , vol.533 (p.905 - 912) , 2020.12 , The Multiple Authorship , English

• 11.

  Involvement of spermidine in the reduced lifespan of Caenorhabditis elegans during vitamin B12 deficiency. , Bito, T., Okamoto, N., Otsuka, K., Yabuta, Y., Arima, J., Kawano, T., and Watanabe, F , Metabolites , 2019.09 , There is Review , The Multiple Authorship , English

• 12.

  Development of organelle replacement therapy using a stearyl-polyhistidine peptide against lysosomal storage disease cells. , Hayashi, T., Okamoto, R., Kawano, T., and Iwasaki , T , Molecules , 2019.08 , There is Review , The Multiple Authorship , English

• 13.

  Drug delivery using polyhistidine peptide-modified liposomes that target the endogenous lysosome. , Hayashi, T., Shinagawa, M., Kawano, T., and Iwasaki, T. , Biochem. Biophys. Res. Commun , vol.501 (p.648 - 653) , 2018.06 , There is Review , The Multiple Authorship , English

• 14.

  NPR-15, one of the C. elegans neuropeptide receptors, regulates larval development. , Matsushita, K., Bito, T., Iwasaki, T., and Kawano, T. , In Peptide Science 2017 , 2018.03 , There is Review , The Multiple Authorship , English

• 15.

  A screen for Rab family proteins modulating secretion of INS-35, one of the C. elegans insulin-like peptides. , Ohnishi, M., Iwasaki, T., and Kawano, T. , In Peptide Science , 2018.03 , There is Review , The Multiple Authorship , English

• 16.

  Lysosome-targeting drug delivery system using the H16 peptide-modified liposome. , Hayashi, T., Kawano, T., and Iwasaki T , In Peptide Science , 2018.03 , There is Review , The Multiple Authorship , English

• 17.

  Comparison of physiological functions between antagonistic insulin-like peptides, INS-23 and INS-18, in Caenorhabditis elegans. Biosci , Matsunaga, Y., Matsukawa, T., Iwasaki, T., Nagata, K., and Kawano, T , Biosci. Biotechnol. Biochem. , vol.82 (p.90 - 96) , 2018.01 , There is Review , The Multiple Authorship , English

• 18.

  Vitamin B12 deficiency results in severe oxidative stress, leading to memory retention impairment in Caenorhabditis elegans. , Bito, T., Misaki, T., Yabuta, Y., Ishikawa, T., Kawano, T., and Watanabe F , Redox Biol , vol.11 (p.21 - 29) , 2017.04 , There is Review , The Multiple Authorship , English

• 19.

  Comparison of physiological functions between antagonistic insulin-like peptides, INS-23 and INS-18, in Caenorhabditis elegans. , Matsukawa, T., Matsunaga, Y., Iwasaki, T., Nagata, K., Tanokura, M., and Kawano, T. , In Peptide Science 2016 (p.45 - 46) , 2017.03 , There is Review , The Multiple Authorship , English

• 20.

  NLP-3, a C-terminal peptide amide of Caenorhabditis elegans, regulates its larval diapause by modulating secretion of a TGF-β-like protein, DAF-7. , Kunimatsu, Y., Saga, M., Iwasaki, T., and Kawano, T. , In Peptide Science 2016 (p.213 - 214) , 2017.03 , There is Review , The Multiple Authorship , English

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