リケラボ論文検索は、全国の大学リポジトリにある学位論文・教授論文を一括検索できる論文検索サービスです。

リケラボ 全国の大学リポジトリにある学位論文・教授論文を一括検索するならリケラボ論文検索大学・研究所にある論文を検索できる

リケラボ 全国の大学リポジトリにある学位論文・教授論文を一括検索するならリケラボ論文検索大学・研究所にある論文を検索できる

大学・研究所にある論文を検索できる 「An Open Sandwich Immunochromatography for Non-competitive Detection of Small Antigens」の論文概要。リケラボ論文検索は、全国の大学リポジトリにある学位論文・教授論文を一括検索できる論文検索サービスです。
リケラボ

コピーが完了しました

URLをコピーしました

論文の公開元へ論文の公開元へ
書き出し

An Open Sandwich Immunochromatography for Non-competitive Detection of Small Antigens

原田 義孝 大室 有紀 上田 宏 東京工業大学 DOI:https://doi.org/10.2116/analsci.20SCP06

2020.11.20

概要

Immunochromatography assay is an easy and rapid on-site detection method. However, conventional sandwich immunochromatographies using two antibodies can only detect target molecules above a threshold size. Small molecules below 1000 in molecular weight are usually detected using competitive immunoassay. However, competitive immunoassay is not suitable for visual detection of low concentration samples. Based on the principles of open sandwich immunoassay, which detects small molecules via interchain interaction of separated variable region fragments (VH and VL) from a single antibody, we developed non-competitive open sandwich immunochromatography. Bone Gla protein (BGP)-C7, a peptide containing the seven C-terminal amino acids of human osteocalcin, was selected as the target. By using VL fragments fixed on a nitrocellulose membrane, and colored cellulose bead-labeled VH fragments, we specifically detected 10 ng/mL of BGP-C7. This is the first report of open sandwich immunochromatography, which is an easy and rapid method for on-site, signal-on detection of small molecules.

論文の公開元へ

関連論文

関連論文をもっと見る

参考文献

1. H. Li, Z. Liu, Y. He, Y. Qi, J. Chen, Y. Ma, F. Liu, K. Lai, Y. Zhang, L. Jiang, X. Wang, and J. Ge, Clin. Transl. Med., 2020, e90.

2. D. Wang, J. Zhu, Z. Zhang, Q. Zhang, W. Zhang, L. Yu, J. Jiang, X. Chen, X. Wang, and P. Li, Toxins (Basel), 2019, 11, 56.

3. S. Yu, L. He, F. Yu, L. Liu, C. Qu, L. Qu, J. Liu, Y. Wu, and Y. Wu, Toxicon, 2018, 156, 23.

4. W. B. Shim, Z. Y. Yang, J. Y. Kim, J. G. Choi, J. H. Je, S. J. Kang, A. Y. Kolosova, S. A. Eremin, and D. H. Chung, J. Agric. Food Chem., 2006, 54, 9728.

5. K. Li, L. Liu, C. Xu, and X. Chu, Anal. Sci., 2007, 23, 1281.

6. A. Mizokami, T. Kawakubo-Yasukochi, and M. Hirata, Biochem. Pharmacol., 2017, 132, 1.

7. H. Iwai, B. Ozturk, M. Ihara, and H. Ueda, Protein Eng. Des. Sel., 2010, 23, 185.

8. Y. Ohmuro-Matsuyama, T. Yamashita, K. Gomi, H. Yamaji, and H. Ueda, Anal. Biochem., 2018, 563, 61.

9. S. L. Lim, H. Ichinose, T. Shinoda, and H. Ueda, Anal. Chem., 2007, 79, 6193.

10. Q. Wang, Q. Du, B. Guo, D. Mu, X. Lu, Q. Ma, Y. Guo, L. Fang, B. Zhang, G. Zhang, and X. Guo, J. Clin. Microbiol., 2020, 58, e00375.

11. A. J. Lee, S. Hodges, and R. Eastell, Ann. Clin. Biochem., 2000, 37 (Pt 4), 432.

12. J. P. Brown, L. Malaval, M. C. Chapuy, P. D. Delmas, C. Edouard, and P. J. Meunier, Lancet, 1984, 323, 1091.

13. A. N. Berlina, N. A. Taranova, A. V. Zherdev, Y. Y. Vengerov, and B. B. Dzantiev, Anal. Bioanal. Chem., 2013, 405, 4997.

参考文献をもっと見る

全国の大学の
卒論・修論・学位論文

一発検索!

この論文の関連論文を見る