研究論文

抜粋した原著論文 (* corresponding author) 

1.  Matsuo, K., Akihiro, Koga. and Ihara, S., *. Visualization of endogenous NID-1 and EMB-9 in C. elegans. microPublication Biology. Open access.  10.17912/micropub.biology.000110  (2019)

2.  Narimatsu, T and Ihara, S. New allele of C. elegans gene pign-1, named as xyz11. microPublication Biology. Open Access. 10.17912/micropub.biology.000088(2019)

3.   Ihara, S*., Nakayama, S., Murakami, Y., Suzuki, E., Asakawa, M., Kinoshita, T. and Sawa, H. PIGN prevents protein aggregation in the endoplasmic reticulum independently of its function in the GPI synthesis. J. Cell Sci. 130, 602-13 (2017).

4.   Morrissey, M. A., Jayadev, R., Miley, Ginger, R., Blebea, Catherine. A., Chi, Q., Ihara, S., and Sherwood, D. R*. SPARC promotes cell invasion in vivo by decreasing type IV collagen levels in the basement membrane. PLOS Genetics 12, e1005905 (2016). 

5.  Lacroix, B., Bourdages, K. G., Dorn, J. F., Ihara, S., Sherwood, DR, Maddox, P.S. and Maddox, A.S*. In situ imaging in C. elegans reveals developmental regulation of microtubule dynamics. Developmental Cell 28, 203-16 (2014)  

6.  Ihara, S., Hagedorn, E. J., Morrissey, M. A., Chi, Q., Motegi, F., Kramer, J. M. and Sherwood, D. R*. Basement Membrane Sliding and Targeted Adhesion Remodels Tissue Boundaries During Uterine-vulval Attachment in C. elegans. Nature Cell Biology 13, 641-51 (2011) 

7.  Hagedorn, E. J., Yashiro, H., Ziel, J. W., Ihara, S., Wang, Z. and Sherwood D.R*. Integrin acts upstream of netrin signaling to regulate formation of the anchor cell's invasive membrane in C. elegansDevelopmental Cell 17, 187-98 (2009)

8.  Ihara, S. and Nishiwaki, K*. Stage-specific activation of MIG-17/ADAMTS controls cell migration in Caenorhabditis elegansFEBS J275, 4296-305 (2008) 

9.   Ihara, S. and Nishiwaki, K*. Prodomain-dependent tissue targeting of an ADAMTS protease controls cell migration in C. elegans. The EMBO J. 26, 2607-20 (2007)  

10.  Ihara, S., Miyoshi, E. and Taniguchi, N.:  GnT-V and Cancer A novel pathway of cancer metastasis through GnT-V and matriptase MS103”, Comprehensive Glycoscience, Four-Volume: From Chemistry to Systems Biology, Elsevier Science Publishing Company,  (ISBN:978-0-444-52746-2) Vol. 4, 421-435, 2007

11.   Ihara, S., Miyoshi, E., Nakahara, S., Sakiyama, H., Ihara, H., Akinaga, A., Honke, K., Dickson, R. B., Lin, C. Y. and Taniguchi, N*. Addition of b1-6GlcNAc branching to the oligosaccharide attached to Asn772 in serine protease domain of matriptase plays a pivotal role in its stability and resistance against trypsin. Glycobiology 14, 139-146 (2004) 

  • 12.   Ihara, S., Miyoshi, E., Ko, J. H., Murata, K., Nakahara, S., Honke, K., Dickson, R. B., Lin, C.Y. and Taniguchi, N*. Prometastatic effect of N-acetylglucosaminyltransferase V is due to modification and stabilization of active matriptase by adding b 1-6 GlcNAc branching. J. Biol. Chem. 277, 16960-16967 (2002)

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