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Nobuko Hosokawa


■Reviews



    1. Hosokawa N, Kamiya Y, Kato K.   The role of MRH domain-containing lectins in ERAD Glycobiology, in press (2010)


    2. Hosokawa N Nagata K.   M-type lectins as novel components of secretory pathways. In "Animal Lectins: A Functional View" (Eds. G. R. Vasta, H. Ahmed) CRC Press, 165-169 (2009)


    3. Hosokawa N,   Degradation of misfolded glycoproteins in the endoplasmic reticulum. In "Experimental Glycoscience Glycobiology" (Eds. N. Taniguchi, A. Suzuki, Y. Ito, H. Narimatsu, T. Kawasaki, S. Hase) Springer, 207-210 (2008)


    4. Hosokawa N   a-Mannosidases and EDEM homolog proteins: Their roles in glycoprotein ERAD. Glycoforum website “Quality control, trafficking and sorting of glycoproteins” (Ed. K. Yamamoto, Seikagaku Corporation) QS-A02 (2006)


    5. Hosokawa N, Nagata K.   a-mannosidase-like protein involved in quality control in the endoplasmic reticulum (ER) Glycoforum website "Beyond glycogens" (Ed. N. Taniguchi, Seikagaku Corpration) 6 (2002)


    6. Meeting review: Yoshida M, Endo T, Ito K, Hosokawa N, Nagata K.   Dynamics and regulation of the stress response: meeting report on the stress response and molecular chaperones from Kyoto. Cell Stress and Chaperone :4, 66-74 (1999)


    7. Nagata K, Satoh M, Hosokawa N, Miller A.D.   Involvement of Hsp47 in the folding and processing of procollagen in the endoplasmic reticulum. In Molecular Chaperones in the Life Cycle of Proteins: Structure, Function, and Mode of Action. (eds. A. L. Fink and Y. Goto) Marcel Dekker, Inc. 225-240 (1997)


    8. Nagata K, Hosokawa N.   Regulation and function of collagen-specific molecular chaperone, HSP47. Cell Struct. Funct.:21, 425-430 (1996)


    9. Nagata K, Hosokawa N.   Inhibition of heat shock gene expression by flavonoids. In Stress Proteins. J. UOEH (University of Occupational and Environmental Health):15 (suppl) 86-92 (1993)


    10. Nagata K, Hosokawa N.   Flavonoids inhibit the expression of heat shock proteins and acquisition of thermotolerance: Inhibition of the activation of heat shock factor is a key mechanism. In Hyperthermic Oncology 1993. (eds. E. W. Gerner and T. C. Cates) Taylor and Francis Inc. 57-63 (1993)


    11. Koishi M, Hosokawa N, Satoh M, Nakai A, Hirayoshi K, Hiraoka M, Abe M, Nagata K.   Quercetin, an inhibitor of the synthesis of heat shock proteins, prevents the acquisition of thermotolerance. In Hyperthermic Oncology in Japan '90. (ed. K. Sekiba) Asahi Printing and Publishing Co. 289-290 (1991)


    12. Hosokawa N, Koishi M, Nagata K.   Inhibitory effects of bioflavonoids on the expression of heat shock proteins. In Hyperthermic Oncology in Japan '90. (ed. K. Sekiba) Asahi Printing and Publishing Co. 63-66 (1991)


    13. Nagata K, Nakai A, Hosokawa N, Kudo H, Takechi H, Satoh M, Hirayoshi K.   Interaction of HSP47 with newly synthesized procollagen, and regulation of HSP expression. In Heat Shock. (eds. B. Maresca and S. Lindquist) 105-110 (1991)



      


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