Outlook?for?research?54応用生物科学科Department?of?Applied?BiologyOutlookforstudentsaftergraduationHow?can?spider?and?silkworm?spin?such?a?tough?silk?Silkisusedasastructuralmaterialinnaturesuchasalifelineofspiderandashellofsilkworm.Thethicknessofspidersilkisapproximatelyonetenthofhuman’shair.Thespidersilkwith3‐mmthicknesscansupportamanwith60kg.Silkseemsveryattractivewhenusedasstructuralmaterial,however,itisdifficulttosynthesizeanartificialsilkthathasbothstrengthandextensibilitylikenativesilk.Spidersandsilkwormsareknowntopossesssophisticatedspinningmechanism.Iwouldliketosharemysteriesinthenaturalspinningsystemsinspidersandsilkwormsandtakeadvantageofthesystemtosynthesizeartificialsilkforindustrialapplications.Iwouldliketosharetheexcitementoftacklingthescienceofnature,fromthestudyofspiderandsilkwormsilk.Youwillmakehypothesisandperformexperimentstoproofthehypothesis.Hopefully,youwillexertyourselfinsocietyfromyourresearchexperimentatShinshuUniversity.AssistantProfessorKenjiroYazawaAssistantProfessorYazawagothisph.DatTokyoTech.andcametohiscurrentpositionafterworkingasapostdoctoralresearcheratYamagatauniversityandRIKENinJapan.Hespecializesmolecularbiologyandpolymerscience.Hisfinalaimistorevealthemechanismofspinningsystemofspidersandsilkworms.Spidersarefixedbetweenspongeswiththeirlegsinsidethespongestoextracttheirsilks.Wefeelthatthesilkisshinyandtough.Spiderstransformsilksolutionsintofibersintheirglands.Man‐madefibersneedtobeprocessedathightemperature,whilespidersandsilkwormssynthesizetheirsilkinamildcondition.Wecansynthesizetheartificialsilkbymimickingthenaturalspinningsystemandcontributetousesilkasastructuralmaterialinourdailylife.
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