2023擭
傾儖僶乕僩傾僀儞僔儏僞僀儞堛壢戝妛偺埳摗孿夘愭惗偑棃朘丒僙儈僫乕
5寧10擔偵傾儖僶乕僩傾僀儞僔儏僞僀儞堛壢戝妛弝嫵庼偺埳摗孿夘愭惗偑棃朘偝傟丄僙儈僫乕傪偟偰偄偨偩偒傑偟偨丅憿寣姴嵶朎偺in vitro偍傛傃in vivo偵偍偗傞僔儞僌儖僙儖偺塣柦夝愅傗儈僩僐儞僪儕傾惂屼偵偮偄偰嫽枴怺偄媍榑偑側偝傟傑偟偨丅
僞僀 儅僸僪儞戝妛 Nattawat Onlamoon愭惗偑棃朘
4寧24擔偵儅僸僪儞戝妛 Nattawat Onlamoon愭惗偑棃朘偝傟傑偟偨丅
僕儑僀儞僩丒僨傿僌儕乕丒僾儘僌儔儉偵娭楢偟偨擬偄媍榑偑岎傢偝傟傑偟偨丅
椷榓4擭搙妛埵婰庼梌
3寧16擔丄妛惗偵廋巑偺妛埵偑庼梌偝傟傑偟偨丅
恄宱僠乕儉偺憤愢偑 Inflammation and Regeneration 帍偵宖嵹
Taichi Kashiwagi, Yuuki Takazawa, Tetsushi Kagawa and Tetsuya Taga
Organization of self-advantageous niche by neural stem/progenitor cells during development via autocrine VEGF-A under hypoxia.
Inflammation and Regeneration, 43(1):8, 2023.
戀惗婜偺儅僂僗擼偵偍偄偰寣娗偑枹敪払側帪婜偺掅巁慺娐嫬壓偱偼丄恄宱姴嵶朎偑寣娗撪旂嵶朎憹怋場巕乮VEGF-A乯傪暘斿偟帺傜偵嶌梡偝偣偰帺屓暋惢傪懀恑偡傞偲偄偆惗懚愴棯偵傛偭偰擼偺宍惉偵婑梌偡傞偙偲傪偮偒偲傔傑偟偨丅
2022擭
娻僠乕儉偺憤愢偑 Inflammation and Regeneration 帍偵宖嵹
Wanqian Wang, Kouichi Tabu, Alapati Aimatijiang and Tetsuya Taga
Therapy-resistant nature of cancer stem cells in view of iron metabolism.
Inflammation and Regeneration, 42(1):34, 2022.
娻姴嵶朎偺揝戙幱偺娤揰偐傜丄偑傫偺帯椕掞峈惈偲偦偺崕暈偵岦偗偨帯椕愴棯偵偮偄偰憤愢偵傑偲傔傑偟偨丅
儅僸僪儞戝妛偲偺僕儑僀儞僩丒僨傿僌儕乕丒僾儘僌儔儉妛惗偑攝懏
杮妛偲儅僸僪儞戝妛偲偺僕儑僀儞僩丒僨傿僌儕乕丒僾儘僌儔儉崙嵺楢実堛妛宯愱峌偺妛惗Tanakorn Tarapongpun偑2023擭10寧1擔晅偱摉尋媶幒偵攝懏偝傟18僇寧娫偺梊掕偱尋媶傪奐巒偟傑偟偨丅
娻僠乕儉偺憤愢偑 Cells 帍偵宖嵹
Yoshitaka Murota, Kouichi Tabu and Tetsuya Taga
Cancer Stem Cell-Associated Immune Microenvironment in Recurrent Glioblastomas.
Cells, 11(13):2054, 2022.
銹夎庮偺嵞敪偵婑梌偡傞柶塽旝彫娐嫬偺摿惈偲丄娻姴嵶朎偵傛傞嵞敪偺巇慻傒傪憤愢偵傑偲傔傑偟偨丅
椷榓3擭搙妛埵婰庼梌
3寧17擔丄Alapati Aimaitijiang偝傫偵攷巑偺妛埵偑庼梌偝傟傑偟偨丅
摨擔丄妛惗偵廋巑偺妛埵偑庼梌偝傟傑偟偨丅
娻僠乕儉偺 Alapati Aimaitijiang 戝妛堾惗傜偺榑暥偑 Genes to Cells 帍偵宖嵹
Alapati Aimaitijiang, Kouichi Tabu, Wenqian Wang, Ikuo Nobuhisa, and Tetsuya Taga.
Glioma cells remotely promote erythropoiesis as a self-expanding strategy of cancer stem cells.
Genes to Cells, 27(1): 25-42, 2022.
銹夎庮偺娻嵶朎偑枛徑憿寣婍姱偵偍偗傞愒寣媴嶻惗傪墦妘揑偵懀恑偡傞偙偲偱丄娻姴嵶朎偺帺屓憹怋偵昁梫側巁慺傗揝傪曗媼偡傞偲偄偆怴偨側嵞敪婡峔傪柧傜偐偵偟傑偟偨丅
2021擭
尋媶幒堳偺堎摦
怣媣婔晇弝嫵庼偑丄拞懞妛墍戝妛塰梴壢妛壢偵嫵庼偲偟偰堎摦偝傟傑偟偨丅
媄弍曗嵅堳偺堜忋榓巕偝傫偑丄擟婜枮椆偱戅怑偝傟傑偟偨丅(3寧31擔晅偗)
挿偒偵傢偨傝戝曄偍悽榖偵側傝偁傝偑偲偆偛偞偄傑偟偨乮怣媣乯丅
椷榓2擭搙妛埵婰庼梌
3寧17擔丄妛惗偵廋巑偺妛埵偑庼梌偝傟傑偟偨丅
SONY摿暿尋媶惗偑尋媶偵嶲壛
SONY摿暿尋媶惗偲偟偰媑揷戝曯偝傫偑丄2020擭10寧1擔偐傜2021擭3寧31擔傑偱尋媶偵嶲壛偟偰偄傑偡丅
娻僠乕儉偺嫟挊榑暥偑 Sci Rep. 帍偵宖嵹
Suzuki I, Yoshida S, Tabu K, Kusunoki S, Matsumura Y, Izumi H, Asanoma K, Yagi H, Onoyama I, Sonoda K, Kohno K, Taga T, Takeda S, Kato K.
YBX2 and cancer testis antigen 45 contribute to stemness, chemoresistance and a high degree of malignancy in human endometrial cancer.
Sci. Rep., 11(1): 4220, 2021.
巕媨懱娻偺栻嵻懴惈傗埆惈搙側偳偺偑傫姴嵶朎惈偵偍偗傞揮幨場巕YBX2偲娻惛憙峈尨CT45偺栶妱傪柧傜偐偵偟傑偟偨丅
憿寣僠乕儉偺憤愢偑 Journal of Cancer Prevention 帍偵宖嵹
Anani M, Nobuhisa I, and Taga T.
Sry-related high mobility group box 17 functions as a tumor suppressor by antagonizing the Wingless-related integration site pathway.
Journal of Cancer Prevention, 25: 204-212, 2020.
揮幨場巕Sox17偺婡擻偲丄偑傫偍傛傃戀惗婜偺憿寣偵偍偗傞栶妱偵偮偄偰憤愢偵傑偲傔傑偟偨丅
2020擭
嫗戝 塭嶳嫵庼偺島媊/僙儈僫乕
2020擭11寧16擔(寧)偵丄杮妛旕忢嬑島巘偺嫗搒戝妛僂僀儖僗丒嵞惗堛妛尋媶強偺塭嶳棿堦榊嫵庼偵僆儞儔僀儞偵傛傝丄乽恄宱姴嵶朎惂屼偵偍偗傞堚揱巕敪尰摦懺偺堄媊乿偲偄偆墘戣偱戝妛堾摿暿島媊/擄尋僙儈僫乕傪偟偰偄偨偩偒傑偟偨丅70柤傪挻偊傞嶲壛幰偑偁傝丄擬怱側媍榑偑岎傢偝傟傑偟偨丅
娻僠乕儉偺憤愢偑 Inflammation and Regeneration 帍偵宖嵹
Taga T and Tabu K.
Glioma progression and recurrence involving maintenance and expansion strategies of glioma stem cells by organizing self-advantageous niche microenvironments.
Inflammation and Regeneration, 40: 33, 2020.
灚彆嫵傜偑億儕儅乕microarray夝愅傗僆乕僩僗僉僕僗條嵶朎巰偺娤揰偐傜柧傜偐偵偟偨丄偑傫姴嵶朎偑帺傜偵桳棙側僯僢僠娐嫬傪峔抸偡傞偲偄偆僌儕僆乕儅偺恑揥丒嵞敪偺巇慻傒傪憤愢偵傑偲傔傑偟偨丅
戞41夞擔杮墛徢丒嵞惗堛妛夛丂桪廏墘戣徿
Melig Gerel戝妛堾惗偑丄2020擭7寧8,9擔偵奐嵜偝傟偨戞41夞擔杮墛徢丒嵞惗堛妛夛偱峴偭偨億僗僞乕敪昞偵偮偄偰丄桪廏墘戣徿傪庴徿偟傑偟偨丅
Melig G, Nobuhisa I, Kiyoka S, Tsukahara R, Itabashi A, Kanai Y, Kanai M, Taga T.
Role of the Rasip1 in the hematopoiesis of HSC-containing hematopoietic cluster cells in midgestation of mouse embryos.
憿寣僠乕儉偺崅嫶憦旤戝妛堾惗傜偺榑暥偑Differentiation帍偵宖嵹
Takahashi S, Nobuhisa I, Saito K, Melig G, Itabashi A, Harada K, Osawa M, Endo TA, Iwama A, Taga T.
Sox17-mediated expression of adherent molecules is required for the maintenance of undifferentiated hematopoietic cluster formation in midgestation mouse embryos.
Differentiation, 115:53-61, 2020.
儅僂僗戀惗拞婜偵偍偗傞戝摦柆撪峯偺憿寣姴嵶朎傪娷傓枹暘壔寣媴宯嵶朎夠偺宍惉偲堐帩偵丄揮幨場巕Sox17傪夘偟偨愙拝暘巕偺敪尰偑昁梫偱偁傞偙偲傪帵偟傑偟偨丅
娻僠乕儉偺灚峃堦彆嫵傜偺榑暥偑 Stem Cells帍偵宖嵹
Tabu K, Liu W, Kosaku A, Terashima K, Murota Y, Aimaitijiang A, Nobuhisa I, Hide T, Taga T.
Glioma stem cell (GSC)-derived autoschizis-like products confer GSC niche properties involving M1-like tumor-associated macrophages.
Stem Cells, 38:921-935, 2020.
doi:10.1002/stem.3193
埆惈擼庮釃偵惗偠傞怴偟偄僾儘僌儔儉嵶朎巰傪摨掕偟丄偑傫姴嵶朎偺巰嶻暔偑庮釃懀恑惈偺儅僋儘僼傽乕僕傪桿摫偡傞偲偄偆怴偨側偑傫嵞敪偺巇慻傒傪敪尒偟傑偟偨丅
椷榓尦擭搙妛埵婰庼梌
3寧26擔丄妛惗偵廋巑偺妛埵偑庼梌偝傟傑偟偨丅
2019擭
嫗戝 壂揷愭惗棃朘
2019擭11寧8擔(栘)偵丄揷夑尋偺OB偱偁傞嫗搒戝妛丒iPS嵶朎尋媶強偺壂揷孿夘島巘傪偍彽偒偟偰丄乽嵶朎堏怉堛椕傊偺iPS嵶朎偺妶梡偲栤戣乿偲偄偆墘戣偱戝妛堾摿暿島媊傪偟偰偄偨偩偒傑偟偨丅嫟梡僙儈僫乕幒偵擖傝偒傟側偄掱懡偔偺嶲壛幰偑偁傝丄iPS嵶朎嶌惉丄嵞惗堛椕偺尰忬丄偦偟偰iPS嵶朎僗僩僢僋僾儘僕僃僋僩偵偮偄偰暘偐傝傗偡偔島媊偟偰偄偨偩偒傑偟偨丅
釼摗惔崄偝傫丂棷妛
釼摗惔崄偝傫偑丄僗僂僃乕僨儞墹崙儖儞僪戝妛偵棷妛偟傑偟偨乮8寧26擔)丅
搒棫屗嶳崅峑偺尋媶強朘栤
2019擭8寧21擔(悈)偵丄搶嫗堛壢帟壢戝妛偺崅戝楢実帠嬈偺堦娐偲偟偰丄楢実峑偺傂偲偮偱偁傞搒棫屗嶳崅峑偺棃妛偵偁偨傝丄摉暘栰偺嫵堳傜偑姴嵶朎偵娭偡傞婎慴揑側棟夝傪怺傔傞儈僯儗僋僠儍乕傪峴偄傑偟偨丅傑偨丄崌惉億儕儅乕偵愙拝偟偨寀岝昗幆偟偨娻姴嵶朎偺娤嶡丄儅僂僗戀巈偺娤嶡丄堚揱巕摫擖傪巤偟偨枹暘壔寣塼嵶朎偺寀岝尠旝嬀偵傛傞娤嶡丄嵶朎偺夞廂丄寀岝峈懱愼怓丄僙儖僜乕僞乕偵傛傞夝愅偲暘棧偵偮偄偰幚廗傪峴偄傑偟偨乮幨恀乯丅
崙嵺僒儅乕僾儘僌儔儉嶲壛堛妛惗偺尋媶幒朘栤
2019擭7寧9擔(壩)偍傛傃10擔(悈)偵丄戞8夞崙嵺僒儅乕僾儘僌儔儉(ISP2019)偵嶲壛偟偰偄傞丄傾儊儕僇丄僞僀墹崙丄戜榩偺杮妛嫤掕峑偺堛妛晹妛惗偑丄尋媶幒尒妛偲偟偰摉暘栰偵棃朘偟傑偟偨丅揷夑嫵庼偵傛傞姴嵶朎偵娭偡傞婎慴揑側棟夝傪怺傔傞儈僯儗僋僠儍乕偺屻丄崌惉億儕儅乕偵愙拝偟偨寀岝昗幆偟偨娻姴嵶朎偺娤嶡丄儅僂僗戀巈偍傛傃枹暘壔寣塼嵶朎偺娤嶡丄嵶朎偺夞廂丄寀岝峈懱愼怓丄僙儖僜乕僞乕偵傛傞夝愅偲暘棧偵偮偄偰幚廗傪峴偄傑偟偨乮幨恀乯丅
揷夑嫵庼偺娨楋僷乕僥傿乕
揷夑嫵庼偑娨楋傪寎偊偨偙偲傪偍廽偄偡傞僷乕僥傿乕傪抋惗寧偺6寧偵峴偄傑偟偨丅
暯惉30擭搙妛埵婰庼梌幃
3寧26擔丄釼摗惔崄偝傫偵攷巑偺妛埵偑庼梌偝傟傑偟偨丅
摨擔丄5柤偺妛惗偵廋巑偺妛埵偑庼梌偝傟傑偟偨丅
2018擭
搶岺戝 嬤摗嫵庼棃朘
2018擭11寧8擔(栘)偵丄搶嫗岺嬈戝妛丒惗柦棟岺堾偺嬤摗壢峕嫵庼傪偍彽偒偟偰丄乽in vivo 岝僀儊乕僕儞僌傪梡偄偨偑傫峌棯朄偺尋媶乿偲偄偆墘戣偱戝妛堾摿暿島媊傪偟偰偄偨偩偒傑偟偨丅嫟梡僙儈僫乕幒偵懡偔嶲壛幰偑偁傝丄僀儊乕僕儞僌偺尨棟傪暘偐傝傗偡偔偛愢柧偄偨偩偔偲嫟偵丄掅巁慺桿摫場巕(HIF)傪昗揑偲偟偰梡偄偰娻帯椕傪峴偆偲偄偆嫽枴偁傞撪梕傪島媊偟偰偄偨偩偒傑偟偨丅
幒揷媑婱孨丂憲暿夛
幒揷媑婱孨偑丄暷崙僼儘儕僟戝妛堛妛晹偵棷妛偟傑偟偨乮8寧15擔乯丅
戝嶃晎棫堬栘崅峑偺尋媶強朘栤
2018擭8寧7擔(壩)偵丄戝嶃晎棫堬栘崅摍妛峑偺擄帯幘姵尋媶強朘栤偺堦娐偲偟偰丄摉暘栰偺嫵堳偑姴嵶朎偵娭偡傞婎慴揑側棟夝傪怺傔傞庼嬈偲姴嵶朎傪娷傓攟梴嵶朎偺娤嶡幚廗傪峴偄傑偟偨乮幨恀乯丅
拀攇戝妛晬懏崅峑偲偺崅戝楢実帠嬈
2018擭7寧23擔(寧)偵丄搶嫗堛壢帟壢戝妛偺崅戝楢実帠嬈偺堦娐偲偟偰丄楢実峑偺傂偲偮拀攇戝妛晬懏崅峑偺棃妛偵偁偨傝丄摉暘栰偺嫵堳傜偑姴嵶朎偵娭偡傞婎慴揑側棟夝傪怺傔傞儈僯儗僋僠儍乕傪峴偄傑偟偨丅傑偨丄堚揱巕摫擖傪巤偟偨枹暘壔寣塼嵶朎偺寀岝尠旝嬀偵傛傞娤嶡丄嵶朎偺夞廂偲寀岝峈懱愼怓丄僙儖僜乕僞乕偵傛傞夝愅偲暘棧偵偮偄偰幚廗傪峴偄傑偟偨乮幨恀乯丅
僽儔僕儖Universidade Federal de Minas Gerais (UFMG)偺Teixeira嫵庼偑棃朘丒僙儈僫乕
2018擭6寧22擔(嬥)偵丄僽儔僕儖Universidade Federal de Minas Gerais (UFMG)偐傜丄Department of Biochemistry and Immunology偺嫵庼Mauro Teixeira愭惗偑棃朘偟丄乽- Inflammation and its resolution - mediators and relevance乿偺墘戣偱僙儈僫乕傪偟傑偟偨丅
塸崙乮僗僐僢僩儔儞僪乯 僄僕儞僶儔戝傛傝Chambers愭惗傜偑棃朘
2018擭4寧18擔(悈)偵丄塸崙乮僗僐僢僩儔儞僪乯僄僕儞僶儔戝妛傛傝Chamber愭惗丄Burdon愭惗丄Zhang愭惗丄Ozkan愭惗偑棃朘偟丄尋媶幒偱巹払偺嵟嬤偺僨乕僞乕偵偮偄偰僨傿僗僇僢僔儑儞傪偟偰桳堄媊側僐儊儞僩傗彆尵傪摼傞偙偲偑偱偒傑偟偨丅偦偺屻丄恄揷柧恄傪嶶嶔偟丄夛怘偵弌偐偗丄妝偟偄帪娫傪夁偛偟傑偟偨丅
乮僄僕儞僶儔戝妛 嵞惗堛妛僙儞僞乕偺幨恀偼http://www.crm.ed.ac.uk/about-us/crm-building傛傝乯
憿寣僠乕儉偺釼摗惔崄戝妛堾惗傜偺榑暥偑Experimental Cell Research帍偵宖嵹
Kiyoka Saito, Ikuo Nobuhisa, Kaho Harada, Satomi Takahashi, Maha Anani, Heiko Lickert, Masami Kanai-Azuma, Yoshiakira Kanai, Tetsuya Taga.
Maintenance of hematopoietic stem and progenitor cells in fetal intra-aortic hematopoietic clusters by the Sox17-Notch1-Hes1 axis. Exp. Cell Res., 365: 145-155, 2018.
儅僂僗戀惗拞婜偺攚懁戝摦柆偺撪峯偵弌尰偡傞寣塼嵶朎夠偼丄屄懱敪惗婜偵嵟弶偵惉懱宆憿寣姴嵶朎偑懚嵼偡傞偙偲偱拲栚偝傟傑偡丅偙偺嵶朎夠偺堐帩偵丄Sox17-Notch1-Hes1宱楬偑娭梌偡傞偙偲傪帵偟傑偟偨丅
暯惉29擭搙妛埵婰庼梌幃
3寧22擔丄幒揷媑婱孨偵攷巑偺妛埵偑庼梌偝傟傑偟偨丅
摨擔丄2柤偺妛惗偵廋巑偺妛埵偑庼梌偝傟傑偟偨丅
嫗戝 塭嶳嫵庼棃朘
2018擭2寧1擔(栘)偵丄杮妛旕忢嬑島巘偺嫗搒戝妛僂僀儖僗丒嵞惗堛妛尋媶強偺塭嶳棿堦榊嫵庼傪偍彽偒偟偰丄乽恄宱姴嵶朎偵偍偗傞僟僀僫儈僢僋側堚揱巕敪尰摦懺偺夝柧偲惂屼乿偲偄偆墘戣偱戝妛堾摿暿島媊傪偟偰偄偨偩偒傑偟偨丅戝妛堾島媊幒1乮58柤廂梕乯偵懡偔偺棫偪尒偑弌傞傎偳偺嶲壛幰偑偁傝丄擬怱側媍榑偑岎傢偝傟傑偟偨丅
2017擭
拀攇戝妛晬懏嬵応崅峑偲偺崅戝楢実帠嬈
2017擭12寧14擔(栘)偵丄搶嫗堛壢帟壢戝妛偺崅戝楢実帠嬈偺堦娐偲偟偰丄楢実峑偺傂偲偮拀攇戝妛晬懏嬵応崅峑偺棃妛偵偁偨傝丄摉暘栰偺嫵堳偍傛傃戝妛堾惗偑姴嵶朎偵娭偡傞婎慴揑側棟夝傪怺傔傞儈僯儗僋僠儍乕傪峴偄傑偟偨丅偦偺屻丄娻嵶朎姅偺埵憡嵎尠旝嬀偍傛傃寀岝尠旝嬀偵傛傞娤嶡丄愙拝攟梴宯偐傜偺嵶朎偺攳棧丒夞廂偲嵶朎悢寁應丄僙儖僜乕僞乕偵傛傞娻姴嵶朎偺専弌偲暘棧側偳偵偮偄偰幚廗傪峴偄傑偟偨丅
搶岺戝傛傝棷妛惗偑僀儞僞乕儞僔僢僾僾儘僌儔儉偱尋媶偵嶲壛
搶岺戝偺棷妛惗僀儞僞乕儞僔僢僾僾儘僌儔儉偲偟偰嬤摗壢峕嫵庼偺尋媶幒偐傜億儞僗僠儍乕僩儌儞僐儖偝傫偑丄2017擭11寧14擔偐傜1廡娫偺梊掕偱尋媶偵嶲壛偟傑偟偨丅
儊僉僔僐 Universidad Nacional Autonoma De Mexico 傛傝Velasco愭惗棃朘
2017擭11寧9擔(栘)偵丄儊僉僔僐丂Universidad Nacional Autonoma De Mexico 偺 Ivan Velasco愭惗傪偍彽偒偟偰丄乽Enhancing survival, maturation and axonal growth of stem cell-derived neurons乿偲偄偆墘戣偱擄尋僙儈僫乕/擄帯幘姵嫟摨尋媶嫆揰僙儈僫乕傪偟偰偄偨偩偒傑偟偨丅嫟梡僙儈僫乕幒侾偵杮妛偺儊僉僔僐偐傜偺棷妛惗儅僪儕僈儖偝傫傪娷傔懡偔偺嶲壛幰偑偁傝傑偟偨丅傑偨丄弶傔偰擔杮偵棃偨柡偝傫偲嫟偵夛怘偵弌偐偗丄妝偟偄帪娫傪夁偛偟傑偟偨丅
塸崙乮僗僐僢僩儔儞僪乯 僄僕儞僶儔戝傛傝嫟摨尋媶幰偑棃朘
2017擭8寧25擔(嬥)偵丄姴嵶朎僯僢僠偺夝柧偵偮偄偰恖岺億儕儅乕傪妶梡偟偨嫟摨尋媶傪峴偭偰偄傞塸崙乮僗僐僢僩儔儞僪乯僄僕儞僶儔戝妛嫵庼偺Bradley愭惗偲戝妛堾惗偺Schmidt偝傫偑棃朘偟丄尋媶幒偱偍屳偄偺尋媶偺恑捇忬嫷偲崱屻偺寁夋偵偮偄偰僨傿僗僇僢僔儑儞傪偟傑偟偨丅
梉曽偐傜偼丄搾搰惞摪傪嶶嶔偟側偑傜偺TMDU偺楌巎偺榖丄恄揷柧恄偺崫將傗栧慜偱堸傫偩娒庰丄愺憪帥偺崄楩偺墝側偳丄棃擔偑悢廫夞偺Bradley嫵庼偵偲偭偰弶傔偰偺宱尡偑懡偐偭偨傛偆偱偡丅
戝嶃晎棫堬栘崅峑偺尋媶強朘栤
2017擭8寧3擔(栘)偵丄戝嶃晎棫堬栘崅摍妛峑偺擄帯幘姵尋媶強朘栤偺堦娐偲偟偰丄摉暘栰偺嫵堳偑姴嵶朎偵娭偡傞婎慴揑側棟夝傪怺傔傞庼嬈偲姴嵶朎傪娷傓攟梴嵶朎偺娤嶡幚廗傪峴偄傑偟偨乮幨恀乯丅
暯惉28擭搙妛埵婰庼梌幃
3寧24擔丄墹暥埄偝傫偑攷巑偺妛埵傪庢摼傑偟偨丅
摨擔丄2柤偺妛惗偑廋巑偺妛埵傪庢摼偟丄恑妛丒廇怑偲偦傟偧傟偺摴傊憙棫偪傑偟偨丅
暯惉28擭搙 擄帯幘姵尋媶強尋媶敪昞夛偍傛傃擄帯幘姵尋媶強桪廏榑暥徿
幒揷媑婱(戝妛堾惗)偑丄3寧10擔奐嵜偺暯惉28擭搙擄帯幘姵尋媶強戝妛堾惗尋媶敪昞夛偱戞擇埵傪丄灚峃堦(彆嫵)偑暯惉28擭搙擄帯幘姵尋媶強桪廏榑暥徿傪丄偦傟偧傟庴徿偟傑偟偨丅塸崙 Imperial College傛傝岎姺棷妛惗偲偟偰Wenqing Grace Yan偝傫偑尋媶偵嶲壛
塸崙丂Imperial College傛傝岎姺棷妛惗偲偟偰Wenqing Grace Yan偝傫偑2寧28擔偐傜3儢寧娫偺梊掕偱尋媶偵嶲壛偟偰偄傑偡丅
憿寣僠乕儉偺尨揷壥曕戝妛堾惗傜偺榑暥偑Cytokine帍偵宖嵹
Kaho Harada, Ikuo Nobuhisa, Maha Anani, Kiyoka Saito, Tetsuya Taga.
Thrombopoietin contributes to the formation and the maintenance of hematopoietic progenitor-containing cell clusters in the aorta-gonad-mesonephros region.
儅僂僗偺敪惗婜偵嵟弶偵憿寣姴嵶朎偑惗偠傞戝摦柆偵愙偡傞寣塼嵶朎夠傪峔惉偡傞嵶朎偺憹怋偍傛傃枹暘壔惈堐帩偵丄塼惈場巕Thrombopoietin偑廳梫側栶妱傪壥偨偡偙偲傪帵偟傑偟偨丅
娻僠乕儉偺Wang Wenquian戝妛堾惗丄灚峃堦彆嫵傜偺榑暥偑 Scientific Reports帍偵宖嵹
Weiqian Wang, Kouichi Tabu, Yuichiro Hagiya, Yuta Sugiyama, Yasuyhiro Kokubu, Yoshitaka Murota, Shun-ichiro Ogura and Tetsuya Taga.
Enhancement of 5-aminolevulinic acid-based fluorescence detection of side population-defined glioma stem cells by iron chelation.
埆惈恄宱銹庮偺庤弍帪偵5-傾儈僲儗僽儕儞巁乮5-ALA乯傪梡偄偨岝慄椡妛恌抐偑峴傢傟偰偄傑偡偑丄娻嵞敪偵怺偔娭傢傞娻姴嵶朎偑偙偺5-ALA偵傛傞専弌傪柶傟偰偄傞偙偲傪尒弌偟傑偟偨丅偝傜偵婛懚偺揝僉儗乕僩嵻僨僼僃儘僉僒儈儞偲偺暪梡偱娻姴嵶朎偺専弌傕壜擻偵側傞偙偲傪帵偟丄椪彴恌抐妛揑偵戝偒側帵嵈傪梌偊傞榑暥偲側傝傑偟偨丅
亂 2017擭2寧8擔晅偗偺擔姧岺嬈怴暦偵宖嵹偝傟傑偟偨丅亃
怴妰戝妛偐傜偺堛妛尋媶幚廗惗偑尋媶偵嶲壛
怴妰戝妛堛妛晹傛傝堛妛尋媶幚廗惗偲偟偰拞懞汋懢偝傫偑1寧忋弡偐傜栺2儢寧娫尋媶偵嶲壛偟傑偟偨丅
2016擭
揷夑尋愝棫20廃擭婰擮僷乕僥傿乕
揷夑嫵庼偑1996擭9寧1擔偵尋媶幒傪庡嵣乮搶嫗堛壢帟壢戝妛嫵庼廇擟乯偟偰20廃擭偵側傞偺傪婰擮偡傞僷乕僥傿乕傪暘巕惗暔妛夛擭夛偺夛婜拞偵墶昹偱奐嵜偟傑偟偨丅愝棫摉弶偐傜偺儊儞僶乕傪娷傓30柤偺嶲壛偺懠32柤偺偍廽偄儊僢僙乕僕偑廤傑傝傑偟偨丅
娻僠乕儉偺幒揷媑婱戝妛堾惗傜偺榑暥偑BMC Cancer帍偵宖嵹
Yoshitaka Murota, Kouichi Tabu, and Tetsuya Taga.
Requirement of ABC transporter inhibition and Hoechst 33342 dye deprivation for the assessment of side population-defined C6 glioma stem cell metabolism using fluorescent probes.
娻姴嵶朎偺戙幱夝愅偼娻偺帯椕朄奐敪偵偍偄偰廳梫偱偡偑丄戙幱夝愅梡寀岝僾儘乕僽傪梡偄偨偦偺寢壥偵姳徛傪媦傏偡摿惈傪娻姴嵶朎偑桳偟偰偍傝夝愅僨乕僞偺夝庍偵拲堄偑昁梫偱偁傞偙偲傪杮尋媶偱帵偟丄娻姴嵶朎偺戙幱尋媶偵堦愇傪搳偠傞榑暥偲側傝傑偟偨丅
巹棫杮嫿崅峑偲偺崅戝楢実帠嬈
2016擭8寧22擔(寧)偵丄搶嫗堛壢帟壢戝妛偺崅戝楢実帠嬈偺堦娐偲偟偰丄楢実峑偺傂偲偮巹棫杮嫿崅摍妛峑偺棃妛偵偁偨傝丄摉暘栰偺嫵堳偑姴嵶朎偵娭偡傞婎慴揑側棟夝傪怺傔傞庼嬈偵壛偊丄姴嵶朎傪娷傓嵶朎攟梴偺幚尡憖嶌偲寀岝尠旝嬀娤嶡偍傛傃僙儖僜乕僞乕偵傛傞暘愅偵偮偄偰偺幚廗傪峴偄傑偟偨丅戝嶃晎棫堬栘崅峑偺尋媶強朘栤
2016擭8寧3擔(悈)偵丄戝嶃晎棫堬栘崅摍妛峑偺擄帯幘姵尋媶強朘栤偺堦娐偲偟偰丄摉暘栰偺嫵堳偑姴嵶朎偵娭偡傞婎慴揑側棟夝傪怺傔傞庼嬈偲姴嵶朎傪娷傓攟梴嵶朎偺娤嶡幚廗傪峴偄傑偟偨乮幨恀乯丅
暯惉27擭搙妛埵婰庼梌幃
殸暘峃攷孨偲恵摗尦婸孨偑攷巑偺妛埵傪庢摼偟丄偦傟偧傟堛栻婎斦尋媶強丄棟壔妛尋媶強(BSI)偵堎摦偟傑偟偨丅
傑偨丄1柤偺妛惗偑廋巑偺妛埵傪庢摼偟廇怑偟傑偟偨丅
戞9夞恄宱敪惗摙榑夛丒擄帯幘姵嫟摨尋媶嫆揰丂嫟摨妛弍廤夛乽恄宱敪惗偺婎杮尨棟傪扵傞乿傪奐嵜
擄帯幘姵尋媶強乽擄帯幘姵嫟摨尋媶嫆揰乿帠嬈偲戞9夞恄宱敪惗摙榑夛偲偺嫟摨妛弍廤夛偲偟偰丄2016擭3寧18擔乮嬥乯偲19擔乮搚)偵乽恄宱敪惗偺婎杮尨棟傪扵傞乿傪奐嵜偟傑偟偨丅M仌D僞儚乕2奒楅栘復晇婰擮島摪偲嫟梡島媊幒俀偵嶲廤偟偨娯崙偐傜偺尋媶幰偲戝妛堾惗傪娷傓侾侾俆柤偺嶲壛幰偲偲傕偵撪梕偺擹偄僨傿僗僇僢僔儑儞偑側偝傟傑偟偨乮幨恀乯丅
娻僠乕儉偺灚峃堦彆嫵傜偺榑暥偑 Stem Cells 帍偺僆儞儔僀儞斉偵宖嵹 (1寧29擔晅偗)
2015擭
娻僠乕儉偺灚峃堦彆嫵傜偺榑暥偑Stem Cells帍偵傾僋僙僾僩
Kouichi Tabu, Nozomi Muramatsu, Christian Mangani, Mei Wu, Rong Zhang, Taichi Kimura, Kazuo Terashima, Norihisa Bizen, Ryosuke Kimura, Wenqian Wang, Yoshitaka Murota, Yasuhiro Kokubu, Ikuo Nobuhisa, Tetsushi Kagawa, Issay Kitabayashi, Mark Bradley and Tetsuya Taga.
A synthetic polymer scaffold reveals the self-maintenance strategies of rat glioma stem cells by organization of the advantageous niche. Stem Cells, in press. (12寧2擔晅偗)
娻僠乕儉偺殸暘峃攷戝妛堾惗傜偺榑暥偑Genes to Cells帍偵傾僋僙僾僩
Yasuhiro Kokubu, Kouichi Tabu, Wenqian Wang, Nozomi Muramatsu, Yoshitaka Murota, Ikuo Nobuhisa, Masahisa Jinushi, and Tetsuya Taga.
Induction of protumoral CD11c[high] macrophages by glioma cancer stem cells through GM-CSF. Genes to Cells, in press. (11寧30擔晅偗)
恄宱僠乕儉偺恵摗尦婸戝妛堾惗傜偺榑暥偑Genes to Cells帍偵傾僋僙僾僩
Genki Sudo, Tetsushi Kagawa, Yasuhiro Kokubu, Johji Inazawa, and Tetsuya Taga.
An increase of GFAP-positive astrocytes in histone demethylase GASC1/KDM4C/JMJD2C hypomorphic mutant mice. Genes to Cells, in press. (11寧27擔晅偗)
怴妰戝妛偐傜偺堛妛尋媶幚廗惗偑尋媶偵嶲壛
怴妰戝妛堛妛晹傛傝堛妛尋媶幚廗惗偲偟偰榓揷宐旤偝傫偑9寧壓弡偐傜2儢寧娫尋媶偵嶲壛偟傑偟偨丅
堬忛導棫悈屗戞堦崅峑偲偺崅戝楢実帠嬈
2015擭8寧6擔(栘)偵丄搶嫗堛壢帟壢戝妛偺崅戝楢実帠嬈偺堦娐偲偟偰丄楢実峑偺傂偲偮堬忛導棫悈屗戞堦崅峑偺棃妛偵偁偨傝丄摉暘栰偺嫵堳偑姴嵶朎偵娭偡傞婎慴揑側棟夝傪怺傔傞庼嬈偵壛偊丄姴嵶朎傪娷傓嵶朎攟梴偺幚尡憖嶌偲寀岝尠旝嬀娤嶡偍傛傃僙儖僜乕僞乕偵傛傞暘愅偵偮偄偰偺幚廗傪峴偄傑偟偨丅戝嶃晎棫堬栘崅峑偺尋媶強朘栤
2015擭8寧3擔(寧)偵丄戝嶃晎棫堬栘崅摍妛峑偺擄帯幘姵尋媶強朘栤偺堦娐偲偟偰丄摉暘栰偺嫵堳偑姴嵶朎偵娭偡傞婎慴揑側棟夝傪怺傔傞庼嬈偲姴嵶朎傪娷傓攟梴嵶朎偺娤嶡幚廗傪峴偄傑偟偨丅郪杮愭惗棃朘
柤屆壆巗棫戝妛戝妛堾堛妛尋媶壢偺郪杮榓墑嫵庼傪偍彽偒偟偰丄乽擼偵撪嵼偡傞嵞惗婡峔乿偲偄偆墘戣偱戝妛堾摿暿島媊傪偟偰偄偨偩偒傑偟偨丅嫟梡僙儈僫乕幒侾偵懡偔偺棫偪尒偑弌傞傎偳偺嶲壛幰偑偁傝丄梊掕帪崗傪墇偊偰擬怱側幙栤偑偁傝傑偟偨丅
2015擭 Development Growth & Differentiation帍 彠椼徿
儅僴丂傾僫僯偝傫偑丄2015擭 Development Growth & Differentiation帍 彠椼徿傪庴徿偟丄6寧4擔偮偔偽崙嵺夛媍応偱奐嵜偝傟偨戞48夞擔杮敪惗惗暔妛夛戝夛偵偰昞彶偝傟傑偟偨丅庴徿懳徾偲側偭偨榑暥偺尋媶撪梕偼埲壓偺捠傝偱偡丅
儅僂僗泱偺AGM乮戝摦柆丒惗怋尨婎丒拞恡椞堟乯偵偼丄憿寣姴嵶朎偑懚嵼偡傞偙偲偑抦傜傟偰偄傞丅堦曽丄偙傟傑偱偺尋媶偱揮幨惂屼場巕Sox17偑戀巈婜偺憿寣姴嵶朎偱敪尰偟丄傑偨惉懱偺崪悜憿寣慜嬱嵶朎偱嫮惂敪尰偡傞偲丄挿婜娫偵傢偨傝懡宯楍偺寣塼嵶朎暘壔傪巟帩偡傞偙偲偑帵偝傟偰偄傞丅偦偆偄偭偨攚宨偺傕偲偵丄偙偺榑暥偱偼Sox17偺儅僂僗泱AGM偺憿寣慜嬱嵶朎偱偺婡擻傪帵偟偰偄傞丅Sox17傪夁忚敪尰偟偨AGM偺憿寣慜嬱嵶朎傪儅僂僗偵堏怉偡傞偲丄堏怉嵶朎偵桼棃偡傞崪悜媴宯嫟捠慜嬱嵶朎(CMP)偺尠挊側憹壛偑尒傜傟傞丅傑偨摨條偺嵶朎傪攟梴偡傞偲丄CMP偍傛傃梓棻媴丒儅僋儘僼傽乕僕慜嬱嵶朎(GMP)偺惈幙傪帵偡嵶朎偑摼傜傟傞丅偦偟偰偙傟傜偺嵶朎偼丄帺屓暋惢揑偵憹怋偟丄偦偺惈幙傪曐偭偨傑傑悢夞偺宲戙偑壜擻偱丄傑偨寣塼嵶朎偺暘壔偵學傢傞偄偔偮偐偺堚揱巕偺敪尰偑Sox17傪夁忚敪尰偝偣偰偄側偄摨條側嵶朎偵斾傋忋徃偟偰偄傞丅偝傜偵敿棳摦攟抧拞偱儈僢僋僗僞僀僾偺僐儘僯乕宍惉傪偡傞偙偲偐傜丄暋悢偺堎側傞寣塼嵶朎宯楍偵暘壔偡傞擻椡傪帩偭偰偄傞偙偲偑傢偐傞丅偙傟傜偺寢壥偐傜Sox17偼AGM偺崪悜媴宯慜嬱嵶朎偺堐帩偲暘壔偺惂屼偵學傢偭偰偄傞偙偲偑帵嵈偝傟傞丅偙偺傛偆偵偙偺榑暥偱偼丄Sox17偺戀巈憿寣慜嬱嵶朎偱偺婡擻傪丄夁忚敪尰嵶朎偺儅僂僗傊偺堏怉偍傛傃攟梴幚尡偱偺憹怋丄暘壔擻偵懳偡傞岠壥傪帵偡徻嵶側夝愅僨乕僞偲偲傕偵柧妋偵帵偟偰偄偰DGD彠椼徿偵傆偝傢偟偄榑暥偲敾抐偱偒傞丅
幁愳揘巎弝嫵庼丂憲暿夛
幁愳揘巎弝嫵庼偑丄惗棟妛尋媶強 尋媶椡嫮壔愴棯幒偵摿擟嫵庼偲偟偰堎摦偟傑偟偨乮4寧1擔晅乯丅
暯惉26擭搙妛埵婰庼梌幃
4柤偺妛惗偑廋巑偺妛埵傪庢摼偟恑妛丒廇怑偲偦傟偧傟偺摴傊憙棫偪傑偟偨丅
2014擭
暯惉26擭搙9寧妛埵婰庼梌幃
儅僴 傾僫僯偝傫偑攷巑偺妛埵傪庢摼偟丄僄僕僾僩偵婣崙偝傟傑偟偨丅
灚峃堦摿擟彆嫵丂憲暿夛
灚峃堦摿擟彆嫵偑丄擄帯幘姵尋媶強 掅巁慺惗暔妛尋媶幒偵彆嫵偲偟偰堎摦偟傑偟偨丅
憿寣僠乕儉偺榑暥 (Sox17 as a candidate regulator of myeloid restricted differentiation potential) 偑 Dev. Growth Differ. 帍偵宖嵹
暯惉25擭搙妛埵婰庼梌幃
旛慜揟媣孨偑攷巑偺妛埵傪庢摼偟丄怴妰戝妛偵堏摦偟傑偟偨丅
傑偨丄3柤偺妛惗偑廋巑偺妛埵傪庢摼偟恑妛丒廇怑偲偦傟偧傟偺摴傊憙棫偪傑偟偨丅
憿寣僠乕儉偺榑暥 (Sox17-mediated maintenance of fetal intra-aortic hematopoietic cell clusters) 偑 Mol. Cell. Biol. 帍偵宖嵹
亂 2014擭4寧24擔晅偗偺壔妛岺嬈擔曬偵宖嵹偝傟傑偟偨丅亃
亂 2014擭4寧25擔晅偗偺儅僀僫價僯儏乕僗偵宖嵹偝傟傑偟偨丅亃
亂 2014擭5寧30擔晅偗偺擔宱嶻嬈怴暦偵宖嵹偝傟傑偟偨丅亃
暯惉25擭搙擄帯幘姵尋媶強桪廏榑暥徿
旛慜揟媣(摿擟彆嫵)偑乽A growth-promoting signaling component cyclin D1 in neural stem cells has anti-astrogliogenic function to execute self-renewal. Stem Cells, 32:1602-1615, 2014乿偱丄暯惉25擭搙擄帯幘姵尋媶強桪廏榑暥徿傪庴徿偟傑偟偨丅
恄宱僠乕儉偺榑暥 (A growth-promoting signaling component cyclin D1 in neural stem cells has anti-astrogliogenic function to execute self-renewal) 偑 Stem Cells 帍偵宖嵹
亂 2014擭1寧6擔晅偗偺壔妛岺嬈擔曬偵宖嵹偝傟傑偟偨丅亃
亂 2014擭1寧16擔晅偗偺擔宱嶻嬈怴暦偵宖嵹偝傟傑偟偨丅亃
2013擭
屗岥揷愭惗棃朘
嫗搒戝妛嵞惗堛妛尋媶強/iPS嵶朎尋媶強偺屗岥揷弤栫嫵庼傪偍彽偒偟偰丄戝妛堾摿暿島媊傪偟偰偄偨偩偒傑偟偨丅
暯惉24擭搙妛埵婰庼梌幃
1柤偺妛惗偑廋巑偺妛埵傪庢摼偟廇怑偟傑偟偨丅
塸崙 Imperial College傛傝岎姺棷妛惗偲偟偰Ankur Khajuria偝傫偑尋媶偵嶲壛
塸崙丂Imperial College傛傝岎姺棷妛惗偲偟偰Ankur Khajuria偝傫偑3儢寧娫偺梊掕偱尋媶偵嶲壛偟偰偄傑偡丅
2012擭
暯惉23擭搙妛埵婰庼梌幃
3柤偺妛惗偑廋巑偺妛埵傪庢摼偟丄恑妛丒廇怑偲偦傟偧傟偺摴傊憙棫偪傑偟偨丅
僞僀 Kon Kaen戝妛傛傝奜崙恖尋媶幰偲偟偰 Pra-Yong Pokpong偝傫丄塸崙 Imperial College傛傝岎姺棷妛惗偲偟偰Georgina Phillips偝傫偑尋媶偵嶲壛
僞僀 Kon Kaen戝妛傛傝奜崙恖尋媶幰偲偟偰 Pra-Yong Pokpong偝傫偑敿擭娫丄塸崙丂Imperial College傛傝岎姺棷妛惗偲偟偰Georgina Phillips偝傫偑2儢寧娫偺梊掕偱尋媶偵嶲壛偟偰偄傑偡丅
憿寣僠乕儉偺榑暥 (CD45lowc-Kithigh cells have hematopoietic property in the mouse aorta-gonad-mesonephros region) 偑 Exp. Cell Res.帍偵宖嵹
2011擭
娻姴嵶朎偵娭偡傞尋媶僾儘僕僃僋僩偑擔宱嶻嬈怴暦偵宖嵹
摉暘栰偼丄惓忢恄宱姴嵶朎傗丄娻姴嵶朎偑偦傟偧傟惗懱撪偱懚嵼偟懡暘壔擻傪堐帩偟偨傑傑帺屓暋惢偡傞帄揔旝彫娐嫬乮僯僢僠乯傪夝柧偡傞尋媶傪峴偭偰偄傑偡丅僯僢僠偺夝柧傊偺傾僾儘乕僠偲偟偰丄僄僕儞僶儔戝妛偺Bradley嫵庼傜偲丄壔妛崌惉偟偨億儕儅乕傪梡偄偨恖岺僯僢僠偺扵嶕傪幚巤偟偰偄傑偡乮恾乯丅偦偺拞偱丄娻姴嵶朎偺僯僢僠夝柧僾儘僕僃僋僩偑丄2011擭11寧1擔晅偗偺擔宱嶻嬈怴暦偵宖嵹偝傟傑偟偨乮幨恀乯丅
僔儞億僕僂儉乽婍姱敪惗偺暘巕婡峔夝柧偲幘姵崕暈傊偺婎斦揑棟夝乿傪奐嵜
擄帯幘姵尋媶強乽擄帯幘姵嫟摨尋媶嫆揰乿帠嬈偵傛傞尋媶廤夛偲偟偰丄2011擭10寧21擔乮嬥乯偵丄摉暘栰偲孎杮戝妛敪惗堛妛尋媶強偲偺嫟摨奐嵜偵傛傝丄僔儞億僕僂儉乽婍姱敪惗偺暘巕婡峔夝柧偲幘姵崕暈傊偺婎斦揑棟夝乿傪奐嵜偟傑偟偨乮億僗僞乕乯丅M仌D僞儚乕2奒嫟梡島媊幒偵嶲廤偟偨栺侾侽侽柤偺嶲壛幰偲偲傕偵撪梕偺擹偄僨傿僗僇僢僔儑儞偑側偝傟傑偟偨乮幨恀乯丅
暯惉23擭搙偑傫庒庤尋媶幰儚乕僋僔儑僢僾儀僗僩億僗僞乕徿
灚峃堦攷巑乮妛怳PD乯偑丄怴妛弍椞堟尋媶乽偑傫尋媶暘栰偺摿惈摍傪摜傑偊偨巟墖妶摦乿
暯惉23擭搙偑傫庒庤尋媶幰儚乕僋僔儑僢僾乮2011.8.31~9.1, 傾乕僩儔儞僪儂僥儖澍壢乯偵偍偄偰丄
儀僗僩億僗僞乕徿傪庴徿偟傑偟偨丅
導棫愮梩崅峑傊偺弌挘庼嬈
2011擭6寧17擔乮嬥乯偵丄愮梩導棫愮梩崅摍妛峑偲搶嫗堛壢帟壢戝妛偺崅戝楢実帠嬈偵堦娐偲偟偰丄摉暘栰偺嫵堳偑愮梩崅摍妛峑偵偍偗傞弌挘庼嬈偲丄慻怐昗杮娤嶡幚廗傪扴摉偟傑偟偨丅摨峑偺戞1妛擭栺200柤傪懳徾偵丄栺40柤偢偮5夞丄姴嵶朎偵娭偡傞婎慴揑側棟夝傪怺傔傞庼嬈偲丄恄宱姴嵶朎偍傛傃暘壔偟偨恄宱嵶朎孮傪尠旝嬀偱娤嶡偡傞幚廗傪峴偄傑偟偨乮幨恀乯丅
2010擭
尋媶幒偑M&D僞儚乕傊堏摦
2010擭1寧枛偵丄搾搰抧嬫丒3崋娰傛傝丄M&D僞儚乕乮堛帟妛憤崌尋媶搹丒II婜搹乯丒24奒偵堏摦偟傑偟偨丅
