涔愯儢浠ｈ喘鍏嶄唬鐞嗙増

嫵堳尋媶徯夘儁乕僕

嫵堳柤	恄栰丂栁庽
僼儕僈僫	嫁萆脊薹
強懏	恖娫塰梴妛壢
怑埵	嫵庼
妛埵愱栧暘栰尋媶撪梕扴摉壢栚	攷巑乮堛乯扴摉壢栚丗惗壔妛丄柶塽妛
強懏妛夛摍	擔杮娻妛夛丄擔杮惗壔妛夛丄擔杮塰梴丒怘椘妛夛丄擔杮塰梴夵慞妛夛
尋媶幚愌丒挊彂丒榑暥丒島墘摍偺妶摦	乮挊彂乯 1. 僶僀僆僒僀僄儞僗愴棯儅僯儏傾儖乮怴偟偄慺嵽偲儅乕僇乕僾儘乕僽乯丂乮悾栰湜擇曇乯暯惉2擭7寧丂嫟棫弌斉 2. 嵶朎廃婜尋媶朄丂乮壀嶳攷恖曇乯乮嫟挊幰侾俋柤乯暯惉7擭9寧丂梤搚幮 3. 堚揱巕岺妛僴儞僪僽僢僋戞俀斉丂暯惉8擭4寧丂梤搚幮丂怴掶丂怴堚揱巕岺妛僴儞僪僽僢僋乮戞俁斉乯暯惉11擭9寧丂梤搚幮丂夵掶戞係斉丂怴堚揱巕岺妛僴儞僪僽僢僋丂乮懞徏惓泬丄嶳杮夒曇乯暯惉15擭10寧丂梤搚幮 4. 娻堚揱巕丄娻娭楢堚揱巕丂乮揷栴梞堦丄嶳杮夒曇乯暯惉9擭丂梤搚幮 5. 僲僢僋傾僂僩儅僂僗丒僨乕僞僽僢僋丂乮崟愳惔丄嶚寧寬旻娔廋乯暯惉9擭12寧丂拞嶳彂揦 6. 婎慴惗壔妛幚尡朄丂戞2姫丂惗懱帋椏丂乮擔杮惗壔妛夛曇乯暯惉12擭1寧丂搶嫗壔妛摨恖 7. 僋儘儅僠儞偲堚揱巕婡擻惂屼丂乮杧墇惓旤曇乯暯惉15擭6寧丂僔儏僾儕儞僈乕丒僼僃儔乕僋搶嫗乮妛弍榑暥乯乮嵏撉偁傝乯 1. Stimulation of DNA Synthesis in Adult Rat Hepatocytes in Primary Culture by a New Hepatocyte Growth Accelerator : KZ-1026 (2-(1,3-dithiol -2-yliden)-1-phenyl丂1,3-butanedione).丂暯惉1擭1寧丂Tissue Culture Research Communications 7, 1-8 2. Quantitative measurement of cell motility with transformed phenotype.丂暯惉1擭5寧丂Jpn. J. Cancer Res. 80, 408-412 3. A digital image processing system for quantitating dynamic morphology in cultured mammalian cells. 暯惉1擭12寧丂Exp Cell Res. 185, 342-52 4. High-frequency transformation method and library transducing vectors for cloning mammalian cDNAs by trans-complementation of Schizosaccharomyces pombe. 暯惉2擭11寧丂Nucleic Acids Res. 18,6485-6489 5. An additional homolog of the fission yeast cdc25+ gene occurs in humans and is highly expressed in some cancer cells.丂暯惉3擭10寧丂New Biol. 3, 959-968 6. Wee1(+)-like gene in human cells.丂暯惉3擭9寧丂Nature. 353, 80-83 7. Oncogenic signal-induced ability to enter S phase in the absence of anchorage is the mechanism for the growth of transformed NRK cells in soft agar. 暯惉4擭5寧丂New Biol. 4, 504-511 8. Cyclin G: a new mammalian cyclin with homology to fission yeast Cig1. 暯惉5擭8寧丂Oncogene. 8, 2113-2118 9. Cdc25A is a novel phosphatase functioning early in the cell cycle. 暯惉6擭4寧丂EMBO J. 13, 1549-1556 10. Requirement for tyrosine phosphorylation of Cdk4 in G1 arrest induced by ultraviolet irradiation.丂暯惉7擭7寧丂Nature. 376, 358-362 11. Cell cycle start from quiescence controlled by tyrosine phosphorylation of Cdk4.丂暯惉11擭1寧丂Oncogene. 18, 565-571 12. Isolation of a mammalian homologue of a fission yeast differentiation regulator. 暯惉11擭5寧丂Mol Cell Biol. 19, 3829-3841 13. Oncogenic stimulation recruits cyclin-dependent kinase in the cell cycle start in rat fibroblast.丂暯惉11擭11寧丂Proc Natl Acad Sci USA. 96,丂197-13202 14. Functionalized Fullerene as an artificial vector for transfection. 暯惉12擭12寧丂Angew. Chem. Int. Ed. 39, 4254-4257 15. Cdk6-cyclin D3 complex evades inhibition by inhibitor proteins and uniquely controls cell's proliferation competence.丂暯惉13擭4寧丂Oncogene. 20, 2000-2009 16. Synthesis and transfection capability of multi-fanctionalized fullerene polyamine. 暯惉13擭12寧丂Chemistry Letters 2001, 1214- 1215 17. Cdc6 requires anchorage for its expression.丂暯惉14擭3寧Oncogene 21, 1777-1784 18. Mammalian Rcd1 is a novel transcriptional cofactor that mediates retinoic acid-induced cell differentiation.丂暯惉14擭10寧丂EMBO J. 21, 5235-5244 19. Overexpression of Cdk6-cyclinD3 highly sensitizes cells to physical and chemical transformation.丂暯惉15擭2寧丂Oncogene 22, 992-1001 20. Bone morphogenetic protein-2-induced osteoblast differentiation requires Smad-mediated down-regulation of Cdk6.丂暯惉16擭8寧丂Mol. Cell. Biol. 24, 6560-6568 21. Synthesis and transfection capability of multi-fanctionalized fullerene polyamine.丂暯惉18擭3寧丂Mol. Pharm. 2006, 124-134 22. Gene Delivery by Aminofullerenes: Structural Requirement for Efficient Transfection.丂暯惉18擭6寧丂Chemistry 2006, 167-175 23. Chemical DNA damage activates p21 WAF1/CIP1-dependent intra-S checkpoint丂暯惉19擭12寧丂FEBS Lett. 581, 5879-5884 24. ATP-dependent activation of p21WAF1/CIP1-associated Cdk2 by Cdc6. 暯惉20擭5寧丂Proc Natl Acad Sci USA. 105, 4757-4762 25. Cdc6 determines utilization of p21(WAF1/CIP1)-dependent damage checkpoint in S phase cells.丂暯惉20擭6寧丂J Biol Chem. 283, 17864-17872 26. Mammalian target of rapamycin complex 1 signaling opposes the effects of anchorage loss, leading to activation of Cdk4 and Cdc6 stabilization.丂暯惉22擭7寧丂FEBS Letters 584, 2779?2785 27. Rho-associated Kinase Connects a Cell Cycle-controlling Anchorage Signal to the Mammalian Target of Rapamycin Pathway.丂暯惉23擭7寧丂J Biol Chem. 286, 23132-23141 28. Cdc6 Protein Activates p27KIP1-bound Cdk2 Protein Only after the Bound p27 Protein Undergoes C-terminal Phosphorylation.丂暯惉23擭2寧 J Biol Chem. 287, 6275-6283. 29. Cdc6 Protein Obstructs Apoptosome Assembly and Consequent Cell Death by Forming Stable Complexes with Activated Apaf-1 Molecules.丂暯惉23擭5寧丂J Biol Chem. 287, 18573-18583. 乮憤愢乯乮嵏撉柍偟乯 1.Mammalian G2 regulatory genes and their possible involvement in genetic instability in cancer cells.丂暯惉3擭2寧丂Princess Takamatsu Symp. 22, 231-238 2.Cell cycle control in fission yeast and mammals: identification of new regulatory mechanisms.丂暯惉8擭8寧丂Adv Cancer Res. 69,17-62 3.堚揱巕敪尰丂暯惉8擭12寧丂彫帣壢椪彴49,2549-2559 4.敪娻巋寖偵傛傞嵶朎廃婜奐巒婡峔丂暯惉12擭5寧丂堛妛偺偁備傒丂194, 291-296 5.Oncogenic cell cycle start control.丂暯惉13擭6寧丂Mutat Res. 477, 23-29 6.揮幨惂屼偲娻乗嵶朎廃婜丂暯惉13擭12寧丂Molecular Medicine乿38, 1453-1457 7.S婜奐巒偺惂屼婡峔偲敪娻丂暯惉18擭11寧丂幚尡堛妛丂24, 1604-1609 8. DNA暋惢惗懱偺壢妛暯惉27擭 66, 464-465 乮東栿彂乯 1丏儔僢僩擼偺僯儏乕儘儞偵堚揱巕傪摫擖偡傞偨傔偺HSV-侾儀僋僞乕僔僗僥儉嫟挊丂暯惉1擭11寧丂梤搚幮乽幚尡堛妛乿Vol.7 No.16 2. 暘巕堚揱妛偺婎慴丂嫟挊丂暯惉6擭9寧丂搶嫗壔妛摨恖
嶌惉擔晅	2024/05/31