Регуляция длины теломер дрожжей Hansenula polymorpha (1105689), страница 18
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e1000622.[121] Jun H.I., Liu J., Jeong H., Kim J.K., Qiao F. Tpz1 controls a telomerase-nonextendible telomericstate and coordinates switching to an extendible state via Ccq1. // Genes Dev. 2013. V. 27. P.1917-1931.[122] Dahlen M., Sunnerhagen P., Wang T.S. Replication proteins influence the maintenance oftelomere length and telomerase protein stability. // Mol Cell Biol.
2003. V. 23. P. 3031-3042.[123] Chang Y.T., Moser B.A., Nakamura T.M. Fission yeast shelterin regulates DNA polymerasesand Rad3(ATR) kinase to limit telomere extension. // PLoS Genet. 2013. V. 9. P. e1003936.[124] Moser B.A., Subramanian L., Chang Y.T., Noguchi C., Noguchi E., Nakamura T.M. Differentialarrival of leading and lagging strand DNA polymerases at fission yeast telomeres.
// EMBO J.2009. V. 28. P. 810-820.[125] Tazumi A., Fukuura M., Nakato R., Kishimoto A., Takenaka T., Ogawa S., Song J.H., TakahashiT.S., Nakagawa T., Shirahige K., Masukata H. Telomere-binding protein Taz1 controls global95replication timing through its localization near late replication origins in fission yeast. // GenesDev. 2012. V.
26. P. 2050-2062.[126] Hayano M., Kanoh Y., Matsumoto S., Renard-Guillet C., Shirahige K., Masai H. Rif1 is a globalregulator of timing of replication origin firing in fission yeast. // Genes Dev. 2012. V. 26. P.137-150.[127] Garg M., Gurung R.L., Mansoubi S., Ahmed J.O., Dave A., Watts F.Z., Bianchi A. Tpz1TPP1SUMOylation reveals evolutionary conservation of SUMO-dependent Stn1 telomereassociation. // EMBO Rep. 2014. V. 15. P. 871-877.[128] Miyagawa K., Low R.S., Santosa V., Tsuji H., Moser B.A., Fujisawa S., Harland J.L.,Raguimova O.N., Go A., Ueno M., Matsuyama A., Yoshida M., Nakamura T.M., Tanaka K.SUMOylation regulates telomere length by targeting the shelterin subunit Tpz1(Tpp1) tomodulate shelterin-Stn1 interaction in fission yeast.
// Proc Natl Acad Sci U S A. 2014. V. 111.P. 5950-5955.[129] Moyzis R.K., Buckingham J.M., Cram L.S., Dani M., Deaven L.L., Jones M.D., Meyne J.,Ratliff R.L., Wu J.R. A highly conserved repetitive DNA sequence, (TTAGGG)n, present atthe telomeres of human chromosomes. // Proc Natl Acad Sci U S A. 1988. V. 85.
P. 6622-6626.[130] Meyne J., Ratliff R.L., Moyzis R.K. Conservation of the human telomere sequence (TTAGGG)namong vertebrates. // Proc Natl Acad Sci U S A. 1989. V. 86. P. 7049-7053.[131] Fulneckova J., Sevcikova T., Fajkus J., Lukesova A., Lukes M., Vlcek C., Lang B.F., Kim E.,Elias M., Sykorova E. A Broad Phylogenetic Survey Unveils the Diversity and Evolution ofTelomeres in Eukaryotes. // Genome Biology and Evolution. 2013. V.
5. P. 468-483.[132] de Lange T. Shelterin: the protein complex that shapes and safeguards human telomeres. //Genes Dev. 2005. V. 19. P. 2100-2110.[133] Miyake Y., Nakamura M., Nabetani A., Shimamura S., Tamura M., Yonehara S., Saito M.,Ishikawa F. RPA-like mammalian Ctc1-Stn1-Ten1 complex binds to single-stranded DNA andprotects telomeres independently of the Pot1 pathway. // Mol Cell. 2009.
V. 36. P. 193-206.[134] Palm W., de Lange T. How shelterin protects mammalian telomeres. // Annu Rev Genet. 2008.V. 42. P. 301-334.[135] Snow B.E., Erdmann N., Cruickshank J., Goldman H., Gill R.M., Robinson M.O., Harrington L.Functional conservation of the telomerase protein Est1p in humans. // Curr Biol. 2003. V. 13.P. 698-704.[136] Redon S., Reichenbach P., Lingner J. Protein RNA and protein protein interactions mediateassociation of human EST1A/SMG6 with telomerase. // Nucleic Acids Res.
2007. V. 35. P.7011-7022.96[137] Lee J., Mandell E.K., Tucey T.M., Morris D.K., Lundblad V. The Est3 protein associates withyeast telomerase through an OB-fold domain. // Nat Struct Mol Biol. 2008. V. 15. P. 990-997.[138] Zaug A.J., Podell E.R., Nandakumar J., Cech T.R. Functional interaction between telomereprotein TPP1 and telomerase.
// Genes Dev. 2010. V. 24. P. 613-622.[139] Venteicher A.S., Abreu E.B., Meng Z., McCann K.E., Terns R.M., Veenstra T.D., Terns M.P.,Artandi S.E. A human telomerase holoenzyme protein required for Cajal body localization andtelomere synthesis. // Science. 2009. V. 323. P. 644-648.[140] van Steensel B., de Lange T. Control of telomere length by the human telomeric protein TRF1. //Nature. 1997.
V. 385. P. 740-743.[141] Smogorzewska A., van Steensel B., Bianchi A., Oelmann S., Schaefer M.R., Schnapp G., deLange T. Control of human telomere length by TRF1 and TRF2. // Mol Cell Biol. 2000. V. 20.P. 1659-1668.[142] Loayza D., De Lange T. POT1 as a terminal transducer of TRF1 telomere length control. //Nature. 2003. V. 423. P. 1013-1018.[143] Ancelin K., Brunori M., Bauwens S., Koering C.E., Brun C., Ricoul M., Pommier J.P., SabatierL., Gilson E.
Targeting assay to study the cis functions of human telomeric proteins: evidencefor inhibition of telomerase by TRF1 and for activation of telomere degradation by TRF2. //Mol Cell Biol. 2002. V. 22. P. 3474-3487.[144] O'Connor M.S., Safari A., Liu D., Qin J., Songyang Z. The human Rap1 protein complex andmodulation of telomere length. // J Biol Chem. 2004. V.
279. P. 28585-28591.[145] Li B., de Lange T. Rap1 affects the length and heterogeneity of human telomeres. // Mol BiolCell. 2003. V. 14. P. 5060-5068.[146] Kim S.H., Kaminker P., Campisi J. TIN2, a new regulator of telomere length in human cells. //Nat Genet. 1999. V. 23. P. 405-412.[147] Liu D., Safari A., O'Connor M.S., Chan D.W., Laegeler A., Qin J., Songyang Z. PTOP interactswith POT1 and regulates its localization to telomeres. // Nat Cell Biol. 2004. V. 6.
P. 673-680.[148] Ye J.Z., Hockemeyer D., Krutchinsky A.N., Loayza D., Hooper S.M., Chait B.T., de Lange T.POT1-interacting protein PIP1: a telomere length regulator that recruits POT1 to theTIN2/TRF1 complex. // Genes Dev. 2004. V. 18. P. 1649-1654.[149] Liu D., O'Connor M.S., Qin J., Songyang Z. Telosome, a mammalian telomere-associatedcomplex formed by multiple telomeric proteins. // J Biol Chem. 2004. V. 279. P.
51338-51342.[150] Ye J.Z., Donigian J.R., van Overbeek M., Loayza D., Luo Y., Krutchinsky A.N., Chait B.T., deLange T. TIN2 binds TRF1 and TRF2 simultaneously and stabilizes the TRF2 complex ontelomeres. // J Biol Chem. 2004. V. 279. P. 47264-47271.97[151] Sfeir A., de Lange T. Removal of shelterin reveals the telomere end-protection problem. //Science. 2012. V. 336. P. 593-597.[152] Colgin L.M., Baran K., Baumann P., Cech T.R., Reddel R.R.
Human POT1 facilitates telomereelongation by telomerase. // Curr Biol. 2003. V. 13. P. 942-946.[153] Lei M., Zaug A.J., Podell E.R., Cech T.R. Switching human telomerase on and off with hPOT1protein in vitro. // J Biol Chem. 2005. V. 280. P. 20449-20456.[154] Wang F., Podell E.R., Zaug A.J., Yang Y., Baciu P., Cech T.R., Lei M. The POT1-TPP1telomere complex is a telomerase processivity factor.
// Nature. 2007. V. 445. P. 506-510.[155] Zhong F.L., Batista L.F., Freund A., Pech M.F., Venteicher A.S., Artandi S.E. TPP1 OB-folddomain controls telomere maintenance by recruiting telomerase to chromosome ends. // Cell.2012. V. 150. P. 481-494.[156] Abreu E., Aritonovska E., Reichenbach P., Cristofari G., Culp B., Terns R.M., Lingner J., TernsM.P. TIN2-tethered TPP1 recruits human telomerase to telomeres in vivo. // Mol Cell Biol.2010.
V. 30. P. 2971-2982.[157] Zhang Y., Chen L.Y., Han X., Xie W., Kim H., Yang D., Liu D., Songyang Z. Phosphorylationof TPP1 regulates cell cycle-dependent telomerase recruitment. // Proc Natl Acad Sci U S A.2013. V. 110. P. 5457-5462.[158] Jady B.E., Richard P., Bertrand E., Kiss T. Cell cycle-dependent recruitment of telomerase RNAand Cajal bodies to human telomeres. // Mol Biol Cell. 2006. V. 17. P. 944-954.[159] Stern J.L., Zyner K.G., Pickett H.A., Cohen S.B., Bryan T.M.
Telomerase recruitment requiresboth TCAB1 and Cajal bodies independently. // Mol Cell Biol. 2012. V. 32. P. 2384-2395.[160] Zhao Y., Sfeir A.J., Zou Y., Buseman C.M., Chow T.T., Shay J.W., Wright W.E. Telomereextension occurs at most chromosome ends and is uncoupled from fill-in in human cancer cells.// Cell.
2009. V. 138. P. 463-475.[161] Zhao Y., Abreu E., Kim J., Stadler G., Eskiocak U., Terns M.P., Terns R.M., Shay J.W., WrightW.E. Processive and distributive extension of human telomeres by telomerase underhomeostatic and nonequilibrium conditions.
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