Диссертация (1174327), страница 17
Текст из файла (страница 17)
Dharap, K. Bowen, R. Place, L. Li, R. Vemuganti // J.Cereb. Blood Flow Metab. – 2009. – Т. 29 – № 4 – 675–687с.34. Di, Y. MicroRNAs expression and function in cerebral ischemia reperfusion injury.103/ Y. Di, Y. Lei, F. Yu, F. Changfeng, W. Song, M. Xuming // J. Mol. Neurosci. – 2014.– Т. 53 – № 2 – 242–50с.35. Dweep, H. miRWalk2.0: a comprehensive atlas of microRNA-target interactions /H. Dweep, N. Gretz // Nat. Methods – 2015. – Т. 12 – № 8 – 697–697с.36. Dweep, H. miRWalk--database: prediction of possible miRNA binding sites by“walking” the genes of three genomes / H.
Dweep, C. Sticht, P. Pandey, N. Gretz // JBiomed Inf. – 2011. – Т. 44 – № 5 – 839–847с.37. Ebhardt, H.A. Meta-analysis of small RNA-sequencing errors reveals ubiquitouspost-transcriptional RNA modifications / H. A. Ebhardt, H. H. Tsang, D. C. Dai, Y. Liu,B. Bostan, R. P. Fahlman // Nucleic Acids Res – 2009. – Т. 37 – № 8 – 2461–2470с.38. Eisen, M.B. Cluster analysis and display of genome-wide expression patterns. / M.B. Eisen, P. T.
Spellman, P. O. Brown, D. Botstein // Proc. Natl. Acad. Sci. U. S. A. –1998. – Т. 95 – № 25 – 14863–8с.39. Eulalio, A. Deadenylation is a widespread effect of miRNA regulation. / A. Eulalio,E. Huntzinger, T. Nishihara, J. Rehwinkel, M. Fauser, E. Izaurralde // RNA – 2009. – Т.15 – № 1 – 21–32с.40.
Eyileten, C. MicroRNAs as Diagnostic and Prognostic Biomarkers in IschemicStroke—A Comprehensive Review and Bioinformatic Analysis / C. Eyileten, Z. Wicik,S. De Rosa, D. Mirowska-Guzel, A. Soplinska, C. Indolfi, I. Jastrzebska-Kurkowska, A.Czlonkowska, M. Postula // Cells – 2018. – Т. 7 – № 12 – 249с.41. Fabian, M.R. Regulation of mRNA translation and stability by microRNAs / M.
R.Fabian, N. Sonenberg, W. Filipowicz // Annu Rev Biochem – 2010. – Т. 79 – 351–379с.42. Faller, M. MicroRNA biogenesis: there’s more than one way to skin a cat. / M.Faller, F. Guo // Biochim. Biophys. Acta – 2008. – Т. 1779 – № 11 – 663–7с.43. Feng, Y. Inhibiting caspase-9 after injury reduces hypoxic ischemic neuronal injuryin the cortex in the newborn rat / Y. Feng, J. D.
Fratkin, M. H. LeBlanc // Neurosci.Lett. – 2003. – Т. 344 – № 3 – 201–204с.44. Friedman, R.C. Most mammalian mRNAs are conserved targets of microRNAs. / R.C. Friedman, K. K.-H. Farh, C. B. Burge, D. P. Bartel // Genome Res. – 2009. – Т. 19 –104№ 1 – 92–105с.45. Graham, E.M. Neonatal mice lacking functional Fas death receptors are resistant tohypoxic-ischemic brain injury. / E. M. Graham, R.
A. Sheldon, D. L. Flock, D. M.Ferriero, L. J. Martin, D. P. O’Riordan, F. J. Northington // Neurobiol. Dis. – 2004. – Т.17 – № 1 – 89–98с.46. Griffiths-Jones, S. miRBase: microRNA sequences, targets and gene nomenclature /S. Griffiths-Jones, R. J. Grocock, S. van Dongen, A. Bateman, A. J. Enright // NucleicAcids Res – 2006. – Т.
34 – № Database issue – D140-4с.47. Grond-Ginsbach, C. Gene expression in human peripheral blood mononuclear cellsupon acute ischemic stroke / C. Grond-Ginsbach, M. Hummel, T. Wiest, S. Horstmann,K. Pfleger, M. Hergenhahn†, M. Hollstein, U.
Mansmann, A. J. Grau, S. Wagner // J.Neurol. – 2008. – Т. 255 – № 5 – 723–731с.48. Gu, W. Vascular endothelial growth factor-A and -C protein up-regulation and earlyangiogenesis in a rat photothrombotic ring stroke model with spontaneous reperfusion. /W. Gu, T.
Brännström, W. Jiang, A. Bergh, P. Wester // Acta Neuropathol. – 2001. – Т.102 – № 3 – 216–26с.49. Gu, W. Cortical neurogenesis in adult rats after reversible photothrombotic stroke. /W. Gu, T. Brännström, P. Wester // J. Cereb. Blood Flow Metab. – 2000. – Т. 20 – № 8– 1166–73с.50. Gubern, C.
miRNA expression is modulated over time after focal ischaemia: upregulation of miR-347 promotes neuronal apoptosis. / C. Gubern, S. Camós, I.Ballesteros, R. Rodríguez, V. G. Romera, R. Cañadas, I. Lizasoain, M. A. Moro, J.Serena, J. Mallolas, M. Castellanos // FEBS J. – 2013. – Т. 280 – № 23 – 6233–46с.51. Guo, L. Global expression analysis of miRNA gene cluster and family based onisomiRs from deep sequencing data / L. Guo, Z.
Lu // Comput Biol Chem – 2010. – Т.34 – № 3 – 165–171с.52. Haley, M.J. The blood-brain barrier after stroke: Structural studies and the role oftranscytotic vesicles. / M. J. Haley, C. B. Lawrence // J. Cereb. Blood Flow Metab. –2017. – Т. 37 – № 2 – 456–470с.53. Hallenbeck, J.M. Polymorphonuclear leukocyte accumulation in brain regions with105low blood flow during the early postischemic period. / J. M. Hallenbeck, A. J. Dutka, T.Tanishima, P.
M. Kochanek, K. K. Kumaroo, C. B. Thompson, T. P. Obrenovitch, T. J.Contreras // Stroke. – 1986. – Т. 17 – № 2 – 246–53с.54. Han, J. The Drosha-DGCR8 complex in primary microRNA processing / J. Han, Y.Lee, K. H. Yeom, Y. K. Kim, H. Jin, V. N. Kim // Genes Dev – 2004. – Т. 18 – № 24 –3016–3027с.55. Haneklaus, M. miR-223: infection, inflammation and cancer. / M. Haneklaus, M.Gerlic, L. A. J. O’Neill, S. L. Masters // J. Intern. Med. – 2013. – Т. 274 – № 3 – 215–26с.56. Harraz, M.M. MicroRNA-223 is neuroprotective by targeting glutamate receptors /M.
M. Harraz, S. M. Eacker, X. Wang, T. M. Dawson, V. L. Dawson // Proc. Natl.Acad. Sci. – 2012. – Т. 109 – № 46 – 18962–18967с.57. Hoon, M.J.L. de Open source clustering software. / M. J. L. de Hoon, S. Imoto, J.Nolan, S. Miyano // Bioinformatics – 2004.
– Т. 20 – № 9 – 1453–4с.58. Hu, G. miR-221 suppresses ICAM-1 translation and regulates interferon-gammainduced ICAM-1 expression in human cholangiocytes. / G. Hu, A.-Y. Gong, J. Liu, R.Zhou, C. Deng, X.-M. Chen // Am. J. Physiol. Gastrointest.
Liver Physiol. – 2010. – Т.298 – № 4 – G542-50с.59. Hu, X. Long-lasting neuronal apoptotic cell death in regions with severe ischemiaafter photothrombotic ring stroke in rats. / X. Hu, I.-M. Johansson, T. Brännström, T.Olsson, P. Wester // Acta Neuropathol. – 2002. – Т. 104 – № 5 – 462–70с.60. Jamison, J.T. Persistent redistribution of poly-adenylated mRNAs correlates withtranslation arrest and cell death following global brain ischemia and reperfusion / J. T.Jamison, F. Kayali, J. Rudolph, M.
Marshall, S. R. Kimball, D. J. DeGracia //Neuroscience – 2008. – Т. 154 – № 2 – 504–520с.61. Jeyaseelan, K. MicroRNA expression in the blood and brain of rats subjected totransient focal ischemia by middle cerebral artery occlusion. / K.
Jeyaseelan, K. Y. Lim,A. Armugam // Stroke. – 2008. – Т. 39 – № 3 – 959–66с.62. Jickling, G.C. Leukocyte response is regulated by microRNA let7i in patients withacute ischemic stroke. / G. C. Jickling, B. P. Ander, N. Shroff, M. Orantia, B. Stamova,106C. Dykstra-Aiello, H. Hull, X. Zhan, D. Liu, F. R. Sharp // Neurology – 2016. – Т. 87 –№ 21 – 2198–2205с.63. Jickling, G.C. microRNA expression in peripheral blood cells following acuteischemic stroke and their predicted gene targets. / G. C. Jickling, B.
P. Ander, X. Zhan,D. Noblett, B. Stamova, D. Liu // PLoS One – 2014. – Т. 9 – № 6 – e99283с.64. Johnnidis, J.B. Regulation of progenitor cell proliferation and granulocyte functionby microRNA-223. / J. B. Johnnidis, M. H. Harris, R. T. Wheeler, S. Stehling-Sun, M.H. Lam, O. Kirak, T. R. Brummelkamp, M. D. Fleming, F. D. Camargo // Nature –2008. – Т. 451 – № 7182 – 1125–9с.65.
Jovicic, A. MicroRNA-22 (miR-22) overexpression is neuroprotective via generalanti-apoptotic effects and may also target specific Huntington’s disease-relatedmechanisms / A. Jovicic, J. F. Zaldivar Jolissaint, R. Moser, M. de F. Silva Santos, R.Luthi-Carter, F. Silva Santos Mde, R. Luthi-Carter // PLoS One – 2013. – Т. 8 – № 1 –e54222с.66.
Kaul, S. Genetics of ischemic stroke: Indian perspective / S. Kaul, A. Munshi //Neurol India – 2012. – Т. 60 – № 5 – 498–503с.67. Kawahara, Y. Frequency and fate of microRNA editing in human brain / Y.Kawahara, M. Megraw, E. Kreider, H. Iizasa, L. Valente, A. G. Hatzigeorgiou, K.Nishikura // Nucleic Acids Res – 2008. – Т. 36 – № 16 – 5270–5280с.68. Khoshnam, S.E. Emerging Roles of microRNAs in Ischemic Stroke: As PossibleTherapeutic Agents / S. E. Khoshnam, W. Winlow, Y.
Farbood, H. F. Moghaddam, M.Farzaneh // J. Stroke – 2017. – Т. 19 – № 2 – 166–187с.69. Kim, Y.-K. Modifications of Small RNAs and Their Associated Proteins / Y.-K.Kim, I. Heo, V. N. Kim // Cell – 2010. – Т. 143 – № 5 – 703–709с.70. Kim, Y.K. Processing of intronic microRNAs / Y. K. Kim, V. N. Kim // EMBO J –2007. – Т. 26 – № 3 – 775–783с.71. Kozomara, A. miRBase: integrating microRNA annotation and deep-sequencingdata / A. Kozomara, S. Griffiths-Jones // Nucleic Acids Res – 2011. – Т. 39 – №Database issue – D152-7с.72.
Kozomara, A. miRBase: annotating high confidence microRNAs using deep107sequencing data. / A. Kozomara, S. Griffiths-Jones // Nucleic Acids Res. – 2014. – Т.42 – № Database issue – D68-73с.73. Kuhn, C.-D. Eukaryotic Argonautes come into focus. / C.-D. Kuhn, L. Joshua-Tor //Trends Biochem.
Sci. – 2013. – Т. 38 – № 5 – 263–71с.74. Lagos-Quintana, M. Identification of novel genes coding for small expressed RNAs/ M. Lagos-Quintana, R. Rauhut, W. Lendeckel, T. Tuschl // Science (80-. ). – 2001. –Т. 294 – № 5543 – 853–858с.75. Lee, L.W. Complexity of the microRNA repertoire revealed by next-generationsequencing / L. W. Lee, S. Zhang, A. Etheridge, L. Ma, D. Martin, D. Galas, K. Wang //RNA – 2010. – Т. 16 – № 11 – 2170–2180с.76. Lee, S.-T. MicroRNAs induced during ischemic preconditioning. / S.-T. Lee, K.Chu, K.-H.
Jung, H.-J. Yoon, D. Jeon, K.-M. Kang, K.-H. Park, E.-K. Bae, M. Kim, S.K. Lee, J.-K. Roh // Stroke. – 2010. – Т. 41 – № 8 – 1646–51с.77. Lee, Y. The nuclear RNase III Drosha initiates microRNA processing / Y. Lee, C.Ahn, J. Han, H.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
