MiRNA (Czech Wikipedia)

Analysis of information sources in references of the Wikipedia article "MiRNA" in Czech language version.

refsWebsite

Global rank Czech rank

19nih.gov

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17doi.org

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2web.archive.org

1^st place

2pnas.org

1,293^rd place

205^th place

1elsevier.com

610^th place

203^rd place

1worldcat.org

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1genengnews.com

low place

1sciencemag.org

857^th place

315^th place

doi.org

Lee RC, Feinbaum RL, Ambros V. The C. elegans heterochronic gene lin-4 encodes small RNAs with antisense complementarity to lin-14. Cell. December 1993, roč. 75, čís. 5, s. 843–54. Dostupné online. doi:10.1016/0092-8674(93)90529-Y. PMID 8252621.
Ruvkun G. Molecular biology. Glimpses of a tiny RNA world. Science (journal). October 2001, roč. 294, čís. 5543, s. 797–9. doi:10.1126/science.1066315. PMID 11679654.
Denli AM, Tops BB, Plasterk RH, Ketting RF, Hannon GJ. Processing of primary microRNAs by the Microprocessor complex. Nature. November 2004, roč. 432, čís. 7014, s. 231–5. doi:10.1038/nature03049. PMID 15531879.
Bernstein E, Caudy AA, Hammond SM, Hannon GJ. Role for a bidentate ribonuclease in the initiation step of RNA interference. Nature. January 2001, roč. 409, čís. 6818, s. 363–6. doi:10.1038/35053110. PMID 11201747.
Kurihara Y, Watanabe Y. Arabidopsis micro-RNA biogenesis through Dicer-like 1 protein functions. Proc. Natl. Acad. Sci. U.S.A.. August 2004, roč. 101, čís. 34, s. 12753–8. Dostupné online. doi:10.1073/pnas.0403115101. PMID 15314213.
He L, Thomson JM, Hemann MT, et al. A microRNA polycistron as a potential human oncogene. Nature. June 2005, roč. 435, čís. 7043, s. 828–33. doi:10.1038/nature03552. PMID 15944707.
O'Donnell KA, Wentzel EA, Zeller KI, Dang CV, Mendell JT. c-Myc-regulated microRNAs modulate E2F1 expression. Nature. June 2005, roč. 435, čís. 7043, s. 839–43. doi:10.1038/nature03677. PMID 15944709.
Lu J, Getz G, Miska EA, et al. MicroRNA expression profiles classify human cancers. Nature. June 2005, roč. 435, čís. 7043, s. 834–8. doi:10.1038/nature03702. PMID 15944708.
Thum T, Galuppo P, Wolf C, et al. MicroRNAs in the human heart: a clue to fetal gene reprogramming in heart failure. Circulation. July 2007, roč. 116, čís. 3, s. 258–67. doi:10.1161/CIRCULATIONAHA.107.687947. PMID 17606841.
van Rooij E, Sutherland LB, Liu N, et al. A signature pattern of stress-responsive microRNAs that can evoke cardiac hypertrophy and heart failure. Proc. Natl. Acad. Sci. U.S.A.. November 2006, roč. 103, čís. 48, s. 18255–60. doi:10.1073/pnas.0608791103. PMID 17108080.
Tatsuguchi M, Seok HY, Callis TE, et al. Expression of microRNAs is dynamically regulated during cardiomyocyte hypertrophy. J. Mol. Cell. Cardiol.. June 2007, roč. 42, čís. 6, s. 1137–41. doi:10.1016/j.yjmcc.2007.04.004. PMID 17498736.
Zhao Y, Ransom JF, Li A, et al. Dysregulation of cardiogenesis, cardiac conduction, and cell cycle in mice lacking miRNA-1-2. Cell. April 2007, roč. 129, čís. 2, s. 303–17. doi:10.1016/j.cell.2007.03.030. PMID 17397913.
Zhao Y, Samal E, Srivastava D. Serum response factor regulates a muscle-specific microRNA that targets Hand2 during cardiogenesis. Nature. July 2005, roč. 436, čís. 7048, s. 214–20. doi:10.1038/nature03817. PMID 15951802.
Xiao J, Luo X, Lin H, et al. MicroRNA miR-133 represses HERG K+ channel expression contributing to QT prolongation in diabetic hearts. J. Biol. Chem.. April 2007, roč. 282, čís. 17, s. 12363–7. Dostupné v archivu pořízeném dne 2020-07-03. doi:10.1074/jbc.C700015200. PMID 17344217. Archivováno 3. 7. 2020 na Wayback Machine.
Yang B, Lin H, Xiao J, et al. The muscle-specific microRNA miR-1 regulates cardiac arrhythmogenic potential by targeting GJA1 and KCNJ2. Nat. Med.. April 2007, roč. 13, čís. 4, s. 486–91. doi:10.1038/nm1569. PMID 17401374.
Carè A, Catalucci D, Felicetti F, et al. MicroRNA-133 controls cardiac hypertrophy. Nat. Med.. May 2007, roč. 13, čís. 5, s. 613–8. doi:10.1038/nm1582. PMID 17468766.
van Rooij E, Sutherland LB, Qi X, Richardson JA, Hill J, Olson EN. Control of stress-dependent cardiac growth and gene expression by a microRNA. Science (journal). April 2007, roč. 316, čís. 5824, s. 575–9. Dostupné online. doi:10.1126/science.1139089. PMID 17379774.

elsevier.com

linkinghub.elsevier.com

Lee RC, Feinbaum RL, Ambros V. The C. elegans heterochronic gene lin-4 encodes small RNAs with antisense complementarity to lin-14. Cell. December 1993, roč. 75, čís. 5, s. 843–54. Dostupné online. doi:10.1016/0092-8674(93)90529-Y. PMID 8252621.

genengnews.com

Vicki Glaser. Tapping miRNA-Regulated Pathways. Genetic Engineering & Biotechnology News. Mary Ann Liebert, Inc., 2008-03-01. Dostupné online [cit. 2008-05-16].

nih.gov

ncbi.nlm.nih.gov

Lee RC, Feinbaum RL, Ambros V. The C. elegans heterochronic gene lin-4 encodes small RNAs with antisense complementarity to lin-14. Cell. December 1993, roč. 75, čís. 5, s. 843–54. Dostupné online. doi:10.1016/0092-8674(93)90529-Y. PMID 8252621.
Ruvkun G. Molecular biology. Glimpses of a tiny RNA world. Science (journal). October 2001, roč. 294, čís. 5543, s. 797–9. doi:10.1126/science.1066315. PMID 11679654.
Denli AM, Tops BB, Plasterk RH, Ketting RF, Hannon GJ. Processing of primary microRNAs by the Microprocessor complex. Nature. November 2004, roč. 432, čís. 7014, s. 231–5. doi:10.1038/nature03049. PMID 15531879.
Bernstein E, Caudy AA, Hammond SM, Hannon GJ. Role for a bidentate ribonuclease in the initiation step of RNA interference. Nature. January 2001, roč. 409, čís. 6818, s. 363–6. doi:10.1038/35053110. PMID 11201747.
Kurihara Y, Watanabe Y. Arabidopsis micro-RNA biogenesis through Dicer-like 1 protein functions. Proc. Natl. Acad. Sci. U.S.A.. August 2004, roč. 101, čís. 34, s. 12753–8. Dostupné online. doi:10.1073/pnas.0403115101. PMID 15314213.
CARTHEW, R. W.; SONTHEIMER, E. J. Origins and Mechanisms of miRNAs and siRNAs. Cell.. 2009, roč. 136, čís. 4, s. 642–55. Dostupné online. ISSN 1097-4172.
Musilova, K; Mraz, M. MicroRNAs in B-cell lymphomas: how a complex biology gets more complex. Leukemia. Macmillan Publishers Limited, 2015, roč. 29, čís. 5, s. 1004–1017. PMID 25541152.
He L, Thomson JM, Hemann MT, et al. A microRNA polycistron as a potential human oncogene. Nature. June 2005, roč. 435, čís. 7043, s. 828–33. doi:10.1038/nature03552. PMID 15944707.
O'Donnell KA, Wentzel EA, Zeller KI, Dang CV, Mendell JT. c-Myc-regulated microRNAs modulate E2F1 expression. Nature. June 2005, roč. 435, čís. 7043, s. 839–43. doi:10.1038/nature03677. PMID 15944709.
Lu J, Getz G, Miska EA, et al. MicroRNA expression profiles classify human cancers. Nature. June 2005, roč. 435, čís. 7043, s. 834–8. doi:10.1038/nature03702. PMID 15944708.
Thum T, Galuppo P, Wolf C, et al. MicroRNAs in the human heart: a clue to fetal gene reprogramming in heart failure. Circulation. July 2007, roč. 116, čís. 3, s. 258–67. doi:10.1161/CIRCULATIONAHA.107.687947. PMID 17606841.
van Rooij E, Sutherland LB, Liu N, et al. A signature pattern of stress-responsive microRNAs that can evoke cardiac hypertrophy and heart failure. Proc. Natl. Acad. Sci. U.S.A.. November 2006, roč. 103, čís. 48, s. 18255–60. doi:10.1073/pnas.0608791103. PMID 17108080.
Tatsuguchi M, Seok HY, Callis TE, et al. Expression of microRNAs is dynamically regulated during cardiomyocyte hypertrophy. J. Mol. Cell. Cardiol.. June 2007, roč. 42, čís. 6, s. 1137–41. doi:10.1016/j.yjmcc.2007.04.004. PMID 17498736.
Zhao Y, Ransom JF, Li A, et al. Dysregulation of cardiogenesis, cardiac conduction, and cell cycle in mice lacking miRNA-1-2. Cell. April 2007, roč. 129, čís. 2, s. 303–17. doi:10.1016/j.cell.2007.03.030. PMID 17397913.
Zhao Y, Samal E, Srivastava D. Serum response factor regulates a muscle-specific microRNA that targets Hand2 during cardiogenesis. Nature. July 2005, roč. 436, čís. 7048, s. 214–20. doi:10.1038/nature03817. PMID 15951802.
Xiao J, Luo X, Lin H, et al. MicroRNA miR-133 represses HERG K+ channel expression contributing to QT prolongation in diabetic hearts. J. Biol. Chem.. April 2007, roč. 282, čís. 17, s. 12363–7. Dostupné v archivu pořízeném dne 2020-07-03. doi:10.1074/jbc.C700015200. PMID 17344217. Archivováno 3. 7. 2020 na Wayback Machine.
Yang B, Lin H, Xiao J, et al. The muscle-specific microRNA miR-1 regulates cardiac arrhythmogenic potential by targeting GJA1 and KCNJ2. Nat. Med.. April 2007, roč. 13, čís. 4, s. 486–91. doi:10.1038/nm1569. PMID 17401374.
Carè A, Catalucci D, Felicetti F, et al. MicroRNA-133 controls cardiac hypertrophy. Nat. Med.. May 2007, roč. 13, čís. 5, s. 613–8. doi:10.1038/nm1582. PMID 17468766.
van Rooij E, Sutherland LB, Qi X, Richardson JA, Hill J, Olson EN. Control of stress-dependent cardiac growth and gene expression by a microRNA. Science (journal). April 2007, roč. 316, čís. 5824, s. 575–9. Dostupné online. doi:10.1126/science.1139089. PMID 17379774.

pnas.org

Kurihara Y, Watanabe Y. Arabidopsis micro-RNA biogenesis through Dicer-like 1 protein functions. Proc. Natl. Acad. Sci. U.S.A.. August 2004, roč. 101, čís. 34, s. 12753–8. Dostupné online. doi:10.1073/pnas.0403115101. PMID 15314213.
Johanna Wong-Bajracharya et al., The ectomycorrhizal fungus Pisolithus microcarpus encodes a microRNA involved in cross-kingdom gene silencing during symbiosis, PNAS January 18, 2022 119 (3)

sciencemag.org

van Rooij E, Sutherland LB, Qi X, Richardson JA, Hill J, Olson EN. Control of stress-dependent cardiac growth and gene expression by a microRNA. Science (journal). April 2007, roč. 316, čís. 5824, s. 575–9. Dostupné online. doi:10.1126/science.1139089. PMID 17379774.

web.archive.org

Archivovaná kopie. www.hoxfulmonsters.com [online]. [cit. 2009-10-21]. Dostupné v archivu pořízeném dne 2009-04-27.
Xiao J, Luo X, Lin H, et al. MicroRNA miR-133 represses HERG K+ channel expression contributing to QT prolongation in diabetic hearts. J. Biol. Chem.. April 2007, roč. 282, čís. 17, s. 12363–7. Dostupné v archivu pořízeném dne 2020-07-03. doi:10.1074/jbc.C700015200. PMID 17344217. Archivováno 3. 7. 2020 na Wayback Machine.

worldcat.org

CARTHEW, R. W.; SONTHEIMER, E. J. Origins and Mechanisms of miRNAs and siRNAs. Cell.. 2009, roč. 136, čís. 4, s. 642–55. Dostupné online. ISSN 1097-4172.