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诺奖文集 2017年诺贝尔医学奖 罗斯巴什
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迈克尔·罗斯巴殊,1944年3月7日于美国密苏里州堪萨斯市出生,美国国家科学院院士,现为美国布兰戴斯大学生物学教授暨霍华德休斯医学研究所研究员。
2017年10月2日,获得了2017年诺贝尔生理学或医学奖。
https://pubmed.ncbi.nlm.nih.gov/33634573/
https://pubmed.ncbi.nlm.nih.gov/?term=Rosbash+M&cauthor_id=33634573
http://www.pubmedplus.cn/P/SearchQuickResult?wd=63ca9596-1374-4648-9891-0296c74c4116
| 01. | 无法确认 | 4 篇 | 2.941% |
| 02. | 2022 | 2 篇 | 1.471% |
| 03. | 2021 | 3 篇 | 2.206% |
| 04. | 2020 | 2 篇 | 1.471% |
| 05. | 2019 | 2 篇 | 1.471% |
| 06. | 2018 | 2 篇 | 1.471% |
| 07. | 2017 | 7 篇 | 5.147% |
| 08. | 2016 | 2 篇 | 1.471% |
| 09. | 2015 | 2 篇 | 1.471% |
| 10. | 2014 | 2 篇 | 1.471% |
| 11. | 2013 | 4 篇 | 2.941% |
| 12. | 2012 | 4 篇 | 2.941% |
| 13. | 2011 | 2 篇 | 1.471% |
| 14. | 2010 | 5 篇 | 3.676% |
| 15. | 2009 | 3 篇 | 2.206% |
| 16. | 2008 | 3 篇 | 2.206% |
| 17. | 2007 | 5 篇 | 3.676% |
| 18. | 2006 | 1 篇 | 0.735% |
| 19. | 2005 | 3 篇 | 2.206% |
| 20. | 2004 | 3 篇 | 2.206% |
| 21. | 2003 | 5 篇 | 3.676% |
| 22. | 2002 | 3 篇 | 2.206% |
| 23. | 2001 | 3 篇 | 2.206% |
| 24. | 2000 | 6 篇 | 4.412% |
| 25. | 1999 | 2 篇 | 1.471% |
| 26. | 1998 | 8 篇 | 5.882% |
| 27. | 1997 | 4 篇 | 2.941% |
| 28. | 1996 | 4 篇 | 2.941% |
| 29. | 1995 | 4 篇 | 2.941% |
| 30. | 1994 | 4 篇 | 2.941% |
| 31. | 1993 | 3 篇 | 2.206% |
| 32. | 1992 | 6 篇 | 4.412% |
| 33. | 1991 | 4 篇 | 2.941% |
| 34. | 1990 | 4 篇 | 2.941% |
| 35. | 1989 | 5 篇 | 3.676% |
| 36. | 1988 | 4 篇 | 2.941% |
| 37. | 1987 | 3 篇 | 2.206% |
| 38. | 1986 | 1 篇 | 0.735% |
| 39. | 1985 | 1 篇 | 0.735% |
| 40. | 1984 | 1 篇 | 0.735% |
| 01. | neuron | 15 篇 | 11.029% |
| 02. | cell | 14 篇 | 10.294% |
| 03. | proc natl acad sci u s a | 14 篇 | 10.294% |
| 04. | nature | 12 篇 | 8.824% |
| 05. | embo j | 9 篇 | 6.618% |
| 06. | genes dev | 7 篇 | 5.147% |
| 07. | j biol rhythms | 6 篇 | 4.412% |
| 08. | j neurosci | 6 篇 | 4.412% |
| 09. | science | 6 篇 | 4.412% |
| 10. | elife | 5 篇 | 3.676% |
| 01. | 美国 | 105 篇 | 77.206% |
| 02. | 瑞士 | 6 篇 | 4.412% |
| 03. | 中国 | 5 篇 | 3.676% |
| 04. | 英国 | 4 篇 | 2.941% |
| 05. | 德国 | 2 篇 | 1.471% |
| 06. | 荷兰 | 2 篇 | 1.471% |
| 07. | 以色列 | 2 篇 | 1.471% |
| 08. | 阿根廷 | 1 篇 | 0.735% |
| 09. | 澳大利亚 | 1 篇 | 0.735% |
| 10. | 法国 | 1 篇 | 0.735% |
| 01. | 中国杭州 | 3 篇 | 2.206% |
| 02. | 中国北京 | 2 篇 | 1.471% |
| 03. | 中国苏州 | 1 篇 | 0.735% |
| 04. | 中国武汉 | 1 篇 | 0.735% |
| 01. | Animals | 132 篇 | 97.059% |
| 02. | Circadian Rhythm | 128 篇 | 94.118% |
| 03. | Drosophila Proteins | 91 篇 | 66.912% |
| 04. | Drosophila melanogaster | 88 篇 | 64.706% |
| 05. | Period Circadian Proteins | 54 篇 | 39.706% |
| 06. | Nuclear Proteins | 49 篇 | 36.029% |
| 07. | Gene Expression Regulation | 41 篇 | 30.147% |
| 08. | Drosophila | 38 篇 | 27.941% |
| 09. | Biological Clocks | 36 篇 | 26.471% |
| 10. | Mutation | 36 篇 | 26.471% |
常用聚类 分析报告导出
www.newpubmed.com
地址:北京市海淀区远大路20号宝蓝世纪大厦F座5E
Review
Angew Chem Int Ed Engl
. 2021 Apr 12;60(16):8650-8666.
doi: 10.1002/anie.202015199. Epub 2021 Feb 26.
Circadian Rhythms and the Transcriptional Feedback Loop (Nobel Lecture)*
Affiliations expand
PMID: 33634573
Abstract
Circadian rhythms are present in most if not all animals, plants, and even photosynthetic cyanobacteria. These cyanobacterial clocks as well as plant clocks are very different from those of animals, with no credible homology between the different clock proteins. Therefore circadian rhythms probably emerged multiple times in evolution, which underscores their importance.
Keywords: Nobel lecture; circadian rhythm; period protein.
© 2021 Wiley-VCH GmbH.
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References
P. E. Hardin, S. Panda, Curr. Opin. Neurobiol. 2013, 23, 724-731.
T. Kondo, C. A. Strayer, R. D. Kulkarni, W. Taylor, M. Ishiura, S. S. Golden, C. H. Johnson, Proc. Natl. Acad. Sci. USA 1993, 90, 5672-5676.
M. Rosbash, PLoS Biol. 2009, 7, e1000062.
S. Daan, A History of Chronobiological Concepts. In The Circadian Clock (Ed.: U. Albrecht), Springer, New York, 2010, pp. 1-35.
E. Bunning, Ber. Dtsch. Bot. Ges. 1935, 53, 594-623.
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