Localization of eukaryote-specific ribosomal proteins in a 5.5-A cryo-EM map of the 80S eukaryotic ribosome

Jean-Paul Armache; Alexander Jarasch; Andreas M. Anger; Elizabeth Villa; Thomas Becker; Shashi Bhushan; Fabrice Jossinet; Michael Habeck; Guelcin Dindar; Sibylle Franckenberg; Viter Marquez; Thorsten Mielke; Michael Thomm; Otto Berninghausen; Birgitta Beatrix; Johannes Soding; Eric Westhof; Daniel N. Wilson; Roland Beckmann

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Localization of eukaryote-specific ribosomal proteins in a 5.5-A cryo-EM map of the 80S eukaryotic ribosome

机译：真核生物特异性核糖体蛋白在80S真核核糖体的5.5-A冷冻EM图中的定位

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Protein synthesis in all living organisms occurs on ribonucleopro-tein particles, called ribosomes. Despite the universality of this process, eukaryotic ribosomes are significantly larger in size than their bacterial counterparts due in part to the presence of 80 r proteins rather than 54 in bacteria. Using cryoelectron microscopy reconstructions of a translating plant (Triticum aestivum) 80S ribosome at 5.5-A resolution, together with a 6.1-A map of a translating Saccharomyces cerevisiae 80S ribosome, we have localized and modeled 74/80 (92.5%) of the ribosomal proteins, encompassing 12 archaeal/eukaryote-specific small subunit proteins as well as the complete complement of the ribosomal proteins of the eukaryotic large subunit. Near-complete atomic models of the 80S ribosome provide insights into the structure, function, and evolution of the eukaryotic translational apparatus.

机译：所有活生物体中的蛋白质合成均发生在称为核糖体的核糖核蛋白颗粒上。尽管此过程普遍存在，但真核生物核糖体的大小仍明显大于其细菌对应物，部分原因是细菌中存在80 r蛋白而不是54 r蛋白。使用5.5A分辨率的翻译植物（Triticum aestivum）的80S核糖体的低温电子显微镜重建以及啤酒酵母80S核糖体的6.1-A图谱，我们对核糖体的74/80（92.5％）进行了定位和建模蛋白，包括12种古细菌/真核生物特异性小亚基蛋白，以及真核大亚基核糖体蛋白的完整补体。 80S核糖体的近乎完整的原子模型为真核翻译设备的结构，功能和进化提供了见识。

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《Proceedings of the National Academy of Sciences of the United States of America》 |2010年第46期|p.19754-19759|共6页
作者
Jean-Paul Armache; Alexander Jarasch; Andreas M. Anger; Elizabeth Villa; Thomas Becker; Shashi Bhushan; Fabrice Jossinet; Michael Habeck; Guelcin Dindar; Sibylle Franckenberg; Viter Marquez; Thorsten Mielke; Michael Thomm; Otto Berninghausen; Birgitta Beatrix; Johannes Soding; Eric Westhof; Daniel N. Wilson; Roland Beckmann;
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作者单位

Gene Center and Center for integrated Protein Science Munich, Department of Biochemistry, Ludwig-Maximilians-Universitaet Muenchen, Feodor-Lynen- Strasse 25, 81377 Munich, Germany;

Gene Center and Center for integrated Protein Science Munich, Department of Biochemistry, Ludwig-Maximilians-Universitaet Muenchen, Feodor-Lynen- Strasse 25, 81377 Munich, Germany;

Gene Center and Center for integrated Protein Science Munich, Department of Biochemistry, Ludwig-Maximilians-Universitaet Muenchen, Feodor-Lynen- Strasse 25, 81377 Munich, Germany;

Department of Molecular Structural Biology, Max Planck Institute of Biochemistry, Am Klopferspitz 18, 82152 Martinsried, Germany;

Gene Center and Center for integrated Protein Science Munich, Department of Biochemistry, Ludwig-Maximilians-Universitaet Muenchen, Feodor-Lynen- Strasse 25, 81377 Munich, Germany;

Gene Center and Center for integrated Protein Science Munich, Department of Biochemistry, Ludwig-Maximilians-Universitaet Muenchen, Feodor-Lynen- Strasse 25, 81377 Munich, Germany;

Universite de Strasbourg, Institut de Biologie Moleculaire et Cellulaire du Centre National de la Recherche Scientifique, 15 Rue Rene Descartes, 67084 Strasbourg, France;

Department of Empirical Inference, Max Planck Institute for Biological Cybernetics, Spemannstrasse 38, 72076 Tubingen, Germany,Department of Protein Evolution, Max Planck Institute for Developmental Biology, Spemannstrasse 35, 72076 Tubingen, Germany;

Gene Center and Center for integrated Protein Science Munich, Department of Biochemistry, Ludwig-Maximilians-Universitaet Muenchen, Feodor-Lynen- Strasse 25, 81377 Munich, Germany;

Gene Center and Center for integrated Protein Science Munich, Department of Biochemistry, Ludwig-Maximilians-Universitaet Muenchen, Feodor-Lynen- Strasse 25, 81377 Munich, Germany;

Gene Center and Center for integrated Protein Science Munich, Department of Biochemistry, Ludwig-Maximilians-Universitaet Muenchen, Feodor-Lynen- Strasse 25, 81377 Munich, Germany;

UltraStrukturNetzwerk, Max Planck Institute for Molecular Genetics, Ihnestrasse 73, 14195 Berlin, Germany ,flnstitut fur Medizinische Physik und Biophysik, Charite, Ziegelstrasse 5-8, 10117 Berlin, Germany;

Universitat Regensburg, Lehrstuhl fur Mikrobiologie, Universitaetstrasse 31, 93053 Regensburg, Germany;

Gene Center and Center for integrated Protein Science Munich, Department of Biochemistry, Ludwig-Maximilians-Universitaet Muenchen, Feodor-Lynen- Strasse 25, 81377 Munich, Germany;

Gene Center and Center for integrated Protein Science Munich, Department of Biochemistry, Ludwig-Maximilians-Universitaet Muenchen, Feodor-Lynen- Strasse 25, 81377 Munich, Germany;

Gene Center and Center for integrated Protein Science Munich, Department of Biochemistry, Ludwig-Maximilians-Universitaet Muenchen, Feodor-Lynen- Strasse 25, 81377 Munich, Germany;

Universite de Strasbourg, Institut de Biologie Moleculaire et Cellulaire du Centre National de la Recherche Scientifique, 15 Rue Rene Descartes, 67084 Strasbourg, France;

Gene Center and Center for integrated Protein Science Munich, Department of Biochemistry, Ludwig-Maximilians-Universitaet Muenchen, Feodor-Lynen- Strasse 25, 81377 Munich, Germany;

Gene Center and Center for integrated Protein Science Munich, Department of Biochemistry, Ludwig-Maximilians-Universitaet Muenchen, Feodor-Lynen- Strasse 25, 81377 Munich, Germany;

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收录信息美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类
关键词
homology modeling; RNA; translation; flexible fitting; molecular dynamics;

机译：同源性建模RNA;翻译;灵活的配件;分子动力学;
入库时间 2022-08-18 00:41:29

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专利

1. Cryo-EM structure and rRNA model of a translating eukaryotic 80S ribosome at 5.5-A resolution [J] . Jean-Paul Armache, Alexander Jarasch, Andreas M. Anger, Proceedings of the National Academy of Sciences of the United States of America . 2010,第46期

机译：5.5-A分辨率的真核翻译80S核糖体的低温EM结构和rRNA模型
2. Structures of Eukaryotic Ribosomal Stalk Proteins and Its Complex with Trichosanthin, and Their Implications in Recruiting Ribosome-Inactivating Proteins to the Ribosomes [J] . Andrew K. H. Choi, Eddie C. K. Wong, Ka-Ming Lee, Toxins . 2015,第3期

机译：真核生物核糖体茎蛋白的结构及其与天花粉蛋白的复合体，及其在将核糖体失活蛋白募集到核糖体中的意义。
3. Coordinated Ribosomal L4 Protein Assembly into the Pre-Ribosome Is Regulated by Its Eukaryote-Specific Extension [J] . Stelter Philipp, Huber Ferdinand M., Kunze Ruth, Molecular cell . 2015,第5期

机译：核糖体L4蛋白组装成核糖体的组装受其真核生物特异性延伸的调控。
4. Comparison of Promoter Sequences in the Eukaryotic Ribosomal Protein Genes [C] . LI Hui-min, ZHANG Jing The 2nd International Conference on Bioinformatics and Biomedical Engineering(iCBBE 2008)(第二届生物信息与生物医学工程国际会议）论文集 . 2008

机译：真核生物核糖体蛋白基因启动子序列的比较
5. Coevolution of ribosomes and the translational apparatus: The structure and function of eukaryotic ribosomal protein uS7 from yeast, Saccharomyces cerevisiae. [D] . Ghosh, Arnab. 2015

机译：核糖体和翻译设备的共同进化：酵母，酿酒酵母的真核核糖体蛋白uS7的结构和功能。
6. Localization of eukaryote-specific ribosomal proteins in a 5.5-Å cryo-EM map of the 80S eukaryotic ribosome [O] . Jean-Paul Armache, Alexander Jarasch, Andreas M. Anger, 2010

机译：真核生物特异性核糖体蛋白在80S真核生物核糖体的5.5-Å冷冻EM图中的定位
7. Localization of eukaryote-specific ribosomal proteins in a 5.5-A cryo-EM map of the 80S eukaryotic ribosome. [O] . Armache, Jean-Paul, Jarasch, Alexander, Anger, Andreas M, 2010

机译：真核生物特异的核糖体蛋白在80S真核生物核糖体的5.5-A冷冻EM图中的定位。

Localization of eukaryote-specific ribosomal proteins in a 5.5-A cryo-EM map of the 80S eukaryotic ribosome

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