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File:Coronavirus. SARS-CoV-2.png

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Deutsch: Wissenschaftlich genaues Atommodell der äußeren Struktur des SARS Coronavirus 2 (SARS-CoV-2), einem Stamm (genetische Variante) des Coronavirus, der die Coronavirus-Krankheit (COVID-19) verursachte und erstmals im Dezember 2019 in Wuhan, China, identifiziert wurde.

Jeder einzelne Ort (amorpher Fleck) ist ein Atom von:

 
kobalt: Virushülle
 
purpurrot: Hüllproteine
 
grün: Matrixproteine
 
orange: Glucose (Glycane)
 
türkis: Spike-Proteine
English: Scientifically accurate atomic model of the external structure of the Severe Acute Respiratory Syndrome CoronaVirus 2 (SARS-CoV-2), a strain (genetic variant) of the coronavirus that caused coronavirus disease (COVID-19), first identified in Wuhan, China, during December 2019

Each separate locus (amorphous blob) is a molecule of:

 
cobalt: membrane
 
crimson: E protein
 
green: M protein
 
orange: glucose (glycan)
 
turquoise : S (spike) glycoprotein
Español: Modelo atómico de la estructura externa del SARS-CoV-2. Cada "bola" es un átomo.
Leyenda:
 
azul cobalto — membrana
 
turquesa — glicoproteína de pico (S)
 
carmesí — proteína E
 
verde — proteína M
 
naranja — glucosa
Русский: Научно достоверная атомарная модель внешней структуры коронавируса (SARS-CoV-2). Каждый "шарик" — атом. Опубликовано на N+1.

Научный консультант:
Никитин Н. А. (доктор биологических наук, специалист в области вирусологии)
Борисевич С.С. к.х.н специалист по молекулярному моделированию поверхностных вирусных белков, руководитель группы «Кванты и Динамика», (с.н.с. лаборатория химической физики УфИХ РАН)
Архипова В.И. (специалитет по направлению фундаментальная и прикладная химия. Лаборатория химии РНК, Институт химической биологии и фундаментальной медицины Сибирского отделения Российской академии наук).

  • В работе были использованы следующие структуры из открытых источников:

Protein Data Bank: 2mls, 6y3y, 5x29, 6yyt Charmm-gui: 6vsb_1_1_1_S309

  • Цветовое обозначение:
 
кобальт — мембрана.
 
бирюза — S-белок.
 
малиновый — E-белок.
 
зелёный — M-белок.
 
оранжевый — гликаны.
Проект был сделан в соответствии с научными источниками:
  1. Surya, W., Li, Y., Torres, J. Structural model of the SARS coronavirus E channel in LMPG micelles. // Biochim. Biophys. Acta - Biomembr. – 2018. – Vol. 1860. – N. 6. – P. 1309–1317.
  2. Koppisetti, R. K., Fulcher, Y. G., Jurkevich, A., Prior, S. H., Xu, J., Lenoir, M., Overduin, M., Van Doren, S. R. Ambidextrous binding of cell and membrane bilayers by soluble matrix metalloproteinase-12. // Nat. Commun. – 2014. – Vol. 5. – P. 1–14.
  3. Hillen, H. S., Kokic, G., Farnung, L., Dienemann, C., Tegunov, D., Cramer, P. Structure of replicating SARS-CoV-2 polymerase. // Nature. – 2020. – Vol. 584. – N. 7819. – P. 154–156.
  4. Harris, L. J., Larson, S. B., Hasel, K. W., McPherson, A. Refined structure of an intact IgG2a monoclonal antibody. // Biochemistry. – 1997. – Vol. 36. – N. 7. – P. 1581–1597.
  5. Noreng, S., Bharadwaj, A., Posert, R., Yoshioka, C., Baconguis, I. Structure of the human epithelial sodium channel by cryo-electron microscopy. // Elife. – 2018. – Vol. 7. – P. 1–23.
  6. Almond, A., DeAngelis, P. L., Blundell, C. D. Hyaluronan: The Local Solution Conformation Determined by NMR and Computer Modeling is Close to a Contracted Left-handed 4-Fold Helix. // J. Mol. Biol. – 2006. – Vol. 358. – N. 5. – P. 1256–1269.
  7. Hurdiss, D. L., Drulyte, I., Lang, Y., Shamorkina, T. M., Pronker, M. F., van Kuppeveld, F. J. M., Snijder, J., de Groot, R. J. Cryo-EM structure of coronavirus-HKU1 haemagglutinin esterase reveals architectural changes arising from prolonged circulation in humans. // Nat. Commun. – 2020. – Vol. 11. – N. 1. – P. 1–10.
  8. Yan, Renhong, Yuanyuan Zhang, Yaning Li, Lu Xia, Yingying Guo, Q. Z. Structural basis for the recognition of SARS-CoV-2 by full-length human ACE2. // Science (80-. ). – 2020. – Vol. 3. – N. 3. – P. 1–8.
  9. Javitt, G., Khmelnitsky, L., Albert, L., Bigman, L. S., Elad, N., Morgenstern, D., Ilani, T., Levy, Y., Diskin, R., Fass, D. Assembly Mechanism of Mucin and von Willebrand Factor Polymers. // Cell. – 2020. – Vol. 183. – N. 3. – P. 717-729.e16.
  10. Daniel Wrapp, Nianshuang Wang, Kizzmekia S. Corbett, Jory A. Goldsmith, Ching-Lin Hsieh, Olubukola Abiona, B. S. G., McLellan, and J. S. Cryo-EM structure of the 2019-nCoV spike in the prefusion conformation. // Science (80-. ). – 2020. – Vol. 21. – N. 1. – P. 1–9.
  11. Wang, M. Y., Zhao, R., Gao, L. J., Gao, X. F., Wang, D. P., Cao, J. M. SARS-CoV-2: Structure, Biology, and Structure-Based Therapeutics Development. // Front. Cell. Infect. Microbiol. – 2020. – Vol. 10. – N. November. – P. 1–17.
  12. Yao, H., Song, Y., Chen, Y., Wu, N., Xu, J., Sun, C., Zhang, J., Weng, T., Zhang, Z., Wu, Z., Cheng, L., Shi, D., Lu, X., Lei, J., Crispin, M., Shi, Y., Li, L., Li, S. Molecular Architecture of the SARS-CoV-2 Virus. // Cell. – 2020. – Vol. 183. – N. 3. – P. 730-738.e13.
  13. Oostra, M., de Haan, C. A. M., de Groot, R. J., Rottier, P. J. M. Glycosylation of the Severe Acute Respiratory Syndrome Coronavirus Triple-Spanning Membrane Proteins 3a and M. // J. Virol. – 2006. – Vol. 80. – N. 5. – P. 2326–2336.
  14. B.W. Neuman, M. J. B. Supramolecular Architecture of the Coronavirus Particle. // Adv. Virus Res. – 2020. – Vol. 96. – P. 1–27.
  15. Neuman, B. W., Kiss, G., Kunding, A. H., Bhella, D., Baksh, M. F., Connelly, S., Droese, B., Klaus, J. P., Makino, S., Sawicki, S. G., Siddell, S. G., Stamou, D. G., Wilson, I. A., Kuhn, P., Buchmeier, M. J. A structural analysis of M protein in coronavirus assembly and morphology. // J. Struct. Biol. – 2011. – Vol. 174. – N. 1. – P. 11–22.
  16. Yu, A., Pak, A. J., He, P., Monje-Galvan, V., Casalino, L., Gaieb, Z., Dommer, A. C., Amaro, R. E., Voth, G. A. A multiscale coarse-grained model of the SARS-CoV-2 virion. // Biophys. J. – 2021. – Vol. 120. – N. 6. – P. 1097–1104.
  17. Yao, H., Song, Y., Chen, Y., Wu, N., Xu, J., Sun, C., Zhang, J., Weng, T., Zhang, Z., Wu, Z., Cheng, L., Shi, D., Lu, X., Lei, J., Crispin, M., Shi, Y., Li, L., Li, S. Molecular architecture of the SARS-CoV-2 virus. // Cell. – 2020. – Vol. 183. – N. 3. – P. 730–738.
  18. Choi, Y. K., Cao, Y., Frank, M., Woo, H., Park, S. J., Yeom, M. S., Croll, T. I., Seok, C., Im, W. Structure, Dynamics, Receptor Binding, and Antibody Binding of the Fully Glycosylated Full-Length SARS-CoV-2 Spike Protein in a Viral Membrane. // J. Chem. Theory Comput. – 2021. – Vol. 17. – N. 4. – P. 2479–2487.

Первичные источники:


Производные моделей протеинов созданы на базе моделей со свободной лицензией (freely available for both non-commercial and commercial use).
Українська: Атомарна модель зовнішньої структури коронавірусу SARS-CoV-2. Кожен «кулька» — атом.
Data
Origine

Obra proprie. Scientific consultants:

Nikitin N.A., Doctor of Biological Sciences, Department of Virology, Faculty of Biology, Lomonosov Moscow State University.
Borisevich S.S. Candidate of Chemical Sciences, Specialist in Molecular Modeling of Viral Surface Proteins, Senior Researcher, Head of the "Quantum & Dynamics»,Laboratory of Chemical Physics, Ufa Institute of Chemistry RAS
Arkhipova V.I., specialization in Fundamental and Applied chemistry, senior engineer, RNA Chemistry Laboratory, Institute of chemical biology and fundamental medicine SB RAS
Autor Alexey Solodovnikov (Idea, Producer, CG, Editor), Valeria Arkhipova (Scientific Сonsultant)
Permission
(Reuso de iste file)

Published by N+1 a popular science online publication of Russia (https://nplus1.ru/), protein models are derivative works of the

free license site (freely available for both non-commercial and commercial use)
Altere versiones
  • animation
  • Conditional motion SARV-CoV-2 (animation)

Sources

Primary sources:

The following structures from open sources were used in the work, Protein Data Bank (https://www.rcsb.org):

Additional sources:

  1. Surya, W., Li, Y., Torres, J. Structural model of the SARS coronavirus E channel in LMPG micelles // Biochim. Biophys. Acta - Biomembr. – 2018. – Vol. 1860. – N. 6. – P. 1309–1317.
  2. Koppisetti, R. K., Fulcher, Y. G., Jurkevich, A., Prior, S. H., Xu, J., Lenoir, M., Overduin, M., Van Doren, S. R. Ambidextrous binding of cell and membrane bilayers by soluble matrix metalloproteinase-12 // Nat. Commun. – 2014. – Vol. 5. – P. 1–14.
  3. Hillen, H. S., Kokic, G., Farnung, L., Dienemann, C., Tegunov, D., Cramer, P. Structure of replicating SARS-CoV-2 polymerase // Nature. – 2020. – Vol. 584. – N. 7819. – P. 154–156.
  4. Harris, L. J., Larson, S. B., Hasel, K. W., McPherson, A. Refined structure of an intact IgG2a monoclonal antibody // Biochemistry. – 1997. – Vol. 36. – N. 7. – P. 1581–1597.
  5. Noreng, S., Bharadwaj, A., Posert, R., Yoshioka, C., Baconguis, I. Structure of the human epithelial sodium channel by cryo-electron microscopy // Elife. – 2018. – Vol. 7. – P. 1–23.
  6. Almond, A., DeAngelis, P. L., Blundell, C. D. Hyaluronan: The Local Solution Conformation Determined by NMR and Computer Modeling is Close to a Contracted Left-handed 4-Fold Helix // J. Mol. Biol. – 2006. – Vol. 358. – N. 5. – P. 1256–1269.
  7. Hurdiss, D. L., Drulyte, I., Lang, Y., Shamorkina, T. M., Pronker, M. F., van Kuppeveld, F. J. M., Snijder, J., de Groot, R. J. Cryo-EM structure of coronavirus-HKU1 haemagglutinin esterase reveals architectural changes arising from prolonged circulation in humans // Nat. Commun. – 2020. – Vol. 11. – N. 1. – P. 1–10.
  8. Yan, Renhong, Yuanyuan Zhang, Yaning Li, Lu Xia, Yingying Guo, Q. Z. Structural basis for the recognition of SARS-CoV-2 by full-length human ACE2 // Science (80-. ). – 2020. – Vol. 3. – N. 3. – P. 1–8.
  9. Javitt, G., Khmelnitsky, L., Albert, L., Bigman, L. S., Elad, N., Morgenstern, D., Ilani, T., Levy, Y., Diskin, R., Fass, D. Assembly Mechanism of Mucin and von Willebrand Factor Polymers // Cell. – 2020. – Vol. 183. – N. 3. – P. 717-729.e16.
  10. Daniel Wrapp, Nianshuang Wang, Kizzmekia S. Corbett, Jory A. Goldsmith, Ching-Lin Hsieh, Olubukola Abiona, B. S. G., McLellan, and J. S. Cryo-EM structure of the 2019-nCoV spike in the prefusion conformation // Science (80-. ). – 2020. – Vol. 21. – N. 1. – P. 1–9.
  11. Wang, M. Y., Zhao, R., Gao, L. J., Gao, X. F., Wang, D. P., Cao, J. M. SARS-CoV-2: Structure, Biology, and Structure-Based Therapeutics Development // Front. Cell. Infect. Microbiol. – 2020. – Vol. 10. – N. November. – P. 1–17. (https://pubmed.ncbi.nlm.nih.gov/33324574/)
  12. Yao, H., Song, Y., Chen, Y., Wu, N., Xu, J., Sun, C., Zhang, J., Weng, T., Zhang, Z., Wu, Z., Cheng, L., Shi, D., Lu, X., Lei, J., Crispin, M., Shi, Y., Li, L., Li, S. Molecular Architecture of the SARS-CoV-2 Virus // Cell. – 2020. – Vol. 183. – N. 3. – P. 730-738.e13.
  13. Oostra, M., de Haan, C. A. M., de Groot, R. J., Rottier, P. J. M. Glycosylation of the Severe Acute Respiratory Syndrome Coronavirus Triple-Spanning Membrane Proteins 3a and M // J. Virol. – 2006. – Vol. 80. – N. 5. – P. 2326–2336. (https://europepmc.org/article/MED/16474139)
  14. B.W. Neuman, M. J. B. Supramolecular Architecture of the Coronavirus Particle // Adv. Virus Res. – 2020. – Vol. 96. – P. 1–27 (https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7112365/, https://europepmc.org/article/PMC/1563832)
  15. Neuman, B. W., Kiss, G., Kunding, A. H., Bhella, D., Baksh, M. F., Connelly, S., Droese, B., Klaus, J. P., Makino, S., Sawicki, S. G., Siddell, S. G., Stamou, D. G., Wilson, I. A., Kuhn, P., Buchmeier, M. J. A structural analysis of M protein in coronavirus assembly and morphology // J. Struct. Biol. – 2011. – Vol. 174. – N. 1. – P. 11–22. (https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4486061/)
  16. Yu, A., Pak, A. J., He, P., Monje-Galvan, V., Casalino, L., Gaieb, Z., Dommer, A. C., Amaro, R. E., Voth, G. A. A multiscale coarse-grained model of the SARS-CoV-2 virion // Biophys. J. – 2021. – Vol. 120. – N. 6. – P. 1097–1104 (https://europepmc.org/article/PMC/PMC7695975, https://search.bvsalud.org/global-literature-on-novel-coronavirus-2019-ncov/resource/en/covidwho-947143)
  17. Yao, H., Song, Y., Chen, Y., Wu, N., Xu, J., Sun, C., Zhang, J., Weng, T., Zhang, Z., Wu, Z., Cheng, L., Shi, D., Lu, X., Lei, J., Crispin, M., Shi, Y., Li, L., Li, S. Molecular architecture of the SARS-CoV-2 virus // Cell. – 2020. – Vol. 183. – N. 3. – P. 730–738 (https://www.sciencedirect.com/science/article/pii/S0092867420311594)
  18. Choi, Y. K., Cao, Y., Frank, M., Woo, H., Park, S. J., Yeom, M. S., Croll, T. I., Seok, C., Im, W. Structure, Dynamics, Receptor Binding, and Antibody Binding of the Fully Glycosylated Full-Length SARS-CoV-2 Spike Protein in a Viral Membrane // J. Chem. Theory Comput. – 2021. – Vol. 17. – N. 4. – P. 2479–2487 (https://www.researchgate.net/publication/349986293_Structure_Dynamics_Receptor_Binding_and_Antibody_Binding_of_the_Fully_Glycosylated_Full-Length_SARS-CoV-2_Spike_Protein_in_a_Viral_Membrane)

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Data/HoraMiniaturaDimensionesUsatorCommento
actual22:17, 9 januario 2022Miniatura pro le version de 22:17, 9 januario 20222 048 × 2 048 (4,54 MB)Jul059Lossless file size reduction
03:58, 24 septembre 2021Miniatura pro le version de 03:58, 24 septembre 20212 048 × 2 048 (4,6 MB)Iketsilossless compression
16:06, 15 junio 2021Miniatura pro le version de 16:06, 15 junio 20212 048 × 2 048 (5,34 MB)AlexeySolodovnikovfix color bug
14:28, 13 junio 2021Miniatura pro le version de 14:28, 13 junio 20212 048 × 2 048 (5,34 MB)AlexeySolodovnikovМы обновили модель. В роли нашего научного консультанта выступил доктор биологических наук, специалист в области вирусологии, Никитин Н. А. и к.х.н специалист по молекулярному моделированию поверхностных вирусных белков Борисевич С.С. Под их руководством в модель были внесены следующие правки: Изменено количество S-белков с 90 до 38, количество M-белков было увеличено до 1000, а E-белков, как минорных компонентов мембраны, снижено до 15, HE-белок удалён. Также была принята во внимание шарни...
11:06, 17 maio 2021Miniatura pro le version de 11:06, 17 maio 20212 048 × 2 048 (16,04 MB)AlexeySolodovnikovadd alpha
18:41, 4 maio 2021Miniatura pro le version de 18:41, 4 maio 20212 048 × 2 048 (16,04 MB)AlexeySolodovnikovUploaded own work with UploadWizard

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