|
original article |
Journal |
Date |
Title |
Authors All Authors |
1 |
[GO] |
Acoustical Physics |
2022―Jun―23 |
Passive Acoustic Thermometry of the Chest of a Person with COVID-19 |
A. A. Anosov, A. V. Erofeev, M. I. Shcherbakov, A. D. Mansfeld |
2 |
[GO] |
Advances in Gerontology |
2024―Feb―22 |
New Frailty Index Approach Predicts COVID-19 Mortality Risk |
Alexander Fedintsev, Maria Karnaushkina, Ilia Stambler, Arnold Mitnitski, Alexander Melerzanov, Maria Litvinova, et al. (+2) Kirill Balbek, Alexey Moskalev |
3 |
[GO] |
Advances in Gerontology |
2022―Dec―22 |
COVID-19 in Lifespan: Psychological Impact between Young and Older Adults in Argentina |
M. J. García, H. López-Morales, M. V. del-Valle, L. Canet-Juric, S. Urquijo |
4 |
[GO] |
Advances in Gerontology |
2022―Dec―22 |
Neurological Complications and Consequences of the Novel Coronavirus COVID-19 Infection in Elderly and Senile Patients (Literature Review) |
V. V. Flud, Yu. A. Shcherbuk, A. Yu. Shcherbuk, V. I. Leonov, O. A. Al-Sahli |
5 |
[GO] |
Advances in Gerontology |
2022―Dec―22 |
Effect on Physical Functions of Older Adults When Refraining from Going out due to COVID-19 Restrictions |
S. Suzumura, K. Ito, R. Narukawa, E. Takano, K. Satoh, T. Ueda, I. Kondo |
6 |
[GO] |
Advances in Gerontology |
2022―Sep―11 |
Survey of Knowledge, Attitudes and Practice of the Elderly toward COVID-19 Pandemic in Al-Amara, Iraq |
G. Al-Abedi |
7 |
[GO] |
Advances in Gerontology |
2021―Dec―09 |
Peptide Drug Thymalin Regulates Immune Status in Severe COVID-19 Older Patients |
B. Kuznik, V. Khavinson, K. Shapovalov, N. Linkova, S. Lukyanov, Yu. Smolyakov, et al. (+4) P. Tereshkov, Yu. Shapovalov, V. Konnov, N. Tsybikov |
8 |
[GO] |
Advances in Gerontology |
2021―Mar―30 |
COVID-19, Retroelements, and Aging |
R. N. Mustafin, E. K. Khusnutdinova |
9 |
[GO] |
Advances in Gerontology |
2020―Dec―09 |
Theory and Practice of Aging during the COVID-19 Pandemic |
A. G. Golubev, A. V. Sidorenko |
10 |
[GO] |
Applied Biochemistry and Microbiology |
2023―Oct―02 |
A Clinical Assessment of the RT-LAMP-Based Colorimetric Diagnostic Method for COVID-19 with Improved Primers Sets |
S. Sarkar, D. Balasubramanian, N. Velugonda, N. Ede, M. Srinivas, M. R. Katika, et al. (+2) S. Raran-Kurussi, M. Jaiswal |
11 |
[GO] |
Applied Biochemistry and Microbiology |
2022―Dec―16 |
The Effect of Disinfectants on the SARS-CoV-2 RNA Detection in Swabs from Various Surfaces |
M. S. Krasnikova, E. A. Lazareva, S. P. Yatsentyuk |
12 |
[GO] |
Applied Biochemistry and Microbiology |
2021―Dec―14 |
Loop-Mediated Isothermal Amplification as a Promising Method for Mass COVID-19 Diagnostics |
J. A. Makarova, K. A. Fomicheva, A. I. Osipyants, M. Yu. Shkurnikov, A. A. Pokryshchenko, E. A. Tonevitsky, V. I. Vechorko |
13 |
[GO] |
Atmospheric and Oceanic Optics |
2024―Jan―17 |
Simulation of the SARS-CoV-2 Virus Containing Aerosol Particles Spread Around a Hospital |
N. A. Lapteva, A. S. Safatov, A. P. Agafonov |
14 |
[GO] |
Atmospheric and Oceanic Optics |
2022―Dec―15 |
Surface Ozone in the Atmosphere of Moscow during the COVID-19 Pandemic |
E. V. Stepanov, V. V. Andreev, L. V. Konovaltseva, S. G. Kasoev |
15 |
[GO] |
Atmospheric and Oceanic Optics |
2022―Jan―11 |
Spectra of Photobiological Inactivation of SARS-CoV-2 by Solar UVB Radiation (280-320 nm) |
V. E. Prokop’ev |
16 |
[GO] |
Atmospheric and Oceanic Optics |
2021―Nov―03 |
Investigation of the Relations between Biogenic and Anthropogenic Sources of Organic Atmospheric Aerosol under Conditions of Restrictions Due to the Coronavirus Pandemic |
G. G. Dultseva, S. N. Dubtsov |
17 |
[GO] |
BIOPHYSICS |
2024―Mar―07 |
Analysis of the Development of Trends in the Current Epidemic Situation during Spread of the New SARS-CoV-2 Strains and Factors of their Regional Differentiation |
A. Yu. Perevaryukha |
18 |
[GO] |
BIOPHYSICS |
2023―Dec―13 |
SARS-CoV-2 Pandemic as a Predator-Prey System: Biophysical, Social and Heliophysical Factors of the Spread of Local Epidemics |
M. V. Ragulskaya |
19 |
[GO] |
BIOPHYSICS |
2023―Aug―25 |
Single SARS Virus Mutation as a Possible Cause of the Predominance of Asymptomatic COVID-19 Infection Forms |
I. D. Kolesin, E. M. Zhitkova |
20 |
[GO] |
BIOPHYSICS |
2023―Aug―25 |
Part of Anti-COVID Therapy Based on a Theoretical Model Describing Mechanics of Contact Interaction between Coronavirus and Cell Membrane |
N. A. Koltcova |
21 |
[GO] |
BIOPHYSICS |
2023―Mar―03 |
High Dose Inhalation with Gaseous Nitric Oxide in COVID-19 Treatment |
E. V. Pechyonkin, A. V. Kovrizhkin, A. V. Pekshev, A. B. Vagapov, N. A. Sharapov, A. F. Vanin |
22 |
[GO] |
BIOPHYSICS |
2023―Mar―03 |
SARS-COV-2 Coronavirus Papain-like Protease PLpro as an Antiviral Target for Inhibitors of Active Site and Protein-Protein Interactions |
P. V. Ershov, E. O. Yablokov, Y. V. Mezentsev, G. N. Chuev, M. V. Fedotova, S. E. Kruchinin, A. S. Ivanov |
23 |
[GO] |
BIOPHYSICS |
2022―Dec―19 |
Sodium Selenite As Potential Adjuvant Therapy for COVID-19 |
T. M. Huseynov, R. T. Guliyeva, S. H. Jafarova, N. H. Jafar |
24 |
[GO] |
BIOPHYSICS |
2022―Dec―19 |
Antiviral Activity of Nitrosonium Cations against SARS-CoV-2 on a Syrian Hamster Model |
A. V. Shipovalov, A. F. Vanin, O. V. Pyankov, E. G. Bagryanskaya, V. D. Mikoyan, N. A. Tkachev, et al. (+2) N. A. Asanbaeva, V. Ya. Popkova |
25 |
[GO] |
BIOPHYSICS |
2022―Jun―29 |
Mathematical Analysis of a COVID-19 Epidemic Model by Using Data Driven Epidemiological Parameters of Diseases Spread in India |
D. Pal, D. Ghosh, P. K. Santra, G. S. Mahapatra |
26 |
[GO] |
BIOPHYSICS |
2021―Oct―15 |
Radiation Inactivation of Coronavirus Infection Pathogen by the Example of Transmissible Gastroenteritis Virus |
V. N. Morozov, A. N. Mukhin, M. A. Kolyvanova, A. V. Belousov, Y. A. Bushmanov, T. V. Grebennikova, A. S. Samoylov |
27 |
[GO] |
BIOPHYSICS |
2021―Apr―27 |
Gaseous Nitric Oxide and Dinitrosyl Iron Complexes with Thiol-Containing Ligands as Potential Medicines that Can Relieve COVID-19 |
A. F. Vanin, A. V. Pekshev, A. B. Vagapov, N. A. Sharapov, V. L. Lakomkin, A. A. Abramov, et al. (+2) A. A. Timoshin, V. I. Kapelko |
28 |
[GO] |
BIOPHYSICS |
2020―Oct―19 |
Change of Antigenic Determinants of SARS-CoV-2 Virus S-Protein as a Possible Cause of Antibody-Dependent Enhancement of Virus Infection and Cytokine Storm |
Yu. D. Nechipurenko, A. A. Anashkina, O. V. Matveeva |
29 |
[GO] |
Biochemistry (Moscow) |
2024―Feb―14 |
Immunology of SARS-CoV-2 Infection |
Aida G. Gabdoulkhakova, Rimma N. Mingaleeva, Albina M. Romozanova, Aisylu R. Sagdeeva, Yulia V. Filina, Albert A. Rizvanov, Regina R. Miftakhova |
30 |
[GO] |
Biochemistry (Moscow) |
2023―Sep―22 |
Novel B-Cell Epitopes of Non-Neutralizing Antibodies in the Receptor-Binding Domain of the SARS-CoV-2 S-Protein with Different Effects on the Severity of COVID-19 |
Andrey L. Matveev, Oleg V. Pyankov, Yana A. Khlusevich, Olga V. Tyazhelkova, Ljudmila A. Emelyanova, Anna M. Timofeeva, et al. (+12) Andrey V. Shipovalov, Anton V. Chechushkov, Natalia S. Zaitseva, Gleb A. Kudrov, Gaukhar M. Yusubalieva, Saule M. Yussubaliyeva, Oxana A. Zhukova, Artem Yu. Tikunov, Vladimir P. Baklaushev, Sergey E. Sedykh, Galina I. Lifshits, Nina V. Tikunova |
31 |
[GO] |
Biochemistry (Moscow) |
2023―Feb―17 |
Curative Potential of High-Value Phytochemicals on COVID-19 Infection |
Damodaran Sruthi, Menamadathil Dhanalakshmi, Hoovinakola Chinnappa Yashavantha Rao, Ramalingam Parthasarathy, Shashikala Paranthaman Deepanraj, Chelliah Jayabaskaran |
32 |
[GO] |
Biochemistry (Moscow) |
2023―Jan―13 |
Biology of the SARS-CoV-2 Coronavirus |
Rimma N. Mingaleeva, Nigina A. Nigmatulina, Liliya M. Sharafetdinova, Albina M. Romozanova, Aida G. Gabdoulkhakova, Yuliya V. Filina, et al. (+3) Rafael F. Shavaliyev, Albert A. Rizvanov, Regina R. Miftakhova |
33 |
[GO] |
Biochemistry (Moscow) |
2022―Jul―14 |
Will Peptides Help to Stop COVID-19? |
Viktoriya G. Krut’, Sergei A. Chuvpilo, Irina V. Astrakhantseva, Liubov I. Kozlovskaya, Grigory A. Efimov, Andrei A. Kruglov, et al. (+2) Marina S. Drutskaya, Sergei A. Nedospasov |
34 |
[GO] |
Biochemistry (Moscow) |
2022―Jun―16 |
T Lymphocytes as Targets for SARS-CoV-2 |
Elena M. Kuklina |
35 |
[GO] |
Biochemistry (Moscow) |
2022―Apr―08 |
Hybrid Proteins with Short Conformational Epitopes of the Receptor-Binding Domain of SARS-CoV-2 Spike Protein Promote Production of Virus-Neutralizing Antibodies When Used for Immunization |
Anna S. Karyagina, Alexander V. Gromov, Tatyana M. Grunina, Alexander M. Lyaschuk, Maria S. Poponova, Denis A. Kleymenov, et al. (+11) Natalia V. Strukova, Maria S. Generalova, Anna V. Ryazanova, Zoya M. Galushkina, Olga Yu. Dobrynina, Tatyana N. Bolshakova, Maria V. Sergeeva, Ekaterina A. Romanovskaya-Romanko, Igor V. Krasilnikov, Marina E. Subbotina, Vladimir G. Lunin |
36 |
[GO] |
Biochemistry (Moscow) |
2022―Mar―11 |
High Serum Progranulin Levels in COVID-19 Patients: A Pilot Study |
Fatma B. Özgeriş, Ömer F. Koçak, Nezahat Kurt, Emine Parlak, Neslihan Yüce, Mevlüt S. Keleş |
37 |
[GO] |
Biochemistry (Moscow) |
2021―Oct―20 |
Development of a Platform for Producing Recombinant Protein Components of Epitope Vaccines for the Prevention of COVID-19 |
Anna S. Karyagina, Alexander V. Gromov, Tatyana M. Grunina, Alexander M. Lyaschuk, Alexander V. Grishin, Natalia V. Strukova, et al. (+15) Maria S. Generalova, Zoya M. Galushkina, Lyubov’ A. Soboleva, Olga Yu. Dobrinina, Tatyana N. Bolshakova, Marina E. Subbotina, Ekaterina A. Romanovskaya-Romanko, Igor V. Krasilnikov, Nikita B. Polyakov, Andrey I. Solovyev, Daniil A. Grumov, Vladimir G. Zhukhovitsky, Ekaterina I. Ryabova, Vladimir V. Prokofiev, Vladimir G. Lunin |
38 |
[GO] |
Biochemistry (Moscow) |
2021―Jul―08 |
COVID-19: Myths and Reality |
Larisa V. Kordyukova, Andrey V. Shanko |
39 |
[GO] |
Biochemistry (Moscow) |
2021―Mar―19 |
COVID-19 Pandemic and Male Fertility: Clinical Manifestations and Pathogenic Mechanisms |
Adel Abdel-Moneim |
40 |
[GO] |
Biochemistry (Moscow) |
2021―Feb―25 |
Recombinant SARS-CoV-2 S Protein Binds to Glycans of the Lactosamine Family in vitro |
Alexandr B. Ryzhikov, Galina S. Onkhonova, Ilnaz R. Imatdinov, Elena V. Gavrilova, Rinat A. Maksyutov, Elena A. Gordeeva, et al. (+4) Galina V. Pazynina, Ivan M. Ryzhov, Nadezhda V. Shilova, Nicolai V. Bovin |
41 |
[GO] |
Biochemistry (Moscow) |
2020―Dec―30 |
Free SARS-CoV-2 Spike Protein S1 Particles May Play a Role in the Pathogenesis of COVID-19 Infection |
Andrey V. Letarov, Vladislav V. Babenko, Eugene E. Kulikov |
42 |
[GO] |
Biochemistry (Moscow) |
2020―Dec―28 |
COVID-19 and Oxidative Stress |
B. V. Chernyak, E. N. Popova, A. S. Prikhodko, O. A. Grebenchikov, L. A. Zinovkina, R. A. Zinovkin |
43 |
[GO] |
Biochemistry (Moscow) |
2020―Dec―28 |
What Can We Learn about Aging and COVID-19 by Studying Mortality? |
L. A. Gavrilov, N. S. Gavrilova |
44 |
[GO] |
Biochemistry (Moscow) |
2020―Jul―13 |
Transcription Factor Nrf2 as a Potential Therapeutic Target for Prevention of Cytokine Storm in COVID-19 Patients |
R. A. Zinovkin, O. A. Grebenchikov |
45 |
[GO] |
Biochemistry (Moscow) |
2020―May―18 |
Molecular Targets in the Chemotherapy of Coronavirus Infection |
O. P. Zhirnov |
46 |
[GO] |
Biochemistry (Moscow) Supplement Series A Membrane and Cell Biology |
2024―Jan―17 |
Activation of Complement Factor C3/C3b Deposition on the of Endothelial Cell Surface by Histamine As one of the Causes of Endothelium Damage in COVID-19 |
P. P. Avdonin, Yu. V. Markitantova, E. Yu. Rybakova, N. V. Goncharov, P. V. Avdonin |
47 |
[GO] |
Biochemistry (Moscow) Supplement Series A Membrane and Cell Biology |
2023―Mar―29 |
SARS-CoV-2 Receptors and Their Involvement in Cell Infection |
P. P. Avdonin, E. Yu. Rybakova, S. K. Trufanov, P. V. Avdonin |
48 |
[GO] |
Biochemistry (Moscow) Supplement Series A Membrane and Cell Biology |
2021―Feb―21 |
The Balance between Two Branches of RAS Can Protect from Severe COVID-19 Course |
N. V. Bobkova |
49 |
[GO] |
Biochemistry (Moscow) Supplement Series B Biomedical Chemistry |
2022―Nov―16 |
Proteolysis and Deficiency of α1-Proteinase Inhibitor in SARS-CoV-2 Infection |
O. E. Akbasheva, L. V. Spirina, D. A. Dyakov, N. V. Masunova |
50 |
[GO] |
Biochemistry (Moscow) Supplement Series B Biomedical Chemistry |
2021―Nov―02 |
Peptide Inhibitors of the Interaction of the SARS-CoV-2 Receptor-Binding Domain with the ACE2 Cell Receptor |
R. Sh. Bibilashvili, M. V. Sidorova, U. S. Dudkina, M. E. Palkeeva, A. S. Molokoedov, L. I. Kozlovskaya, et al. (+3) A. M. Egorov, A. A. Ishmukhametov, E.V. Parfyonova |
51 |
[GO] |
Biology Bulletin |
2022―Mar―22 |
Occurrence of Spike Antigen Specific SARS-CoV-2 Antibodies in Pre-Pandemic Samples of Domestic Cats Raises New Questions |
Y. Lebedin, P. Petukhov, V. Maygurova, P. Klyuchnikova, S. Naidenko |
52 |
[GO] |
Biology Bulletin |
2021―Mar―01 |
Coronavirus Infections of Animals: Future Risks to Humans |
I. M. Donnik, Ig. V. Popov, S. V. Sereda, Il. V. Popov, M. L. Chikindas, A. M. Ermakov |
53 |
[GO] |
Biology Bulletin Reviews |
2023―Nov―28 |
Platelet Activation and Mechanisms of Thromboembolism Formation in Patients with Severe COVID-19. Alternative Mechanisms of Hemostasis System Activity |
B. I. Kuznik, Y. N. Smolyakov, N. N. Tsybikov, K. G. Shapovalov |
54 |
[GO] |
Biology Bulletin Reviews |
2023―Apr―17 |
Changes in the State of Vital Systems with Long COVID-19 |
B. I. Kuznik, K. G. Shapovalov, N. I. Chalisova |
55 |
[GO] |
Biology Bulletin Reviews |
2022―Dec―14 |
Neurotropism as a Mechanism of the Damaging Action of Coronavirus |
O. A. Gomazkov |
56 |
[GO] |
Biology Bulletin Reviews |
2022―Jul―20 |
Role of P-Selectin in the Development of Hemostasis Disorders in COVID-19 |
M. G. Golubeva |
57 |
[GO] |
Biology Bulletin Reviews |
2022―Apr―06 |
COVID-19: Cellular and Molecular Mechanisms of Brain Damage |
O. A. Gomazkov |
58 |
[GO] |
Biology Bulletin Reviews |
2022―Jan―17 |
An Overview of COVID-19 and Its Vaccines |
Nahid Rehman |
59 |
[GO] |
Biology Bulletin Reviews |
2021―Dec―09 |
Damage to the Vascular Endothelium as a Leading Mechanism of COVID-19 Systemic Pathology |
O. A. Gomazkov |
60 |
[GO] |
Biology Bulletin Reviews |
2021―Aug―16 |
Human Intestinal Microbiome and the Immune System: The Role of Probiotics in Shaping an Immune System Unsusceptible to COVID-19 Infection |
T. V. Belkina, O. V. Averina, E. V. Savenkova, V. N. Danilenko |
61 |
[GO] |
Biology Bulletin Reviews |
2021―Apr―27 |
Respiratory RNA Viruses: How to Be Prepared for an Encounter with New Pandemic Virus Strains |
S. V. Chepur, N. N. Pluzhnikov, O. V. Chubar, L. S. Bakulina, I. V. Litvinenko, V. A. Makarov, et al. (+4) A. S. Gogolevsky, V. A. Myasnikov, I. A. Myasnikova, R. I. Al-Shehadat |
62 |
[GO] |
Computational Mathematics and Mathematical Physics |
2021―Apr―29 |
Reduced SIR Model of COVID-19 Pandemic |
S. I. Vinitsky, A. A. Gusev, V. L. Derbov, P. M. Krassovitskiy, F. M. Pen’kov, G. Chuluunbaatar |
63 |
[GO] |
Crystallography Reports |
2024―Feb―05 |
Search for New Potential T-Cell and B-Cell Epitopes in the Spike Protein of SARS-CoV-2 |
I. A. Kolesnikov, V. I. Timofeev, M. V. Nikolenko, A. V. Ermakov, A. S. Ivanovsky, Yu. A. Dyakova, et al. (+2) Yu. V. Pisarevsky, M. V. Kovalchuk |
64 |
[GO] |
Crystallography Reports |
2024―Feb―05 |
Preparation and Crystallographic Analysis of a Complex of SARS-CoV-2 S-Protein Receptor-Binding Domain with a Virus-Neutralizing Nanoantibody |
K. M. Boyko, L. A. Varfolomeeva, N. A. Egorkin, M. E. Minyaev, I. A. Alekseeva, I. A. Favorskaya, et al. (+8) E. I. Ryabova, V. V. Prokofiev, I. B. Esmagambetov, D. B. Shcheblyakov, D. Yu. Logunov, A. L. Gintsburg, V. O. Popov, N. N. Sluchanko |
65 |
[GO] |
Crystallography Reports |
2024―Feb―05 |
Application of the Crystal Structure of the SARS-CoV-2 Spike Protein for the Development of a Peptide Vaccine against Virus |
A. S. Ivanovsky, I. A. Kolesnikov, Yu. V. Kordonskaya, A. V. Ermakov, M. A. Marchenkova, V. I. Timofeev, et al. (+3) Yu. V. Pisarevsky, Yu. A. Dyakova, M. V. Kovalchuk |
66 |
[GO] |
Doklady Biochemistry and Biophysics |
2024―Feb―20 |
Quantitative Description of the N-Protein of the SARS-CoV-2 Virus Degradation in Cells Stably Expressing It under the Influence of New Modular Nanotransporters |
Y. V. Khramtsov, A. V. Ulasov, T. N. Lupanova, G. P. Georgiev, A. S. Sobolev |
67 |
[GO] |
Doklady Biochemistry and Biophysics |
2024―Feb―20 |
Modular Nanotransporters Capable of Causing Intracellular Degradation of the N-Protein of the SARS-CoV-2 Virus in A549 Cells with Temporary Expression of This Protein Fused with a Fluorescent Protein mRuby3 |
Y. V. Khramtsov, A. V. Ulasov, T. N. Lupanova, G. P. Georgiev, A. S. Sobolev |
68 |
[GO] |
Doklady Biochemistry and Biophysics |
2024―Jan―08 |
Immunoliposomes As a Promising Antiviral Agent against SARS-CoV-2 |
T. V. Bobik, M. A. Simonova, N. U. Rushkevich, N. N. Kostin, G. A. Skryabin, V. D. Knorre, et al. (+5) A. A. Schulga, E. V. Konovalova, G. M. Proshkina, A. G. Gabibov, S. M. Deev |
69 |
[GO] |
Doklady Biochemistry and Biophysics |
2023―Aug―15 |
Modular Nanotransporters Capable of Binding to SARS-CoV-2 Virus Nucleocapsid Protein in Target Cells |
Y. V. Khramtsov, A. V. Ulasov, T. N. Lupanova, G. P. Georgiev, A. S. Sobolev |
70 |
[GO] |
Doklady Biochemistry and Biophysics |
2023―Jun―20 |
Activity of nsp14 Exonuclease from SARS-CoV-2 towards RNAs with Modified 3'-Termini |
S. K. Yuyukina, A. E. Barmatov, S. N. Bizyaev, D. A. Stetsenko, O. V. Sergeeva, T. S. Zatsepin, D. O. Zharkov |
71 |
[GO] |
Doklady Biochemistry and Biophysics |
2023―Feb―14 |
Association of HLA Class I Genotype with Mortality in Patients with Diabetes Mellitus and COVID-19 |
M. Yu. Shkurnikov, D. A. Averinskaya, A. G. Komarov, I. A. Karbyshev, G. I. Speshilov, I. A. Shtinova, et al. (+3) D. A. Doroshenko, V. I. Vechorko, O. M. Drapkina |
72 |
[GO] |
Doklady Biochemistry and Biophysics |
2023―Feb―14 |
Relationship of Covid-19 Severity with SARS-CoV-2 NS8 Protein Mutations Depending on Virus Strain |
M. Yu. Shkurnikov, D. A. Averinskaya, A. G. Komarov, I. A. Karbyshev, G. I. Speshilov, I. A. Shtinova, et al. (+2) D. A. Doroshenko, V. I. Vechorko |
73 |
[GO] |
Doklady Biochemistry and Biophysics |
2023―Feb―14 |
Differences in Presentation of SARS-CoV-2 Omicron Strain Variant BA.1-BA.5 Peptides by HLA Molecules |
S. A. Nersisyan, M. Yu. Shkurnikov, A. P. Zhiyanov, V. O. Novosad, A. G. Tonevitsky |
74 |
[GO] |
Doklady Biochemistry and Biophysics |
2022―Dec―29 |
Properties and Activity of Peptide Derivatives of ACE2 Cellular Receptor and Their Interaction with SARS-CoV-2 S Protein Receptor-Binding Domain |
M. V. Sidorova, R. S. Bibilashvili, D. V. Avdeev, U. S. Kozhokar, M. E. Palkeeva, M. V. Ovchinnikov, et al. (+14) A. S. Molokoedov, D. A. Shirokov, A. V. Semyonova, V. I. Uvarova, P. O. Kulyaev, E. V. Khvatov, A. A. Ignatova, A. V. Feofanov, D. I. Osolodkin, Yu. B. Porozov, L. I. Kozlovskaya, A. A. Ishmukhametov, Ye. V. Parfyonova, A. M. Egorov |
75 |
[GO] |
Doklady Biochemistry and Biophysics |
2022―Oct―27 |
Induction of Hypoxic Response in Caco-2 Cells Promote the Expression of Genes Involved in SARS-CoV-2 Endocytosis and Transcytosis |
S. A. Nersisyan |
76 |
[GO] |
Doklady Biochemistry and Biophysics |
2022―Oct―27 |
Delivery of Antibody-Like Molecules, Monobodies, Capable of Binding with SARS-CoV-2 Virus Nucleocapsid Protein, into Target Cells |
Y. V. Khramtsov, A. V. Ulasov, T. N. Lupanova, G. P. Georgiev, A. S. Sobolev |
77 |
[GO] |
Doklady Biochemistry and Biophysics |
2022―May―10 |
Among Antibody-Like Molecules, Monobodies, Able to Interact with Nucleocapsid Protein of SARS-CoV Virus, There Are Monobodies with High Affinity to Nucleocapsid Protein of SARS-CoV-2 Virus |
Y. V. Khramtsov, A. V. Ulasov, T. N. Lupanova, G. P. Georgiev, A. S. Sobolev |
78 |
[GO] |
Doklady Biochemistry and Biophysics |
2021―Dec―07 |
Antibodies to the N-Terminal Domain of Angiotensin-Converting Enzyme (ACE2) That Block Its Interaction with SARS-CoV-2 S Protein |
V. G. Krut, I. V. Astrakhantseva, S. A. Chuvpilo, G. A. Efimov, S. G. Ambaryan, M. S. Drutskaya, S. A. Nedospasov |
79 |
[GO] |
Doklady Biochemistry and Biophysics |
2021―Mar―10 |
Novel Negative Sense Genes in the RNA Genome of Coronaviruses |
O. P. Zhirnov, S. V. Poyarkov |
80 |
[GO] |
Doklady Earth Sciences |
2021―Mar―04 |
Acoustic Noise in Moscow during the Covid-19 Quarantine Period in 2020 |
A. A. Spivak, D. N. Loktev, Yu. S. Rybnov, V. A. Kharlamov |
81 |
[GO] |
Doklady Earth Sciences |
2020―Dec―21 |
Impact of COVID-19 Lockdown on Air Quality in Moscow |
A. S. Ginzburg, V. A. Semenov, E. G. Semutnikova, M. A. Aleshina, P. V. Zakharova, E. A. Lezina |
82 |
[GO] |
Doklady Mathematics |
2022―Sep―27 |
Mathematical Modeling of Overcoming the COVID-19 Pandemic and Restoring Economic Growth |
V. A. Sadovnichiy, A. A. Akaev, A. I. Zvyagintsev, A. I. Sarygulov |
83 |
[GO] |
Doklady Physics |
2022―Mar―11 |
Application of a Kinetic Model for Studying the Spatial Spread of COVID-19 |
V. V. Aristov, A. V. Stroganov, A. D. Yastrebov |
84 |
[GO] |
Geomagnetism and Aeronomy |
2023―Dec―25 |
Solar Cycles and Covid-19 Pandemic Paradoxes |
M. V. Ragulskaya |
85 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
Intensive Care of Patients with COVID-19 |
S. S. Petrikov, K. A. Popugaev, S. V. Zhuravel’ |
86 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
Diffuse Lung Disease in Convalescents of COVID-19 |
A. V. Averyanov, O. V. Danilevskaya |
87 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
An Intelligent System for Medical Decision Support in Differential Diagnosis and Treatment of COVID-19 |
V. V. Gribova, Yu. N. Kul’chin, M. V. Petryaeva, D. B. Okun’, R. I. Kovalev, E. A. Shalfeeva |
88 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
Coronavirus Infection 2019 (COVID-19) and Autoimmunity |
E. L. Nasonov, M. Yu. Samsonov, A. M. Lila |
89 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
Coronavirus Infection COVID-19 and Pregnancy |
M. A. Kurtser |
90 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
Agent-Based Simulation of the COVID-19 Epidemic in Russia |
G. N. Rykovanov, S. N. Lebedev, O. V. Zatsepin, G. D. Kaminskii, E. V. Karamov, A. A. Romanyukha, et al. (+2) A. M. Feigin, B. N. Chetverushkin |
91 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
COVID-19 Epidemiology and Diagnosis: Monitoring Evolutionary Changes in the SARS-COV-2 Virus |
V. G. Akimkin |
92 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
The Omicron Variant of the Sars-Cov-2 Virus As the Dominant Agent of a New Risk of Disease amid the COVID-19 Pandemic |
G. G. Onishchenko, T. E. Sizikova, V. N. Lebedev, S. V. Borisevich |
93 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
COVID-19 Pandemic and Cardiovascular Diseases: Lessons and Prospects |
E. V. Shlyakhto, A. O. Konradi, T. L. Karonova, P. A. Fedotov |
94 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
COVID-19: Opportunities to Improve Prognosis |
S. N. Avdeev |
95 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
Society and the State in Russia and the World during the Coronavirus Epidemic |
V. A. Tishkov, M. L. Butovskaya, V. V. Stepanov |
96 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
Mechanisms of Coronavirus Genome Stability As Potential Targets for Antiviral Drugs |
S. K. Yuyukina, D. O. Zharkov |
97 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
PDSTP Is the First Drug in Class to Treat Coronavirus Infection |
V. A. Makarov, V. O. Popov |
98 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
Evolution of Approaches to Therapeutic Prevention and Treatment of the New Coronavirus Infection |
O. M. Drapkina, I. S. Yavelov |
99 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
Experience of Military Medicine in the Fight against the New Coronavirus Infection |
E. V. Kryukov, D. V. Trishkin, V. V. Salukhov, E. V. Ivchenko |
100 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
Oncology during the New Coronavirus Infection Pandemic |
A. D. Kaprin, N. S. Sergeeva, P. V. Shegai, B. Ya. Alekseev |
101 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
Coronavirus Infections in Animals: Risks of Direct and Reverse Zoonoses |
I. M. Donnik, I. A. Chvala, L. K. Kish, A. M. Ermakov |
102 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
Plant Viruses: New Opportunities under the Pandemic |
O. V. Karpova, N. A. Nikitin |
103 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
The Russian Economy under the Impact of the Pandemic Crisis |
A. A. Shirov |
104 |
[GO] |
Herald of the Russian Academy of Sciences |
2022―Sep―06 |
Law and the Pandemic: The Lessons of the Crisis |
T. Y. Khabrieva, N. N. Chernogor |
105 |
[GO] |
Herald of the Russian Academy of Sciences |
2021―Jun―10 |
Impact of Restrictive Measures during the Covid-19 Pandemic on Aerosol Pollution of the Atmosphere of the Moscow Megalopolis |
O. B. Popovicheva, M. A. Chichaeva, N. S. Kasimov |
106 |
[GO] |
Human Physiology |
2023―Oct―16 |
Relationships of Psychological and EEG Parameters in Depressive Patients Recovered from COVID-19 |
A. F. Iznak, E. V. Iznak, E. V. Damyanovich, V. M. Adamova, I. V. Oleichik |
107 |
[GO] |
Human Physiology |
2023―Jan―23 |
Evaluation of the Efficiency of Oxygen-Helium Therapy for Patients with Covid-19-Associated Pneumonia |
V. M. Manuilov, A. V. Suvorov, S. V. Kurkin, Yu. O. Olenev, N. B. Pavlov, A. T. Logunov, et al. (+2) D. A. Anikeev, O. I. Orlov |
108 |
[GO] |
Human Physiology |
2022―Oct―13 |
EEG Microstate Analysis and the EEG Inverse Problem Solution as a Tool for Diagnosing Cognitive Dysfunctions in Individuals Who Have Had a Mild Form of COVID-19 |
S. A. Gulyaev |
109 |
[GO] |
Izvestiya Atmospheric and Oceanic Physics |
2023―Mar―15 |
Heliogeophysical Conditions in Moscow during the Covid-19 Pandemic |
N. P. Sergeenko |
110 |
[GO] |
Izvestiya Atmospheric and Oceanic Physics |
2022―Apr―28 |
About the Annual Course of Moscow Heat Island and the Impact on It of the Quarantine Measures to Prevent the COVID-19 Pandemic in 2020 |
M. A. Lokoshchenko, L. I. Alekseeva |
111 |
[GO] |
Izvestiya Atmospheric and Oceanic Physics |
2022―Jan―20 |
Bioefficacy of Geomagnetic Activity in the Period of the COVID-19 Pandemic |
S. N. Samsonov, S. S. Parshina |
112 |
[GO] |
JETP Letters |
2023―May―15 |
Density Functional Theory, Molecular Dynamics and AlteQ Studies Approaches of Baimantuoluoamide A and Baimantuoluoamide B to Identify Potential Inhibitors of Mpro Proteins: a Novel Target for the Treatment of SARS COVID-19 |
K. Gurushankar, S. Ch. Jeyaseelan, M. Grishina, I. Siswanto, R. Tiwari, N. N. T. Puspaningsih |
113 |
[GO] |
Journal of Applied and Industrial Mathematics |
2023―Aug―07 |
Mathematical Modelling of COVID-19 Incidence in Moscow with an Agent-Based Model |
V. V. Vlasov, A. M. Deryabin, O. V. Zatsepin, G. D. Kaminsky, E. V. Karamov, A. L. Karmanov, et al. (+6) S. N. Lebedev, G. N. Rykovanov, A. V. Sokolov, M. A. Teplykh, A. S. Turgiyev, K. E. Khatuntsev |
114 |
[GO] |
Journal of Applied and Industrial Mathematics |
2023―May―15 |
Simulation of COVID-19 Spread Scenarios in the Republic of Kazakhstan Based on Regularization of the Agent-Based Model |
O. I. Krivorotko, S. I. Kabanikhin, M. A. Bektemesov, M. I. Sosnovskaya, A. V. Neverov |
115 |
[GO] |
Journal of Evolutionary Biochemistry and Physiology |
2024―Jan―09 |
Hemoglobin Affinity to Oxygen during Coronavirus Infection: New Faces of a Known Problem |
V. V. Zinchuk, N. V. Hlutkina |
116 |
[GO] |
Journal of Evolutionary Biochemistry and Physiology |
2024―Jan―09 |
Comparative Perspective of Evolution of SARS-CoV-2 and 1918 Influenza Virus |
Shu Yuan, Si-Cong Jiang, Zhong-Wei Zhang, Yu-Fan Fu, Xin-Yue Yang, Zi-Lin Li, Jing Hu |
117 |
[GO] |
Journal of Evolutionary Biochemistry and Physiology |
2022―May―16 |
Horizons of Heparin Therapy in COVID-19 and Pandemic-Related Diseases |
M. V. Kondashevskaya |
118 |
[GO] |
Journal of Evolutionary Biochemistry and Physiology |
2022―May―16 |
Erratum to: Experimental Search for New Means of Pathogenetic Therapy COVID-19: Inhibitor of H2-Receptors Famotidine Increases the Effect of Oseltamivir on Survival and Immune Status of Mice Infected by A/PR/8/34 (H1N1) |
N. V. Goncharov, K. A. Vasilyev, I. V. Kudryavtsev, P. P. Avdonin, D. A. Belinskaia, M. A. Stukova, et al. (+2) O. V. Shamova, P. V. Avdonin |
119 |
[GO] |
Journal of Evolutionary Biochemistry and Physiology |
2022―Mar―05 |
Causes of Hypoxemia in COVID-19 |
Zh. A. Donina |
120 |
[GO] |
Journal of Evolutionary Biochemistry and Physiology |
2022―Mar―05 |
Experimental Search for New Means of Pathogenetic Therapy COVID-19: Inhibitor of H2-Receptors Famotidine Increases the Effect of Oseltamivir on Survival and Immune Status of Mice Infected by A/PR/8/34 (H1N1) |
N. V. Goncharov, K. A. Vasilyev, I. V. Kudryavtsev, P. P. Avdonin, D. A. Belinskaia, M. A. Stukova, et al. (+2) O. V. Shamova, P. V. Avdonin |
121 |
[GO] |
Journal of Evolutionary Biochemistry and Physiology |
2021―Dec―20 |
Analysis of Some Physiological and Biochemical Indices in Patients with Covid-19 Pneumonia Using Mathematical Methods |
M. S. Gromov, S. M. Rogacheva, M. A. Barulina, A. A. Reshetnikov, D. A. Prokhozhev, A. Yu. Fomina |
122 |
[GO] |
Lobachevskii Journal of Mathematics |
2022―Mar―29 |
Assessing Pandemic Uncertainty on Conditions of Vaccination and Self-isolation |
D. Volchenkov |
123 |
[GO] |
Lobachevskii Journal of Mathematics |
2021―Aug―09 |
Supercomputing, Docking and Quantum Mechanics in Quest for Inhibitors of Papain-like Protease of SARS-CoV-2 |
A. V. Sulimov, I. S. Ilin, D. C. Kutov, N. V. Stolpovskaya, Kh. S. Shikhaliev, V. B. Sulimov |
124 |
[GO] |
Mathematical Models and Computer Simulations |
2023―Nov―04 |
Was There a Period of Latent Development of COVID-19 in St. Petersburg? Mathematical Simulation Results and Facts |
I. D. Kolesin, E. M. Zhitkova |
125 |
[GO] |
Mathematical Models and Computer Simulations |
2023―Nov―04 |
Mathematical Model of COVID-19 Progression: Prediction of Severity and Outcome |
V. Ya. Kisselevskaya-Babinina, A. A. Romanyukha, T. E. Sannikova |
126 |
[GO] |
Mathematical Models and Computer Simulations |
2023―May―17 |
Pandemic Forecasting by Machine Learning in a Decision Support Problem |
V. A. Sudakov, Yu. P. Titov |
127 |
[GO] |
Mathematical Models and Computer Simulations |
2023―Apr―11 |
On the Modeling of COVID-19 Spread via Fractional Derivative: A Stochastic Approach |
E. Bonyah, M. L. Juga, L. M. Matsebula, C. W. Chukwu |
128 |
[GO] |
Molecular Biology |
2024―Apr―09 |
A Bioinformatics Method for Identification of Human Proteases Active against Viral Envelope Glycoproteins: A Case Study on the SARS-CoV-2 Spike Protein |
E. V. Matveev, G. V. Ponomarev, M. D. Kazanov |
129 |
[GO] |
Molecular Biology |
2023―Jun―18 |
Development of a Series of Neutralizing Nanobodies against SARS-CoV-2 Spike Protein |
V. A. Zhuchkov, S. V. Ivanov, J. E. Kravchenko, S. P. Chumakov |
130 |
[GO] |
Molecular Biology |
2023―Apr―26 |
Potential of Interferon Lambda as an Inhibitor of SARS-CoV-2 |
L. A. Oleinik, P. G. Madonov, M. B. Pykhtina |
131 |
[GO] |
Molecular Biology |
2022―Dec―09 |
High Heterogeneity of Virus-Neutralizing and RBD-Binding Activities of COVID-19 Convalescent Sera |
E. A. Astakhova, M. G. Byazrova, G. M. Yusubalieva, V. F. Larichev, V. P. Baklaushev, A. V. Filatov |
132 |
[GO] |
Molecular Biology |
2022―Oct―05 |
Generation of SARS-CoV-2 Mouse Model by Transient Expression of the Human ACE2 Gene Mediated by Intranasal Administration of AAV-hACE2 |
D. V. Glazkova, E. V. Bogoslovskaya, F. A. Urusov, N. P. Kartashova, E. A. Glubokova, A. V. Gracheva, et al. (+7) E. B. Faizuloev, G. V. Trunova, V. A. Khokhlova, O. A. Bezborodova, A. A. Pankratov, I. A. Leneva, G. A. Shipulin |
133 |
[GO] |
Molecular Biology |
2022―Jun―03 |
Increased LAMP1 Expression Enhances SARS-CoV-1 and SARS-CoV-2 Production in Vero-Derived Transgenic Cell Lines |
A. A. Dolskiy, I. V. Grishchenko, S. A. Bodnev, A. A. Nazarenko, A. M. Smirnova, A. K. Matveeva, et al. (+9) L. E. Bulychev, A. S. Ovchinnikova, T. V. Tregubchak, A. V. Zaykovskaya, I. R. Imatdinov, O. V. Pyankov, E. V. Gavrilova, R. A. Maksyutov, D. V. Yudkin |
134 |
[GO] |
Molecular Biology |
2022―Jun―03 |
New Analogues of Uridine as Possible Anti-Viral Agents Specific to SARS-CoV-2 |
A. A. Maslova, E. C. Matyugina, E. Yu. Shustova, V. P. Volok, L. I. Kozlovskaya, S. N. Kochetkov, A. L. Khandazhinskaya |
135 |
[GO] |
Molecular Biology |
2022―Feb―12 |
MicroRNAs as the Potential Regulators of SARS-CoV-2 Infection and Modifiers of the COVID-19 Clinical Features |
A. N. Kucher, Iu. A. Koroleva, A. A. Zarubin, M. S. Nazarenko |
136 |
[GO] |
Molecular Biology |
2021―Dec―17 |
Immunogenic Properties of the DNA Construct Encoding the Receptor-Binding Domain of the SARS-CoV-2 Spike Protein |
M. B. Borgoyakova, L. I. Karpenko, A. P. Rudometov, D. V. Shanshin, A. A. Isaeva, V. S. Nesmeyanova, et al. (+11) N. V. Volkova, S. V. Belenkaya, D. E. Murashkin, D. N. Shcherbakov, E. A. Volosnikova, E. V. Starostina, L. A. Orlova, N. V. Danilchenko, A. V. Zaikovskaya, O. V. Pyankov, A. A. Ilyichev |
137 |
[GO] |
Nanobiotechnology Reports |
2021―Jun―29 |
Efficiency of Respiratory Protective Equipment in the SARS-CoV-2 Pandemic |
K. I. Lukanina, A. K. Budyka, I. E. Rebrov, K. G. Antipova, S. N. Malakhov, A. D. Shepelev, et al. (+3) T. E. Grigoriev, V. A. Yamshchikov, S. N. Chvalun |
138 |
[GO] |
Neurochemical Journal |
2022―Jul―18 |
Neuropilin Is a New Player in the Pathogenesis of COVID-19 |
O. A. Gomazkov |
139 |
[GO] |
Numerical Analysis and Applications |
2020―Dec―21 |
Mathematical Modeling and Forecasting of COVID-19 in Moscow
and Novosibirsk Region |
O. I. Krivorot’ko, S. I. Kabanikhin, N. Yu. Zyat’kov, A. Yu. Prikhod’ko, N. M. Prokhoshin, M. A. Shishlenin |
140 |
[GO] |
Pattern Recognition and Image Analysis |
2021―Jun―30 |
Comparative Analysis of COVID-19 X-ray Images Classification Using Convolutional Neural Network, Transfer Learning, and Machine Learning Classifiers Using Deep Features |
Rekha Rajagopal |
141 |
[GO] |
Polymer Science Series A |
2024―Jan―09 |
Complexes of an Anionic Surfactant with Chitosan and Its Hydrophobic Derivatives As Disinfectants against SARS-CoV-2 |
A. V. Shibaev, A. S. Ospennikov, G. V. Kornilaeva, V. F. Larichev, I. T. Fedyakina, Lifeng Fu, et al. (+7) Zhuo Chen, Yangyang Yang, E. V. Karamov, Ali S. Turgiev, Liping Duan, Jun Liu, O. E. Philippova |
142 |
[GO] |
Programming and Computer Software |
2022―Dec―21 |
How COVID-19 Pandemic affects Software Developers’ Wellbeing, and the Necessity to strengthen Soft Skills |
Reyes Juárez-Ramírez, Christian X. Navarro, Guillermo Licea, Samantha Jiménez, Verónica Tapia-Ibarra, César Guerra-García, Hector G. Perez-Gonzalez |
143 |
[GO] |
Programming and Computer Software |
2022―Jul―18 |
One-class Classification for Identifying COVID-19 in X-Ray Images |
Eduardo Perez-Careta, Delia Irazú Hernández-Farías, José Rafael Guzman-Sepulveda, Miguel Torres Cisneros, Teodoro Cordoba-Fraga, Juan Carlos Martinez Espinoza, Rafael Guzman-Cabrera |
144 |
[GO] |
Programming and Computer Software |
2022―Jul―18 |
Predicting COVID-19-Induced Lung Damage Based on Machine Learning Methods |
I. A. Vasilev, M. I. Petrovskiy, I. V. Mashechkin, L. L. Pankratyeva |
145 |
[GO] |
Programming and Computer Software |
2021―Jul―30 |
The Improvement of Segmentation of Lung Pathologies and Pleural Effusion on CT-scans of Patients with Covid-19 |
D. Lashchenova, A. Gromov, A. Konushin, A. Mesheryakova |
146 |
[GO] |
Regional Research of Russia |
2023―Nov―27 |
The COVID-19 Pandemic in the Regions of Greater Siberia: Regional Types of Spatial Interaction |
A. N. Pilyasov, I. N. Alov, B. V. Nikitin |
147 |
[GO] |
Regional Research of Russia |
2023―Sep―30 |
Domestic Tourism in Municipalities of the Northwestern Federal District: Statistical Assessments and Impact of the COVID-19 Pandemic |
I. A. Ivanov, T. V. Vasilyeva, I. N. Krasilnikova, A. G. Manakov |
148 |
[GO] |
Regional Research of Russia |
2023―Jun―21 |
Waves of the COVID-19 Pandemic in Russia: Regional Projection |
B. V. Nikitin, N. Yu. Zamyatina |
149 |
[GO] |
Regional Research of Russia |
2023―Jun―21 |
Determinants of Economic Growth in Regions with Different COVID-19 Incidence Rates |
M. A. Kaneva |
150 |
[GO] |
Regional Research of Russia |
2023―Jun―21 |
Household Income and Consumption in Regions during the Pandemic |
N. N. Mikheeva |
151 |
[GO] |
Regional Research of Russia |
2023―Jan―17 |
Revenues of Russian S뿭eral Budgets under the Pandemic: A Spatial Reversal |
M. Yu. Malkina |
152 |
[GO] |
Regional Research of Russia |
2022―Dec―20 |
Economic Access to Food and COVID-19: New Challenges for the Russian Exclave |
A. V. Lialina, K. A. Morachevskaya |
153 |
[GO] |
Regional Research of Russia |
2022―Dec―20 |
The Resilience of the Russian Regional Economies to the 2020 Pandemic |
M. Yu. Malkina |
154 |
[GO] |
Regional Research of Russia |
2022―Dec―20 |
Entrepreneurship Policy and SME Development during Pandemic Crisis in Russia |
S. Zemtsov, V. Barinova, R. Semenova, A. Mikhailov |
155 |
[GO] |
Regional Research of Russia |
2022―Sep―15 |
How Do Smart City Technologies Help to Cope with the Pandemic? |
E. A. Kostina, A. V. Kostin |
156 |
[GO] |
Regional Research of Russia |
2021―Dec―24 |
Russian Regions and the Federal Center Against Global Threats: a Year Of Fighting COVID-19 |
V. E. Seliverstov, N. A. Kravchenko, V. I. Klistorin, A. T. Yusupova |
157 |
[GO] |
Regional Research of Russia |
2021―Dec―24 |
Spread of the COVID-19 In Russia: Regional Peculiarities |
N. A. Kravchenko, A. I. Ivanova |
158 |
[GO] |
Regional Research of Russia |
2021―Dec―24 |
Geography of the Passenger Turnover Dynamics at Airports in Europe and Russia’s Regions in the First Year of the COVID-19 Pandemic |
S. A. Tarkhov |
159 |
[GO] |
Regional Research of Russia |
2021―Dec―24 |
Economy of Russian Regions in the Pandemic: Are Resilience Factors At Work? |
O. V. Kuznetsova |
160 |
[GO] |
Regional Research of Russia |
2021―Oct―04 |
Influence of the COVID-19 Pandemic on the Change in Volume and Spatial Structure of the Tourist Flow in Finland and Estonia in 2020 |
I. A. Ivanov, E. S. Golomidova, N. K. Terenina |
161 |
[GO] |
Regional Research of Russia |
2021―Oct―04 |
Opportunities for Decentralization in a Pandemic Year: What Does Budget Analysis Show? |
N. V. Zubarevich |
162 |
[GO] |
Regional Research of Russia |
2020―Dec―16 |
Russian Regions in the Acute Phase of the Coronavirus Crisis: Differences from Previous Economic Crises of the 2000s |
N. V. Zubarevich, S. G. Safronov |
163 |
[GO] |
Regional Research of Russia |
2020―Oct―20 |
COVID-19: Spatial Dynamics and Diffusion Factors across Russian Regions |
S. P. Zemtsov, V. L. Baburin |
164 |
[GO] |
Russian Journal of Bioorganic Chemistry |
2024―Jan―10 |
Virtual Screening of Orally Active Lead Compounds of Pearl Millet and Their Structural Activity Against Target Protein of COVID-19 |
Adarsh Kumar Shukla, Ashwani Kumar |
165 |
[GO] |
Russian Journal of Bioorganic Chemistry |
2023―Dec―25 |
Composition of Lipophilic Components of Rhododendron adamsii Rehd. Ether Extract and Activity against SARS-CoV-2 Main Protease |
T. P. Kukina, I. A. Elshin, O. I. Sal’nikova, P. V. Kolosov, Ts. Sandag, D. A. Karakai, et al. (+6) M. A. Bondareva, A. A. Nefedov, V. Yu. Chirkova, E. A. Sharlaeva, S. V. Belen’kaya, D. N. Shcherbakov |
166 |
[GO] |
Russian Journal of Bioorganic Chemistry |
2023―Nov―23 |
Synthesis of 5-Halo-2ʹ-Azido Derivatives of Cytidine and N-Hydroxycytidine and Evaluation of Their Antiviral Activity on a Panel of RNA Viruses, Including SARS-CoV-2 |
P. N. Kamzeeva, E. S. Kolpakova, E. V. Karpova, M. O. Borodulina, E. V. Yakovchuk, V. A. Alferova, et al. (+4) A. A. Chistov, E. S. Belyaev, L. I. Kozlovskaya, A. V. Aralov |
167 |
[GO] |
Russian Journal of Bioorganic Chemistry |
2023―Aug―21 |
Condensates of SARS-CoV-2 Nucleoprotein on Viral RNA and Their Small Molecule Modulators (A Review) |
Yu. I. Svetlova, Yu. I. Pavlova, A. V. Aralov, A. M. Varizhuk |
168 |
[GO] |
Russian Journal of Bioorganic Chemistry |
2023―Aug―17 |
Species-Level Identification of SARS-CoV-2 by an E Gene Conservative Site |
S. A. Lapa, A. A. Shingareva, E. B. Faizuloev, Yu. I. Ammour, V. E. Shershov, A. V. Chudinov |
169 |
[GO] |
Russian Journal of Bioorganic Chemistry |
2023―Aug―17 |
Synthesis of Liposomes Conjugated with CpG-Oligonucleotide and Loaded with a Set of T-Cell Epitopes of the SARS-CoV-2 Virus |
D. S. Tretiakova, T. L. Azhikina, I. A. Boldyrev, E. V. Svirshchevskaya, E. L. Vodovozova |
170 |
[GO] |
Russian Journal of Bioorganic Chemistry |
2023―May―11 |
Effective Drug Candidates against Global Pandemic of Novel Corona Virus (nCoV-2019): A Probability Check through Computational Approach for Public Health Emergency |
C. G. Bonde, J. Gawad, R. P. Bhole, S. C. Bonde, R. V. Chikhale |
171 |
[GO] |
Russian Journal of Bioorganic Chemistry |
2023―Mar―01 |
Proof-of-Concept Study of Liposomes with a Set of SARS-CoV-2 Viral Peptidic T-Cell Epitopes as a Vaccine |
D. S. Tretiakova, A. S. Alekseeva, N. R. Onishchenko, I. A. Boldyrev, N. S. Egorova, D. V. Vasina, et al. (+8) V. A. Gushchin, A. S. Chernov, G. B. Telegin, V. A. Kazakov, K. S. Plokhikh, M. V. Konovalova, E. V. Svirshchevskaya, E. L. Vodovozova |
172 |
[GO] |
Russian Journal of Bioorganic Chemistry |
2022―Dec―23 |
Erratum to: Prospects for the Use of Marine Sulfated Fucose-Rich Polysaccharides in Treatment and Prevention of COVID-19 and Post-COVID-19 Syndrome |
M. V. Kiselevskiy, N. Yu. Anisimova, M. I. Bilan, A. I. Usov, N. E. Ustyuzhanina, A. A. Petkevich, et al. (+3) I. Zh. Shubina, G. E. Morozevich, N. E. Nifantiev |
173 |
[GO] |
Russian Journal of Bioorganic Chemistry |
2022―Oct―20 |
Prospects for the Use of Marine Sulfated Fucose-Rich Polysaccharides in Treatment and Prevention of COVID-19 and Post-COVID-19 Syndrome |
M. V. Kiselevskiy, N. Yu. Anisimova, M. I. Bilan, A. I. Usov, N. E. Ustyuzhanina, A. A. Petkevich, et al. (+3) I. Zh. Shubina, G. E. Morozevich, N. E. Nifantiev |
174 |
[GO] |
Russian Journal of Bioorganic Chemistry |
2021―Aug―21 |
Drugs that Might Be Possibly Used for Treatment of COVID-19 Patients |
Mehdi Salih Shihab, Baram Hamah-Ameen |
175 |
[GO] |
Russian Journal of Bioorganic Chemistry |
2021―Jun―11 |
A Mini Review on Discovery and Synthesis of Remdesivir as an Effective and Promising Drug against COVID-19 |
E. Zarenezhad, S. Behrouz, M. Farjam, M. N. Soltani Rad |
176 |
[GO] |
Russian Journal of Bioorganic Chemistry |
2021―Mar―20 |
Synthesis, Molecular Docking, In Silico ADME Predictions, and Toxicity Studies of N-Substituted-5-(4-Chloroquinolin-2-yl)-1,3,4-Thiadiazol-2-Amine Derivatives as COVID-19 Inhibitors |
Walaa S. El-Serwy, Weam S. El-Serwy |
177 |
[GO] |
Russian Journal of Coordination Chemistry |
2023―Oct―05 |
Interaction of Cobalt Tetrasulfophthalocyanine with ORF8 Accessory Protein of SARS-CoV-2 |
O. I. Koifman, V. E. Maizlish, N. Sh. Lebedeva, E. S. Yurina, S. S. Guseinov, E. L. Guriev, Yu. A. Gubarev |
178 |
[GO] |
Russian Journal of General Chemistry |
2022―Jun―20 |
Interaction of 5-[4′-(N-Methyl-1,3-benzimidazol-2-yl)phenyl]-10,15,20-tri-(N-methyl-3′-pyridyl)porphyrin Triiodide with SARS-CoV-2 Spike Protein |
S. A. Syrbu, A. N. Kiselev, M. A. Lebedev, Yu. A. Gubarev, E. S. Yurina, N. Sh. Lebedeva |
179 |
[GO] |
Russian Journal of General Chemistry |
2022―Mar―16 |
Some Novel [6-(Isoxazol-5-ylmethoxy)-3-methylbenzofuran-2-yl]phenylmethanone Derivatives, Their Antimicrobial Activity, and Molecular Docking Studies on COVID-19 |
N. Umapathi, B. Shankar, M. Raghavender, T. Vishnu, P. Jalapathi |
180 |
[GO] |
Russian Journal of General Chemistry |
2021―Oct―27 |
Synthesis of New Binary Thiazole-Based Heterocycles and Their Molecular Docking Study as COVID-19 Main Protease (Mpro) Inhibitors |
E. Abdel-Latif, T. K. Khatab, A. Fekri, M. E. Khalifa |
181 |
[GO] |
Russian Journal of General Chemistry |
2021―Jul―30 |
Synthesis of Hetaryl-Substituted Asymmetric Porphyrins and Their Affinity to SARS-CoV-2 Helicase |
S. A. Syrbu, A. N. Kiselev, M. A. Lebedev, Yu. A. Gubarev, E. S. Yurina, N. Sh. Lebedeva |
182 |
[GO] |
Russian Journal of General Chemistry |
2021―Jun―17 |
New Cr(III), Mn(II), Fe(III), Co(II), Ni(II), Zn(II), Cd(II), and Hg(II) Gibberellate Complexes: Synthesis, Structure, and Inhibitory Activity Against COVID-19 Protease |
Moamen S. Refat, T. Altalhi, Safyah B. Bakare, Ghaferah H. Al-Hazmi, Kehkashan Alam |
183 |
[GO] |
Russian Journal of Genetics |
2024―Mar―10 |
The Role of Changes in Structure and Dynamics of Chromatin due to COVID-19 |
A. E. Bigildeev, V. I. Alekseev, A. K. Gribkova, G. S. Timokhin, G. A. Komarova, A. K. Shaytan |
184 |
[GO] |
Russian Journal of Genetics |
2023―Nov―28 |
The Cellular and Epigenetic Aspects of Trained Immunity and Prospects for Creation of Universal Vaccines on the Eve of More Frequent Pandemics |
I. V. Alekseenko, R. G. Vasilov, L. G. Kondratyeva, S. V. Kostrov, I. P. Chernov, E. D. Sverdlov |
185 |
[GO] |
Russian Journal of Genetics |
2021―Aug―30 |
Genetic Risk Factors for the Development of COVID-19 Coronavirus Infection |
O. S. Glotov, A. N. Chernov, S. G. Scherbak, V. S. Baranov |
186 |
[GO] |
Russian Journal of Genetics |
2021―Aug―30 |
SNP rs657152 Is Not Associated with the Level of Viral Load in COVID-19 or the Probability of Disease in the Population of Caucasians in Eastern Siberia |
E. A. Orlova, O. B. Ogarkov, P. A. Khromova, V. V. Sinkov, M. A. Khasnatinov, S. N. Zhdanova, et al. (+2) L. V. Rychkova, L. I. Kolesnikova |
187 |
[GO] |
Russian Journal of Genetics |
2021―Jul―03 |
Genetic Control of Human Infection with SARS-CoV-2 |
A. N. Kucher, N. P. Babushkina, A. A. Sleptcov, M. S. Nazarenko |
188 |
[GO] |
Russian Journal of Organic Chemistry |
2021―Jun―09 |
Main Chemotypes of SARS-CoV-2 Reproduction Inhibitors |
V. A. Shiryaev, Yu. N. Klimochkin |
189 |
[GO] |
Russian Journal of Physical Chemistry A |
2023―Dec―17 |
Theoretical Investigation of (E)-1-(2,4-Dichlorophenyl)-3-[4-(morpholin-4-yl)phenyl]prop-2-en-1-one Molecule As a Possible Potential COVID-19 Drug Candidate: Molecular Docking and DFT Calculations |
Yavuz Ekíncíoğlu |
190 |
[GO] |
Russian Journal of Physical Chemistry A |
2023―Jun―06 |
Effect of Et2Zn on Binding Spike Protein of SARS-Cov-2 and ACE2 from Cell Membrane |
Mahsa Mahmoudi Karamjavan, Alireza Monadi Sefidan |
191 |
[GO] |
Russian Journal of Physical Chemistry A |
2023―Mar―23 |
Impact of Drug Repurposing on SARS-Cov-2 Main Protease |
Umar Ndagi, Maryam Abdullahi, Asmau N. Hamza, Mohd G. Magaji, Ndumiso N. Mhlongo, Makun Babazhitsu, et al. (+3) Hussaini Majiya, Hussaini Anthony Makun, Monsurat M. Lawal |
192 |
[GO] |
Russian Journal of Physical Chemistry A |
2022―Dec―30 |
DFT Study Adsorption of Hydroxychloroquine for Treatment COVID-19 by SiC Nanotube and Al, Si Doping on Carbon Nanotube Surface: A Drug Delivery Simulation |
Zaid H. Al-Sawaff, Serap Senturk Dalgic, Fatma Kandemirli, Majid Monajjemi, Fatemeh Mollaamin |
193 |
[GO] |
Russian Journal of Physical Chemistry A |
2022―Aug―22 |
Phytochemicals As a Potential Inhibitor of COVID-19: An In-Silico Perspective |
Rasheed M. A. Q. Jamhour, Afaf H. Al-Nadaf, Fadel Wedian, Ghassab M. Al-Mazaideh, Morad Mustafa, Mohammed Ayed Huneif, et al. (+6) Sabry Younis Mahmoud, Eman Saleh Farrag, Fuad Al-Rimawi, Haya Ayyal Salman, Ali Abdallah Alqudah, Fadi Alakhras |
194 |
[GO] |
Russian Journal of Physical Chemistry B |
2024―Apr―02 |
Lipid-Mediated Effect of Glycyrrhizin on the Properties of the Transmembrane Domain of the E-Protein of the Sars-Cov-2 Virus |
P. A. Kononova, O. Yu. Selyutina, N. E. Polyakov |
195 |
[GO] |
Russian Journal of Physical Chemistry B |
2022―Apr―21 |
Molecular Docking of Cyanine and Squarylium Dyes with NSP15 Endoribonuclease of the SARS-CoV-2 Coronavirus |
P. G. Pronkin, A.S. Tatikolov |
196 |
[GO] |
Russian Journal of Physical Chemistry B |
2021―Apr―23 |
Model of the RNA Polymerase Complex of the SARS-CoV-2 Virus with Favipiravir |
I. V. Polyakov, B. L. Grigorenko, A. V. Nemukhin |
197 |
[GO] |
Russian Journal of Physical Chemistry B |
2021―Apr―23 |
Polymethine Dyes as Probes for Detecting the SARS-COV-2 Coronavirus: In silico Molecular Docking Study |
P. G. Pronkin, A. S. Tatikolov |
198 |
[GO] |
Studies on Russian Economic Development |
2023―Jul―13 |
Unevenness in the Economic Impact of the COVID-19 Pandemic: The Depth of the Economic Decline in Different Countries and the Factors that Caused It |
G. A. Petrosyan, I. B. Petrosyan, E. G. Petrosyan |
199 |
[GO] |
Studies on Russian Economic Development |
2022―Jun―02 |
Russian Enterprises at the End of 2021: Covering the Consequences of the Covid-19 Pandemic and Activities for the Greening of Production |
D. B. Kuvalin, Yu. V. Zinchenko, P. A. Lavrinenko |
200 |
[GO] |
Studies on Russian Economic Development |
2021―Nov―05 |
Russian Enterprises in Spring 2021: What Has Changed during the Covid-19 Pandemic Year |
D. B. Kuvalin, Yu. V. Zinchenko, P. A. Lavrinenko |
201 |
[GO] |
Studies on Russian Economic Development |
2021―Aug―02 |
The COVID-19 Pandemic: New Knowledge on the Impact of Air Quality on the Spread of Coronavirus Infection in Cities |
B. A. Revich, D. A. Shaposhnikov |
202 |
[GO] |
Studies on Russian Economic Development |
2021―Aug―02 |
A Critical Review of Mass Media and Non-Academic Reports Forecasts of the Economic Effects of COVID-19 within the Frame of Crisis Management |
Greg Simons |
203 |
[GO] |
Studies on Russian Economic Development |
2021―May―24 |
Russian Companies in Autumn 2020: Activities in the COVID-19 Pandemic and Views on the Transition to the Best Available Technologies (BAT) |
D. B. Kuvalin, Yu. V. Zinchenko, P. A. Lavrinenko |
204 |
[GO] |
Studies on Russian Economic Development |
2021―May―24 |
The Pandemic Crisis as a Challenge for Economic Analysis and Policy |
A. A. Shirov |
205 |
[GO] |
Studies on Russian Economic Development |
2021―Feb―20 |
Forcing the Digital Economy: How will the Structure of Digital Markets Change as a Result of the COVID-19 Pandemic |
N. A. Ganichev, O. B. Koshovets |
206 |
[GO] |
Studies on Russian Economic Development |
2021―Feb―20 |
Russian Enterprises in the Spring 2020: Covid-19 Pandemic Reactions and Opinions on the Role of the State in the Economy |
D. B. Kuvalin, Yu. V. Zinchenko, P. A. Lavrinenko |
207 |
[GO] |
Technical Physics |
2023―Dec―20 |
Scenario Modeling of Regional Epidemics of SARS-COV-2 and Analysis of Immunological Aspects of New Expected COVID Waves |
A. Yu. Perevaryukha |
208 |
[GO] |
Technical Physics Letters |
2024―Feb―09 |
Modeling of Transformations during the Formation of Local Waves of SARS-CoV-2 Spreading at the Endemic Stage of the Pandemic |
A. Yu. Perevaryukha |
209 |
[GO] |
Technical Physics Letters |
2023―May―11 |
Analysis of Regional Scenarios of New Epidemic Waves of SARS-CoV-2 Coronavirus Based on Equations with a Deviating Argument and Damping Functions |
A. Yu. Perevaryukha |
210 |
[GO] |
Water Resources |
2023―Nov―24 |
Effect of Seasonal Variations and Impact Assessment of COVID-19 Lockdown on Water Quality Status of Hindon River, Ghaziabad |
N. Verma, A. Kumar, N. Singh |
211 |
[GO] |
Water Resources |
2023―Jul―20 |
Temporal Variation of Water Quality Parameters during COVID-19: A Case Study of River Yamuna |
Bhupendra Pratap Singh, Puneeta Pandey, Monika Koul, Bela Bhatia, Amit Kumar Singh, Kriti Mehra, et al. (+3) Khyati Chowdhary, Ranjeet Kumar, Vanshika Goel |
212 |
[GO] |
Российские нанотехнологии |
2021―Oct―12 |
ЭФФЕКТИВНОСТЬ СРЕДСТВ ИНДИВИДУАЛЬНОЙ ЗАЩИТЫ ОРГАНОВ ДЫХАНИЯ ОТ ВИРУСОВ SARS-CoV-2 И ПЕРСПЕКТИВЫ ЕЕ УВЕЛИЧЕНИЯ |
К. И. Луканина, А. К. Будыка, И. Е. Ребров, К. Г. Антипова, С. Н. Малахов, А. Д. Шепелев, et al. (+3) Т. Е. Григорьев, В. А. Ямщиков, С. Н. Чвалун |