| |
original article |
Date |
Title |
Authors All Authors |
| 1 |
[GO] |
2026―Jan―24 |
Potential pandemic: Biothermodynamic analysis of the Yellow fever virus-host interaction |
Marko E. Popović, Maja Stevanović, Stefan Panić |
| 2 |
[GO] |
2024―Apr―07 |
Using Quantitative Microbial Risk Assessment (QMRA) of SARS-CoV-2 to understand possible exposure to health risks in selected wastewater treatment plants located in the Eastern region of South Africa |
Velisa Vuyolwethu Qongwe, Kingsley Ehi Ebomah, Luyanda Msolo, Nolonwabo Nontongana, Anthony Ifeanyi Okoh |
| 3 |
[GO] |
2024―Feb―01 |
The wind of change: Gibbs energy of binding and infectivity evolution of Omicron BA.2.86 Pirola, EG.5.1, XBB.1.16 Arcturus, CH.1.1 and BN.1 variants of SARS-CoV-2 |
Marko E. Popović, Gavrilo Šekularac, Marta Popović |
| 4 |
[GO] |
2023―Oct―18 |
Eris - another brick in the wall: Empirical formulas, molar masses, biosynthesis reactions, enthalpy, entropy and Gibbs energy of Omicron EG.5 Eris and EG.5.1 variants of SARS-CoV-2 |
Marko E. Popović, Marijana Pantović Pavlović, Marta Popović |
| 5 |
[GO] |
2023―Sep―24 |
In silico Binding Affinity of the Spike Protein with ACE2 and the Relative Evolutionary Distance of S Gene may be Potential Factors Rapidly Obtained for the Initial Risk of SARS-CoV-2 |
Aki Sugano, Junon Murakami, Haruyuki Kataguchi, Mika Ohta, Yoshiaki Someya, Shigemi Kimura, et al. (+5) Akira Kanno, Yoshimasa Maniwa, Toshihide Tabata, Kazuyuki Tobe, Yutaka Takaoka |
| 6 |
[GO] |
2023―Jul―25 |
Upcoming epidemic storm: Empirical formulas, biosynthesis reactions, thermodynamic properties and driving forces of multiplication of the omicron XBB.1.9.1, XBF and XBB.1.16 (Arcturus) variants of SARS-CoV-2 |
Marko E. Popovic, Marija Mihailović, Stefan Panić |
| 7 |
[GO] |
2023―May―20 |
Ghosts of the past: Elemental composition, biosynthesis reactions and thermodynamic properties of Zeta P.2, Eta B.1.525, Theta P.3, Kappa B.1.617.1, Iota B.1.526, Lambda C.37 and Mu B.1.621 variants of SARS-CoV-2 |
Marko Popovic, Marijana Pantović Pavlović, Miroslav Pavlović |
| 8 |
[GO] |
2023―Mar―22 |
SARS-CoV-2 strain wars continues: Chemical and thermodynamic characterization of live matter and biosynthesis of Omicron BN.1, CH.1.1 and XBC variants |
Marko Popovic |
| 9 |
[GO] |
2023―Feb―04 |
The SARS-CoV-2 Hydra, a tiny monster from the 21st century: Thermodynamics of the BA.5.2 and BF.7 variants |
Marko Popovic |
| 10 |
[GO] |
2023―Feb―03 |
Never ending story? Evolution of SARS-CoV-2 monitored through Gibbs energies of biosynthesis and antigen-receptor binding of Omicron BQ.1, BQ.1.1, XBB and XBB.1 variants |
Marko Popovic |
| 11 |
[GO] |
2022―Oct―25 |
Why doesn't Ebola virus cause pandemics like SARS-CoV-2? |
Marko Popovic |
| 12 |
[GO] |
2022―Oct―08 |
Seasonal Variation in the Transmission Rate of Covid-19 in a Temperate Climate can be Implemented in Epidemic Population Models by using Daily Average Temperature as a proxy for Seasonal Changes in Transmission Rate |
Morten Guldborg Johnsen, Lasse Engbo Christiansen, Kaare Graaboll |
| 13 |
[GO] |
2022―Aug―31 |
Beyond COVID-19: Do biothermodynamic properties allow predicting the future evolution of SARS-CoV-2 variants? |
Marko Popovic |
| 14 |
[GO] |
2022―Aug―21 |
Strain Wars 5: Gibbs energies of binding of BA.1 through BA.4 variants of SARS-CoV-2 |
Marko Popovic |
| 15 |
[GO] |
2022―Jun―16 |
Prediction of infectivity of SARS-CoV2: Mathematical model with analysis of docking simulation for spike proteins and angiotensin-converting enzyme 2 |
Yutaka Takaoka, Aki Sugano, Yoshitomo Morinaga, Mika Ohta, Kenji Miura, Haruyuki Kataguchi, et al. (+3) Minoru Kumaoka, Shigemi Kimura, Yoshimasa Maniwa |
| 16 |
[GO] |
2022―Apr―12 |
Strain wars 3: Differences in infectivity and pathogenicity between Delta and Omicron strains of SARS-CoV-2 can be explained by thermodynamic and kinetic parameters of binding and growth |
Marko Popovic |
| 17 |
[GO] |
2022―Mar―31 |
Assessment of COVID-19 risk and prevention effectiveness among spectators of mass gathering events |
Tetsuo Yasutaka, Michio Murakami, Yuichi Iwasaki, Wataru Naito, Masaki Onishi, Tsukasa Fujita, Seiya Imoto |
| 18 |
[GO] |
2022―Feb―05 |
Strain Wars: Competitive interactions between SARS-CoV-2 strains are explained by Gibbs energy of antigen-receptor binding |
Marko Popovic, Marta Popovic |
| 19 |
[GO] |
2021―Dec―11 |
Effects of Test Timing and Isolation Length to Reduce the Risk of COVID-19 Infection Associated with Airplane Travel, as Determined by Infectious Disease Dynamics Modeling |
Masashi Kamo, Michio Murakami, Seiya Imoto |
| 20 |
[GO] |
2021―Dec―04 |
Using thermodynamic equilibrium models to predict the effect of antiviral agents on infectivity: Theoretical application to SARS-CoV-2 and other viruses. |
Paul Gale |
| 21 |
[GO] |
2021―Mar―21 |
COVID-19 risk assessment at the opening ceremony of the Tokyo 2020 Olympic Games |
Michio Murakami, Fuminari Miura, Masaaki Kitajima, Kenkichi Fujii, Tetsuo Yasutaka, Yuichi Iwasaki, et al. (+14) Kyoko Ono, Yuzo Shimazu, Sumire Sorano, Tomoaki Okuda, Akihiko Ozaki, Kotoe Katayama, Yoshitaka Nishikawa, Yurie Kobashi, Toyoaki Sawano, Toshiki Abe, Masaya M. Saito, Masaharu Tsubokura, Wataru Naito, Seiya Imoto |
| 22 |
[GO] |
2021―Mar―12 |
Simulation and prediction of spread of COVID-19 in The Republic of Serbia by SEIRDS model of disease transmission |
Slavoljub Stanojevic, Mirza Ponjavic, Slobodan Stanojevic, Aleksandar Stevanovic, Sonja Radojicic |
| 23 |
[GO] |
2020―Sep―19 |
Thermodynamic equilibrium dose-response models for MERS-CoV infection reveal a potential protective role of human lung mucus but not for SARS-CoV-2 |
Paul Gale |
| 24 |
[GO] |
2020―Aug―30 |
Sentinel Coronavirus Environmental Monitoring Can Contribute to Detecting Asymptomatic SARS-CoV-2 Virus Spreaders and Can Verify Effectiveness of Workplace COVID-19 Controls |
Douglas L. Marshall, Frederic Bois, Soren K.S. Jensen, Svend A. Linde, Richard Higby, Yvoine Rémy-McCort, et al. (+4) Sean Murray, Bryan Dieckelman, Fitri Sudradjat, Gilles G. Martin |
