Newcastle University
7. Hibernating ribosomes as drug targets?
Ekemezie CL, Melnikov SV (2024)
6. Rippling life on a dormant planet: hibernation of ribosomes, RNA polymerases and other essential enzymes
Helena-Bueno K, Chan LI, Melnikov SV (2024)
5. Gosha: a database of organisms with defined optimal growth temperatures
Helena-Bueno K, Brown CR, Konyk E, Melnikov SV (2024)
4. The structure of dormant bacterial ribosomes reveals an elusive hibernation factor of protein synthesis
Helena-Bueno K, Rybak MYu, Ekemezie CL, Sullivan R, Brown CR, Dingwall C, Basle A, Schneider C, Connolly JPR, Blaza JN, Csörgő B, Moynihan PJ, Gagnon MG, Hill CH, Melnikov SV (2024)
3. A conserved ribosomal protein has entirely different structures in different organisms
Schierholz L, Brown CR, Helena-Bueno K, Uversky VN, Barandun J, Melnikov SV (2023)
Molecular Biology and Evolution,41:msad254 PDF
2. Ribosomal proteins hold a more accurate record of thermal adaptation compared to rRNA
van den Elzen A, Helena-Bueno K, Brown CR, Chan LI, Melnikov SV (2023)
1. “Lose-to-gain” adaptation to genome decay in the structure of the smallest eukaryotic ribosomes
Nicholson D, Salamina M, Panek J, Helena-Bueno K, Brown CR, Hirt RP, Ranson NA, Melnikov SV (2022)
14. Engineered mRNA–ribosome fusions for facile biosynthesis of selenoproteins
Thaenert A, Sevostyanova A, Chung CZ, Vargas-Rodriguez O, Melnikov SV, Söll D (2024)
13. tRNA shape as an identity element for an archaeal pyrrolysyl-tRNA synthetases from the human gut
Krahn N, Zhang J, Melnikov SV, Tharp JM, Villa A, Patel A, Howard RJ, Gabir H, Patel TR, Stetefeld J, Puglisi J, Söll D (2023)
12. Translation machinery for deliberate genetic code mistranslation
Vargas-Rodriguez O, Badranb AH, Hoffmanc KS, Chend M, Crnkovica A, Dingd Y, Kriegerc JR, Söll D, Melnikov SV (2021)
11. Exploiting evolutionary trade-offs for post-treatment management of drug-resistant populations
Melnikov SV, Stevens DL, Fu X, Kwok HS, Zhang J-T, Shen Y, Sabina J, Lee K, Lee H, Söll D (2020)
10. Archaeal ribosomal proteins possess NLS-type motifs: implications for the origin of the cell nucleus
Melnikov SV, HS Kwok, K Manakongtreecheep, A van den Elzen, CC Thoreen, D Söll (2020)
9. Engineered tRNA synthetases with improved selectivity toward noncanonical amino acids
Kwok HS , Vargas-Rodriguez O, Melnikov SV, Söll D (2019)
8. tRNA synthetases and tRNAs for an expanded genetic code: what makes them orthogonal?
Melnikov SV, Söll D (2019)
7. Mechanistic insights into the slow peptide bond formation with D-amino acids
Melnikov SV, Khabibullina NF, Mairhofer E, Vargas-Rodriguez O, Reynolds NM, Micura R, Söll D, Polikanov YS (2018)
6. Loss of protein synthesis quality control in host-restricted organisms
Melnikov SV, van den Elzen A, Stevens DL, Thoreen CC, Söll D (2018)
5. Muller’s ratchet and ribosome degeneration in the obligate intracellular parasites Microsporidia
Melnikov SV, Manakongtreecheep K, Rivera K, Makarenko A, Pappin D, Söll D (2018)
4. Error-prone protein synthesis in parasites with the smallest eukaryotic genome
Melnikov SV, Rivera K, Ostapenko D, Makarenko A, Sanscrainte N, Becnel J, Solomon M, Texier C, Pappin D, Söll D (2018)
3. Revising the structural diversity of ribosomal proteins across the three domains of life
Melnikov SV, Manakongtreecheep K, Söll D (2018)
2. RNA binding by the anticancer drug cisplatin
Melnikov SV, Söll D, Steitz TA, Polikanov YS (2016)
1. Insights into the role of rRNA modifications in protein synthesis and ribosome assembly
Polikanov YS#, Melnikov SV#, Söll D, Steitz TA (2015)
Strasbourg University
7. Insights into the role of diphthamide on longation factor 2 in mRNA reading-frame maintenance
Pellegrino S, Demeshkina N, Mancera-Martinez E, Melnikov SV, Simonetti A, Myasnikov A, Yusupov M, Yusupova G, Hashem Y (2018)
6. Molecular insights into protein synthesis with proline residues
Melnikov SV, Mailliot J, Rigger L, Neuner S, Shin BS, Yusupova G, Yusupov M (2016)
5. Structure of hypusine-containing translation factor eIF5A bound to a rotated eukaryotic ribosome
Melnikov SV, Mailliot J, Shin BS, Rigger L, Yusupova G, Micura R, Dever TE, Yusupov M (2015)
4. Insights into the origin of the nuclear localization signals in conserved ribosomal proteins
Melnikov SV, Ben-Shem A, Yusupova G, Yusupov M (2015)
3. Crystal structure of the 80S yeast ribosome
Jenner L, Melnikov SV, de Loubresse NG, Ben-Shem A, Iskakova M, Urzhumtsev A, Meskauskas A, Dinman J, Yusupova G, Yusupov M (2012)
2. One core, two shells: bacterial and eukaryotic ribosomes
Melnikov SV, Ben-Shem A, de Loubresse NG, Jenner L, Yusupova G, Yusupov M (2012)
1. The structure of the eukaryotic ribosome at 3.0 Å resolution
Ben-Shem A#, de Loubresse NG#, Melnikov SV#, Jenner L, Yusupova G, Yusupov M (2011)
Moscow State University
4. Effect of prothymosin α and its mutants on the activity of the p53 tumor suppressor
Zakharova NI, Sokolov VV, Roudko VV, Melnikov SV, Vartapetian AB, Evstafieva AG (2008)
3. Interaction with Keap1 does not lead to ubiquitination and degradation of prothymosin α
Melnikov SV, Evstafieva AG, Vartapetian AB (2007)
2. New functions of a well-known protein: prothymosin α in defence from apoptosis and oxidative stress
Evstafieva AG, Karapetian RN, Rubtsov YP, Filonov GS, Abaeva IS, Fateeva TV, Melnikov SV, Chichkova NV, Vartapetian AB (2005)
1. Nuclear oncoprotein prothymosin α binds Keap1 to regulate expression of oxidative stress-protecting genes
Karapetian RN, Evstafieva AG, Abaeva IS, Chichkova NV, Filonov GS, Rubtsov YP, Sukhacheva EA, Melnikov SV, Schneider U, Wanker EE, Vartapetian AB (2005)
