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1. Key interplay between the co-opted sorting nexin-BAR proteins and PI3P phosphoinositide in the formation of the tombusvirus replicase.

2. Recruitment of Vps34 PI3K and enrichment of PI3P phosphoinositide in the viral replication compartment is crucial for replication of a positive-strand RNA virus.

3. Assembly-hub function of ER-localized SNARE proteins in biogenesis of tombusvirus replication compartment.

4. The role of co-opted ESCRT proteins and lipid factors in protection of tombusviral double-stranded RNA replication intermediate against reconstituted RNAi in yeast.

5. Viral Replication Protein Inhibits Cellular Cofilin Actin Depolymerization Factor to Regulate the Actin Network and Promote Viral Replicase Assembly.

6. The expanding functions of cellular helicases: the tombusvirus RNA replication enhancer co-opts the plant eIF4AIII-like AtRH2 and the DDX5-like AtRH5 DEAD-box RNA helicases to promote viral asymmetric RNA replication.

7. A Co-Opted DEAD-Box RNA helicase enhances tombusvirus plus-strand synthesis.

8. Iron-mediated degradation of ribosomes under oxidative stress is attenuated by manganese

10. Screening Legionella effectors for antiviral effects reveals Rab1 GTPase as a proviral factor coopted for tombusvirus replication

11. EVALUATION OF TEST COMPOUNDS EFFICACY IN REDUCTION OF NEUROLOGICAL DEFICITS IN THE RAT CHRONIC CEREBROVASCULAR INSUFFICIENCY MODEL (CVI) v1

12. Reconstitution of an RNA Virus Replicase in Artificial Giant Unilamellar Vesicles Supports Full Replication and Provides Protection for the Double-Stranded RNA Replication Intermediate

13. Co-opted Cellular Sac1 Lipid Phosphatase and PI(4)P Phosphoinositide Are Key Host Factors during the Biogenesis of the Tombusvirus Replication Compartment

14. Interviral Recombination between Plant, Insect, and Fungal RNA Viruses: Role of the Intracellular Ca 2+ /Mn 2+ Pump

15. Screening

16. Key interplay between the co-opted sorting nexin-BAR proteins and PI3P phosphoinositide in the formation of the tombusvirus replicase

17. Role of Viral RNA and Co-opted Cellular ESCRT-I and ESCRT-III Factors in Formation of Tombusvirus Spherules Harboring the Tombusvirus Replicase

18. Assembly-hub function of ER-localized SNARE proteins in biogenesis of tombusvirus replication compartment

19. The role of co-opted ESCRT proteins and lipid factors in protection of tombusviral double-stranded RNA replication intermediate against reconstituted RNAi in yeast

20. It Takes Two to Evolve Too. The Hypothesis on Three Primary Communication Transitions in Evolution

21. Effect of thinning on growth and commodity structure of mixed stands of pine and spruce of wood-sorrel family type forests

22. Template Role of Double-Stranded RNA in Tombusvirus Replication

23. Recruitment of Vps34 PI3K and enrichment of PI3P phosphoinositide in the viral replication compartment is crucial for replication of a positive-strand RNA virus

24. The GEF1 Proton-Chloride Exchanger Affects Tombusvirus Replication via Regulation of Copper Metabolism in Yeast

25. Viral Replication Protein Inhibits Cellular Cofilin Actin Depolymerization Factor to Regulate the Actin Network and Promote Viral Replicase Assembly

26. Similar roles for yeast Dbp2 and Arabidopsis RH20 DEAD-box RNA helicases to Ded1 helicase in tombusvirus plus-strand synthesis

27. RNA chaperone activity of the tombusviral p33 replication protein facilitates initiation of RNA synthesis by the viral RdRp in vitro

28. Cleavage of RNA by an amphiphilic compound lacking traditional catalytic groups

29. Novel Mechanism of Regulation of Tomato Bushy Stunt Virus Replication by Cellular WW-Domain Proteins

30. Artificial ribonucleases 6. Ribonuclease activity of tetrapeptides based on amino acids involved in the catalytic site of RNase T1

31. Structure-activity relationships in new polycationic molecules based on two 1,4-diazabicyclo[2.2.2]octanes as artificial ribonucleases

32. The Expanding Functions of Cellular Helicases: The Tombusvirus RNA Replication Enhancer Co-opts the Plant eIF4AIII-Like AtRH2 and the DDX5-Like AtRH5 DEAD-Box RNA Helicases to Promote Viral Asymmetric RNA Replication

33. Cyclophilin A binds to the viral RNA and replication proteins, resulting in inhibition of tombusviral replicase assembly

34. A Co-Opted DEAD-Box RNA helicase enhances tombusvirus plus-strand synthesis

35. [Polycationic catalysts for phosphodiester bond cleavage on the basis of 1,4-diazabicyclo[2.2.2]octane]

37. Artificial ribonucleases: from combinatorial libraries to efficient catalysts of RNA cleavage

38. Modified binary hammerhead ribozymes with high catalytic activity

39. Prerequisites of development of transnational integration of economics of Middle Urals

40. Screening a yeast library of temperature-sensitive mutants reveals a role for actin in tombusvirus RNA recombination

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