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1. Temperature-Dependent tRNA Modifications in Bacillales

2. CCA-addition in the cold: Structural characterization of the psychrophilic CCA-adding enzyme from the permafrost bacterium Planococcus halocryophilus

3. A streamlined protocol for the detection of mRNA–sRNA interactions using AMT-crosslinking in vitro

4. A simple and versatile microfluidic device for efficient biomacromolecule crystallization and structural analysis by serial crystallography

5. Changes of the tRNA Modification Pattern during the Development of Dictyostelium discoideum

6. Adaptation of the Romanomermis culicivorax CCA-Adding Enzyme to Miniaturized Armless tRNA Substrates

7. Unusual Occurrence of Two Bona-Fide CCA-Adding Enzymes in Dictyostelium discoideum

8. Divergent Evolution of Eukaryotic CC- and A-Adding Enzymes

9. Monitoring the Production of High Diffraction-Quality Crystals of Two Enzymes in Real Time Using In Situ Dynamic Light Scattering

10. From End to End: tRNA Editing at 5'- and 3'-Terminal Positions

11. A Temporal Order in 5′- and 3′- Processing of Eukaryotic tRNAHis

12. Substrate Affinity Versus Catalytic Efficiency: Ancestral Sequence Reconstruction of tRNA Nucleotidyltransferases Solves an Enzyme Puzzle

13. A simple and versatile microfluidic device for efficient biomacromolecule crystallization and structural analysis by serial crystallography

14. Crystallization and Structural Determination of an Enzyme:Substrate Complex by Serial Crystallography in a Versatile Microfluidic Chip

15. CCA-Addition Gone Wild: Unusual Occurrence and Phylogeny of Four Different tRNA Nucleotidyltransferases in Acanthamoeba castellanii

16. Adaptation of theRomanomermis culicivoraxCCA-adding enzyme to miniaturized armless tRNA substrates

17. A tRNA's fate is decided at its 3′ end: Collaborative actions of CCA-adding enzyme and RNases involved in tRNA processing and degradation

18. Examining tRNA 3′-ends in Escherichia coli: teamwork between CCA-adding enzyme, RNase T, and RNase R

19. Cold adaptation of tRNA nucleotidyltransferases: A tradeoff in activity, stability and fidelity

20. From End to End: tRNA Editing at 5'- and 3'-Terminal Positions

21. Erratum to: Genotyping bacterial and fungal pathogens using sequence variation in the gene for the CCA-adding enzyme

22. The TRAMP Complex Shows tRNA Editing Activity in S. cerevisiae

23. An inhibitory C-terminal region dictates the specificity of A-adding enzymes

24. Hochspezifische RNA-Polymerasen mit ungewöhnlichen Eigenschaften

25. tRNA nucleotidyltransferases: ancient catalysts with an unusual mechanism of polymerization

26. A comparative analysis of two conserved motifs in bacterial poly(A) polymerase and CCA-adding enzyme

27. The ancestor of modern Holozoa acquired the CCA-adding enzyme from Alphaproteobacteria by horizontal gene transfer

28. Domain movements during CCA-addition: A new function for motif C in the catalytic core of the human tRNA nucleotidyltransferases

29. The identity of the discriminator base has an impact on CCA addition

30. Crystal Structure of the Human CCA-adding Enzyme: Insights into Template-independent Polymerization

32. Evolution of tRNA nucleotidyltransferases: a small deletion generated CC-adding enzymes

34. A comparative analysis of CCA-adding enzymes from human and E. coli: differences in CCA addition and tRNA 3'-end repair

35. Domain Exchanges between Nucleotidyltransferases

36. Selection of Aptamers

37. Is yeast on its way to evolving tRNA editing?

39. Exchange of regions between bacterial poly(A) polymerase and the CCA-adding enzyme generates altered specificities

40. Aptamers that recognize the lipid moiety of the antibiotic moenomycin A

41. Hfq stimulates the activity of the CCA-adding enzyme

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