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264 results on '"Inosine genetics"'

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1. Dimerization of ADAR1 modulates site-specificity of RNA editing.

2. A-to-I RNA editing and hematopoiesis.

3. LoDEI: a robust and sensitive tool to detect transcriptome-wide differential A-to-I editing in RNA-seq data.

4. Dynamics of diversified A-to-I editing in Streptococcus pyogenes is governed by changes in mRNA stability.

5. Programmed RNA editing with an evolved bacterial adenosine deaminase.

6. A highly conserved A-to-I RNA editing event within the glutamate-gated chloride channel GluClα is necessary for olfactory-based behaviors in Drosophila .

7. Inflammation primes the murine kidney for recovery by activating AZIN1 adenosine-to-inosine editing.

8. Narrowing down the candidates of beneficial A-to-I RNA editing by comparing the recoding sites with uneditable counterparts.

9. Conserved A-to-I RNA editing with non-conserved recoding expands the candidates of functional editing sites.

10. Adaptive evolution of A-to-I auto-editing site in Adar of eusocial insects.

11. Learning from the Codon Table: Convergent Recoding Provides Novel Understanding on the Evolution of A-to-I RNA Editing.

12. Reovirus infection induces transcriptome-wide unique A-to-I editing changes in the murine fibroblasts.

13. Bioinformatics for Inosine: Tools and Approaches to Trace This Elusive RNA Modification.

14. Revealing Differential RNA Editing Specificity of Human ADAR1 and ADAR2 in Schizosaccharomyces pombe .

15. ADAR-Mediated A>I(G) RNA Editing in the Genotoxic Drug Response of Breast Cancer.

16. Detecting haplotype-specific transcript variation in long reads with FLAIR2.

17. A-to-I Editing Is Subtype-Specific in Non-Hodgkin Lymphomas.

18. Divergent landscapes of A-to-I editing in postmortem and living human brain.

19. Elucidation of the Epitranscriptomic RNA Modification Landscape of Chikungunya Virus.

20. Functions and mechanisms of A-to-I RNA editing in filamentous ascomycetes.

21. Transfer learning enables identification of multiple types of RNA modifications using nanopore direct RNA sequencing.

22. Unveiling the A-to-I mRNA editing machinery and its regulation and evolution in fungi.

23. Temporal landscape and translational regulation of A-to-I RNA editing in mouse retina development.

25. Ocular A-to-I RNA editing signatures associated with SARS-CoV-2 infection.

26. New comparative genomic evidence supporting the proteomic diversification role of A-to-I RNA editing in insects.

27. The first A-to-I RNA editome of hemipteran species Coridius chinensis reveals overrepresented recoding and prevalent intron editing in early-diverging insects.

28. Inosine-Induced Base Pairing Diversity during Reverse Transcription.

29. Decoding the language of immunity.

30. Antibody production relies on the tRNA inosine wobble modification to meet biased codon demand.

31. Transcriptome analysis reveals the role of long noncoding RNAs in specific deposition of inosine monphosphate in Jingyuan chickens.

32. The role of dsRNA A-to-I editing catalyzed by ADAR family enzymes in the pathogeneses.

33. An orthology-based methodology as a complementary approach to retrieve evolutionarily conserved A-to-I RNA editing sites.

34. Identification and Interpretation of A-to-I RNA Editing Events in Insect Transcriptomes.

35. Adenosine Deaminase Acting on RNA (ADAR) Enzymes: A Journey from Weird to Wondrous.

36. Changes in ADAR RNA editing patterns in CMV and ZIKV congenital infections.

37. The Many Roles of A-to-I RNA Editing in Animals: Functional or Adaptive?

38. Library Screening Reveals Sequence Motifs That Enable ADAR2 Editing at Recalcitrant Sites.

39. Genome-Wide Analysis on Driver and Passenger RNA Editing Sites Suggests an Underestimation of Adaptive Signals in Insects.

40. Autorecoding A-to-I RNA editing sites in the Adar gene underwent compensatory gains and losses in major insect clades.

41. Incorporation of inosine into DNA by human polymerase eta (Polη): kinetics of nucleotide misincorporation and structural basis for the mutagenicity.

42. Transcriptome-wide profiling of A-to-I RNA editing by Slic-seq.

43. yaaJ , the tRNA-Specific Adenosine Deaminase, Is Dispensable in Bacillus subtilis .

44. Amphioxus adenosine-to-inosine tRNA-editing enzyme that can perform C-to-U and A-to-I deamination of DNA.

45. Massive Proteogenomic Reanalysis of Publicly Available Proteomic Datasets of Human Tissues in Search for Protein Recoding via Adenosine-to-Inosine RNA Editing.

46. Altered RNA Editing in Atopic Dermatitis Highlights the Role of Double-Stranded RNA for Immune Surveillance.

47. ATTIC is an integrated approach for predicting A-to-I RNA editing sites in three species.

48. Development and evaluation of an adenosine-to-inosine RNA editing-based prognostic model for survival prediction of bladder cancer patients.

50. Identification of exceptionally potent adenosine deaminases RNA editors from high body temperature organisms.

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