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4. The family Parvoviridae

10. The NS1 protein of the parvovirus MVM Aids in the localization of the viral genome to cellular sites of DNA damage.

12. Protoparvovirus Interactions with the Cellular DNA Damage Response.

13. Genetic engineering of CHO cells for viral resistance to minute virus of mice.

14. The ATR Signaling Pathway Is Disabled during Infection with the Parvovirus Minute Virus of Mice.

15. Efficient Parvovirus Replication Requires CRL4Cdt2-Targeted Depletion of p21 to Prevent Its Inhibitory Interaction with PCNA.

17. Parvovirus-Induced Depletion of Cyclin B1 Prevents Mitotic Entry of Infected Cells.

18. Splicing of goose parvovirus pre-mRNA influences cytoplasmic translation of the processed mRNA

19. Deaminase-Independent Inhibition of Parvoviruses by the APOBEC3A Cytidine Deaminase.

20. The transcription strategy of bovine adeno-associated virus (B-AAV) combines features of both adeno-associated virus type 2 (AAV2) and type 5 (AAV5)

21. Alternative Polyadenylation of Adeno-associated Virus Type 5 RNA within an Internal Intron Is Governed by the Distance between the Promoter and the Intron and Is Inhibited by U1 Small Nuclear RNP Binding to the Intervening Donor.

22. Binding of CCCTC-Binding Factor (CTCF) to the Minute Virus of Mice Genome Is Important for Proper Processing of Viral P4-Generated Pre-mRNAs.

23. Minute Virus of Canines NP1 protein interacts with the cellular factor CPSF6 to regulate viral alternative RNA processing.

24. The Human Bocavirus 1 NP1 Protein Is a Multifunctional Regulator of Viral RNA Processing.

25. Minute Virus of Mice Inhibits Transcription of the Cyclin B1 Gene during Infection.

26. Replication of Minute Virus of Mice in Murine Cells Is Facilitated by Virally Induced Depletion of p21.

27. Adeno-Associated Virus Type 5 Utilizes Alternative Translation Initiation To Encode a Small Rep40-Like Protein.

28. Adeno-Associated Viruses Can Induce Phosphorylation of eIF2 α via PKR Activation, Which Can Be Overcome by Helper Adenovirus Type 5 Virus-Associated RNA.

29. Upstream AP1- and CREB-Binding Sites Confer High Basal Activity on the Adeno-Associated Virus Type 5 Capsid Gene Promoter.

30. Positive and Negative Effects of Adenovirus Type 5 Helper Functions on Adeno-Associated Virus Type 5 (AAV5) Protein Accumulation Govern AAV5 Virus Production.

33. Identification and Characterization of Two Internal Cleavage and Polyadenylation Sites of Parvovirus B19 RNA.

34. Alternative Polyadenylation of Adeno-Associated Virus Type 5 RNA within an Internal Intron Is Governed by both a Downstream Element within the Intron 3′ Splice Acceptor and Element Upstream of the P41 Initiation Site.

35. Minute Virus of Canines NP1 Protein Governs the Expression of a Subset of Essential Nonstructural Proteins via Its Role in RNA Processing.

36. Characterization of the Nonstructural Proteins of the Bocavirus Minute Virus of Canines.

37. The Choice of Translation Initiation Site of the Rep Proteins from Goose Parvovirus P9-Generated mRNA Is Governed by Splicing and the Nature of the Excised Intron.

38. E4Orf6-E1B-55k-Dependent Degradation of De Novo-Generated Adeno-Associated Virus Type 5 Rep52 and Capsid Proteins Employs a Cullin 5-Containing E3 Ligase Complex.

39. Efficient Expression of the Adeno-Associated Virus Type 5 P41 Capsid Gene Promoter in 293 Cells Does Not Require Rep.

40. Expression Profiles of Bovine Adeno-Associated Virus and Avian Adeno-Associated Virus Display Significant Similarity to That of Adeno-Associated Virus Type 5.

41. Block to the Production of Full-Length B19 Virus Transcripts by Internal Polyadenylation Is Overcome by Replication of the Viral Genome.

42. Human Circovirus TT Virus Genotype 6 Expresses Six Proteins following Transfection of a Full-Length Clone.

43. Comparison of the Transcription Profile of Simian Parvovirus with That of the Human Erythrovirus B19 Reveals a Number of Unique Features.

44. Adeno-Associated Virus Small Rep Proteins Are Modified with at Least Two Types of Polyubiquitination.

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