44 results on '"Chalker, Douglas L."'
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2. Plasmodium falciparum translational machinery condones polyadenosine repeats
3. Author response: Plasmodium falciparum translational machinery condones polyadenosine repeats
4. Genome-Wide Rearrangements of DNA in Ciliates
5. Chapter 25 Microinjection of Tetrahymena thermophila
6. Boundaries of eliminated heterochromatin of Tetrahymena are positioned by the DNA-binding protein Ltl1
7. PolyA tracks and poly-lysine repeats are the Achilles heel ofPlasmodium falciparum
8. Transgenerational Inheritance: Parental Guidance Suggested
9. Diversification of HP 1‐like Chromo Domain Proteins in Tetrahymena thermophila
10. Correction: Corrigendum: Rapid generation of hypomorphic mutations
11. Rapid generation of hypomorphic mutations
12. One genome’s junk is another’s garbage
13. A Community Model for Course-Based Student Research That Advances Faculty Scholarship
14. DRH1, a p68-related RNA helicase gene, is required for chromosome breakage in Tetrahymena
15. A Parallel G Quadruplex-Binding Protein Regulates the Boundaries of DNA Elimination Events of Tetrahymena thermophila
16. SUMOylation Is Developmentally Regulated and Required for Cell Pairing during Conjugation in Tetrahymena thermophila
17. LIA4 Encodes a Chromoshadow Domain Protein Required for Genomewide DNA Rearrangements in Tetrahymena thermophila
18. Morphogenesis: A Mob Rules from the Rear
19. ゾウリムシの「接合型継承の謎」を解明
20. Keeping one's sex
21. Mutations in Pdd1 Reveal Distinct Requirements for Its Chromodomain and Chromoshadow Domain in Directing Histone Methylation and Heterochromatin Elimination
22. LIA5 Is Required for Nuclear Reorganization and Programmed DNA Rearrangements Occurring during Tetrahymena Macronuclear Differentiation
23. Genome Biology: The Sleek and Oh-So Chic Oxytricha Nanochromosomes
24. Epigenetics of Ciliates
25. DNA Elimination in Ciliates: Transposon Domestication and Genome Surveillance
26. Zygotic Expression of the Double-Stranded RNA Binding Motif Protein Drb2p Is Required for DNA Elimination in the Ciliate Tetrahymena thermophila
27. Genome-Scale Analysis of Programmed DNA Elimination Sites in Tetrahymena thermophila
28. The Conjugation-Specific Die5 Protein Is Required for Development of the Somatic Nucleus in both Paramecium and Tetrahymena
29. Transposons that clean up after themselves
30. Dynamic nuclear reorganization during genome remodeling of Tetrahymena
31. Ciliate Biology: Dynamin Goes Nuclear
32. Nucleus-Specific Importin Alpha Proteins and Nucleoporins Regulate Protein Import and Nuclear Division in the Binucleate Tetrahymena thermophila
33. Lia1p, a Novel Protein Required during Nuclear Differentiation for Genome-Wide DNA Rearrangements in Tetrahymena thermophila
34. Identification of novel chromatin-associated proteins involved in programmed genome rearrangements in Tetrahymena
35. Genome Evolution: A Double Take for Paramecium
36. The germ line limited M element of Tetrahymena is targeted for elimination from the somatic genome by a homology-dependent mechanism
37. Germ Line Transcripts Are Processed by a Dicer-Like Protein That Is Essential for Developmentally Programmed Genome Rearrangements of Tetrahymena thermophila
38. Genome Rearrangements: Mother Knows Best!
39. Communication Between Parental and Developing Genomes During Tetrahymena Nuclear Differentiation Is Likely Mediated by Homologous RNAs
40. Nongenic, bidirectional transcription precedes and may promote developmental DNA deletion in Tetrahymena thermophila
41. Flanking Regulatory Sequences of the Tetrahymena R Deletion Element Determine the Boundaries of DNA Rearrangement
42. GENOME DOWNSIZING DURING CILIATE DEVELOPMENT: Nuclear Division of Labor through Chromosome Restructuring
43. INTEGRATION SPECIFICITY OF RETROTRANSPOSONS AND RETROVIRUSES
44. Ty3, a Yeast Retrotransposon Associated with tRNA Genes, Has Homology to Animal Retroviruses
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