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1. Targeted Forward Genetics: Saturating Mutational Analyses of Specific Target Loci Within the Genome.

2. Agar lot-specific inhibition in the plating efficiency of yeast spores and cells.

3. Creating Meiotic Recombination-Regulating DNA Sites by SpEDIT in Fission Yeast Reveals Inefficiencies, Target-Site Duplications, and Ectopic Insertions.

4. Distance-dependent effects on CRISPR/Cas9-mediated genome editing in Schizosaccharomyces pombe compromise efficiency and create unsought alleles.

5. Eukaryotic Pif1 helicase unwinds G-quadruplex and dsDNA using a conserved wedge.

6. Two residues in the DNA binding site of Pif1 helicase are essential for nuclear functions but dispensable for mitochondrial respiratory growth.

7. Laboratory horror stories: Poison in the agars.

8. DNA sequences and distinct mechanisms for ura4-595 and ura4-294 alleles of S. pombe .

9. Adaptive Control of the Meiotic Recombination Landscape by DNA Site-dependent Hotspots With Implications for Evolution.

10. Molecular mechanisms for environmentally induced and evolutionarily rapid redistribution (plasticity) of meiotic recombination.

11. Accurate and Sensitive Quantitation of the Dynamic Heat Shock Proteome Using Tandem Mass Tags.

12. Targeted Forward Genetics: Population-Scale Analyses of Allele Replacements Spanning Thousands of Base Pairs in Fission Yeast.

13. Diverse DNA Sequence Motifs Activate Meiotic Recombination Hotspots Through a Common Chromatin Remodeling Pathway.

14. Opinion: The National Institutes of Health needs to better balance funding distributions among US institutions.

16. Chromatin-mediated regulators of meiotic recombination revealed by proteomics of a recombination hotspot.

17. In Vivo Metabolic Tracing Demonstrates the Site-Specific Contribution of Hepatic Ethanol Metabolism to Histone Acetylation.

18. The NIH must reduce disparities in funding to maximize its return on investments from taxpayers.

19. NIH's ineffective funding policies.

20. Biases in grant proposal success rates, funding rates and award sizes affect the geographical distribution of funding for biomedical research.

21. Nonsense codon suppression in fission yeast due to mutations of tRNA(Ser.11) and translation release factor Sup35 (eRF3).

22. A CRISPR-based approach for proteomic analysis of a single genomic locus.

23. Rapid, efficient and precise allele replacement in the fission yeast Schizosaccharomyces pombe.

24. Binding of the transcription factor Atf1 to promoters serves as a barrier to phase nucleosome arrays and avoid cryptic transcription.

25. A stress-activated, p38 mitogen-activated protein kinase-ATF/CREB pathway regulates posttranscriptional, sequence-dependent decay of target RNAs.

26. New paradigms for conserved, multifactorial, cis-acting regulation of meiotic recombination.

27. DNA sequence-mediated, evolutionarily rapid redistribution of meiotic recombination hotspots.

28. Meiotic recombination protein Rec12: functional conservation, crossover homeostasis and early crossover/non-crossover decision.

29. Discrete DNA sites regulate global distribution of meiotic recombination.

30. Phosphorylation-independent regulation of Atf1-promoted meiotic recombination by stress-activated, p38 kinase Spc1 of fission yeast.

31. Low-copy episomal vector pFY20 and high-saturation coverage genomic libraries for the fission yeast Schizosaccharomyces pombe.

32. Meiotic recombination hotspots of fission yeast are directed to loci that express non-coding RNA.

33. Distinct regions of ATF/CREB proteins Atf1 and Pcr1 control recombination hotspot ade6-M26 and the osmotic stress response.

34. A DNA binding motif of meiotic recombinase Rec12 (Spo11) defined by essential glycine-202, and persistence of Rec12 protein after completion of recombination.

35. Atf1-Pcr1-M26 complex links stress-activated MAPK and cAMP-dependent protein kinase pathways via chromatin remodeling of cgs2+.

36. Purification, folding, and characterization of Rec12 (Spo11) meiotic recombinase of fission yeast.

37. Meiotic chromosome segregation mutants identified by insertional mutagenesis of fission yeast Schizosaccharomyces pombe; tandem-repeat, single-site integrations.

38. Roles of histone acetylation and chromatin remodeling factor in a meiotic recombination hotspot.

39. Distinct functions of S. pombe Rec12 (Spo11) protein and Rec12-dependent crossover recombination (chiasmata) in meiosis I; and a requirement for Rec12 in meiosis II.

40. High-efficiency gene targeting in Schizosaccharomyces pombe using a modular, PCR-based approach with long tracts of flanking homology.

41. Meiotic chromosome dynamics dependent upon the rec8(+), rec10(+) and rec11(+) genes of the fission yeast Schizosaccharomyces pombe.

42. Centromere mapping functions for aneuploid meiotic products: Analysis of rec8, rec10 and rec11 mutants of the fission yeast Schizosaccharomyces pombe.

43. Regulation of the Mts1-Mts2-dependent ade6-M26 meiotic recombination hot spot and developmental decisions by the Spc1 mitogen-activated protein kinase of fission yeast.

44. Meiotic recombination hotspots: shaping the genome and insights into hypervariable minisatellite DNA change.

45. Recombination hotspot activity of hypervariable minisatellite DNA requires minisatellite DNA binding proteins.

46. Transcription factor Mts1/Mts2 (Atf1/Pcr1, Gad7/Pcr1) activates the M26 meiotic recombination hotspot in Schizosaccharomyces pombe.

47. Region-specific meiotic recombination in Schizosaccharomyces pombe: the rec11 gene.

48. A heteromeric protein that binds to a meiotic homologous recombination hot spot: correlation of binding and hot spot activity.

49. RNA associated with a heterodimeric protein that activates a meiotic homologous recombination hot spot: RL/RT/PCR strategy for cloning any unknown RNA or DNA.

50. Single-stranded DNA binding activity of C1-tetrahydrofolate synthase enzymes.

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