All Stories

  1. Teaching progressions and learning progressions
  2. Commentary: Innovation in the Biochemistry/Molecular Biology Laboratory
  3. Assessing stakeholder perceptions of the american society for biochemistry and molecular biology accreditation program for baccalaureate degrees
  4. Developing a conversation: A strategy to engage faculty in pedagogical change
  5. The Liberal Education of STEM Majors
  6. Innovation in the Biochemistry/Molecular biology laboratory
  7. Student conceptions about energy transformations: progression from general chemistry to biochemistry
  8. Commentary: Innovation in the biochemistry/molecular biology laboratory
  9. Monitoring and promoting the impact of pedagogically related scholarship
  10. Redesigning space for interdisciplinary connections: The Puget Sound Science Center
  11. Commentary: Innovation in the biochemistry/molecular biology laboratory
  12. Neuropeptidase activity is down-regulated by estradiol in steroid-sensitive regions of the hypothalamus in female mice
  13. Commentary: Innovation in the biochemistry/molecular biology laboratory
  14. Commentary: Innovation in the biochemistry/molecular biology lab
  15. Nuclear thimet oligopeptidase is coexpressed with oestrogen receptor alpha in hypothalamic cells and regulated by oestradiol in female mice
  16. Commentary: Innovation in the biochemistry/molecular biology lab
  17. Commentary: Innovation in the biochemistry/molecular biology lab
  18. Hydrogen bond residue positioning in the 599-611 loop of thimet oligopeptidase is required for substrate selection
  19. Biochemistry and undergraduate liberal education
  20. One hundred years of American Women in biochemistry
  21. Effect of Nitrogen Source on Cyanophycin Synthesis in Synechocystis sp. Strain PCC 6308
  22. Flexibility in substrate recognition by thimet oligopeptidase as revealed by denaturation studies
  23. Regulators of the neuropeptide-degrading enzyme, EC 3.4.24.15 (thimet oligopeptidase), in cerebrospinal fluid
  24. pH dependence studies provide insight into the structure and mechanism of thimet oligopeptidase (EC 3.4.24.15)
  25. Student companion to accompany biochemistry (5th ed.): Gumport, R. I., Deis, F. H., Gerber, N. C., and Koeppe, R. E, II
  26. Advanced instrumentation projects for first-year biochemistry laboratory
  27. Journal club as a supplement to the undergraduate biochemistry laboratory
  28. Journal club as a supplement to the undergraduate biochemistry laboratory
  29. Introductory Chemistry and Biology Taught as an Interdisciplinary Mini-Cluster
  30. Differential Activation of Endopeptidase EC 3.4.24.15 toward Natural and Synthetic Substrates by Metal Ions
  31. An Integrated Biochemistry Laboratory, Including Molecular Modeling
  32. Modularity of protein function: Chimeric interleukin 1.beta.s containing specific protease inhibitor loops retain function of both molecules
  33. Temperature dependence of the dissociation rate constants for 8 S, 4 S, and meroreceptor forms of the estrogen receptor from rat uterus
  34. Specific nuclear uptake of intracellularly-produced estrogen by rat granulosa cells
  35. Effects of Charcoal on Dissociation Kinetics of Nuclear and Cytosolic Steroid-Receptor Complexes from Hen Oviduct
  36. Binding of activated progesterone receptor to microsomes
  37. Inhibition of Iron-Sulfur Protein-Mediated Reduction of Cytochrome P-450Scc by Specific Antibodies*
  38. Non-activated progesterone receptor extracted from nuclei of hen oviduct
  39. The effect of exposure to charcoal and ion-exchange chromatography on the dissociation rate of estrogen from the nuclear estrogen receptor of hen oviduct
  40. Characterization of the Estrogen Receptor Extracted from Hen Oviduct Nuclei with Pyridoxal Phosphate*
  41. A Heuristic Proposal for Understanding Steroidogenic Processes
  42. Cyanoketone competition with estradiol for binding to the cytosolic estrogen receptor
  43. Temperature dependence of the dissociation rate constants for the nonactivated (molybdate-stabilized) and activated progesterone receptor-hormone complexes from the chick oviduct
  44. Progesterone Receptor from Chick Oviduct:. Purification of Molybdate-Stabilized Form and Preliminary Characterization
  45. Identification of a Large form of the Chick Liver Estrogen Receptor
  46. “Non-activated” form of the progesterone receptor from chick oviduct: Characterization
  47. The nature of the cytosolic activators of the adrenal steroid 21-hydroxylation system