681 results on '"Stillman, Martin J"'
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2. Structural motifs in the early metallation steps of Zn(II) and Cd(II) binding to apo-metallothionein 1a
3. Supermetalation of Cd-MT3 beyond the two-domain model
4. COVID-Related Stress and Work Intentions in a Sample of US Health Care Workers
5. ESI–MS analysis of Cu(I) binding to apo and Zn7 human metallothionein 1A, 2, and 3 identifies the formation of a similar series of metallated species with no individual isoform optimization for Cu(I)
6. Bi(III) Binding Stoichiometry and Domain‐Specificity Differences Between Apo and Zn(II)‐bound Metallothionein 1a
7. Metallothioneins
8. Bi(III) Binding Stoichiometry and Domain-Specificity Differences Between Apo and Zn(II)-bound Human Metallothionein 1a.
9. ESI–MS analysis of Cu(I) binding to apo and Zn7 human metallothionein 1A, 2, and 3 identifies the formation of a similar series of metallated species with no individual isoform optimization for Cu(I).
10. Metallothionein-3 and carbonic anhydrase metalation properties with Zn(II) and Cd(II) change as a result of protein-protein interactions
11. Cu(I) binds to Zn7-MT2 via two parallel pathways
12. Xenobiotic Bi3+ Coordination by Cysteine-Rich Metallothionein-3 Reveals a Cooperatively Formed Thiolate-Sharing Bi2S5 Cluster
13. Chromatographic separation of similar post-translationally modified metallothioneins reveals the changing conformations of apo-MT upon cysteine alkylation by high resolution LC-ESI-MS
14. Metallothionein‐3:63 Cu(I) binds to human68 Zn 7‐βα MT3 with no preference for Cu 4 ‐β Cluster Formation
15. Computational Guidance in the Design of Functional Tetrapyrroles
16. Structural Role of Cadmium and Zinc in Metallothionein Oxidation by Hydrogen Peroxide: The Resilience of Metal–Thiolate Clusters
17. Apo-metallothionein-3 cooperatively forms tightly compact structures under physiological conditions
18. Cadmium binding mechanisms of isolated domains of human MT isoform 1a: Non-cooperative terminal sites and cooperative cluster sites
19. Metallothionein‐3: 63Cu(I) binds to human 68Zn7‐βα MT3 with no preference for Cu4‐β cluster formation.
20. Cu(I) binds to Zn7-MT2 via two parallel pathways.
21. Xenobiotic Bi3+ Coordination by Cysteine-Rich Metallothionein‑3 Reveals a Cooperatively Formed Thiolate-Sharing Bi2S5 Cluster.
22. 63Cu(I) binding to human kidney 68Zn7-βα MT1A: determination of Cu(I)-thiolate cluster domain specificity from ESI-MS and room temperature phosphorescence spectroscopy
23. Metallothioneins and Silver
24. MCD spectroscopy and TD-DFT calculations of low symmetry subnaphthalocyanine analogs
25. 9. Lead(II) Binding in Metallothioneins
26. Arsenic binding to human metallothionein-3.
27. Xenobiotic Bi3+Coordination by Cysteine-Rich Metallothionein-3 Reveals a Cooperatively Formed Thiolate-Sharing Bi2S5Cluster
28. Stabilization of protein structure through π–π interaction in the second coordination sphere of pseudoazurin
29. Circular dichroism, emission, and exafs studies of Ag(I), Cd(II), Cu(I), and Hg(II) binding to metallothioneins and modeling the metal binding site
30. Spectroscopic Properties of Ag(I), Cd(II), Cu(I), Hg(II), and Zn(II) Metallothioneins
31. 63Cu(I) binding to human kidney 68Zn7-βα MT1A: determination of Cu(I)-thiolate cluster domain specificity from ESI-MS and room temperature phosphorescence spectroscopy.
32. Cu(I) binding properties of a designed metalloprotein
33. Arsenic-metalation of triple-domain human metallothioneins: Support for the evolutionary advantage and interdomain metalation of multiple-metal-binding domains
34. Re-examination of the emission properties of alkoxy- and thioalkyl-substituted phthalocyanines
35. A di-Copper Peptidyl Complex Mimics the Activity of Catalase, a Key Antioxidant Metalloenzyme
36. Heme binding to the IsdE(M78A; H229A) double mutant: challenging unidirectional heme transfer in the iron-regulated surface determinant protein heme transfer pathway of Staphylococcus aureus
37. Heme binding in the NEAT domains of IsdA and IsdC of Staphylococcus aureus
38. Magnetic circular dichroism spectroscopy of cobalt tetraphenyltetraacenaphthoporphyrin
39. Structurally restricted Bi(III) metallation of apo-βMT1a: metal-induced tangling
40. Probing structural changes in the α and β domains of copper- and silver-substituted metallothionein by emission spectroscopy and electrospray ionization mass spectrometry
41. Characterization of the conformational changes in recombinant human metallothioneins using ESI-MS and molecular modeling (1)
42. Application of MCD spectroscopy to porphyrinoids
43. Application of MCD spectroscopy and TD-DFT to a highly non-planer porphyrinoid ring system. New insights on red-shifted porphyrinoid spectra bands
44. XAFS spectral analysis of the cadmium coordination geometry in cadmium thiolate clusters in metallothionein
45. Association of Physician Burnout With Suicidal Ideation and Medical Errors
46. The pathways and domain specificity of Cu(i) binding to human metallothionein 1A
47. A Di Copper Peptidyl Complex Mimics Catalase Activity in HeLa HyPer Cells
48. Metallation of Seaweed Fucus vesiculosus Metallothionein: As3+ and Cd2+ binding
49. 65 Theoretical Aspects of the Optical Spectroscopy of Porphyrinoids
50. Metal-dependent protein folding: Metallation of metallothionein
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