Revisiting Goldwarter v. Carter: The Executive’s Right to Rescind Treaties in Light of President Bush’s 2002 Termination of the ABM Treaty

This paper examines the constitutional power of the President to terminate treaty obligations. It centers on President Bush’s recent renunciation of the 1972 Anti-Ballistic Missile Treaty with the Soviet Union. It focuses on the balance of power between the legislative and executive branches in light of the Goldwater v. Carter and Kucinich v. Bush decisions. The paper is divided into six sections: (1) the international legal ramifications of unilateral executive treaty rescission; (2) the role of standing; (3) the impact of the political question doctrine; (4) arguments for and against permitting the President to terminate treaties; (5) a discussion of the process that should be used to terminate treaties, as between the President and Congress; and, finally, (6) an examination of alternative strategies that Congress may employ when the President chooses to rescind a treaty. The paper concludes that the decision to terminate a treaty should not be one-sided, and that joint action from both branches should be required whenever the United States wishes to relieve itself of treaty obligations

Structure of the coat protein in fd filamentous bacteriophage particles determined by solid-state NMR spectroscopy

The atomic resolution structure of fd coat protein determined by solid-state NMR spectroscopy of magnetically aligned filamentous bacteriophage particles differs from that previously determined by x-ray fiber diffraction. Most notably, the 50-residue protein is not a single curved helix, but rather is a nearly ideal straight helix between residues 7 and 38, where there is a distinct kink, and then a straight helix with a different orientation between residues 39 and 49. Residues 1–5 have been shown to be mobile and unstructured, and proline 6 terminates the helix. The structure of the coat protein in virus particles, in combination with the structure of the membrane-bound form of the same protein in bilayers, also recently determined by solid-state NMR spectroscopy, provides insight into the viral assembly process. In addition to their roles in molecular biology and biotechnology, the filamentous bacteriophages continue to serve as model systems for the development of experimental methods for determining the structures of proteins in biological supramolecular assemblies. New NMR results include the complete sequential assignment of the two-dimensional polarization inversion spin-exchange at the magic angle spectrum of a uniformly (15)N-labeled 50-residue protein in a 1.6 × 10(7) Da particle in solution, and the calculation of the three-dimensional structure of the protein from orientational restraints with an accuracy equivalent to an rms deviation of ≈1Å