2,677 research outputs found
Three-body bound states in dipole-dipole interacting Rydberg atoms
We show that the dipole-dipole interaction between three identical Rydberg
atoms can give rise to bound trimer states. The microscopic origin of these
states is fundamentally different from Efimov physics. Two stable trimer
configurations exist where the atoms form the vertices of an equilateral
triangle in a plane perpendicular to a static electric field. The triangle edge
length typically exceeds , and each configuration is
two-fold degenerate due to Kramers' degeneracy. The depth of the potential
wells and the triangle edge length can be controlled by external parameters. We
establish the Borromean nature of the trimer states, analyze the quantum
dynamics in the potential wells and describe methods for their production and
detection.Comment: 5 pages, 3 figures and supplementary material; to appear in PR
RAG-1 Mutations Associated with B-Cell-Negative SCID Dissociate the Nicking and Transesterification Steps of V(D)J Recombination
Some patients with B-cell-negative severe combined immune deficiency (SCID) carry mutations in RAG-1 or RAG-2 that impair V(D)J recombination. Two recessive RAG-1 mutations responsible for B-cell-negative SCID, R621H and E719K, impair V(D)J recombination without affecting formation of single-site recombination signal sequence complexes, specific DNA contacts, or perturbation of DNA structure at the heptamer-coding junction. The E719K mutation impairs DNA cleavage by the RAG complex, with a greater effect on nicking than on transesterification; a conservative glutamine substitution exhibits a similar effect. When cysteine is substituted for E719, RAG-1 activity is enhanced in Mn2+ but remains impaired in Mg2+, suggesting an interaction between this residue and an essential metal ion. The R621H mutation partially impairs nicking, with little effect on transesterification. The residual nicking activity of the R621H mutant is reduced at least 10-fold upon a change from pH 7.0 to pH 8.4. Site-specific nicking is severely impaired by an alanine substitution at R621 but is spared by substitution with lysine. These observations are consistent with involvement of a positively charged residue at position 621 in the nicking step of the RAG-mediated cleavage reaction. Our data provide a mechanistic explanation for one form of hereditary SCID. Moreover, while RAG-1 is directly involved in catalysis of both nicking and transesterification, our observations indicate that these two steps have distinct catalytic requirements
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