55,059 research outputs found
Clinical Features and Genetic Analysis of 20 Chinese Patients with X-Linked Hyper-IgM Syndrome
X-linked hyper-IgM syndrome (XHIGM) is one type of primary immunodeficiency diseases, resulting from defects in the CD40 ligand/CD40 signaling pathways. We retrospectively analyzed the clinical and molecular features of 20 Chinese patients diagnosed and followed up in hospitals affiliated to Shanghai Jiao Tong University School of Medicine from 1999 to 2013. The median onset age of these patients was 8.5 months (range: 20 daysβ21 months). Half of them had positive family histories, with a shorter diagnosis lag. The most common symptoms were recurrent sinopulmonary infections (18 patients, 90%), neutropenia (14 patients, 70%), oral ulcer (13 patients, 65%), and protracted diarrhea (13 patients, 65%). Six patients had BCGitis. Six patients received hematopoietic stem cell transplantations and four of them had immune reconstructions and clinical remissions. Eighteen unique mutations in CD40L gene were identified in these 20 patients from 19 unrelated families, with 12 novel mutations. We compared with reported mutation results and used bioinformatics software to predict the effects of mutations on the target protein. These mutations reflected the heterogeneity of CD40L gene and expanded our understanding of XHIGM
Radiative Leptonic Decay in Effective Field Theory beyond Leading Order
We study the radiative leptonic decays in the
nonrelativistic QCD effective field theory, and consider a fast-moving photon.
As a result the interactions with the heavy quarks can be integrated out, and
thus we arrive at a factorization formula for the decay amplitude. We calculate
not only the relevant short-distance coefficients at leading order and
next-to-leading order in , but also the nonrelativistic corrections
at the order in our analysis. We find out that the QCD
corrections can sizably decrease the branching ratio and thus is of great
importance in extracting the long-distance operator matrix elements of .
For the phenomenological application, we present our results for the photon
energy, lepton energy and lepton-neutrino invariant mass distribution.Comment: 24 pages, 5 figures, and 2 tables;new references and a new table
added and typos correcte
To understand the rare decay
Motivated by the LHCb measurement, we analyze the decay in the kinematics region where the pion pairs
have invariant mass in the range - GeV and muon pairs do not
originate from a resonance. The scalar form factor induced by the
strange current is predicted by the unitarized approach rooted in the
chiral perturbation theory. Using the two-hadron light-cone distribution
amplitude, we then can derive the transition form factor in
the light-cone sum rules approach. Merging these quantities, we present our
results for differential decay width which can generally agree with the
experimental data. More accurate measurements at the LHC and KEKB in future are
helpful to validate our formalism and determine the inputs in this approach.Comment: 8 pages, 4 figures; v2: references added, match the published versio
Modular Properties of 3D Higher Spin Theory
In the three-dimensional sl(N) Chern-Simons higher-spin theory, we prove that
the conical surplus and the black hole solution are related by the
S-transformation of the modulus of the boundary torus. Then applying the
modular group on a given conical surplus solution, we generate a 'SL(2,Z)'
family of smooth constant solutions. We then show how these solutions are
mapped into one another by coordinate transformations that act non-trivially on
the homology of the boundary torus. After deriving a thermodynamics that
applies to all the solutions in the 'SL(2,Z)' family, we compute their
entropies and free energies, and determine how the latter transform under the
modular transformations. Summing over all the modular images of the conical
surplus, we write down a (tree-level) modular invariant partition function.Comment: 51 pages; v2: minor corrections and additions; v3: final version, to
appear in JHE
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