1,983 research outputs found
Hydrogen peroxide induced genomic instability in nucleotide excision repair-deficient lymphoblastoid cells
Copyright @ 2010 Gopalakrishnan et al; licensee BioMed Central Ltd.Background The Nucleotide Excision Repair (NER) pathway specialises in UV-induced DNA damage repair. Inherited defects in the NER can predispose individuals to Xeroderma Pigmentosum (XP). UV-induced DNA damage cannot account for the manifestation of XP in organ systems not directly exposed to sunlight. While the NER has recently been implicated in the repair of oxidative DNA lesions, it is not well characterised. Therefore we sought to investigate the role of NER factors Xeroderma Pigmentosum A (XPA), XPB and XPD in oxidative DNA damage-repair by subjecting lymphoblastoid cells from patients suffering from XP-A, XP-D and XP-B with Cockayne Syndrome to hydrogen peroxide (H2O2). Results Loss of functional XPB or XPD but not XPA led to enhanced sensitivity towards H2O2-induced cell death. XP-deficient lymphoblastoid cells exhibited increased susceptibility to H2O2-induced DNA damage with XPD showing the highest susceptibility and lowest repair capacity. Furthermore, XPB- and XPD-deficient lymphoblastoid cells displayed enhanced DNA damage at the telomeres. XPA- and XPB-deficient lymphoblastoid cells also showed differential regulation of XPD following H2O2 treatment. Conclusions Taken together, our data implicate a role for the NER in H2O2-induced oxidative stress management and further corroborates that oxidative stress is a significant contributing factor in XP symptoms. Resistance of XPA-deficient lymphoblastoid cells to H2O2-induced cell death while harbouring DNA damage poses a potential cancer risk factor for XPA patients. Our data implicate XPB and XPD in the protection against oxidative stress-induced DNA damage and telomere shortening, and thus premature senescence.This research is supported by the Defence Innovative Research Programme, Defence Science and Technology Agency, Singapore (POD: 0613592) and the Academic Research Fund, Ministry of Education, Singapore (T206B3108). Supported in part by a grant from British Council, PMI2 Connect (Grant Number: RC134)
Non-destructive Orthonormal State Discrimination
We provide explicit quantum circuits for the non-destructive deterministic
discrimination of Bell states in the Hilbert space , where is
qudit dimension. We discuss a method for generalizing this to non-destructive
measurements on any set of orthogonal states distributed among parties.
From the practical viewpoint, we show that such non-destructive measurements
can help lower quantum communication complexity under certain conditions.Comment: 11 pages, 6 fugure
Computer Simulation Study of the Phase Behavior and Structural Relaxation in a Gel-Former Modeled by Three Body Interactions
We report a computer simulation study of a model gel-former obtained by
modifying the three-body interactions of the Stillinger-Weber potential for
silicon. This modification reduces the average coordination number and
consequently shifts the liquid-gas phase coexistence curve to low densities,
thus facilitating the formation of gels without phase separation. At low
temperatures and densities, the structure of the system is characterized by the
presence of long linear chains interconnected by a small number of three
coordinated junctions at random locations. At small wave-vectors the static
structure factor shows a non-monotonic dependence on temperature, a behavior
which is due to the competition between the percolation transition of the
particles and the stiffening of the formed chains. We compare in detail the
relaxation dynamics of the system as obtained from molecular dynamics with the
one obtained from Monte Carlo dynamics. We find that the bond correlation
function displays stretched exponential behavior at moderately low temperatures
and densities, but exponential relaxation at low temperatures. The bond
lifetime shows an Arrhenius behavior, independent of the microscopic dynamics.
For the molecular dynamics at low temperatures, the mean squared displacement
and the (coherent and incoherent) intermediate scattering function display at
intermediate times a dynamics with ballistic character and we show that this
leads to compressed exponential relaxation. For the Monte Carlo dynamics we
find always an exponential or stretched exponential relaxation. Thus we
conclude that the compressed exponential relaxation observed in experiments is
due to the out-of-equilibrium dynamics
Bilarge neutrino mixing from supersymmetry with high-scale nonrenormalizable interactions
We suggest a supersymmetric (SUSY) explanation of neutrino masses and mixing,
where nonrenormalizable interactions in the hidden sector generate lepton
number violating Majorana mass terms for both right-chiral sneutrinos and
neutrinos. It is found necessary to start with a superpotential including an
array of gauge singlet chiral superfields. This leads to nondiagonal mass terms and almost diagonal SUSY breaking -terms. As a result, the
observed pattern of bilarge mixing can be naturally explained by the
simultaneous existence of the seesaw mechanism and radiatively induced masses.
Allowed ranges of parameters in the gauge singlet sector are delineated,
corresponding to each of the cases of normal hierarchy, inverted hierarchy and
degenerate neutrinos.Comment: 19 pages, 5 figures. Minor modifications are made in the title and
the text, some new references are added. To appear in this form in Physical
Review
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