34 research outputs found
Eigenvalue Bounds on Restrictions of Reversible Nearly Uncoupled Markov Chains
AbstractIn this paper we analyze decompositions of reversible nearly uncoupled Markov chains into rapidly mixing subchains. We state upper bounds on the 2nd eigenvalue for restriction and stochastic complementation chains of reversible Markov chains, as well as a relation between them. We illustrate the obtained bounds analytically for bunkbed graphs, and furthermore apply them to restricted Markov chains that arise when analyzing conformation dynamics of a small biomolecule
Identification of Biomolecular Conformations from Incomplete Torsion Angle Observations by Hidden Markov Models
We present a novel method for the identification of the most important conformations of a biomolecular system from molecular dynamics or Metropolis Monte Carlo time series by means of Hidden Markov Models (HMMs). We show that identification is possible based on the observation sequences of some essential torsion or backbone angles. In particular, the method still provides good results even if the conformations do have a strong overlap in these angles. To apply HMMs to angular data, we use von Mises output distributions. The performance of the resulting method is illustrated by numerical tests and by application to a hybrid Monte Carlo time series of trialanine and to MD simulation results of a DNA-oligomer
Rare events, escape rates and quasistationarity: some exact formulae
We present a common framework to study decay and exchanges rates in a wide
class of dynamical systems. Several applications, ranging form the metric
theory of continuons fractions and the Shannon capacity of contrained systems
to the decay rate of metastable states, are given
Hemophagocytic syndrome caused by primary herpes simplex virus 1 infection: report of a first case
Introduction: Hemophagocytic syndrome represents a severe hyperinflammatory condition by activated macrophages. Leading viral triggering agents are Epstein-Barr virus (EBV), cytomegalovirus (CMV), and adenovirus. Materials and methods: We present a patient with Wegener's granulomatosis on azathioprine and prednisone medication, who developed a life-threatening hemophagocytic syndrome. Positive plasma polymerase chain reaction (PCR) with negative serology revealed a primary, disseminated infection with herpes simplex virus-1 as the triggering pathogen. After treatment with acyclovir, high-dose steroids, immunoglobulins, and etoposide, the patient recovered. Conclusion: Early diagnosis of potentially underlying infections of hemophagocytic syndrome influences the therapeutic approach. It is important to consider a variety of infectious agents, particularly in immunosuppressed individuals. The reported case emphasizes the importance of screening for herpes simplex virus
Absolute Energy Level Positions in CdSe Nanostructures from Potential-Modulated Absorption Spectroscopy (EMAS)
YesSemiconductor nanostructures like CdSe quantum dots and colloidal nanoplatelets
exhibit remarkable optical properties, making them interesting for applications in optoelectronics
and photocatalysis. For both areas of application a detailed understanding of
the electronic structure is essential to achieve highly efficient devices. The electronic
structure can be probed using the fact that optical properties of semiconductor nanoparticles
are found to be extremely sensitive to the presence of excess charges that can for
instance be generated by means of an electrochemical charge transfer via an electrode.
Here we present the use of potential modulated absorption spectroscopy (EMAS) as
a versatile spectroelectrochemical method to obtain absolute band edge positions of
CdSe nanostructures versus a well-defined reference electrode under ambient conditions.
In this the spectral properties of the nanoparticles are monitored dependent on an
applied electrochemical potential. We developed a bleaching model that yields the lowest
electronic state in the conduction band of the nanostructures. A change in the band
edge positions caused by quantum confinement is shown both for CdSe quantum dots as
well as for colloidal nanoplatelets. In the case of CdSe quantum dots these findings are
in good agreement with tight binding calculations. The method presented is not limited
to CdSe nanostructures but can be used as a universal tool. Hence, this technique allows
the determination of absolute band edge positions of a large variety of materials used in
various applications
Chronic norovirus infection after kidney transplantation: molecular evidence for immune-driven viral evolution
BACKGROUND: Norovirus infection is the most common cause of acute self-limiting gastroenteritis. Only 3 cases of chronic norovirus infection in adult solid organ transplant recipients have been reported thus far.
METHODS: This case series describes 9 consecutive kidney allograft recipients with chronic norovirus infection with persistent virus shedding and intermittent diarrhea for a duration of 97-898 days. The follow-up includes clinical course, type of immunosuppression, and polymerase chain reaction for norovirus. Detailed molecular analyses of virus isolates from stool specimens over time were performed.
RESULTS: The intensity of immunosuppression correlated with the diarrheal symptoms but not with viral shedding. Molecular analysis of virus strains from each patient revealed infection with different variants of GII.4 strains in 7 of 9 patients. Another 2 patients were infected with either the GII.7 or GII.17 strain. No molecular evidence for nosocomial transmission in our outpatient clinic was found. Capsid sequence alignments from follow-up specimens of 4 patients showed accumulation of mutations over time, resulting in amino acid changes predominantly in the P2 and P1-2 region. Up to 25 amino acids mutations were accumulated over a 683-day period in the patient with an 898-day shedding history.
CONCLUSION: Norovirus infection may persist in adult renal allograft recipients with or without clinical symptoms. No evidence for nosocomial transmission in adult renal allograft recipients was found in our study. Molecular analysis suggests continuous viral evolution in immunocompromised patients who are unable to clear this infection