Diagnosis of Aspergillus fumigatus endophthalmitis from formalin fixed paraffin-embedded tissue by polymerase chain reaction-based restriction fragment length polymorphism

New molecular biological technique of Polymerase Chain Reaction (PCR) based Restriction Fragment Length Polymorphism (RFLP) can identify the species from paraffin-embedded tissue section. We demonstrated Aspergillus fumigatus fungus by PCR-based RFLP technique from paraffin section of an eyeball of an eight-month-old child removed for endogenous endophthalmitis

Diagnosis of Aspergillus fumigatus endophthalmitis from formalin fixed paraffin-embedded tissue by polymerase chain reaction-based restriction fragment length polymorphism

New molecular biological technique of Polymerase Chain Reaction (PCR) based Restriction Fragment Length Polymorphism (RFLP) can identify the species from paraffin-embedded tissue section. We demonstrated Aspergillus fumigatus fungus by PCR-based RFLP technique from paraffin section of an eyeball of an eight- month-old child removed for endogenous endophthalmitis

A Comparison of Three Programming Models for Adaptive Applications on the Origin2000

this paper, we compare the performance of and the programming effort required for two major classes of adaptive applications under three leading parallel programming models on an SGI Origin2000 system, a machine that supports all three models efficiently. Results indicate that the three models deliver comparable performance; however, the implementations differ significantly beyond merely using explicit messages versus implicit loads/stores even though the basic parallel algorithms are similar. Compared with the message-passing (using MPI) and SHMEM programming models, the cache-coherent shared address space (CC-SAS) model provides substantial ease of programming at both the conceptual and program orchestration levels, often accompanied by performance gains. However, CC-SAS currently has portability limitations and may suffer from poor spatial locality of physically distributed shared data on large numbers of processor

Rotational State-Changing Rate Coefficients Computed for Recently Detected Anionic Cyanopolyines C5N− and C7N− in Collision with He [Dataset]

[EN]We report quantum calculations involving the dynamics of energy-transfer processes taking place in Interstellar environments and involving the title molecular species which are part of the anionic molecular chains labeled as cyanopoyines which have very recently been observed in molecule-rich Circumstellar Envelopes. We first carried out new ab initio calculations for the C 7 N − involving its interaction potential with He atoms and therefore obtained state-to-state rotationally inelastic cross sections and rate coefficients over the relevant range of temperatures for both long chains and regarding the state-changing processes which have been very recently observed as radiative transitions for either molecule. The similarities and differences between such species and the comparative efficiencies of collisional rate coefficients with radiative coefficients are analysed and discussed.f Their significance on affecting internal state populations in ISM environments where the title anions are present is discussed.The original raw points from the ab initio calculations. The multipolar coefficients for the Legendre expansion of the rigid rotor potential for the C7N− /He system. The computed inelastic cross sections. The rate coefficients obtained from the 2D-RR-PES for the C7N− anion. The critical density values obtained for both anions and linked to their collision data for either He or H2