7,192 research outputs found
Study to determine the thermophysical properties of ablative materials Summary report
Thermophysical properties of ablative materials - phenolic resin
Spontaneous Breaking of Translational Invariance in One-Dimensional Stationary States on a Ring
We consider a model in which positive and negative particles diffuse in an
asymmetric, CP-invariant way on a ring. The positive particles hop clockwise,
the negative counterclockwise and oppositely-charged adjacent particles may
swap positions. Monte-Carlo simulations and analytic calculations suggest that
the model has three phases; a "pure" phase in which one has three pinned blocks
of only positive, negative particles and vacancies, and in which translational
invariance is spontaneously broken, a "mixed" phase with a non-vanishing
current in which the three blocks are positive, negative and neutral, and a
disordered phase without blocks.Comment: 7 pages, LaTeX, needs epsf.st
Yang-Lee Theory for a Nonequilibrium Phase Transition
To analyze phase transitions in a nonequilibrium system we study its grand
canonical partition function as a function of complex fugacity. Real and
positive roots of the partition function mark phase transitions. This behavior,
first found by Yang and Lee under general conditions for equilibrium systems,
can also be applied to nonequilibrium phase transitions. We consider a
one-dimensional diffusion model with periodic boundary conditions. Depending on
the diffusion rates, we find real and positive roots and can distinguish two
regions of analyticity, which can identified with two different phases. In a
region of the parameter space both of these phases coexist. The condensation
point can be computed with high accuracy.Comment: 4 pages, accepted for publication in Phys.Rev.Let
Distinct changes of genomic biases in nucleotide substitution at the time of mammalian radiation
Differences in the regional substitution patterns in the human genome created
patterns of large-scale variation of base composition known as genomic
isochores. To gain insight into the origin of the genomic isochores we develop
a maximum likelihood approach to determine the history of substitution patterns
in the human genome. This approach utilizes the vast amount of repetitive
sequence deposited in the human genome over the past ~250 MYR. Using this
approach we estimate the frequencies of seven types of substitutions: the four
transversions, two transitions, and the methyl-assisted transition of cytosine
in CpG. Comparing substitutional patterns in repetitive elements of various
ages, we reconstruct the history of the base-substitutional process in the
different isochores for the past 250 Myr. At around 90 Myr ago (around the time
of the mammalian radiation), we find an abrupt 4- to 8-fold increase of the
cytosine transition rate in CpG pairs compared to that of the reptilian
ancestor. Further analysis of nucleotide substitutions in regions with
different GC-content reveals concurrent changes in the substitutional patterns.
While the substitutional pattern was dependent on the regional GC-content in
such ways that it preserved the regional GC-content before the mammalian
radiation, it lost this dependence afterwards. The substitutional pattern
changed from an isochore-preserving to an isochore-degrading one. We conclude
that isochores have been established before the radiation of the eutherian
mammals and have been subject to the process of homogenization since then
Substantial regional variation in substitution rates in the human genome: importance of GC content, gene density and telomere-specific effects
This study presents the first global, 1 Mbp level analysis of patterns of
nucleotide substitutions along the human lineage. The study is based on the
analysis of a large amount of repetitive elements deposited into the human
genome since the mammalian radiation, yielding a number of results that would
have been difficult to obtain using the more conventional comparative method of
analysis. This analysis revealed substantial and consistent variability of
rates of substitution, with the variability ranging up to 2-fold among
different regions. The rates of substitutions of C or G nucleotides with A or T
nucleotides vary much more sharply than the reverse rates suggesting that much
of that variation is due to differences in mutation rates rather than in the
probabilities of fixation of C/G vs. A/T nucleotides across the genome. For all
types of substitution we observe substantially more hotspots than coldspots,
with hotspots showing substantial clustering over tens of Mbp's. Our analysis
revealed that GC-content of surrounding sequences is the best predictor of the
rates of substitution. The pattern of substitution appears very different near
telomeres compared to the rest of the genome and cannot be explained by the
genome-wide correlations of the substitution rates with GC content or exon
density. The telomere pattern of substitution is consistent with natural
selection or biased gene conversion acting to increase the GC-content of the
sequences that are within 10-15 Mbp away from the telomere.Comment: 35 pages, 6 figure
Galatians-A Declaration of Christian Liberty
For our orientation it will be advisable briefly to survey the passages in which the word freedom or free occurs. It is early in the Epistle that Paul first touches on this topic (2:3-5). In the historical sketch of his career he relates what happened when he and Barnabas, accompanied by Titus, went to Jerusalem
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