568 research outputs found
Treatment of white wine of browning color material with nylon 66
It has been found that a parUal removal of polyphenols from a white table wine by treatment with nylon paste reduc,es color and considerably increases its resistance to browning d,uring storage.This confirms that the browning of White wines i,s due to oxidation of polyphen: olic material an:d not to me1'anoLdin formation by sugar and amino acid interation, the common cause of browning in the food industries.Brownish pink color of the ,skin of K6shu and Delaware grape berries proved that these spedes conta'ined too much polyphenol sulbstances; consequently wines of these two grapes ,get browning more quickly. Treatment of the wine with nylon paste is simple to carry out and, since nylon is chemically inert, it neither dissolves in wine nor reacts with it. Nylon removm a part of ·the phenolic material by adsorption. Nylon paste can easily be regenerated lby treating with alkali and washing with water. All experiments were made with young and aged wines, but the process could probably be ,applied with advantage at an earlier stage of vinification. Nylon treatment is complementary to the usual process of wine making and does no·t supercide sulfitin,g or fining. It was introduced in the process of wine making beoause it is very economical and useful to the preservation of materials
New approach to extract important degrees of freedom in quantum dynamics using singular value decomposition: Application to linear optical spectrum in two-dimensional Mott insulators
We propose a new approach to extract the important degrees of freedom in
quantum dynamics induced by an external stimulus. We calculate the coefficient
matrix numerically, where the element of the matrix is the coefficient of
the lth basis state at the ith discretized time in the solution of the
time-dependent Schr\"odinger equation induced by the external stimulus. By
performing a randomized singular value decomposition of the coefficient matrix,
a practically exact solution is obtained using a linear combination of the
important modes, where the number of modes is much smaller than the dimensions
of the Hilbert space in many cases. We apply this method to analysis of the
light absorption spectrum in two-dimensional (2D) Mott insulators using an
effective model of the 2D Hubbard model in the strong interaction case. From
the dynamics induced by an ultrashort weak light pulse, we find that the
practically exact light absorption spectrum can be reproduced by as few as 1000
energy eigenstates in the -dimension Hilbert space of a
26-site cluster. These one-photon active energy eigenstates are classified into
free holon and doublon (H-D) and localized H-D states. In the free H-D states,
the main effect of the spin degrees of freedom on the transfer of a holon (H)
and a doublon (D) is the phase shift, and the H and the D move freely. In the
localized H-D states, an H and a D are localized with relative distances of
or . The antiferromagnetic (AF) spin orders in the
localized H-D states are much stronger than those in the free H-D states, and
the charge localization is of magnetic origin. There are sharp peaks caused by
excitations to the localized H-D states below the broad band caused by
excitations to the free H-D states in the light absorption spectrum
Rab8a and Rab8b are essential for several apical transport pathways but insufficient for ciliogenesis
The small GTP-binding protein Rab8 is known to play an essential role in intracellular transport and cilia formation. We have previously demonstrated that Rab8a is required for localising apical markers in various organisms. Rab8a has a closely related isoform, Rab8b. To determine whether Rab8b can compensate for Rab8a, we generated Rab8b-knockout mice. Although the Rab8b-knockout mice did not display an overt phenotype, Rab8a and Rab8b double-knockout mice exhibited mislocalisation of apical markers and died earlier than Rab8a-knockout mice. The apical markers accumulated in three intracellular patterns in the double-knockout mice. However, the localisation of basolateral and/or dendritic markers of the double-knockout mice seemed normal. The morphology and the length of various primary and/or motile cilia, and the frequency of ciliated cells appeared to be identical in control and double-knockout mice. However, an additional knockdown of Rab10 in double-knockout cells greatly reduced the percentage of ciliated cells. Our results highlight the compensatory effect of Rab8a and Rab8b in apical transport, and the complexity of the apical transport process. In addition, neither Rab8a nor Rab8b are required for basolateral and/or dendritic transport. However, simultaneous loss of Rab8a and Rab8b has little effect on ciliogenesis, whereas additional loss of Rab10 greatly affects ciliogenesis
Charge-Transfer Excitations in One-Dimensional Dimerized Mott Insulators
We investigate the optical properties of one-dimensional (1D) dimerized Mott
insulators using the 1D dimerized extended Hubbard model. Numerical
calculations and a perturbative analysis from the decoupled-dimer limit clarify
that there are three relevant classes of charge-transfer (CT) states generated
by photoexcitation: interdimer CT unbound states, interdimer CT exciton states,
and intradimer CT exciton states. This classification is applied to
understanding the optical properties of an organic molecular material,
1,3,5-trithia-2,4,6-triazapentalenyl (TTTA), which is known for its
photoinduced transition from the dimerized spin-singlet phase to the regular
paramagnetic phase. We conclude that the lowest photoexcited state of TTTA is
the interdimer CT exciton state and the second lowest state is the intradimer
CT exciton state.Comment: 6 pages, 6 figures, to be published in J. Phys. Soc. Jp
Topological (Sliced) Doping of a 3D Peierls System: Predicted Structure of Doped BaBiO3
At hole concentrations below x=0.4, Ba_(1-x)K_xBiO_3 is non-metallic. At x=0,
pure BaBiO3 is a Peierls insulator. Very dilute holes create bipolaronic point
defects in the Peierls order parameter. Here we find that the Rice-Sneddon
version of Peierls theory predicts that more concentrated holes should form
stacking faults (two-dimensional topological defects, called slices) in the
Peierls order parameter. However, the long-range Coulomb interaction, left out
of the Rice-Sneddon model, destabilizes slices in favor of point bipolarons at
low concentrations, leaving a window near 30% doping where the sliced state is
marginally stable.Comment: 6 pages with 5 embedded postscript figure
Angle-resolved photoemission study of MX-chain compound [Ni(chxn)Br]Br
We report on the results of angle-resolved photoemission experiments on a
quasi-one-dimensional -chain compound [Ni(chxn)Br]Br (chxn =
1,2-cyclohexanediamine), a one-dimensional Heisenberg system with
and K, which shows a gigantic non-linear optical effect. A "band"
having about 500 meV energy dispersion is found in the first half of the
Brillouin zone , but disappears at . Two
dispersive features, expected from the spin-charge separation, as have been
observed in other quasi-one-dimensional systems like SrCuO, are not
detected. These characteristic features are well reproduced by the -
chain model calculations with a small charge-transfer energy compared
with that of one-dimensional Cu-O based compounds. We propose that this smaller
is the origin of the absence of clear spin- and charge-separation in
the photoemission spectra and strong non-linear optical effect in
[Ni(chxn)Br]Br.Comment: 4 pages, 3 figure
Photoinduced Structural Phase Transitions in Polyacene
There exist two types of structural instability in polyacene: double bonds in
a cis pattern and those in a trans pattern. They are isoenergetic but
spectroscopically distinct. We demonstrate optical characterization and
manipulation of Peierls-distorted polyacene employing both correlated and
uncorrelated Hamiltonians. We clarify the phase boundaries of the cis- and
trans-distorted isomers, elucidate their optical-conductivity spectra, and then
explore their photoresponses. There occurs a photoinduced transformation in the
polyacene structure, but it is one-way switching: The trans configuration is
well convertible into the cis one, whereas the reverse conversion is much less
feasible. Even the weakest light irradiation can cause a transition of
uncorrelated electrons, while correlated electrons have a transition threshold
against light irradiation.Comment: 14 pages with 15 figures embedde
Effects of Lattice and Molecular Phonons on Photoinduced Neutral-to-Ionic Transition Dynamics in Tetrathiafulvalene--Chloranil
For electronic states and photoinduced charge dynamics near the neutral-ionic
transition in the mixed-stack charge-transfer complex
tetrathiafulvalene--chloranil (TTF-CA), we review the effects of Peierls
coupling to lattice phonons modulating transfer integrals and Holstein
couplings to molecular vibrations modulating site energies. The former
stabilizes the ionic phase and reduces discontinuities in the phase transition,
while the latter stabilizes the neutral phase and enhances the discontinuities.
To reproduce the experimentally observed ionicity, optical conductivity and
photoinduced charge dynamics, both couplings are quantitatively important. In
particular, strong Holstein couplings to form the highly-stabilized neutral
phase are necessary for the ionic phase to be a Mott insulator with large
ionicity. A comparison with the observed photoinduced charge dynamics indicates
the presence of strings of lattice dimerization in the neutral phase above the
transition temperature.Comment: 9 pages, 7 figures, accepted for publication in J. Phys. Soc. Jp
Soliton excitations in halogen-bridged mixed-valence binuclear metal complexes
Motivated by recent stimulative observations in halogen (X)-bridged binuclear
transition-metal (M) complexes, which are referred to as MMX chains, we study
solitons in a one-dimensional three-quarter-filled charge-density-wave system
with both intrasite and intersite electron-lattice couplings. Two distinct
ground states of MMX chains are reproduced and the soliton excitations on them
are compared. In the weak-coupling region, all the solitons are degenerate to
each other and are uniquely scaled by the band gap, whereas in the
strong-coupling region, they behave differently deviating from the scenario in
the continuum limit. The soliton masses are calculated and compared with those
for conventional mononuclear MX chains.Comment: 9 pages, 10 figures embedded, to be published in J. Phys. Soc. Jpn.
71, No. 1 (2002
Epithelial-mesenchymal transitions: the importance of changing cell state in development and disease
The events that convert adherent epithelial cells into individual migratory cells that can invade the extracellular matrix are known collectively as epithelial-mesenchymal transition (EMT). Throughout evolution, the capacity of cells to switch between these two cellular states has been fundamental in the generation of complex body patterns. Here, we review the EMT events that build the embryo and further discuss two prototypical processes governed by EMT in amniotes: gastrulation and neural crest formation. Cells undergo EMT to migrate and colonize distant territories. Not surprisingly, this is also the mechanism used by cancer cells to disperse throughout the body
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