187 research outputs found
Secret Key Generation from Correlated Sources and Secure Link
In this paper, we study the problem of secret key generation from both
correlated sources and a secure channel. We obtain the optimal secret key rate
in this problem and show that the optimal scheme is to conduct secret key
generation and key distribution jointly, where every bit in the secret channel
will yield more than one bit of secret key rate. This joint scheme is better
than the separation-based scheme, where the secure channel is used for key
distribution, and as a result, every bit in the secure channel can only provide
one bit of secret key rate.Comment: 5 pages, 1 figur
Dust Extinction of Gamma-ray Burst Host Galaxies: Identification of Two Classes?
Dust in the host galaxies of gamma-ray bursts (GRBs) dims and reddens their
afterglow spectra. Knowledge of the nature of this dust is crucial for
correcting for extinction, providing clues to the nature of GRB progenitors,
and probing the interstellar medium of high-redshift galaxies as well as the
nature of cosmic dust when the universe was much younger and galaxies were much
less evolved. The dust and extinction properties of GRB host galaxies are still
poorly known. Unlike previous work, we derive in this Letter the extinction
curves for 10 GRB host galaxies without a priori assumption of any specific
extinction types (such as that of the Milky Way, or the Small/Large Magellanic
Clouds). It is found that there appears to exist two different types of
extinction curves: one is relatively flat and gray, the other displays a
steeper dependence on inverse wavelength, closely resembling that of the Milky
Way but with the 2175\Angstrom feature removed.Comment: 15 pages, 3 figures. Substantially revised with the same arguments;
accepted for publication in The Astrophysical Journal Letter
Bacterial growth, detachment and cell size control on polyethylene terephthalate surfaces.
In medicine and food industry, bacterial colonisation on surfaces is a common cause of infections and severe illnesses. However, the detailed quantitative information about the dynamics and the mechanisms involved in bacterial proliferation on solid substrates is still lacking. In this study we investigated the adhesion and detachment, the individual growth and colonisation, and the cell size control of Escherichia coli (E. coli) MG1655 on polyethylene terephthalate (PET) surfaces. The results show that the bacterial growth curve on PET exhibits the distinct lag and log phases, but the generation time is more than twice longer than in bulk medium. Single cells in the lag phase are more likely to detach than clustered ones in the log phase; clustered bacteria in micro-colonies have stronger adhesive bonds with surfaces and their neighbours with the progressing colonisation. We show that the cell size is under the density-dependent pathway control: when the adherent cells are at low density, the culture medium is responsible for coordinating cell division and cell size; when the clustered cells are at high population density, we demonstrate that the effect of quorum sensing causes the cell size decrease as the cell density on surfaces increases.This is the final version of the article. It first appeared from Nature Publishing Group via http://dx.doi.org/10.1038/srep1515
Akt finds its new path to regulate cell cycle through modulating Skp2 activity and its destruction by APC/Cdh1
Skp2 over-expression has been observed in many human cancers. However, the mechanisms underlying elevated Skp2 expression have remained elusive. We recently reported that Akt1, but not Akt2, directly controls Skp2 stability by interfering with its association with APC/Cdh1. As a result, Skp2 degradation is protected in cancer cells with elevated Akt activity. This finding expands our knowledge of how specific kinase cascades influence proteolysis governed by APC/Cdh1 complexes. However, it awaits further investigation to elucidate whether the PI3K/Akt circuit affects other APC/Cdh1 substrates. Our results further strengthen the argument that different Akt isoforms might have distinct, even opposing functions in the regulation of cell growth or migration. In addition, we noticed that Ser72 is localized in a putative Nuclear Localization Sequence (NLS), and that phosphorylation of Ser72 disrupts the NLS and thus promotes Skp2 cytoplasmic translocation. This finding links elevated Akt activity with the observed cytoplasmic Skp2 staining in aggressive breast and prostate cancer patients. Furthermore, it provides the rationale for the development of specific Akt1 inhibitors as efficient anti-cancer therapeutic agents
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