480 research outputs found
The Post-Pericenter Evolution of the Galactic Center Source G2
In early 2014 the fast-moving near-infrared source G2 reached its closest
approach to the supermassive black hole Sgr A* in the Galactic Center. We
report on the evolution of the ionized gaseous component and the dusty
component of G2 immediately after this event, revealed by new observations
obtained in 2015 and 2016 with the SINFONI integral field spectrograph and the
NACO imager at the ESO VLT. The spatially resolved dynamics of the Br
line emission can be accounted for by the ballistic motion and tidal shearing
of a test-particle cloud that has followed a highly eccentric Keplerian orbit
around the black hole for the last 12 years. The non-detection of a drag force
or any strong hydrodynamic interaction with the hot gas in the inner accretion
zone limits the ambient density to less than a few 10 cm at the
distance of closest approach (1500 ), assuming G2 is a spherical cloud
moving through a stationary and homogeneous atmosphere. The dust continuum
emission is unresolved in L'-band, but stays consistent with the location of
the Br emission. The total luminosity of the Br and L' emission
has remained constant to within the measurement uncertainty. The nature and
origin of G2 are likely related to that of the precursor source G1, since their
orbital evolution is similar, though not identical. Both object are also likely
related to a trailing tail structure, which is continuously connected to G2
over a large range in position and radial velocity.Comment: 17 pages, 12 figures; accepted for publication in Ap
Genome-Wide Analysis of the Yeast Transcriptome Upon Heat and Cold Shock
DNA arrays were used to measure changes in transcript levels as yeast cells responded to temperature shocks. The number of genes upregulated by temperature shifts from
30 ℃ to 37℃ or 45℃ was correlated with the severity of the stress. Pre-adaptation
of cells, by growth at 37 ℃ previous to the 45℃ shift, caused a decrease in the
number of genes related to this response. Heat shock also caused downregulation of a
set of genes related to metabolism, cell growth and division, transcription, ribosomal
proteins, protein synthesis and destination. Probably all of these responses combine
to slow down cell growth and division during heat shock, thus saving energy for
cell rescue. The presence of putative binding sites for Xbp1p in the promoters of
these genes suggests a hypothetical role for this transcriptional repressor, although
other mechanisms may be considered. The response to cold shock (4℃) affected a
small number of genes, but the vast majority of those genes induced by exposure to
4 ℃ were also induced during heat shock; these genes share in their promoters cis-regulatory
elements previously related to other stress responses
Phenotype of autosomal dominant spastic paraplegia linked to chromosome 2
Summary We report the clinical features of 12 families with autosomal dominant spastic paraplegia (ADSP) linked to the SPG4 locus on chromosome 2p, the major locus for this disorder that accounts for ∼40% of the families. Among 93 gene carriers, 32 (34%) were unaware of symptoms but were clinically affected. Haplotype reconstruction showed that 90% of the asymptomatic gene carriers presented increased reflexes and/or extensor plantar responses independent of age at examination. The mean age at onset was 29 years, ranging from 1 to 63 years. Intra- as well as inter-familial variability of age at onset was important, but did not result from anticipation. Phenotype—genotype correlations and comparison with SPG3 and SPG5 families indicated that despite the variability of age at onset, SPG4 is a single genetic entity but no clinical features distinguish individual SPG4 patients from those with SPG3 or SPG5 mutation
Overexpression of Inosine 5′-Monophosphate Dehydrogenase Type II Mediates Chemoresistance to Human Osteosarcoma Cells
overexpression in osteosarcoma patients with poor response to chemotherapy. The aim of this study was to provide evidence for direct involvement of IMPDH2 in the development of chemoresistance..IMPDH2 is directly involved in the development of chemoresistance in osteosarcoma cells, suggesting that targeting of IMPDH2 by RNAi or more effective pharmacological inhibitors in combination with chemotherapy might be a promising means of overcoming chemoresistance in osteosarcomas with high IMPDH2 expression
Optical Distortion in the NACO Imager
In this research note, we present a set of distortion solutions that may be
used to correct geometric optical distortion in images taken with the S13
camera of the NACO adaptive optics imager.Comment: published in the RNAA
Genotypic resistance testing in HIV by arrayed primer extension
The analysis of mutations that are associated with the occurrence of drug resistance is important for monitoring the antiretroviral therapy of patients infected with human immunodeficiency virus (HIV). Here, we describe the establishment and successful application of Arrayed Primer Extension (APEX) for genotypic resistance testing in HIV as a rapid and economical alternative to standard sequencing. The assay is based on an array of oligonucleotide primers that are immobilised via their 5′-ends. Upon hybridisation of template DNA, a primer extension reaction is performed in the presence of the four dideoxynucleotides, each labelled with a distinct fluorophore. The inserted label immediately indicates the sequence at the respective position. Any mutation changes the colour pattern. We designed a microarray for the analysis of 26 and 33 codons in the HIV protease and reverse transcriptase, respectively, which are of special interest with respect to drug resistance. The enormous genome variability of HIV represents a big challenge for genotypic resistance tests, which include a hybridisation step, both in terms of specificity and probe numbers. The use of degenerated oligonucleotides resulted in a significant reduction in the number of primers needed. For validation, DNA of 94 and 48 patients that exhibited resistance to inhibitors of HIV protease and reverse transcriptase, respectively, were analysed. The validation included HIV subtype B, prevalent in industrialised countries, as well as non-subtype B samples that are more common elsewhere
Sgr A* near-infrared flares from reconnection events in a magnetically arrested disc
Large-amplitude Sgr A* near-infrared flares result from energy injection into
electrons near the black hole event horizon. Astrometry data show continuous
rotation of the emission region during bright flares, and corresponding
rotation of the linear polarization angle. One broad class of physical flare
models invokes magnetic reconnection. Here we show that such a scenario can
arise in a general relativistic magnetohydrodynamic simulation of a
magnetically arrested disc. Saturation of magnetic flux triggers eruption
events, where magnetically dominated plasma is expelled from near the horizon
and forms a rotating, spiral structure. Dissipation occurs via reconnection at
the interface of the magnetically dominated plasma and surrounding fluid. This
dissipation is associated with large increases in near-infrared emission in
models of Sgr A*, with durations and amplitudes consistent with the observed
flares. Such events occur at roughly the timescale to re-accumulate the
magnetic flux from the inner accretion disc, 10h for Sgr A*. We study
near-infrared observables from one sample event to show that the emission
morphology tracks the boundary of the magnetically dominated region. As the
region rotates around the black hole, the near-infrared centroid and linear
polarization angle both undergo continuous rotation, similar to the behavior
seen in Sgr A* flares.Comment: revised version, MNRAS, in pres
Multiwavelength Variability of Sagittarius A* in 2019 July
We report timing analysis of near-infrared (NIR), X-ray, and sub-millimeter
(submm) data during a three-day coordinated campaign observing Sagittarius A*.
Data were collected at 4.5 micron with the Spitzer Space Telescope, 2-8 keV
with the Chandra X-ray Observatory, 3-70 keV with NuSTAR, 340 GHz with ALMA,
and at 2.2 micron with the GRAVITY instrument on the Very Large Telescope
Interferometer. Two dates show moderate variability with no significant lags
between the submm and the infrared at 99% confidence. July 18 captured a
moderately bright NIR flare (F_K ~ 15 mJy) simultaneous with an X-ray flare (F
~ 0.1 cts/s) that most likely preceded bright submm flux (F ~ 5.5 Jy) by about
+34 (+14 -33) minutes at 99% confidence. The uncertainty in this lag is
dominated by the fact that we did not observe the peak of the submm emission. A
synchrotron source cooled through adiabatic expansion can describe a rise in
the submm once the synchrotron-self-Compton NIR and X-ray peaks have faded.
This model predicts high GHz and THz fluxes at the time of the NIR/X-ray peak
and electron densities well above those implied from average accretion rates
for Sgr A*. However, the higher electron density postulated in this scenario
would be in agreement with the idea that 2019 was an extraordinary epoch with a
heightened accretion rate. Since the NIR and X-ray peaks can also be fit by a
non-thermal synchrotron source with lower electron densities, we cannot rule
out an unrelated chance coincidence of this bright submm flare with the
NIR/X-ray emission.Comment: Accepted for publication in The Astrophysical Journa
First direct detection of an exoplanet by optical interferometry; Astrometry and K-band spectroscopy of HR8799 e
To date, infrared interferometry at best achieved contrast ratios of a few
times on bright targets. GRAVITY, with its dual-field mode, is now
capable of high contrast observations, enabling the direct observation of
exoplanets. We demonstrate the technique on HR8799, a young planetary system
composed of four known giant exoplanets. We used the GRAVITY fringe tracker to
lock the fringes on the central star, and integrated off-axis on the HR8799e
planet situated at 390 mas from the star. Data reduction included
post-processing to remove the flux leaking from the central star and to extract
the coherent flux of the planet. The inferred K band spectrum of the planet has
a spectral resolution of 500. We also derive the astrometric position of the
planet relative to the star with a precision on the order of 100as. The
GRAVITY astrometric measurement disfavors perfectly coplanar stable orbital
solutions. A small adjustment of a few degrees to the orbital inclination of HR
8799 e can resolve the tension, implying that the orbits are close to, but not
strictly coplanar. The spectrum, with a signal-to-noise ratio of
per spectral channel, is compatible with a late-type L brown dwarf. Using
Exo-REM synthetic spectra, we derive a temperature of \,K and a
surface gravity of cm/s. This corresponds to a radius
of and a mass of , which is an independent confirmation of mass estimates from evolutionary
models. Our results demonstrate the power of interferometry for the direct
detection and spectroscopic study of exoplanets at close angular separations
from their stars.Comment: published in A&
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