3,462 research outputs found
The Cosmic Decline in the H2/HI-Ratio in Galaxies
We use a pressure-based model for splitting cold hydrogen into its atomic
(HI) and molecular (H2)components to tackle the co-evolution of HI, H2, and
star formation rates (SFR) in ~3e7 simulated galaxies in the Millennium
simulation. The main prediction is that galaxies contained similar amounts of
HI at redshift z=1-5 than today, but substantially more H2, in quantitative
agreement with the strong molecular line emission already detected in a few
high redshift galaxies and approximately consistent with inferences from
studies of the damped Lyman-alpha absorbers seen in the spectra of quasars. The
cosmic H2/HI-ratio is predicted to evolve monotonically as Omega(H2)/Omega(HI)
(1+z)^1.6. This decline of the H2/HI-ratio as a function of cosmic time is
driven by the growth of galactic disks and the progressive reduction of the
mean cold gas pressure. Finally, a comparison between the evolutions of HI, H2,
and SFRs reveals two distinct cosmic epochs of star formation: an early epoch
(z>3), driven by the evolution of Omega(HI+H2), and a late epoch (z<3), driven
by the evolution of Omega(H2)/Omega(HI).Comment: 4 pages, 3 figure
The MEROPS Database
Many proteins undergo important post-translational proteolytic processing to remove targeting signals and activation peptides, and most proteins undergo proteolytic inactivation and catabolism. The enzymes that hydrolyse the peptide bonds in proteins and peptides are known as peptidases, proteases or proteolytic enzymes. The MEROPS database ("http://merops.sanger.ac.uk":http://merops.sanger.ac.uk) presents the classification and nomenclature of peptidases, their inhibitors and substrates. In 1993 we proposed the scheme for the classification of peptidases that has been internationally accepted, and in 1996 we established the MEROPS database. Protein inhibitors have been included in the database since 2004. About 2% of the genes in a genome encode peptidase homologues, and a further 1% encode protein inhibitors. For example, the human genome has 1037 genes encoding peptidase homologues (of which 643 are known or predicted to be active peptidases) and 433 protein inhibitor genes (of which 144 have been biochemically characterized as inhibitors). 

The MEROPS classification is hierarchical. Sequences are grouped into a peptidase species (each of which is given a unique identifier, for example C01.060 for cathepsin B); peptidase species are grouped into a family (for example C1); and families grouped into a clan (for example CA). To be included in the same protein species, sequences must be derived from the same node on a dendrogram derived from the family sequence alignment and known (or predicted) to share similar specificity. To be included in the same family sequences must be homologous over the sequence domain that contains the active site residues (peptidases) or reactive site (inhibitors). To be included in the same clan, the proteins must share similar tertiary structures (or the same linear arrangement of active site residues if the structure is unknown). Over 117,000 peptidase homologues are classified into 3114 protein species, 205 families and 52 clans, and 12,104 protein inhibitors are classified into 663 protein species, 64 families and 33 clans.

The database includes manually curated summaries for each clan, family and protein species. There are also sequence alignments and manually curated bibliographies (with over 41,000 references) at every level. In addition to protein inhibitors we also include 158 manually curated summaries for synthetic and naturally occurring small molecule inhibitors. There is also a summary page for each organism listing all known homologues and an analysis highlighting significant presences, absences or gene family expansions for organisms with a completely sequenced genome. 

The MEROPS database includes known peptidase substrates: naturally occurring peptides and proteins, and synthetic substrates. Currently there are 4091 cleavages of synthetic substrates and 95,413 cleavages of proteins (of which 74,740 are physiological). Cleavages in proteins are mapped to UniProt entries. An alignment of very close homologues of each substrate sequence is shown, highlighting residues around each cleavage site indicating whether the peptidase is known to accept the amino acid at that position or not. Cleavage sites that are conserved are likely to be physiological; cleavage sites that are not conserved may be pathological for the species in which they occur or coincidental.

The MEROPS data is freely available to download from our FTP site ("http://ftp.sanger.ac.uk/pub/MEROPS":http://ftp.sanger.ac.uk/pub/MEROPS) and via our Distributed Annotation System (DAS) server ("http://das.sanger.ac.uk/das/merops":http://das.sanger.ac.uk/das/merops).

Haemoglobinopathies and health care provision for ethnic minorities
The level of training and competence in dealing with haemoglobinopathies (which mainly affect ethnic minorities in the UK) may not be totally adequate among nurses. Nurses indicated that they received little or no information in their teaching for working from a multiracial perspective and what they had learned was through experience and personal research since qualifying as nurses. Knowledge of the biological basis of inheritance, methods of acquisition of thalassaemia and sicklecell anaemia and the ethnic profile of people affected by these conditions may not be totally adequate among nurses. Many nurses wanted more training, including those who had already received instruction, since this
was described as ‘far too vague’, ‘not constructive’, ‘minimal’, or ‘embarrassingly insufficient’, recommending that instruction be given
by a sickle-cell anaemia/thalassaemia counsellor with a contribution from patients. A combination of poor quality, or lack, of instruction, together with time and resource pressures, is responsible for this limited
understanding, resulting in insufficient awareness of the health needs of ethnic minorities leading to inequalities in healthcare provision
Sedimentology, volcanology and geodynamics of the Redbank Package, McArthur Basin, northern Australia
The 1815-1705 Ma Redbank package is a 3-6 km thick succession of shallow marine to braided
fluvial sandstone and lesser conglomerate, mudstone, carbonates and rhyolitic-basaltic volcanics
and high-level intrusions. It forms the base of the Palaeo proterozoic McArthur Basin in northern
Australia.
In the southern McArthur Basin, the Tawallah Group is the best exposed stratigraphic
component of this package. Coarse-grained facies at the base of the Group formed in a
proximal-medial braided fluvial environment and are overlain by widespread sheets of supermature
quartzarenite and intervening flood basalt. These enigmatic sandstone sheets contain features
consistent with deposition in a complex high-energy shallow marine, fluvial and aeolian setting
on an extensive low-gradient shelf Overlying mudstones and carbonates were deposited on a
shallow epeiric shelf and coastal sabkha fringe that onlapped basement tectonic ridges.
A regional sequence boundary formed during subsequent regional uplift and local synsedimentary
deformation, and was followed by deposition of another widespread quartzarenite sheet.
The overlying succession of fine-grained sandstone, mudstone, carbonate and evaporitic
redbeds suggest more diverse depositional settings. Marginal marine salina, near-shore
peritidal, storm-dominated shelf and moderately deep water settings, with periodic restriction
to the marine realm, fluctuating accommodation rates and minor synsedimentary faulting are all
recorded.
Regional-scale dolerite sills and an extensive stacked succession of basalt sheets were emplaced
sequentially as widely-dispersed invasive flows under a thin blanket of wet unconsolidated sediment
and peperite. Volcanism was locally associated with uplift and emplacement of polymict debris
flows and breccia bodies. This was followed by deposition of a complex association of clastic
sediments and felsic volcanics and intrusion of high-level plutons (upper Tawallah Group).
Sheet-like rhyolitic lavas with abrupt talus-lined margins evolved via non-explosive eruption and
long-term viscous flow. This was facilitated by low water content and high and continuous eruption
temperature and effusion rate. Complex ephemeral alluvial and debris flow aprons formed adjacent
to the lavas, recording the generation, erosional denudation and final burial of a dynamic
high-relief volcano-tectonic landscape. Epiclastic materials were reworked in bordering lakes and
low-relief braid plains that prograded radially away from the volcanic centres. Periods between
magmatic events were characterised by deposition of widespread immature sandstone sheets in
extensive high-energy ephemeral to perennial braided fluvial settings and the development of
low-relief regional disconformities. Concurrent pluton emplacement in the northern
McArthur Basin generated a series of structural domes with peripheral deformation.
Accommodation space for intrusion was provided by decollement at ductility transitions, upward
flexuring, outward gravity slide and vertical displacement of overlying sediments. Detailed stratigraphic and facies analysis of the Tawallah Group has enabled the development
of a tectonostratigraphic framework for the entire Redbank package. Four second order
subdivisions are recognised (Yirrumanja, Liverpool, Costello and Mitchell mesopackages)
that facilitate a clearer, integrated regional understanding of the lithology, timing and geographic
distribution of basin phases. The package concept is also applied to the composite McArthur Basin
system as a whole. Five distinct and regionally coherent basin phases are recognised (Redbank,
Goyder, Glyde, Favenc and Wilton packages). These were deposited in a dynamic tectonic
environment over a period of -350 m.y.
Geochemical characterisation of Proterozoic igneous phases in northern Australia has confirmed
many lithostratigraphic correlations in the McArthur Basin. Felsic units show temporal and spatial
variation in geochemistry that reflects partial melting of heterogeneous Archaean mafic lower crust
due to the emplacement oflarge basaltic magma chambers and radiogenic heating. The McArthur
Basin contains five main mafic igneous phases with typical flood basalt attributes, spanning a
period of -480 m.y. Magmas were derived by partial melting of chemically-stratified lower
lithosphere and do not exhibit a plume or rift signature.
A convergent intracratonic setting is proposed for the Redbank package. Basin architecture
reflects diverse subsidence mechanisms operating inboard of the active southern margin of the
North Australian Craton (Strangways arc). Wedge-shaped and magmatic-related basin architectures
formed during subduction. Subsidence was influenced by dynamic topography, thermally- and
mechanically-driven viscoelastic behaviour of heterogeneous crust, magmatic underplating,
lithospheric phase transformations, and local transtension and isostatic loading. Local growthfault
architecture formed by incipient back-arc extension. Magmatism was driven by a persistent
thermal anomaly related to insulative heating and a transient convective roll emanating from the
Strangways arc, that eroded the lower lithosphere and generated a magma pool. Migration of
magma into lower-crustal magma chambers and to the surface took place at transtensional sites
along lithosphere-scale strike-slip faults. Regional unconformities and elongate and wedge basin
architectures formed in the Redbank package during periodic terrane accretion events at the
Strangways arc. Subsidence was influenced largely by transmission of in-plane stress through the
lithosphere to produce lithosphere-scale folding, viscoelastic deflections of the lithosphere, and
transtensional strike-slip and flexural back-bulge basins. Local elongate magmatic grabens are
interpreted as impactogens resulting from indentor tectonics
Time and M-theory
We review our recent proposal for a background independent formulation of a
holographic theory of quantum gravity. The present review incorporates the
necessary background material on geometry of canonical quantum theory,
holography and spacetime thermodynamics, Matrix theory, as well as our specific
proposal for a dynamical theory of geometric quantum mechanics, as applied to
Matrix theory. At the heart of this review is a new analysis of the conceptual
problem of time and the closely related and phenomenologically relevant problem
of vacuum energy in quantum gravity. We also present a discussion of some
observational implications of this new viewpoint on the problem of vacuum
energy.Comment: 86 pages, 5 figures, LaTeX, typos fixed, references added, and Sec.
6.2 revised; invited review for Int. J. Mod. Phys.
Rotation of the pre-stellar core L1689B
The search for the onset of star formation in pre-stellar cores has focussed
on the identification of an infall signature in the molecular line profiles of
tracer species. The classic infall signature is a double peaked line profile
with an asymmetry in the strength of the peaks such that the blue peak is
stronger. L1689B is a pre-stellar core and infall candidate but new JCMT HCO+
line profile data, presented here, confirms that both blue and red asymmetric
line profiles are present in this source. Moreover, a dividing line can be
drawn between the locations where each type of profile is found. It is argued
that it is unlikely that the line profiles can be interpreted with simple
models of infall or outflow and that rotation of the inner regions is the most
likely explanation. A rotational model is developed in detail with a new 3D
molecular line transport code and it is found that the best type of model is
one in which the rotational velocity profile is in between solid body and
Keplerian. It is firstly shown that red and blue asymmetric line profiles can
be generated with a rotation model entirely in the absence of any infall
motion. The model is then quantitively compared with the JCMT data and an
iteration over a range of parameters is performed to minmize the difference
between the data and model. The results indicate that rotation can dominate the
line profile shape even before the onset of infall.Comment: Accepted by MNRAS, 7 pages, 4 figure
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