1,021 research outputs found
SIRIUS Project. IV. The formation history of the Orion Nebula Cluster driven by clump mergers
The Orion Nebula Cluster (ONC) is an excellent example for understanding the
formation of star clusters. Recent studies have shown that ONC has three
distinct age populations and anisotropy in velocity dispersions, which are key
characteristics for understanding the formation history of the ONC. In this
study, we perform a smoothed-particle hydrodynamics/-body simulation of star
cluster formation from a turbulent molecular cloud. In this simulation, stellar
orbits are integrated using a high-order integrator without gravitational
softening; therefore, we can follow the collisional evolution of star clusters.
We find that hierarchical formation causes episodic star formation that is
observed in the ONC. In our simulation, star clusters evolve due to mergers of
subclumps. The mergers bring cold gas with the clumps into the forming cluster.
This enhances the star formation in the cluster centre. The dense cold gas in
the cluster centre continues to form stars until the latest time. This explains
the compact distribution of the youngest stars observed in the ONC. Subclump
mergers also contribute to the anisotropy in the velocity dispersions and the
formation of runaway stars. However, the anisotropy disappears within 0.5 Myr.
The virial ratio of the cluster also increases after a merger due to the
runaways. These results suggest that the ONC recently experienced a clump
merger. We predict that most runaways originated from the ONC have already been
found, but walkaways have not.Comment: 15 pages, 21 figures, and 3 tables, accepted for MNRA
Lack of antigen-specific tissue remodeling in mice deficient in the macrophage galactose-type calcium-type lectin 1/CD301a.
Macrophage galactose-type C-type lectins (MGLs), which were recently named CD301, have 2 homologues in mice: MGL1 and MGL2. MGLs are expressed on macrophages and immature dendritic cells. The persistent presence of granulation tissue induced by a protein antigen was observed in wild-type mice but not in mice lacking an endogenous, macrophage-specific, galactose-type calcium-type lectin 1 (MGL1) in an air pouch model. The anti-MGL1 antibody suppressed the granulation tissue formation in wild-type mice. A large number of cells, present only in the pouch of MGL1-deficient mice, were not myeloid or lymphoid lineage cells and the number significantly declined after administration of interleukin 1 alpha (IL-1alpha) into the pouch of MGL1-deficient mice. Furthermore, granulation tissue was restored by this treatment and the cells obtained from the pouch of MGL1-deficient mice were incorporated into the granulation tissue when injected with IL-1alpha. Taken together, MGL1 expressed on a specific subpopulation of macrophages that secrete IL-1alpha was proposed to regulate specific cellular interactions crucial to granulation tissue formation
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