16 research outputs found
Lack of Cul4b, an E3 Ubiquitin Ligase Component, Leads to Embryonic Lethality and Abnormal Placental Development
Cullin-RING ligases (CRLs) complexes participate in the regulation of diverse cellular processes, including cell cycle progression, transcription, signal transduction and development. Serving as the scaffold protein, cullins are crucial for the assembly of ligase complexes, which recognize and target various substrates for proteosomal degradation. Mutations in human CUL4B, one of the eight members in cullin family, are one of the major causes of X-linked mental retardation. We here report the generation and characterization of Cul4b knockout mice, in which exons 3 to 5 were deleted. In contrast to the survival to adulthood of human hemizygous males with CUL4B null mutation, Cul4b null mouse embryos show severe developmental arrest and usually die before embryonic day 9.5 (E9.5). Accumulation of cyclin E, a CRL (CUL4B) substrate, was observed in Cul4b null embryos. Cul4b heterozygotes were recovered at a reduced ratio and exhibited a severe developmental delay. The placentas in Cul4b heterozygotes were disorganized and were impaired in vascularization, which may contribute to the developmental delay. As in human CUL4B heterozygotes, Cul4b null cells were selected against in Cul4b heterozygotes, leading to various degrees of skewed X-inactivation in different tissues. Together, our results showed that CUL4B is indispensable for embryonic development in the mouse
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Mechanism of the fcc-to-hcp phase transformation in solid Ar.
We present an atomistic description of the fcc-to-hcp transformation mechanism in solid argon (Ar) obtained from transition path sampling molecular dynamics simulation. The phase transition pathways collected during the sampling for an 8000-particle system reveal three transition types according to the lattice deformation and relaxation details. In all three transition types, we see a critical accumulation of defects and uniform growth of a less ordered transition state, followed by a homogeneous growth of an ordered phase. Stacking disorder is discussed to describe the transition process and the cooperative motions of atoms in {111} planes. We investigate nucleation with a larger system: in a system of 18 000 particles, the collective movements of atoms required for this transition are facilitated by the formation and growth of stacking faults. However, the enthalpy barrier is still far beyond the thermal fluctuation. The high barrier explains previous experimental observations of the inaccessibility of the bulk transition at low pressure and its sluggishness even at extremely high pressure. The transition mechanism in bulk Ar is different from Ar nanoclusters as the orthorhombic intermediate structure proposed for the latter is not observed in any of our simulations
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Mechanism of the fcc-to-hcp phase transformation in solid Ar.
We present an atomistic description of the fcc-to-hcp transformation mechanism in solid argon (Ar) obtained from transition path sampling molecular dynamics simulation. The phase transition pathways collected during the sampling for an 8000-particle system reveal three transition types according to the lattice deformation and relaxation details. In all three transition types, we see a critical accumulation of defects and uniform growth of a less ordered transition state, followed by a homogeneous growth of an ordered phase. Stacking disorder is discussed to describe the transition process and the cooperative motions of atoms in {111} planes. We investigate nucleation with a larger system: in a system of 18 000 particles, the collective movements of atoms required for this transition are facilitated by the formation and growth of stacking faults. However, the enthalpy barrier is still far beyond the thermal fluctuation. The high barrier explains previous experimental observations of the inaccessibility of the bulk transition at low pressure and its sluggishness even at extremely high pressure. The transition mechanism in bulk Ar is different from Ar nanoclusters as the orthorhombic intermediate structure proposed for the latter is not observed in any of our simulations
Integrating TCGA and single-cell sequencing data for colorectal cancer: a 10-gene prognostic risk assessment model
Abstract Colorectal cancer represents a significant health threat, yet a standardized method for early clinical assessment and prognosis remains elusive. This study sought to address this gap by using the Seurat package to analyze a single-cell sequencing dataset (GSE178318) of colorectal cancer, thereby identifying distinctive marker genes characterizing various cell subpopulations. Through CIBERSORT analysis of colorectal cancer data within The Cancer Genome Atlas (TCGA) database, significant differences existed in both cell subpopulations and prognostic values. Employing WGCNA, we pinpointed modules exhibiting strong correlations with these subpopulations, subsequently utilizing the survival package coxph to isolate genes within these modules. Further stratification of TCGA dataset based on these selected genes brought to light notable variations between subtypes. The prognostic relevance of these differentially expressed genes was rigorously assessed through survival analysis, with LASSO regression employed for modeling prognostic factors. Our resulting model, anchored by a 10-gene signature originating from these differentially expressed genes and LASSO regression, proved adept at accurately predicting clinical prognoses, even when tested against external datasets. Specifically, natural killer cells from the C7 subpopulation were found to bear significant associations with colorectal cancer survival and prognosis, as observed within the TCGA database. These findings underscore the promise of an integrated 10-gene signature prognostic risk assessment model, harmonizing single-cell sequencing insights with TCGA data, for effectively estimating the risk associated with colorectal cancer
Laser Direct Writing of Tree-Shaped Hierarchical Cones on a Superhydrophobic Film for High-Efficiency Water Collection
Directional
water collection has stimulated a great deal of interest because of
its potential applications in the field of microfluidics, liquid transportation,
fog harvesting, and so forth. There have been some bio or bioinspired
structures for directional water collection, from one-dimensional
spider silk to two-dimensional star-like patterns to three-dimensional <i>Nepenthes alata</i>. Here we present a simple way for the accurate
design and highly controllable driving of tiny droplets: by laser
direct writing of hierarchical patterns with modified wettability
and desired geometry on a superhydrophobic film, the patterned film
can precisely and directionally drive tiny water droplets and dramatically
improve the efficiency of water collection with a factor of βΌ36
compared with the original superhydrophobic film. Such a patterned
film might be an ideal platform for water collection from humid air
and for planar microfluidics without tunnels
Morphology and histology of <i>Cul4b</i> null embryos.
<p>(A) Uterus excised from pregnant female at 12.5 dpc. Arrows indicate absorbed embryos. (B) Photomicrographs of E7.5 embryos dissected from surrounding deciduas tissue of the same uterus. The two embryos on the left appear normal in size and morphology and the two on the right were much smaller and were partially deteriorated. The bar represents 200 Β΅m. (C) H&E staining of paraffin sections of wild-type and <i>Cul4b</i> null embryos at 7.5 dpc. Littermate embryos at 7.5 dpc were paraffin embedded and cross sectioned together with their surrounding deciduas. The genotype of each embryo was determined by immunohistochemistry using an anti-Cul4b antibody, as shown below. (D) Immunohistochemistry of paraffin sections of wild-type and <i>Cul4b</i> null embryos at 7.5 dpc with an anti-Cul4b antibody. (EβF) Photomicrographs with higher magnification of the stained section shown in (D).</p
Distribution of <i>Cul4b</i> genotypes in progeny of <i>Cul4b</i><sup>+/flox</sup>/<i>Cul4b</i><sup>+/null</sup>;<i>EIIa-Cre</i><sup>+/β</sup> females.
<p>Litters were dissected at the times shown and genotyped by PCR as described in Materials and Methods.</p>a<p>ND indicates that the <i>Cul4b</i> genotype could not be determined by PCR.</p