The dung beetle Phelotrupes auratus is a holometabolous insect belonging to the order Coleoptera, and it is widely distributed in Japan. The P. auratus habitat depends on herbivores. P. auratus eats ...the dung of the herbivores and carries it underground for its young. In this process, herbivore droppings disappear from the ground, not only keeping the ground hygienic but also maintaining good soil conditions for plant growth. In this way, a rich ecosystem is maintained. In recent years, the population of P. auratus has decreased, and the main cause has been the decrease in grazing land. It seems that Japanese dung beetles are mainly dependent on herbivores for nutrient sources. However, the physiological relationship between herbivores and P. auratus has not been well investigated. Here, we investigated the nutritional metabolism system of P. auratus by performing whole gene expression analysis of individuals collected from two areas where the ecosystem is occupied by different herbivores. We obtained 54,635 transcripts from P. auratus from Nara Park and Cape Toi and identified 2,592 differentially expressed genes in the fat bodies of the Nara Park and Cape Toi groups. We annotated P. auratus transcripts using Homo sapiens and Drosophila melanogaster genes as references; 50.5% of P. auratus transcripts were assigned to H. sapiens genes, and 54.0% of P. auratus transcripts were assigned to D. melanogaster genes. To perform gene set enrichment analysis, we chose H. sapiens genes for P. auratus transcript annotation. Principal component analysis and gene set enrichment analysis revealed that the nutritional metabolism of P. auratus from Cape Toi might differ from that of P. auratus from Nara Park. We analyzed the nutritional metabolism system of P. auratus from Cape Toi and Nara Park and found that the characteristics of the nutritional metabolism process might depend on the plants consumed by the herbivores. Our findings will contribute to elucidating the relationships among habitat plants, herbivores, and dung decomposers and may aid in the maintenance of sustainable land health cycles.
The 26S proteasome is a large protein complex, responsible for degradation of ubiquinated proteins in eukaryotic cells. Eukaryotic proteasome formation is a highly ordered process that is assisted by ...several assembly chaperones. The assembly of its catalytic 20S core particle depends on at least five proteasome‐specific chaperones, i.e., proteasome‐assembling chaperons 1–4 (PAC1–4) and proteasome maturation protein (POMP). The orthologues of yeast assembly chaperones have been structurally characterized, whereas most mammalian assembly chaperones are not. In the present study, we determined a crystal structure of human PAC4 at 1.90‐Å resolution. Our crystallographic data identify a hydrophobic surface that is surrounded by charged residues. The hydrophobic surface is complementary to that of its binding partner, PAC3. The surface also exhibits charge complementarity with the proteasomal α4–5 subunits. This will provide insights into human proteasome‐assembling chaperones as potential anticancer drug targets.
PDB Code(s): 5WTQ
It is vitally important to develop a space cooling system which realize the both of low exergy consumption and thermal comfort in hot and humid area. So the purpose of this paper is to grasp the ...relationship between the effect of indoor climate controlling and the spec and the operation condition of the housing panel cooling with cooling tower assisted by passive strategies. Followings were found by a numerical analysis at the the AIJ standard model of wooden house. The spec and the operation in the case that the lowest room air temperature is realized is the combination of the cooling panels position on the floor and the ceiling, thermal storage parts in whole walls, the running time of the panel cooling from 11:00 to 14:00 and from 16:00 to 19:00,ventilation time from 16:00 to 8:00 and so on.
This paper describes the results of the field testing related to night soil treatment and the experimental studies focusing on passive heating of the two Japanese composting toilets. The followings ...were found. The mean content temperature of the toilets' fermentation tanks were kept less than 39°C, nevertheless the electric heaters continuously worked with electric power consumption of more than 200W under the condition of the makers' default and six person's use. According to the passive heating with highly calorific material such as used cooking oil whose input rate was 7L/week, the mean content temperature was kept almost beyond 45°C for 120h that means pathogenic organisms are inactivated by high temperature.
Mitochondria undergo frequent fusion and fission events, which are essential to maintain a functional mitochondrial network. A disruption of these processes can cause severe neurodegeneration. ...Charcot–Marie–Tooth disease type 2A (CMT2A) is a neuropathy that is caused by mutations in the fusion factor Mfn2. It is generally assumed that impaired mitochondrial fusion causes CMT2A. However, the detailed molecular mechanism underlying the pathophysiology of CMT2A is only incompletely understood. In this issue of EMBO Reports, El Fissi et al established a fly model to analyze the consequence of frequently occurring MFN2 mutations on locomotor behavior, mitochondrial morphology, and function and find that some pathogenic mutants enhance fusion activity, indicating that increased mitochondrial fusion can drive CMT2A‐like pathology . Moreover, this novel assay system will be a useful tool to analyze CMT2A pathogenesis in vivo.
Charcot‐Marie‐Tooth neuropathy type 2A is thought to be caused by impaired mitochondrial fusion. A study in this issue now establishes a fly model to show that mainly increased mitochondrial fusion drives CMT2A.
•The high-leaning behavior is a novel anxiety-like behavior in the open field test.•The high-leaning and center activity differ in sensitivity to illumination intensity.•The high-leaning demonstrated ...the anxiogenic effect of early life stress.
The open field test is one of the most popular ethological tests to assess anxiety-like behavior in rodents. In the present study, we examined the effect of early deprivation (ED), a model of early life stress, on anxiety-like behavior in rats. In ED animals, we failed to find significant changes in the time spent in the center or thigmotaxis area of the open field, the common indexes of anxiety-like behavior. However, we found a significant increase in high-leaning behavior in which animals lean against the wall standing on their hindlimbs while touching the wall with their forepaws at a high position. The high-leaning behavior was decreased by treatment with an anxiolytic, diazepam, and it was increased under intense illumination as observed in the center activity. In addition, we compared the high-leaning behavior and center activity under various illumination intensities and found that the high-leaning behavior is more sensitive to illumination intensity than the center activity in the particular illumination range. These results suggest that the high-leaning behavior is a novel anxiety-like behavior in the open field test that can complement the center activity to assess the anxiety state of rats.
C57BL/6J (BL6J) and C57BL/6N (BL6N) inbred substrains are most widely used to understand the pathological roles of target molecules in a variety of diseases, including non-alcoholic steatohepatitis ...(NASH), based on transgenic mouse technologies. There are notable differences in the metabolic phenotypes, including glucose tolerance, between the BL6J and BL6N substrains, but the phenotypic differences in NASH are still unknown. We performed a comparative analysis of the two mouse substrains to identify the pathological phenotypic differences in NASH models. In the CCl
-induced NASH model, the BL6J mice exhibited a more severe degree of oxidative stress and fibrosis in the liver than the BL6N mice. In contrast, in the high-fat diet-induced NASH model, more accumulation of hepatic triglycerides but less weight gain and liver injury were noted in the BL6J mice than in the BL6N mice. Our findings strongly suggest caution be exercised with the use of unmatched mixed genetic background C57BL6 mice for studies related to NASH, especially when generating conditional knockout C57BL6 mice.
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