Toshiyuki Sugai scite author profile

Background The importance of support for the mothers of infants to cope with parenting stress due to isolated parenting environments is being emphasized. In order to reduce the parenting stress in parenting mothers while improving the quality of parenting support for them, it is important to identify factors influencing such stress. We investigated the effects of artwork production in different styles, conducted self-evaluation of such production, and identified factors influencing parenting stress in mothers, involving those who participated in a handprint artwork production workshop. Methods We included 140 mothers who participated in a handprint artwork production workshop, dividing them into 2 groups: A: 70 with children younger than 3 years of age who engaged in artwork production alone; and B: 70 who engaged in it through collaboration with their children aged 3 years or older. The instructor distributed an anonymous, self-administered questionnaire to all the mothers, and collected their responses. The questionnaire examined the following items: attributes, the number of participations in the workshop, artwork production self-evaluation, and parenting stress. Results There were 140 (100%) responses, and the number of valid responses was 65 from Group A and 54 from Group B, a total of 119 (85%). The mean [parenting strain] score was significantly higher in Group B. Multiple regression analysis identified the child's age and presence/absence of his/her siblings overall and in Group A, and , an item for artwork production self-evaluation, in Group B as factors influencing the total [parenting strain] score. Conclusion The present results suggest that the child's age and presence/absence of his/her siblings could influence parenting stress in the mothers. Additionally, there was a correlation between the level of parenting stress and score for among the mothers who engaged in artwork production through collaboration with their children.

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Detailed Molecular Interactions between Respiratory Syncytial Virus Fusion Protein and the TLR4/MD-2 Complex In Silico

Akagawa

Shirai²,

Sada

et al. 2022

Viruses

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Molecular interactions between respiratory syncytial virus (RSV) fusion protein (F protein) and the cellular receptor Toll-like receptor 4 (TLR4) and myeloid differentiation factor-2 (MD-2) protein complex are unknown. Thus, to reveal the detailed molecular interactions between them, in silico analyses were performed using various bioinformatics techniques. The present simulation data showed that the neutralizing antibody (NT-Ab) binding sites in both prefusion and postfusion proteins at sites II and IV were involved in the interactions between them and the TLR4 molecule. Moreover, the binding affinity between postfusion proteins and the TLR4/MD-2 complex was higher than that between prefusion proteins and the TLR4/MD-2 complex. This increased binding affinity due to conformational changes in the F protein may be able to form syncytium in RSV-infected cells. These results may contribute to better understand the infectivity and pathogenicity (syncytium formation) of RSV.

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Molecular Evolutionary Analyses of the RNA-Dependent RNA Polymerase (RdRp) Region and VP1 Gene in Human Norovirus Genotypes GII.P6-GII.6 and GII.P7-GII.6

Takahashi

Kimura

Shirai

et al. 2023

Viruses

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To understand the evolution of GII.P6-GII.6 and GII.P7-GII.6 strains, the prevalent human norovirus genotypes, we analysed both the RdRp region and VP1 gene in globally collected strains using authentic bioinformatics technologies. A common ancestor of the P6- and P7-type RdRp region emerged approximately 50 years ago and a common ancestor of the P6- and P7-type VP1 gene emerged approximately 110 years ago. Subsequently, the RdRp region and VP1 gene evolved. Moreover, the evolutionary rates were significantly faster for the P6-type RdRp region and VP1 gene than for the P7-type RdRp region and VP1 genes. Large genetic divergence was observed in the P7-type RdRp region and VP1 gene compared with the P6-type RdRp region and VP1 gene. The phylodynamics of the RdRp region and VP1 gene fluctuated after the year 2000. Positive selection sites in VP1 proteins were located in the antigenicity-related protruding 2 domain, and these sites overlapped with conformational epitopes. These results suggest that the GII.6 VP1 gene and VP1 proteins evolved uniquely due to recombination between the P6- and P7-type RdRp regions in the HuNoV GII.P6-GII.6 and GII.P7-GII.6 virus strains.

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Molecular Evolutionary Analyses of the RNA-Dependent RNA Polymerase (RdRp) Region and VP1 Gene in Human Norovirus Genotypes GII.P6-GII.6 and GII.P7-GII.6

Takahashi¹,

Kimura²,

Shirai³

et al. 2023

Preprint

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To understand the evolution of the human norovirus GII.P6-GII.6 and GII.P7-GII.6 strains, we analyzed both the RdRp region and VP1 gene in globally collected strains using authentic bioinformatics technologies. A common ancestor of the P6- and P7-type RdRp region emerged approximately 50 years ago and a common ancestor of the P6- and P7-type VP1 gene emerged approximately 110 years ago. Subsequently, the RdRp region and VP1 gene evolved. Moreover, the evolutionary rates were significantly faster for the P6-type RdRp region and VP1 gene than the P7-type RdRp region and VP1 genes. Large genetic divergence was observed in the P7-type RdRp region and VP1 gene compared with the P6-type RdRp region and VP1 gene. The phylodynamics of the RdRp region and VP1 gene fluctuated after the year 2000. Positive selection sites in VP1 proteins were located in the antigenicity-related protruding 2 domain, and these sites overlapped with conformational epitopes. These results suggest that the GII.6 VP1 gene and VP1 proteins evolved uniquely due to recombination between the P6- and P7-type RdRp regions in the HuNoV GII.P6-GII.6 and GII.P7-GII.6 virus strains.

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Toshiyuki Sugai

Factors Influencing Parenting Stress in the Mothers of Infants and the Effects of Artwork Production

Detailed Molecular Interactions between Respiratory Syncytial Virus Fusion Protein and the TLR4/MD-2 Complex In Silico

Molecular Evolutionary Analyses of the RNA-Dependent RNA Polymerase (RdRp) Region and VP1 Gene in Human Norovirus Genotypes GII.P6-GII.6 and GII.P7-GII.6

Molecular Evolutionary Analyses of the RNA-Dependent RNA Polymerase (RdRp) Region and VP1 Gene in Human Norovirus Genotypes GII.P6-GII.6 and GII.P7-GII.6

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