Mothers' resilience and potential for disrupted parenting in COVID-19: The protective effect of cognitive reappraisal.

Stress related to the COVID-19 pandemic may pose acute threats to caregivers' capacity to cope and result in problematic parenting. However, studies have suggested that some caregivers were able to maintain high resilience when facing hardship. The goal of the present study was to examine how COVID-19-related stress affects resilience and parenting of mothers with young children and whether mothers' individual differences in emotion regulation skills lead to different resilience and parenting outcomes.

Developmental antecedents of attention-deficit/hyperactivity disorder symptoms in middle childhood: The role of father-child interactions and children's emotional underregulation.

The present study examined the influence of fathers' parenting quality during infancy on children's emotion regulation during toddlerhood and, subsequently, attention-deficit/hyperactivity disorder (ADHD) symptoms in middle childhood. Fathers and their 8-month-old infants ( = 124) were followed over time to obtain home observations of parenting quality at 8 and 24 months, laboratory observations of children's emotion regulation at 24 months, and teacher reports of children's ADHD symptoms at 7 years. A path analysis revealed that fathers' emotional disengagement in infancy and minimizing responses to children's distress in toddlerhood forecast children's development of ADHD symptoms in middle childhood.

Parent-mediated intervention training for caregivers of children with developmental differences in Zambia.

Background: Lower- and middle-income countries (LAMICs) are under-resourced and have limited intervention services for children with developmental differences and their families. A logical method to address service gaps within resource-scarce contexts is to train caregivers as interventionists, specifically using empirically-supported parent-mediated Naturalistic Developmental Behavioral Interventions (P-M NDBIs; Kasari et al., 2010; Ingersoll & Wainer, 2013).

Fathers' Sensitivity in Infancy and Externalizing Problems in Middle Childhood: The Role of Coparenting.

The present study examined the role of father sensitivity and couple coparenting quality in the first 2 years of life in relation to the development of externalizing behavior problems in middle childhood, focusing on the unique role of fathers. In this study, 125 mothers, fathers, and their first-born children were followed from 8 months to age 7 years. Paternal sensitivity was rated when infants were 8 and 24 months old.

Trp53 ablation fails to prevent microcephaly in mouse pallium with impaired minor intron splicing.

Minor spliceosome inhibition due to mutations in RNU4ATAC are linked to primary microcephaly. Ablation of Rnu11, which encodes a minor spliceosome snRNA, inhibits the minor spliceosome in the developing mouse pallium, causing microcephaly. There, cell cycle defects and p53-mediated apoptosis in response to DNA damage resulted in loss of radial glial cells (RGCs), underpinning microcephaly.

Loss of U11 small nuclear RNA in the developing mouse limb results in micromelia.

Disruption of the minor spliceosome due to mutations in is linked to primordial dwarfism in microcephalic osteodysplastic primordial dwarfism type 1, Roifman syndrome, and Lowry-Wood syndrome. Similarly, primordial dwarfism in domesticated animals is linked to positive selection in minor spliceosome components. Despite being vital for limb development and size regulation, its role remains unexplored.

Structural Health Monitoring for Jacket-Type Offshore Wind Turbines: Experimental Proof of Concept.

Structural health monitoring for offshore wind turbines is imperative. Offshore wind energy is progressively attained at greater water depths, beyond 30 m, where jacket foundations are presently the best solution to cope with the harsh environment (extreme sites with poor soil conditions). Structural integrity is of key importance in these underwater structures.

Minor spliceosome inactivation causes microcephaly, owing to cell cycle defects and death of self-amplifying radial glial cells.

Mutation in minor spliceosome components is linked to the developmental disorder microcephalic osteodysplastic primordial dwarfism type 1 (MOPD1). Here, we inactivated the minor spliceosome in the developing mouse cortex (pallium) by ablating , which encodes the crucial minor spliceosome small nuclear RNA (snRNA) U11. conditional knockout mice were born with microcephaly, which was caused by the death of self-amplifying radial glial cells (RGCs), while intermediate progenitor cells and neurons were produced.