Maize NCP1 negatively regulates drought and ABA responses through interacting with and inhibiting the activity of transcription factor ABP9.

KEY MESSAGE: NCP1, a NINJA family protein lacking EAR motif, acts as a negative regulator of ABA signaling by interacting with and inhibiting the activity of transcriptional activator ABP9. The phytohormone abscisic acid plays a pivotal role in regulating plant responses to a variety of abiotic stresses including drought and salinity. Maize ABP9 is an ABRE-binding bZIP transcription activator that enhances plant tolerance to multiple stresses by positively regulating ABA signaling, but the molecular mechanism by which ABP9 is regulated in mediating ABA responses remains unknown. Here, we report the identification of an ABP9-interacting protein, named ABP Nine Complex Protein 1 (NCP1) and its functional characterization. NCP1 belongs to the recently identified NINJA family proteins, but lacks the conserved EAR motif, which is a hallmark of this class of transcriptional repressors. In vitro and in vivo assays confirmed that NCP1 physically interacts with ABP9 and that they are co-localized in the nucleus. In addition, NCP1 and ABP9 are similarly induced with similar patterns by ABA treatment and osmotic stress. Interestingly, NCP1 over-expressing Arabidopsis plants exhibited a reduced sensitivity to ABA and decreased drought tolerance. Transient assay in maize protoplasts showed that NCP1 inhibits the activity of ABP9 in activating ABRE-mediated reporter gene expression, a notion further supported by genetic analysis of drought and ABA responses in the transgenic plants over-expressing both ABP9 and NCP1. These data together suggest that NCP1 is a novel negative regulator of ABA signaling via interacting with and inhibiting the activity of ABP9.

A novel protein, Rsf1/Pxd1, is critical for the single-strand annealing pathway of double-strand break repair in Schizosaccharomyces pombe.

The process of single-strand annealing (SSA) repairs DNA double-strand breaks that are flanked by direct repeat sequences through the coordinated actions of a series of proteins implicated in recombination, mismatch repair and nucleotide excision repair (NER). Many of the molecular and mechanistic insights gained in SSA repair have principally come from studies in the budding yeast Saccharomyces cerevisiae. However, there is little molecular understanding of the SSA pathway in the fission yeast Schizosaccharomyces pombe. To further our understanding of this important process, we established a new chromosome-based SSA assay in fission yeast. Our genetic analyses showed that, although many homologous components participate in SSA repair in these species indicating that some evolutionary conservation, Saw1 and Slx4 are not principal agents in the SSA repair pathway in fission yeast. This is in marked contrast to the function of Saw1 and Slx4 in budding yeast. Additionally, a novel genus-specific protein, Rsf1/Pxd1, physically interacts with Rad16, Swi10 and Saw1 in vitro and in vivo. We find that Rsf1/Pxd1 is not required for NER and demonstrate that, in fission yeast, Rsf1/Pxd1, but not Saw1, plays a critical role in SSA recombination.

Vulnerable conditions syndemic, depression, and suicidal ideation among school children in China: cross-sectional census findings.

BACKGROUND: Mental health issues (depression and suicidal ideation) are increasingly common in children and emerge as escalating public health concerns. The syndemics that underline the importance of risk factor clustering provides a framework for intervention, but there is a lack of research on syndemics involving the adverse interactions of children's mental health problems. This study therefore examined the cumulative and synergistic effects of vulnerable conditions on depression and suicidal ideation among children in China. METHODS: A mental health screening census of students in grades 5-12 was conducted from November 2022 to January 2023 in Nanling County, Anhui Province, China. The prevalence and co-occurrence of vulnerable conditions (unfavorable parental marital status, left-behind experience, bullying victimization, and self-harm behavior), depression, and suicidal ideation and the cumulative and synergistic effects of vulnerable conditions on depression and suicidal ideation were explored. RESULTS: Nearly a quarter of students (24.8%) reported at least two syndemic conditions. Overall, the prevalence of depression and suicidal ideation were 20.2% and 24.2% respectively. The odds of depression and suicidal ideation were higher for children with one or more vulnerable conditions and were ten times higher for children with three or more vulnerable conditions compared with those without any vulnerable condition. These four vulnerable conditions can increase the odds of depression and suicidal ideation by interacting synergistically with each other. CONCLUSION: Our findings signal the importance of addressing mental health syndemics among children in China by simultaneously considering concurrent vulnerable conditions.

Factors influencing COVID-19 vaccination intention among overseas and domestic Chinese university students: a cross-sectional survey.

To vaccinate the Chinese on a nationwide scale timely and effectively, it is necessary to assess the vaccination uptake intention of the public. University students are opinion leaders, who have an important impact on the vaccination uptake intention of others around them. As a group with strong population mobility, overseas university students have an extra influence on the spread of COVID-19 and the prevention and control of the pandemic. Thus, it is necessary to investigate the vaccination uptake intention of overseas and domestic university students to promote vaccination and control the pandemic globally. However, little is known about the COVID-19 vaccination uptake intention among overseas and domestic university students. This study aimed to explore the difference between overseas and domestic Chinese university students' COVID-19 vaccination uptake intentions and influencing factors using the Health Belief Model. A cross-sectional survey using an online questionnaire was conducted among 370 overseas university students and 463 domestic university students between January and February 2021. More than half of the respondents (536, 64.3%) reported vaccination uptake intentions, with overseas and domestic university students reporting similar vaccination uptake intentions (64.1% vs 64.6%, p > .05). Perceived benefits, perceived barriers, and cues to action were important factors that influenced the vaccination intention among overseas and domestic university students. It is worth trying to communicate the benefits of the vaccine, enhance the role of cues to action, and eliminate the potential barriers among overseas and domestic university students through creative propagation to further promote the COVID-19 vaccination.

COVID-19 vaccination intention and influencing factors among different occupational risk groups: a cross-sectional study.

As an effective measure to manage the Coronavirus disease 2019 (COVID-19) pandemic, the acceptance of the COVID-19 vaccine and understanding the influencing factors of vaccination intention is particularly important. This study aimed to describe the COVID-19 vaccination intention among three different occupational risk groups and identify influencing factors of vaccination intention since a COVID-19 vaccine is available in China. A cross-sectional questionnaire survey was conducted from January 10 to February 5, 2021 in Hangzhou city of Zhejiang Province, an eastern coastal province in China. The intention to accept COVID-19 vaccination and health beliefs based on the Health Belief Model were collected. Of the participants, college students reported the lowest COVID-19 vaccination intention (64.6%), followed by public transportation workers (72.4%) and health care workers (79.9%). Perceived barriers were identified as negative factors of vaccination intention among all three occupational groups. For college students and public transportation workers, perceived benefits and cues to action were identified as protective factors, and cues to action had a positive effect on vaccination intention of health care workers. Tailored interventions are encouraged to reduce barriers of vaccination, improve health beliefs and promote COVID-19 vaccination intentions.

Crystal structures of multicopper oxidase CueO G304K mutant: structural basis of the increased laccase activity.

The multicopper oxidase CueO is involved in copper homeostasis and copper (Cu) tolerance in Escherichia coli. The laccase activity of CueO G304K mutant is higher than wild-type CueO. To explain this increase in activity, we solved the crystal structure of G304K mutant at 1.49 Å. Compared with wild-type CueO, the G304K mutant showed dramatic conformational changes in methionine-rich helix and the relative regulatory loop (R-loop). We further solved the structure of Cu-soaked enzyme, and found that the addition of Cu ions induced further conformational changes in the R-loop and methionine-rich helix as a result of the new Cu-binding sites on the enzyme's surface. We propose a mechanism for the enhanced laccase activity of the G304K mutant, where movements of the R-loop combined with the changes of the methionine-rich region uncover the T1 Cu site allowing greater access of the substrate. Two of the G304K double mutants showed the enhanced or decreased laccase activity, providing further evidence for the interaction between the R-loop and the methionine-rich region. The cuprous oxidase activity of these mutants was about 20% that of wild-type CueO. These structural features of the G304K mutant provide clues for designing specific substrate-binding mutants in the biotechnological applications.

Sequence-Dependent T:G Base Pair Opening in DNA Double Helix Bound by Cren7, a Chromatin Protein Conserved among Crenarchaea.

T:G base pair arising from spontaneous deamination of 5mC or polymerase errors is a great challenge for DNA repair of hyperthermophilic archaea, especially Crenarchaea. Most strains in this phylum lack the protein homologues responsible for the recognition of the mismatch in the DNA repair pathways. To investigate whether Cren7, a highly conserved chromatin protein in Crenarchaea, serves a role in the repair of T:G mispairs, the crystal structures of Cren7-GTAATTGC and Cren7-GTGATCGC complexes were solved at 2.0 Å and 2.1 Å. In our structures, binding of Cren7 to the AT-rich DNA duplex (GTAATTGC) induces opening of T2:G15 but not T10:G7 base pair. By contrast, both T:G mispairs in the GC-rich DNA duplex (GTGATCGC) retain the classic wobble type. Structural analysis also showed DNA helical changes of GTAATTGC, especially in the steps around the open T:G base pair, as compared to GTGATCGC or the matched DNAs. Surface plasmon resonance assays revealed a 4-fold lower binding affinity of Cren7 for GTAATTGC than that for GTGATCGC, which was dominantly contributed by the decrease of association rate. These results suggested that binding of Cren7 to DNA leads to T:G mispair opening in a sequence dependent manner, and therefore propose the potential roles of Cren7 in DNA repair.

Production of a monoclonal antibody specific for high molecular weight glutenin subunits (HMW-GS) in wheat and its antigenic determinant.

Wheat high molecular weight glutenin subunits (HMW-GS) 1Bx14 and 1By15 isolated by preparative SDS-PAGE are used as antigen to immunize BALB/c mice. Subcutaneous inoculation of the antigen is performed. The intra-peritoneal injection is completed 3 days before fusion with myeloma cell (SP2/0) via PEG-1500. The fusion cells are selected by indirect enzyme-linked immuno-sorbent assay (ELISA). Positive hybrid cells are further verified three times by limit dilution of the culture cells. A hybridoma cell line is successfully obtained. The monoclonal antibody belongs to IgG1 subclass. In immunoblotting, the antibody binds to all HMW-GS of T. aestivum cultivars, but does not bind to other storage proteins in seeds of wheat. This result is consisting with the high homology in amino acid sequences among the HMW glutenin subunits in wheat. The antibody also binds to HMW-GS storage proteins in Aegilops squarrosa and T. durum (durum wheat). Furthermore, it also binds to HMW storage proteins in Secale cereale (rye), Hordeum vulgare (barley). However, it never binds seed storage proteins in other cereals such as maize, oat, rice, foxtail millet, sorghum etc. The antigen determinant recognized by the antibody has been located within hexapeptide [PGQGQQ] or / and nonapeptide [GYYPTSPQQ] in the central repetitive region of HMW-GS.

The value and realization path of public participation in national public health emergency management system / 预防医学

@#Public participation is an indispensable link in the public health emergency management system, as well as a dynamic factor and a cornerstone. It undertakes the functions of early warning, emergency response and publicness maintenance, so that it values in improving the effectiveness of public health emergency management. The main paths to realize the value of public participation in the public health emergency management system are to be the gatekeepers of public health early warning and surveillance, the participants of the management and support of public health emergency prevention and control. It is a complex system to establish and improve the national public health system. Our society should pay attention to and give full play to the value of public participation.@*@#@*@#