Sweet orange peel waste as a feed additive in growth promoting and protective effect against Aeromonas hydrophila of juvenile bagrid catfish Mystus nemurus.

Sweet orange Citrus sinensis peel is a phytobiotic agricultural waste with bioactive compounds that have potential functional properties as a growth promoter and immune stimulator. This study aims to evaluate the dietary effects of sweet orange peel (SOP) as a feed additive on growth enhancement of juvenile bagrid catfish Mystus nemurus and their disease resistance ability against Aeromonas hydrophila infection. Four experimental diets were formulated to contain 0 (SOP0, control), 4 (SOP4), 8 (SOP8) and 12 g/kg (SOP12) SOP. After 90 d of the feeding experiment, improvement in weight gain, specific growth rate, feed conversion ratio, and protein efficiency ratio were observed in the fish fed with SOP4. While fish survival was not significantly affected, hepatosomatic and viscerosomatic indices were significantly higher in fish fed with SOP12. Muscle protein was higher in fish fed with SOP4, SOP8, and SOP12 than in control but muscle lipids showed an opposite trend. A 14-d post-challenge test against A. hydrophila revealed no significant effect on the fish survival. Nevertheless, fish fed SOP4 encountered delayed bacterial infection compared to other treatments and fish fed with SOP0 and SOP4 performed numerically better survival. Infected fish showed skin depigmentation, haemorrhagic signs at the abdomen and anus, internal bleeding, and stomach and intestine enlargement. In conclusion, SOP4 could be recommended as a growth promoter while slightly delaying A. hydrophila infection in M. nemurus.

Do Science and Social Science Differ? Multi-Group Analysis (MGA) of the Willingness to Continue Online Learning.

Without proper preparation by higher institutions, the COVID-19 pandemic has forced the world to rely on online learning. Even students of social science and science are looking for different knowledge and skills. Currently, both groups rely on the same method to gather knowledge for future undertakings. Given the uncertainty regarding the resolution of COVID-19, which has driven students to continue using online learning, the current study aims to identify the factors of willingness to continue online learning among social science and pure science students by extending the use of expectation-confirmation theory. Applying a purposive sampling method, 2,215 questionnaires were collected among undergraduate students from Universiti Malaysia Terengganu (UMT) using an online survey. Current study found that expectation and confirmation positively affect satisfaction. Attitude, satisfaction and readiness were found to have a positive relationship with willingness to continue online learning. Meanwhile, self-efficacy was found unsupported hypothesis for the direct effect. For multigroup analysis, readiness was found to have a significant difference between students of social science and pure science. The findings of this research enrich the literature about online learning, especially in the COVID-19 setting. Moreover, this work is useful for higher education institutions seeking to design a better strategy that allows students to return to campus.

The sequential mediation model of students' willingness to continue online learning during the COVID-19 pandemic.

This study explored the factors influencing students' willingness to continue with the online learning system during the coronavirus disease 2019 (COVID-19) pandemic by adopting the stimulus-organism-response (SOR) theory. This study also incorporated e-learning readiness, performance, and satisfaction as mediators. The present study employed the purposive sampling method, whereby 2215 data of undergraduate students from a public university were gathered using an online survey and analysed using structural equation modelling (SEM) with Smart Partial Least Squares (SmartPLS). The results revealed that students' e-learning readiness, performance, and satisfaction positively influenced their willingness to continue online learning. Besides, students' e-learning readiness, performance, and satisfaction sequentially mediated the relationship between the online learning system quality and willingness to continue online learning. Significantly, this study provided new insights into the literature on students' willingness to continue online learning by providing empirical evidence on the factors that support their willingness to continue online learning during the COVID-19 pandemic.

Cloning and expression analysis of two ROR-γ homologues (ROR-γa1 and ROR-γa2) in rainbow trout Oncorhynchus mykiss.

This paper describes the cloning and characterisation of two retinoid-related orphan receptor (ROR)-γ homologues (ROR-γa1 and -γa2) in rainbow trout (Oncorhynchus mykiss). The coding region predicted for both homologues consists of 1410 base pairs (bp), which translate into two 469 amino acid (aa) proteins. The trout ROR-γs revealed a high conservation of both DNA- and ligand-binding domains (functional regions of the nuclear receptor family), and shared a high homology to mammalian ROR-γt. A phylogenetic tree containing ROR family members confirmed that both trout homologues clustered within the ROR-γ group. Both results suggested that these molecules are likely to be ROR-γ homologues, more similar to the mammalian splice variant ROR-γt than the full length ROR-γ. Expression analysis of tissues obtained from healthy fish revealed highest constitutive expression of trout ROR-γ in muscle, followed by the brain, heart and skin. This suggests that these genes may play an important role in such tissues. In vitro studies, using trout cell lines, demonstrated that ROR-γ is induced significantly by LPS and down-regulated by the presence of PolyI:C and recombinant interferon (IFN)-γ. Moreover, analysis of this gene in head kidney macrophages and mixed primary leucocyte cultures indicated that differences were apparent between the different cell types/sources used, indicating that its expression may be cell-type dependent. Additional studies to investigate the regulation of this gene in vivo demonstrated that its expression was significantly higher in vaccinated vs unvaccinated fish following bacterial (Yersinia ruckeri) challenge but it was down-regulated after a viral (VHSV) infection. This suggests a potential role of trout ROR-γ, a putative T(H)17 transcription factor, in protection against extracellular bacteria.

Sequencing of a second interleukin-10 gene in rainbow trout Oncorhynchus mykiss and comparative investigation of the expression and modulation of the paralogues in vitro and in vivo.

Interleukin-10 (IL-10) is a multifaceted cytokine that is produced by and effects a variety of cell populations, including macrophages, T, B and NK cells. The gene encoding for IL-10 has been isolated in mammals, birds, amphibians and recently in fish, with only single copy identified in each species. We report here a second IL-10 gene (tIL-10b) in rainbow trout that showed 92% identity in the coding region but only 50% identity in the 5'- and 3'-UTR to the known trout IL-10 paralogue, which we have now called tIL-10a. There is a short upstream open reading frame (uORF) within the 5'-untranslated region (UTR) of tIL-10a that may inhibit its translation, whilst in tIL-10b multiple mRNA instability motifs exist in the 3'-UTR, suggesting that the two IL-10 paralogues may have different mechanisms to regulate their expression post-transcriptionally. The expression of tIL-10a is generally higher than that of tIL-10b in most of the fourteen tissues examined and in the RTS-11, RTL and RTGill cell lines. However, the expression level of tIL-10b can exceed that of tIL-10a, as seen in vivo in the ovary of healthy fish and in the gills of Yersinia ruckeri challenged fish, and in vitro in head kidney (HK) leucocytes cultured for ≥ 8 h. The expression of the trout IL-10 paralogues can be up-regulated by LPS and polyIC in RTS-11 cells and by LPS, polyIC, PHA, PMA, calcium ionophore (CI) and IL-21 in head kidney leucocytes, as well as by Y. ruckeri infection, and can be modulated positively or negatively by IFN-γ. Synergistic effects on up-regulation of IL-10 expression were also seen between PHA and IL-21, as well as between PMA and CI. The expression kinetics of the IL-10 paralogues was also found to be different, suggesting that rainbow trout has evolved different pathways to regulate the expression of the two IL-10 paralogues at the transcriptional level.

Gene expression profiling in naïve and vaccinated rainbow trout after Yersinia ruckeri infection: insights into the mechanisms of protection seen in vaccinated fish.

Despite the importance and success of vaccination against bacterial diseases in fish, little is known about the mechanisms of vaccine-induced disease resistance. In this study a known efficacious bacterial vaccine, to Enteric Redmouth Disease (ERM), was used to vaccinate rainbow trout, and sixty days later the fish were challenged with the causative agent of the disease, Yersinia ruckeri. The bacterial burden in the spleen, the spleen index, and the expression profiles of pro- and anti-inflammatory cytokines and marker genes for T helper (Th) cells in the spleen and gills were analyzed, in comparison to the profiles in naïve/challenged fish. As expected, the bacterial burden in the spleen of naïve fish increased over time and was correlated with the spleen index after Y. ruckeri challenge. The gene expression data showed that pro-inflammatory cytokines were upregulated post-infection in the spleen of both naïve and vaccinated fish after Y. ruckeri challenge although the pro-inflammatory cytokine expression was much lower in vaccinated fish compared to the naïve fish. A correlated expression between pro-inflammatory cytokines and anti-inflammatory cytokines was only seen in spleen of ERM vaccinated fish, where a Th1-like response was indicated by the correlated gene expression of IFN-γ, T-bet and IL-2. In contrast, in the gills, the inflammatory gene response was enhanced in vaccinated fish compared to naïve fish, but perhaps more importantly there was a strong upregulation of IL-22 which was negatively correlated with IFN-γ gene expression at this site. Thus, it is possible that different types of adaptive responses are on-going within the vaccinated fish during infection with Y. ruckeri, potentially affected by the site and stage of infection.

The biological effects of rainbow trout (Oncorhynchus mykiss) recombinant interleukin-8.

In this report, recombinant interleukin-8 (rIL-8) was produced and its activity tested for the first time in fish. The rainbow trout rIL-8 was produced in Escherichia coli and purified using a 6xHis tag at the N-terminus. The rIL-8 induced a dose-dependent migration of head kidney leukocytes at concentrations from 0.1 to 10 ng/ml, with a peak response at 1 ng/ml. Trout rIL-8 also had a significant effect on superoxide production by head kidney cells, with maximal activity at 0.1 and 1 ng/ml. When injected intraperitoneally into trout, rIL-8 had a clear effect on total leukocyte number in the peritoneal cavity, with increasing doses (up to 5 microg) eliciting more cells. Of three leukocyte types distinguished, neutrophils were the dominant cell type, especially at higher rIL-8 concentrations. In contrast, the proportion of macrophages and lymphocytes decreased with rIL-8 administration, suggesting that they were not attracted at the same rate as neutrophils.