This study aimed to investigate the effects of microbial inoculants (L) and molasses (M) on the bacterial and fungal microbiomes of barley silage after the aerobic stage. The addition of molasses and microbial inoculants improved the aerobic stability of barley silage. The ML silage, which had a low pH value and high lactic and acetic acid contents, remained aerobically stable for more than 216 h. The ML silage exhibited low bacterial and high fungal diversities. Microbial inoculants and molasses enriched the abundance of Lactobacillus in silage after aerobic exposure. The enrichment of L. buchneri was significant in ML silage at days 5 and 7 during the aerobic stage. The abundance of harmful microorganisms, such as aerobic bacterial including Acinetobacter, Providencia, Bacillus, and yeasts including Issatchenkia, Candida, and Kazachstania, were suppressed in ML silage. M and L had an impact on bacterial and fungal microbes, resulting in the improvement of fermentation quality and reduction of aerobic spoilage in barley silage.
Advanced oxidation protein products (AOPP) as a biomarker of oxidative stress has been demonstrated in chronic kidney disease (CKD) patients; however, current methods to detect the accumulation of AOPP in serum and in tissues are limited and unreliable. This study generated a monoclonal antibody (mAb) designated 3F2, that reacts specifically with hypochlorous acid (HOCl)-modified proteins, but not with the native forms or with other types of oxidative modifications. Notably, mAb 3F2 recognizes the AOPP deposited in renal tissues of AOPP-treated rats and of patients with different kinds of CKD. Moreover, this mAb can almost completely inhibit the production of reactive oxygen species in RAW264.7 cells induced by AOPP (p < 0.001). In conclusion, mAb 3F2 can be used to detect AOPP specifically in serum and in tissues, and this antibody can potentially provide an important tool and new insight into research on diseases related to oxidative stress.
Staphylococcus aureus drug resistance to antibiotics is a serious situation that has drawn greater attention to immunotherapy and prophylaxis. Peptidoglycan (PGN) is a common and conserved component of the cell wall of Gram-positive bacteria such as S. aureus. However, PGN, as a thymus-independent antigen, cannot be considered a vaccine candidate because of its very weak immunogenicity. In this study we have attempted to enhance the immunogenicity of PGN by identifying a PGN peptide mimic sequence that would act as a thymus-dependent antigen. Several peptide sequences were obtained from a phage display peptide library using a mAb against S. aureus PGN, and a 12-mer linear single peptide (Sp-31) and a four-branch multiple antigen peptide (MAP) (MAP-P31) were synthesized. Both Sp-31 and MAP-P31 were shown to bind directly to anti-PGN mAb and a polyclonal antibody against S. aureus. These peptides could also inhibit the binding of PGN to a mAb against PGN. Furthermore, MAP-P31 was able to provoke an effective secondary antibody response in mice to PGN and to cell-wall fragments isolated from S. aureus, Escherichia coli, Staphylococcus epidermidis and Pseudomonas aeruginosa by sonication. In addition, the MAP-P31 antiserum showed a potent bactericidal or bacteriostatic activity against S. aureus in the presence and absence of complement in vitro. Importantly, immunization with MAP-P31 significantly prolonged the survival and enhanced bacterial clearance in BALB/c mice challenged with live S. aureus. In addition, the serum IgG-type antibodies against PGN persisted in mice, demonstrating that MAP-P31, as a peptide mimicking epitopes on PGN, provokes an effective secondary or memory antibody response, which can only be induced by a thymus-dependent antigen and which protects against infection with S. aureus. These results suggest that MAP-31 may be a novel vaccine candidate against S. aureus.
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