Antibacterial hydrogel wound dressing is highly desirable in wound healing and infection control. However, the development of antibacterial hydrogels with controllable antibacterial properties and adequate mechanical properties without bacterial resistance and potential toxicity remains a challenge. Herein, a double bonds-ended polyaniline nanoparticle (Me-PANI NP) is synthesized, which can convert light energy into heat upon near-infrared (NIR) irradiation, and it is used as a novel photothermal antibacterial agent. The obtained bonds-ended Me-PANI NPs are subsequently involved in polyacrylamide (PAM) polymerization and served as chemical crosslinking points to form the Me-PANI NPs@PAM hydrogel, endowing the hydrogel with controllable photothermal antibacterial abilities upon NIR irradiation without time and space limit. Importantly, due to the energy dissipation of Me-PANI NPs under stretch, the Me-PANI NPs@PAM hydrogel achieves a maximum stretching ratio of 400% mechanical flexibility. The developed hydrogel can be potentially applied as a novel wound dressing to realize controllable treatment of bacterial infections and accelerate skin wound healing.
Background: Milk vetch dwarf virus (MDV) is an important ssDNA virus which causes yellowing, stunting and leaf rolling symptoms on legumes. In China, the virus causes great economic losses and has recently been found to infect tobacco. The expansion of its host range and its ability to spread rapidly has given rise to the urgent need for a sensitive, specific and rapid diagnostic assay that can assist in effective disease control. Methods: Assays based on the polymerase chain reaction combined with lateral flow strip detection (PCR-LFS) and recombinase polymerase amplification combined with LFS (RPA-LFS) were developed targeting the coat protein (CP) gene of MDV. Results: The PCR and RPA assays could detect respectively 10 3 copies or 10 1 copies of MDV by agarose gel electrophoresis. The PCR-LFS and RPA-LFS assays developed could both detect as few as 10 1 copies per reaction at 37°C. Both methods could detect MDV in crude leaf extracts. Conclusions: The RPA-LFS assay developed is a rapid, sensitive and specific method for detecting MDV, which is convenient and has great potential for use in the field.
A series of hydrogels containing guanidine-based polymers using a poloxamer as the matrix were prepared to provide novel wound dressings with antibacterial and repairing-promotion properties for skin wounds. Herein, we developed a series of antibacterial hydrogels, the cationic guanidine-based polymer polyhexamethylene guanidine hydrochloride (PHMG) with poloxamer aqueous solution (12%, w/w) simplified as PHMGP, chitosan (CS)-cross-linked PHMG (referred to as PHMC) with poloxamer aqueous solution simplified as PHMCP, and hyaluronic acid (HA)-modified PHMG (referred to as PHMH) with poloxamer aqueous solution simplified as PHMHP, for enhancing full-thickness skin wound healing. The characterizations, antimicrobial activity, cytotoxicity, and in vivo full-thickness woundhealing capability of these hydrogels were analyzed and evaluated. The results show that though PHMGP possesses great bactericide properties, its cytotoxicity is too strong to support skin regeneration. However, after modified with CS or HA, PHMCP and PHMHP showed good biocompatibility and antimicrobial properties against Gram-positive and Gram-negative bacteria that are commonly present in injured skin. Both PHMCP and PHMHP hydrogels exhibited upgraded wound-healing efficiency in fullthickness skin defects, characterized by a shorter wound closure time, faster re-regeneration, and the earlier formation of skin appendages, compared with those of control or pure poloxamer treatments. Their biological mechanism was detected. Both PHMCP and PHMHP can regulate the related biofactors during the skin repair process such as interleukin-1β (IL-1β), interleukin-6 (IL-6), transforming growth factor beta-1(TGF-β1), alpha-smooth muscle actin (α-SMA), and vascular endothelial growth factor, to promote wound healing with less serious scarring. In short, hydrogels with excellent capabilities to inhibit microorganism infection and promote wound healing were developed, which will shed light on designing and producing wound dressings with promising applications in future.
Body weight (BW) is a critical economic trait for meat production in sheep. The current study aimed to perform a genome-wide association study (GWAS) to detect significant single-nucleotide polymorphisms (SNPs) that are associated with BW in Hu sheep. The comparison and analysis of the G1 and G2 generations of a nucleus meat Hu sheep breeding herd revealed four SNPs identified by GWAS. The subsequent verification of the significant SNP loci in the Hu sheep G3 generation nucleus herd also detected nine SNPs in significant SNP regions. Two SNPs were significantly associated with the BW of Hu sheep (
p
< 0.05). OARX_76354330.1 and s64890.1 could be identified as functional SNPs for the growth traits of Hu sheep.
CAPN6
, as a candidate gene, was significantly different in the biceps femoris and longissimus dorsi muscles of weaning (60-day) and 6-month sheep, which facilitated the discovery of causal variants for BW and contributed to the marker-assisted selection breeding of Hu sheep.
Campylobacter jejuni is the major cause of campylobacteriosis, one of the most common foodborne illnesses worldwide. Here, we report the development of RAA-exo-probe and RAA-CRIPSR/Cas12a assays for the detection of C. jejuni in food samples. The two assays were found to be highly specific to C. jejuni and highly sensitive, as they were one log more sensitive compared to the traditional culture method, with detection thresholds of 9 and 5 copies per reaction, respectively. These assays successfully detected C. jejuni in spiked chicken samples and natural meat samples (chicken, beef, mutton, etc.) and were overall less dependent on expensive equipment, only requiring a fluorescent reader. Their ease of use compared to other nucleic acid amplification-based methods indicates that these assays could be adapted for the rapid, routine surveillance of C. jejuni contamination in food samples, particularly for work done in the field or poorly equipped labs.
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