Expression and analysis of zinc fi nger family gene in Lenzites gibbosa

Zinc finger transcription factors play significant roles in the growth and development of plant and animal,but their function remains obscure in fungi.Lenzites gibbosa mycelia were extracted and sequenced by transcriptome analysis after growing on sawdust at different times to support mycelial growth of L.gibbosa in a nutrient matrix.Data bases used for analysis were the Kyoto encyclopedia of genes and genomes(KEGG)annotation,the cluster of orthologous groups of proteins(COG)and gene ontology(GO)annotation.Zinc finger class genes related to the growth and development of L.gibbosa were screened.GO annotation and enrichment analysis of diff erentially expressed genes were carried out.A total of 114.55 Gb Clean Data were obtained from the L.gibbosa transcriptome.The average Clean Data in each sample was 6.16 Gb.The relative efficiency of reads between each sample and the reference genome was 88.5%to 91.4%.The COG analysis showed that most zinc finger protein genes were related to replication,recombination and repair function.GO enrichment analysis showed that the expressed genes involved in cellular process,cell part and binding.We identifi ed seventy-two expressed genes including seven up-regulated genes and sixty-five down-regulated genes by applying DESeq2 data analysis software.By comparing the significantly expressed genes with KEGG database,66 annotated sequences were obtained,and 35 primary metabolic pathways were annotated.Pathway enrichment analysis showed that differentially expressed genes were signifi cantly enriched in protein processing in endoplasmic reticulum and ubiquitin-mediated proteolysis pathways.Gene_11750 and gene_5266 are highly correlated with the growth and development of L.gibbosa and are closely related to protein processing in endoplasmic reticulum and ubiquitin-mediated proteolysis pathway.According to gene functional analysis,seven important differentially expressed genes related to the growth and development of L.gibbosa were identified.

Multi-functional vesicles improve Helicobacter pylori eradication by a comprehensive strategy based on complex pathological microenvironment

Helicobacter pylori(H.pylori),creating a global infection rate over 50%,presents great challenges in clinical therapies due to its complex pathological microenvironment in vivo.To improve the eradication efficacy,herein we fabricated a pharmaceutical vesicle RHL/Cl-Ch-cal where cholesterol-PEG,calcitriol and first-line antibiotic clarithromycin were co-loaded in the rhamnolipid-composed outer lipid layer.RHL/Cl-Ch-cal could quickly penetrate through gastric mucus layer to reach H.pylori infection sites,and then effectively destroyed the architecture of H.pylori biofilms,killed dispersed H.pylori and inhibited the re-adhesion of residual bacteria(called biofilms eradication tetralogy).Moreover,RHL/Cl-Ch-cal activated the host immune response to H.pylori by replenishing cholesterol to repair lipid raft on the cell membrane of host epithelial cells.Finally,RHL/Cl-Ch-cal killed the intracellular H.pylori through recovering the lysosomal acidification and assisting degradation.In experiments,RHL/Cl-Ch-cal demonstrated prominent anti-H.pylori efficacy in the classical H.pylori-infected mice model.Therefore,the study provides a“comprehensive attack”strategy for anti-H.pylori therapies including biofilms eradication tetralogy,immune activation and intracellular bacteria killing.

A multifunctional cholesterol-free liposomal platform based on protopanaxadiol for alopecia therapy

Liposome could form a long-term drug reservoir in the skin for sustained drug release,which is beneficial to improving efficacy and alleviating adverse effects.Thus,it has become a better option for anti-alopecia drugs delivery.However,cholesterol used as the fluidity buffer in conventional liposomes is a precursor for testosterone biosynthesis,which could convert to dihydrotestosterone,resulting in hair follicle damage and potentiating hair loss.To overcome the limitations,in this study we prepared a cholesterol-free liposome(PPD-Lip)using protopanaxadiol(PPD)instead of cholesterol to avoid the biosynthesis of testosterone which is adverse to alopecia therapy.PPD-Lip also worked as an active ingredient to facilitate hair growth by promoting dermal papilla cells proliferation and migration,upregulating mRNA levels of hair growth-related positive regulators,and accelerating angiogenesis in vitro.Meanwhile,it promoted hair regrowth in telogen and androgenetic alopecia mice models in vivo.In addition,our study showed that as the liposomal vehicle,PPD-Lip loaded with dutasteride exerted a stronger efficacy in the treatment of androgenetic alopecia and such a strategy could extend to other anti-alopecia agents.To the best of our knowledge,being easy for clinical transformation,the PPD-based liposomal delivery system provides a promising and multifunctional alternative platform for the delivery of alopecia treatment agents.