Phages, as obligate bacterial and archaeal parasites, constitute a virus group of paramount ecological significance due to their exceptional abundance and genetic diversity. These biological entities serve as critical regulators in Earth's ecosystems, driving biogeochemical cycles, energy fluxes, and ecosystem services across terrestrial and marine environments. Within soil microbiomes, phages function as microbial "dark matter," maintaining the soil-plant system balance through precise modulation of the microbial community structure and functional dynamics. Despite the growing research interests in soil phages in recent years, the proportion of such studies in environmental virology remains disproportionately low, which is primarily attributed to researchers' limited familiarity with the research methodologies for phage microecology, incomplete technical frameworks, and inherent challenges posed by soil environmental complexity. To address these challenges, this review synthesizes cutting-edge methodologies for soil phage investigation from four aspects: (1) tangential flow filtration (TFF)-based phage enrichment strategies; (2) integrated quantification approaches combining double-layer agar plating, epifluorescence microscopy, and flow cytometry; (3) multi-omics analytical pipelines leveraging metagenomics and viromics datasets; and (4) computational frameworks merging machine learning algorithms with eco-evolutionary theory for deciphering phage-host interaction networks. Through comparative analysis of methodological principles, technical merits, and application scopes, we establish a comprehensive workflow for soil phage research. Future research in this field should prioritize: (1) construction of soil phage resource libraries, (2) exploration of RNA phages based on transcriptomes, (3) functional characterization of unknown genes, and (4) deep integration and interaction validation of multi-omics data. This systematic methodological synthesis provides critical technical references for addressing fundamental challenges in characterizing soil phages regarding the community structure, functional potential, and interaction mechanisms with hosts.
Bacteriophages/physiology* ; Soil Microbiology ; Ecosystem ; Microbiota ; Metagenomics/methods*

Objective:To study the mechanism of moxibustion therapy on diabetic peripheral neuropathy for the peripheral neuroprotection.Methods:The DPN model was induced by intraperitoneal injection with streptozotocin (STZ).The rats were given moxibustion at the acupoint Yishu (Extra) and the acupoint Zusanli (ST 36).The treatment was carried out once a day and 15 minutes per acupoint,lasting for 56 d in total.The clinical effect of moxibustion was evaluated by detecting blood sugar,urine sugar,body weight and dietary intakes,as well as nerve conduction velocity with neuroelectrophysiological method.The structure variation of sciatic nerve was observed by HE staining and light microscopy,and the level of NGF in the sciatic nerve Was determined by ELISA.Results:Compared with the model group,the plasma glucose was significantly lower in the moxibustion group (P＜0.01),with significantly faster nerve conduction velocity (P＜0.01),more notably changes in pathological appearance (P＜0.01) and higher level of nerve growth factor (NGF)(P＜0.01).Conclusion:Moxibustion could improve the symptom and signs of peripheral neuropathy in rat models with DPN,which may relate to the increased NGF and enhanced peripheral nerve protection.

AIM: To obverse the expression and localization of urocortin on ultrathin cryosections of syncytiotrophoblast of human term placenta with immunocytochemistry technique under transmission electron microscope. METHODS: The human term placenta tissue from Cesarean delivery and normal labor were fixed in 4% paraformaldehyde, and then divided into two parts. One part was for regular immunocytochemistry under microscope, and the other part was used to prepare ultrathin cryosections for immunocytochemistry under transmission electron microscope. RESULTS: 1.Uroncortin mainly distributed in cytoplasm of syncytiotrophoblast of human term placenta under microscope. Urocortin also appeared in cytoplasm in some stromal cells. 2. Under transmission electron microscope, the anti-urocortin gold particles were observed in cytoplasm of syncytioptrophoblast ultrathin cryosections and sited on rough-surfaced endoplasmic reticulum. The anti-urocortin gold particles also appeared on nucleus and nuclear membrane of syncytiotrophoblast. CONCLUSION: Syncytiotrophoblast of human term placenta synthesized and secreted urocortin. The internalization of urocortin within syncytiotrophoblast nuclear indicates that urocortin may act as intracrine.