Project description:The rapid postharvest deterioration of fresh fruits is closely associated with fungal contamination,particularly by Aspergills niger, which severely compromises storage stability and market value.In this study, a fruit endophytic strain, Bacillus velezensis LY G-26, was isolated and shown toproduce volatile organic compounds (VOCs) with strong antifungal activity. VOCs significantlyinhibited 4. niger mycelial growth, spore gemination, and sporulation, and induced severemembrane disruption and mitochondrial damage. HS-SPME-GC-MS/MS identified 2-nonanone,2,S-dimethylpyrazine, and trans-2,3-dimethylacrylic acid as the primary active VOCs, with2-nonanone exhibiting the strongest inhibition. To enable practical application in food systems,LYG-26 was encapsulated into superabsorbent polymer beads, creating a packaging-compatibleslow-release system. When incorporated into sealed storage containers, the beads continuouslyreleased VOCs and significantly reduced A. niger decay in longan, effectively extending theirpostharvest shelf life. These findings provide a safe and environmentally friendly strategy forpostharvest preservation and shelf-life enhancement.
Project description:Tongue squamous cell carcinoma (TSCC) varies in characteristics even in early stages and is mainly classified into three subtypes, which are superficial, exophytic and endophytic types, based on a macroscopic appearance of tumor growth.Of these subtypes, endophytic tumor has a poorer prognosis because of its invasive feature and higher frequency to have metastasis. To understand a molecular mechanism of endophytic subtype and identify biomarkers, we performed comprehensive microarray analysis for mRNAs from clinical biopsy sampleswhich were classified into subtypes and found overexpression of parvin-beta (PARVB) gene significantly related to endophytic type. PARVB is known to play a critical role in actin reorganization and focal adhesions. Knocking down PARVB expression in vitrocaused apparent decreases in cell migration and wound healing, implying that PARVB has a crucial role in cellular motility. Moreover, metastasis-free survival was significantly lowered in patients with higher PARVB expression. Therefore overexpression of PARVB is a candidate biomarker for endophytic tumor and metastasis and may be clinically applicable for decision making of an adjuvant therapy in TSCC. Twenty seven OCT embedded tissues were used to extract total RNA. Then RNAs were amplified, biotinylated, fragmented and hybridized on GeneChip Human Genome U133 plus 2.0 arrays.
Project description:Tongue squamous cell carcinoma (TSCC) varies in characteristics even in early stages and is mainly classified into three subtypes, which are superficial, exophytic and endophytic types, based on a macroscopic appearance of tumor growth.Of these subtypes, endophytic tumor has a poorer prognosis because of its invasive feature and higher frequency to have metastasis. To understand a molecular mechanism of endophytic subtype and identify biomarkers, we performed comprehensive microarray analysis for mRNAs from clinical biopsy sampleswhich were classified into subtypes and found overexpression of parvin-beta (PARVB) gene significantly related to endophytic type. PARVB is known to play a critical role in actin reorganization and focal adhesions. Knocking down PARVB expression in vitrocaused apparent decreases in cell migration and wound healing, implying that PARVB has a crucial role in cellular motility. Moreover, metastasis-free survival was significantly lowered in patients with higher PARVB expression. Therefore overexpression of PARVB is a candidate biomarker for endophytic tumor and metastasis and may be clinically applicable for decision making of an adjuvant therapy in TSCC.
Project description:Fungal-fungal interactions frequently result in alterations to the metabolomic profiles of the interacting fungi, with potential ramifications in both industrial and agricultural contexts. In this present study, an endophytic strain of Fusarium sp. MF20 was isolated from the fruiting bodies of Sanghuangporus vaninii. An optimized co-culture system was then established to explore the changes in metabolite profiles resulting from the fungal-fungal interaction, employing a comprehensive analysis integrating transcriptomics and metabolomics. This foundational work paves the way for the enhanced industrial exploitation of Sanghuangporus, a medicinally valuable and rare fungi
