Project description:Metagenomics in soil treated with organic fertilizer that Trichoderma asperellum TS7-1-enhanced composting of erythromycin fermintation residue
| PRJNA1290298 | ENA
Project description:Metagenomics in organic fertilizer fermented with erythromycin fermentation residue.
| PRJNA1290328 | ENA
Project description:Metagenomics in soil treated with organic fertilizer that Trichoderma-enhanced composting of erythromycin residue
| PRJNA1289197 | ENA
Project description:Metagenomics in soil treated with organic fertilizer that Trichoderma-enhanced composting of erythromycin residue
| PRJNA1289910 | ENA
Project description:Transcriptome of Trichoderma asperellum Ta TS7-1 exposed to different concentrations of erythromycin ( 0 mg/L)
| PRJNA1290487 | ENA
Project description:Transcriptome of Trichoderma asperellum Ta TS7-1 exposed to different concentrations of erythromycin (10 mg/L)
| PRJNA1290488 | ENA
Project description:Transcriptome of Trichoderma asperellum Ta TS7-1 exposed to different concentrations of erythromycin (100 mg/L)
Project description:We report the application of RNA sequencing technology for transcriptome profiling of Trichoderma asperellum challenged with Organophosphorus Pesticide Dichlorvos. Based on RNA-seq analysis, in T. asperellum TJ01 treated with 100 μg/mL, 500 μg/mL, and 1000 μg/mL dichlorvos, 204, 490, and 872 genes were significantly upregulated, respectively, while 37, 177, and 383 genes were significantly downregulated, respectively. This study provides a framework for the application of transcriptome profiling towards characterization of trichoderma under stress of Organophosphorus Pesticide.
Project description:To investigate the effects of organic fertilizer replacing chemical fertilizer on the growth and development of barley (Kunlun-14), a pot experiment was conducted. The study examined the impacts of different ratios of organic fertilizer replacing chemical fertilizer nitrogen (0%, 40%, 100%, denoted as OFR0, OFR40, OFR100, respectively) on the growth characteristics, leaf carbon-nitrogen balance, and nitrogen metabolism enzyme activities of barley.
