Optogenetic inhibition of D₂R-neurons selectively promoted WM maintenance and retrieval under low cognitive load. by Xing-jun Chen (14275092)

Data Sheet 1_A novel, rapid, and practical prognostic model for sepsis patients based on dysregulated immune cell lactylation.pdf by Chang Li (133800)

“…</p>Conclusions<p>Lactylation is significantly associated with increased mortality risk in sepsis. …”

MD assay summary of NPs and NP-Rs-RNAi screening with elavc155 driver, related to by Yutong Song (327091)

MD assay summary of NPs and NP-Rs-RNAi screening with elavc155 driver, related to by Yutong Song (327091)

Effects of optogenetic manipulations of D₁R-neurons on locomotor activity. by Xing-jun Chen (14275092)

MD assay summary of NPs and NP-Rs-RNAi screening with elavc155 driver, related to by Yutong Song (327091)

Transcriptome profiles of alveolar macrophages in response to <i>C. gattii</i> and <i>C. neoformans</i> infection. by Siranart Jeerawattanawart (4430302)

MD assay summary of NPs and NP-Rs-RNAi screening with elavc155 driver, related to by Yutong Song (327091)

MD assay summary of NPs and NP-Rs-RNAi screening with elavc155 driver, related to by Yutong Song (327091)

Quantitative Proteomics Combined with Phosphoproteome Reveals the Mechanism of the Density-Sensing Regulator QseC in the Pathogenesis of Glaesserella parasuis by Xuefeng Yan (1322220)

“…Additionally, iron uptake becomes impaired because genes such as hemG and fbpC2 are suppressed, along with defense proteins HsdR and ApxIB. Finally, cells adopt an “offensive-defensive shift” survival strategy. …”

Quantitative Proteomics Combined with Phosphoproteome Reveals the Mechanism of the Density-Sensing Regulator QseC in the Pathogenesis of Glaesserella parasuis by Xuefeng Yan (1322220)

“…Additionally, iron uptake becomes impaired because genes such as hemG and fbpC2 are suppressed, along with defense proteins HsdR and ApxIB. Finally, cells adopt an “offensive-defensive shift” survival strategy. …”

Quantitative Proteomics Combined with Phosphoproteome Reveals the Mechanism of the Density-Sensing Regulator QseC in the Pathogenesis of Glaesserella parasuis by Xuefeng Yan (1322220)

“…Additionally, iron uptake becomes impaired because genes such as hemG and fbpC2 are suppressed, along with defense proteins HsdR and ApxIB. Finally, cells adopt an “offensive-defensive shift” survival strategy. …”

Quantitative Proteomics Combined with Phosphoproteome Reveals the Mechanism of the Density-Sensing Regulator QseC in the Pathogenesis of Glaesserella parasuis by Xuefeng Yan (1322220)

“…Additionally, iron uptake becomes impaired because genes such as hemG and fbpC2 are suppressed, along with defense proteins HsdR and ApxIB. Finally, cells adopt an “offensive-defensive shift” survival strategy. …”

Quantitative Proteomics Combined with Phosphoproteome Reveals the Mechanism of the Density-Sensing Regulator QseC in the Pathogenesis of Glaesserella parasuis by Xuefeng Yan (1322220)

“…Additionally, iron uptake becomes impaired because genes such as hemG and fbpC2 are suppressed, along with defense proteins HsdR and ApxIB. Finally, cells adopt an “offensive-defensive shift” survival strategy. …”

Quantitative Proteomics Combined with Phosphoproteome Reveals the Mechanism of the Density-Sensing Regulator QseC in the Pathogenesis of Glaesserella parasuis by Xuefeng Yan (1322220)

“…Additionally, iron uptake becomes impaired because genes such as hemG and fbpC2 are suppressed, along with defense proteins HsdR and ApxIB. Finally, cells adopt an “offensive-defensive shift” survival strategy. …”

Quantitative Proteomics Combined with Phosphoproteome Reveals the Mechanism of the Density-Sensing Regulator QseC in the Pathogenesis of Glaesserella parasuis by Xuefeng Yan (1322220)

“…Additionally, iron uptake becomes impaired because genes such as hemG and fbpC2 are suppressed, along with defense proteins HsdR and ApxIB. Finally, cells adopt an “offensive-defensive shift” survival strategy. …”

Quantitative Proteomics Combined with Phosphoproteome Reveals the Mechanism of the Density-Sensing Regulator QseC in the Pathogenesis of Glaesserella parasuis by Xuefeng Yan (1322220)

“…Additionally, iron uptake becomes impaired because genes such as hemG and fbpC2 are suppressed, along with defense proteins HsdR and ApxIB. Finally, cells adopt an “offensive-defensive shift” survival strategy. …”

Quantitative Proteomics Combined with Phosphoproteome Reveals the Mechanism of the Density-Sensing Regulator QseC in the Pathogenesis of Glaesserella parasuis by Xuefeng Yan (1322220)

“…Additionally, iron uptake becomes impaired because genes such as hemG and fbpC2 are suppressed, along with defense proteins HsdR and ApxIB. Finally, cells adopt an “offensive-defensive shift” survival strategy. …”

Quantitative Proteomics Combined with Phosphoproteome Reveals the Mechanism of the Density-Sensing Regulator QseC in the Pathogenesis of Glaesserella parasuis by Xuefeng Yan (1322220)

“…Additionally, iron uptake becomes impaired because genes such as hemG and fbpC2 are suppressed, along with defense proteins HsdR and ApxIB. Finally, cells adopt an “offensive-defensive shift” survival strategy. …”

Quantitative Proteomics Combined with Phosphoproteome Reveals the Mechanism of the Density-Sensing Regulator QseC in the Pathogenesis of Glaesserella parasuis by Xuefeng Yan (1322220)

“…Additionally, iron uptake becomes impaired because genes such as hemG and fbpC2 are suppressed, along with defense proteins HsdR and ApxIB. Finally, cells adopt an “offensive-defensive shift” survival strategy. …”