Xia Yun,Li Xin,Bie Nana,et al.A method for predicting drugs that can boost the efficacy of immune checkpoint blockade[J].659-670,2024,25(4):659-670.
APA
Xia Yun,Li Xin,Bie Nana,Pan Wen,Miao Ya-Ru,Yang Mei...Guo An-Yuan.(2024).A method for predicting drugs that can boost the efficacy of immune checkpoint blockade.
MLA
Xia Yun,Li Xin,Bie Nana,Pan Wen,Miao Ya-Ru,Yang Mei,Gao Yan,Chen Chuang,Liu Hanqing,Gan Lu,and Guo An-Yuan."A method for predicting drugs that can boost the efficacy of immune checkpoint blockade."659-670 25.4(2024):659-670.
Viviana Vella,Angeliki Ditsiou,Anna Chalari,et al.Kinome-Wide Synthetic Lethal Screen Identifies PANK4 as a Modulator of Temozolomide Resistance in Glioblastoma[J].2306027,2024,11(15):2306027.
APA
Viviana Vella,Angeliki Ditsiou,Anna Chalari,Murat Eravci,Sarah K. Wooller,Teresa Gagliano...Georgios Giamas.(2024).Kinome-Wide Synthetic Lethal Screen Identifies PANK4 as a Modulator of Temozolomide Resistance in Glioblastoma.
MLA
Viviana Vella,Angeliki Ditsiou,Anna Chalari,Murat Eravci,Sarah K. Wooller,Teresa Gagliano,Cecilia Bani,Emanuela Kerschbamer,Christos Karakostas,Bin Xu,Yongchang Zhang,Frances M.G. Pearl,Gianluca Lopez,Ling Peng,Justin Stebbing,Apostolos Klinakis,and Georgios Giamas."Kinome-Wide Synthetic Lethal Screen Identifies PANK4 as a Modulator of Temozolomide Resistance in Glioblastoma."2306027 11.15(2024):2306027.
Zheng Yu-Yu,Chen Lin-Hua,Fan Bing-Liang,et al.Integrative multiomics profiling of passion fruit reveals the genetic basis for fruit color and aroma[J].2491-2510,2024,194(4):2491-2510.
APA
Zheng Yu-Yu,Chen Lin-Hua,Fan Bing-Liang,Xu Zhenni,Wang Qiuxia,Zhao Bo-Yuan...Chen Ling-Ling.(2024).Integrative multiomics profiling of passion fruit reveals the genetic basis for fruit color and aroma.
MLA
Zheng Yu-Yu,Chen Lin-Hua,Fan Bing-Liang,Xu Zhenni,Wang Qiuxia,Zhao Bo-Yuan,Gao Min,Yuan Min-Hui,ul Qamar Muhammad Tahir,Jiang Yuanyuan,Yang Liu,Wang Lingqiang,Li Weihui,Cai Wenguo,Ma Chongjian,Lu Li,Song Jia-Ming,and Chen Ling-Ling."Integrative multiomics profiling of passion fruit reveals the genetic basis for fruit color and aroma."2491-2510 194.4(2024):2491-2510.
Liu Xiaojing,Cheng Weijia,Yao Peng,et al.Conserved serine phosphorylation regulates histone deacetylase activity in Arabidopsis and humans[J].2017-2021,2024,194(4):2017-2021.
APA
Liu Xiaojing,Cheng Weijia,Yao Peng,Ren Kexin,Wang Yu,Sun Yingnan...Chen Xiangsong.(2024).Conserved serine phosphorylation regulates histone deacetylase activity in Arabidopsis and humans.
MLA
Liu Xiaojing,Cheng Weijia,Yao Peng,Ren Kexin,Wang Yu,Sun Yingnan,Hou Xin,Lu Li,and Chen Xiangsong."Conserved serine phosphorylation regulates histone deacetylase activity in Arabidopsis and humans."2017-2021 194.4(2024):2017-2021.
Ren Shuancheng,Zhang Cai,Yue Faguo,et al.A midbrain GABAergic circuit constrains wakefulness in a mouse model of stress[J].2722,2024,15(1):2722.
APA
Ren Shuancheng,Zhang Cai,Yue Faguo,Tang Jinxiang,Zhang Wei,Zheng Yue...Hu Zhian.(2024).A midbrain GABAergic circuit constrains wakefulness in a mouse model of stress.
MLA
Ren Shuancheng,Zhang Cai,Yue Faguo,Tang Jinxiang,Zhang Wei,Zheng Yue,Fang Yuanyuan,Wang Na,Song Zhenbo,Zhang Zehui,Zhang Xiaolong,Qin Han,Wang Yaling,Xia Jianxia,Jiang Chenggang,He Chao,Luo Fenlan,and Hu Zhian."A midbrain GABAergic circuit constrains wakefulness in a mouse model of stress."2722 15.1(2024):2722.
Wang Guanglin,Liu Yichang,Zhang Xiangyu,et al.Mechanistic Investigation into Single-Electron Oxidative Addition of Single-Atom Cu(I)-N4 Site: Revealing the Cu(I)-Cu(II)-Cu(I) Catalytic Cycle in Photochemical Hydrophosphinylation[J].8668-8676,2024,146(12):8668-8676.
APA
Wang Guanglin,Liu Yichang,Zhang Xiangyu,Zong Xupeng,Zhang Xu,Zheng Kun...Sun Zaicheng.(2024).Mechanistic Investigation into Single-Electron Oxidative Addition of Single-Atom Cu(I)-N4 Site: Revealing the Cu(I)-Cu(II)-Cu(I) Catalytic Cycle in Photochemical Hydrophosphinylation.
MLA
Wang Guanglin,Liu Yichang,Zhang Xiangyu,Zong Xupeng,Zhang Xu,Zheng Kun,Qu Dan,An Li,Qi Xiaotian,and Sun Zaicheng."Mechanistic Investigation into Single-Electron Oxidative Addition of Single-Atom Cu(I)-N4 Site: Revealing the Cu(I)-Cu(II)-Cu(I) Catalytic Cycle in Photochemical Hydrophosphinylation."8668-8676 146.12(2024):8668-8676.