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PD-1 N58-Glycosylation-Dependent Binding of Monoclonal Antibody Cemiplimab for Immune Checkpoint Therapy Journal article
Lu, Dan, Xu, Zepeng, Zhang, Ding, Jiang, Min, Liu, Kefang, He, Juanhua, Ma, Dongli, Ma, Xiaopeng, Tan, Shuguang, Gao, George F., Chai, Yan. PD-1 N58-Glycosylation-Dependent Binding of Monoclonal Antibody Cemiplimab for Immune Checkpoint Therapy[J]. Frontiers in Immunology, 2022, 13, 826045.
Authors:  Lu, Dan;  Xu, Zepeng;  Zhang, Ding;  Jiang, Min;  Liu, Kefang; et al.
Favorite | TC[WOS]:22 TC[Scopus]:24  IF:5.7/6.8 | Submit date:2022/04/06
Antibody  Cemiplimab  Immune Checkpoint Therapy (Ict)  N58 Glycosylation  Pd-1  
N-glycosylation of PD-1 promotes binding of camrelizumab Journal article
Liu,Kefang, Tan,Shuguang, Jin,Wanjun, Guan,Jiawei, Wang,Qingling, Sun,Huan, Qi,Jianxun, Yan,Jinghua, Chai,Yan, Wang,Zhongfu, Deng,Chuxia, Gao,George F.. N-glycosylation of PD-1 promotes binding of camrelizumab[J]. EMBO Reports, 2020, 21(12), e51444.
Authors:  Liu,Kefang;  Tan,Shuguang;  Jin,Wanjun;  Guan,Jiawei;  Wang,Qingling; et al.
Favorite | TC[WOS]:51 TC[Scopus]:55  IF:6.5/8.3 | Submit date:2021/03/02
Camrelizumab  Glycosylation  Monoclonal Antibody  Pd-1  Structure  
Quantitative Characterization of Site-Specific Glycosylation of Glycoproteins – Using Human transferrin as a Model Conference paper
Wei, R., Ang, I. L. , Lam, M. M. T., Zhang, P., Lei, K. , Poon, C. W.. Quantitative Characterization of Site-Specific Glycosylation of Glycoproteins – Using Human transferrin as a Model[C], 2018.
Authors:  Wei, R.;  Ang, I. L. ;  Lam, M. M. T.;  Zhang, P.;  Lei, K. ; et al.
Favorite |  | Submit date:2022/08/31
glycoprotein  proteomics  glycosylation  glycopeptide  mass spectrometry  
Modifications of dietary flavonoids towards improved bioactivity: An update on structure-activity relationship Journal article
Chen, Lei, Teng, Hui, Xie, Zhenglu, Cao, Hui, Cheang, Wai San, Skalicka-Woniak, Krystyna, Georgiev, Milen I., Xiao, Jianbo. Modifications of dietary flavonoids towards improved bioactivity: An update on structure-activity relationship[J]. CRITICAL REVIEWS IN FOOD SCIENCE AND NUTRITION, 2018, 58(4), 513-527.
Authors:  Chen, Lei;  Teng, Hui;  Xie, Zhenglu;  Cao, Hui;  Cheang, Wai San; et al.
Favorite | TC[WOS]:208 TC[Scopus]:236  IF:7.3/10.3 | Submit date:2018/10/30
Anti-inflammation  Bioavailability  Glycosylation  Hydroxylation  O-methylation  Flavonoids  
Quantitative characterization of Site-Specific glycosylation of glycoproteins - Using Human transferrin as a model Conference paper
Wei, R., Poon, C. W.. Quantitative characterization of Site-Specific glycosylation of glycoproteins - Using Human transferrin as a model[C], 2017.
Authors:  Wei, R.;  Poon, C. W.
Favorite |  | Submit date:2022/08/31
glycoprotein  proteomics  glycosylation  mass spectrometry  
Dietary flavonoid aglycones and their glycosides: Which show better biological significance? Journal article
Xiao, Jianbo. Dietary flavonoid aglycones and their glycosides: Which show better biological significance?[J]. CRITICAL REVIEWS IN FOOD SCIENCE AND NUTRITION, 2017, 57(9), 1874-1905.
Authors:  Xiao, Jianbo
Favorite | TC[WOS]:432 TC[Scopus]:504  IF:7.3/10.3 | Submit date:2018/10/30
Flavonoids  Aglycones  Glycosides  Biological Benefits  Glycosylation  
Identifying a role of N-glycosylation in C. elegans epithelial polarity by an RNAi-based biosynthetic-pathway-screen approach Conference paper
Zhang, H., Abraham, N., Khan, L., Zhang, N., Gobel, V.. Identifying a role of N-glycosylation in C. elegans epithelial polarity by an RNAi-based biosynthetic-pathway-screen approach[C], 2015.
Authors:  Zhang, H.;  Abraham, N.;  Khan, L.;  Zhang, N.;  Gobel, V.
Favorite |  | Submit date:2022/07/27
N-glycosylation  epithelial polarity  RNAi  biosynthetic-pathway-screen  
Study of serum haptoglobin and its glycoforms in the diagnosis of hepatocellular carcinoma: A glycoproteomic approach Journal article
Ang I.L., Poon T.C.W., Lai P.B.S., Chan A.T.C., Ngai S.-M., Hui A.Y., Johnson P.J., Sung J.J.Y.. Study of serum haptoglobin and its glycoforms in the diagnosis of hepatocellular carcinoma: A glycoproteomic approach[J]. Journal of Proteome Research, 2006, 5(10), 2691-2700.
Authors:  Ang I.L.;  Poon T.C.W.;  Lai P.B.S.;  Chan A.T.C.;  Ngai S.-M.; et al.
Favorite | TC[WOS]:145 TC[Scopus]:158 | Submit date:2018/12/18
Haptoglobin  Glycoform  Sialylation  Fucosylation  Glycosylation  Hepatocellular Carcinoma  Diagnosis  
Structures of disease-specific serum alpha-fetoprotein isoforms Journal article
Johnson, PJ, Poon, TCW, Hjelm, NM, Ho, CS, Blake, C, Ho, SKW. Structures of disease-specific serum alpha-fetoprotein isoforms[J]. British Journal of Cancer, 2000, 83(10), 1330-1337.
Authors:  Johnson, PJ;  Poon, TCW;  Hjelm, NM;  Ho, CS;  Blake, C; et al.
Favorite | TC[WOS]:59 TC[Scopus]:67  IF:6.4/8.1 | Submit date:2019/01/10
Hepatocellular Carcinoma  Non-seminomatous Germ Cell Tumours  Alpha-fetoprotein Isoform  Protein Structure  Glycosylation