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2023
Zhang H, Ginn J, Zhan W, Leung A, Liu YJ, Toita A, Okamoto R, Wong T-T, Imaeda T, Hara R et al..  2023.  Structure-Activity Relationship Studies of Antimalarial Plasmodium Proteasome Inhibitors─Part II.. J Med Chem. 66(2):1484-1508.
Zhang H, Ginn J, Zhan W, Leung A, Liu YJ, Toita A, Okamoto R, Wong T-T, Imaeda T, Hara R et al..  2023.  Structure-Activity Relationship Studies of Antimalarial Plasmodium Proteasome Inhibitors─Part II.. J Med Chem. 66(2):1484-1508.
Hsu H-C, Li D, Zhan W, Ye J, Liu YJing, Leung A, Qin J, Crespo B, Gamo F-J, Zhang H et al..  2023.  Structures revealing mechanisms of resistance and collateral sensitivity of Plasmodium falciparum to proteasome inhibitors.. Nat Commun. 14(1):8302.
Hsu H-C, Li D, Zhan W, Ye J, Liu YJing, Leung A, Qin J, Crespo B, Gamo F-J, Zhang H et al..  2023.  Structures revealing mechanisms of resistance and collateral sensitivity of Plasmodium falciparum to proteasome inhibitors.. Nat Commun. 14(1):8302.
Hsu H-C, Li D, Zhan W, Ye J, Liu YJing, Leung A, Qin J, Crespo B, Gamo F-J, Zhang H et al..  2023.  Structures revealing mechanisms of resistance and collateral sensitivity of Plasmodium falciparum to proteasome inhibitors.. Nat Commun. 14(1):8302.
Hsu H-C, Li D, Zhan W, Ye J, Liu YJing, Leung A, Qin J, Crespo B, Gamo F-J, Zhang H et al..  2023.  Structures revealing mechanisms of resistance and collateral sensitivity of Plasmodium falciparum to proteasome inhibitors.. Nat Commun. 14(1):8302.
Hsu H-C, Li D, Zhan W, Ye J, Liu YJing, Leung A, Qin J, Crespo B, Gamo F-J, Zhang H et al..  2023.  Structures revealing mechanisms of resistance and collateral sensitivity of Plasmodium falciparum to proteasome inhibitors.. Nat Commun. 14(1):8302.
2024
Lieber SB, Lipschultz RA, Syed S, Rajan M, Venkatraman S, Lin M, M Reid C, Lue NF, Mandl LA.  2024.  Association of phenotypic frailty and hand grip strength with telomere length in SLE.. Lupus Sci Med. 11(1)
Lieber SB, Lipschultz RA, Syed S, Rajan M, Venkatraman S, Lin M, M Reid C, Lue NF, Mandl LA.  2024.  Association of phenotypic frailty and hand grip strength with telomere length in SLE.. Lupus Sci Med. 11(1)
Lieber SB, Lipschultz RA, Syed S, Rajan M, Venkatraman S, Lin M, M Reid C, Lue NF, Mandl LA.  2024.  Association of phenotypic frailty and hand grip strength with telomere length in SLE.. Lupus Sci Med. 11(1)
Lieber SB, Lipschultz RA, Syed S, Rajan M, Venkatraman S, Lin M, M Reid C, Lue NF, Mandl LA.  2024.  Association of phenotypic frailty and hand grip strength with telomere length in SLE.. Lupus Sci Med. 11(1)
Ahmed A, Joseph AM, Zhou J, Horn V, Uddin J, Lyu M, Goc J, Sockolow RE, Wing JB, Vivier E et al..  2024.  CTLA-4-expressing ILC3s restrain interleukin-23-mediated inflammation.. Nature. 630(8018):976-983.
Abramson J, Dobeš J, Lyu M, Sonnenberg GF.  2024.  The emerging family of RORγt+ antigen-presenting cells.. Nat Rev Immunol. 24(1):64-77.
Caniels TG, Medina-Ramírez M, Zhang S, Kratochvil S, Xian Y, Koo J-H, Derking R, Samsel J, van Schooten J, Pecetta S et al..  2024.  Germline-targeting HIV vaccination induces neutralizing antibodies to the CD4 binding site.. Sci Immunol. 9(98):eadk9550.
Alwine J, Goodrum F, Banfield B, Bloom D, Britt WJ, Broadbent AJ, Campos SK, Casadevall A, Chan GC, Cliffe AR et al..  2024.  The harms of promoting the lab leak hypothesis for SARS-CoV-2 origins without evidence.. J Virol. 98(9):e0124024.
Alwine J, Goodrum F, Banfield B, Bloom D, Britt WJ, Broadbent AJ, Campos SK, Casadevall A, Chan GC, Cliffe AR et al..  2024.  The harms of promoting the lab leak hypothesis for SARS-CoV-2 origins without evidence.. J Virol. 98(9):e0124024.
Alwine J, Goodrum F, Banfield B, Bloom D, Britt WJ, Broadbent AJ, Campos SK, Casadevall A, Chan GC, Cliffe AR et al..  2024.  The harms of promoting the lab leak hypothesis for SARS-CoV-2 origins without evidence.. J Virol. 98(9):e0124024.
Nelson AN, Shen X, Vekatayogi S, Zhang S, Ozorowski G, Dennis M, Sewall LM, Milligan E, Davis D, Cross KA et al..  2024.  Immunization with germ line-targeting SOSIP trimers elicits broadly neutralizing antibody precursors in infant macaques.. Sci Immunol. 9(98):eadm7097.
Li TMorgan, Zyulina V, Seltzer ES, Dacic M, Chinenov Y, Daamen AR, Veiga KR, Schwartz N, Oliver DJ, Cabahug-Zuckerman P et al..  2024.  The interferon-rich skin environment regulates Langerhans cell ADAM17 to promote photosensitivity in lupus.. Elife. 13
Li TMorgan, Zyulina V, Seltzer ES, Dacic M, Chinenov Y, Daamen AR, Veiga KR, Schwartz N, Oliver DJ, Cabahug-Zuckerman P et al..  2024.  The interferon-rich skin environment regulates Langerhans cell ADAM17 to promote photosensitivity in lupus.. Elife. 13
Li TMorgan, Zyulina V, Seltzer ES, Dacic M, Chinenov Y, Daamen AR, Veiga KR, Schwartz N, Oliver DJ, Cabahug-Zuckerman P et al..  2024.  The interferon-rich skin environment regulates Langerhans cell ADAM17 to promote photosensitivity in lupus.. Elife. 13
Li TMorgan, Zyulina V, Seltzer ES, Dacic M, Chinenov Y, Daamen AR, Veiga KR, Schwartz N, Oliver DJ, Cabahug-Zuckerman P et al..  2024.  The interferon-rich skin environment regulates Langerhans cell ADAM17 to promote photosensitivity in lupus.. Elife. 13
Li TMorgan, Zyulina V, Seltzer ES, Dacic M, Chinenov Y, Daamen AR, Veiga KR, Schwartz N, Oliver DJ, Cabahug-Zuckerman P et al..  2024.  The interferon-rich skin environment regulates Langerhans cell ADAM17 to promote photosensitivity in lupus.. Elife. 13
Sim JHyun, Bell R, Feng Z, Chyou S, Shipman WD, Kataru RP, Ivashkiv L, Mehrara B, Lu TT.  2024.  Langerhans cells regulate immunity in adulthood by regulating postnatal dermal lymphatic development.. bioRxiv.
Qu D, Ge P, Botella L, Park SWoong, Lee H-N, Thornton N, Bean JM, Krieger IV, Sacchettini JC, Ehrt S et al..  2024.  Mycobacterial biotin synthases require an auxiliary protein to convert dethiobiotin into biotin.. Nat Commun. 15(1):4161.