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  1. 1.   Heterodimeric IL-15 (hetIL-15) reduces circulating tumor cells and metastasis formation improving chemotherapy and surgery in 4T1 mouse model of TNBC
  2. Stravokefalou, Vasiliki; Stellas, Dimitris; Karaliota,Sevasti; Nagy,Bethany; Valentin, Antonio; Bergamaschi, Cristina; Dimas, Konstantinos; Pavlakis,George
  3. Frontiers in Immunology. 2022, Jan 13; 13: 1014802.
  1. 2.   The Role of Ku70 as a Cytosolic DNA Sensor in Innate Immunity and Beyond
  2. Sui,Hongyan; Hao,Ming; Chang,Weizhong; Imamichi,Tomozumi
  3. Frontiers in cellular and infection microbiology. 2021, Oct 21; 11: 761983.
  1. 3.   Heterodimeric IL-15 in Cancer Immunotherapy
  2. Bergamaschi,Cristina; Stravokefalou,Vasiliki; Stellas,Dimitris; Karaliota,Sevasti; Felber,Barbara; Pavlakis,George
  3. Cancers. 2021, Feb 17; 13(4):
  1. 4.   Trastuzumab Blocks the Receiver Function of HER2 Leading to the Population Shifts of HER2-Containing Homodimers and Heterodimers
  2. Zhao, Jun; Mohan, Nishant; Nussinov, Ruth; Ma, Buyong; Wu, Wen Jin
  3. Antibodies. 2021, Jan 12; 10(1):
  1. 5.   Highlights of 10 years of immunology in Nature Reviews Immunology
  2. Medzhitov, R.; Shevach, E. M.; Trinchieri, G.; Mellor, A. L.; Munn, D. H.; Gordon, S.; Libby, P.; Hansson, G. K.; Shortman, K.; Dong, C.; Gabrilovich, D.; Gabrysova, L.; Howes, A.; O'Garra, A.
  3. Nature Reviews Immunology. 2011, Oct; 11(10): 693-702.
  1. 6.   Synergy of IL-23 and Th17 Cytokines: New Light on Inflammatory Bowel Disease
  2. Shen, W.; Durum, S. K.
  3. Neurochemical Research. 2010, Jun; 35(6): 940-946.
  1. 7.   Gene conversion between mammalian CCR2 and CCR5 chemokine receptor genes: A potential mechanism for receptor dimerization
  2. Vazquez-Salat, N.; Yuhki, N.; Beck, T.; O'Brien, S. J.; Murphy, W. J.
  3. Genomics. 2007, Aug; 90(2): 213-224.
  1. 8.   Synthesis, processing, and composition of the virion-associated HTLV-1 reverse transcriptase
  2. Mitchell, M. S.; Tozser, J.; Princler, G.; Lloyd, P. A.; Auth, A.; Derse, D.
  3. Journal of Biological Chemistry. 2006, FEB 17; 281(7): 3964-3971.
  1. 9.   Latent membrane protein 1 encoded by Epstein-Barr virus modulates directly and synchronously cyclin D1 and p16 by newly forming a c-Jun/Jun B heterodimer in nasopharyngeal carcinoma cell line
  2. Song, X.; Tao, Y. G.; Zeng, L.; Deng, X. Y.; Lee, L. M.; Gong, J. P.; Wu, Q.; Cao, Y.
  3. Virus Research. 2005, NOV; 113(2): 89-99.
  1. 10.   Structure-based discovery of a boronic acid bioisostere of combretastatin A-4
  2. Kong, Y.; Grembecka, J.; Edler, M. C.; Hamel, E.; Mooberry, S. L.; Sabat, M.; Rieger, J.; Brown, M. L.
  3. Chemistry & Biology. 2005, SEP; 12(9): 1007-1014.
  1. 11.   Epstein-Barr virus-encoded latent membrane protein 1 modulates cyclin D1 by c-Jun/Jun B heterodimers
  2. Song, X.; Tao, Y. G.; Zeng, L.; Yang, J.; Tang, F. Q.; Lee, L. M.; Gong, J. P.; Wu, Q.; Cao, Y.
  3. Science in China Series C-Life Sciences. 2005, AUG; 48(4): 385-393.
  1. 12.   Heterodimer formation between c-Jun and Jun B proteins mediated by Epstein Barr virus encoded latent membrane protein 1
  2. Song, X.; Tao, Y. G.; Tan, Y. N.; Lee, L. M.; Deng, X. Y.; Wu, Q.; Cao, Y.
  3. Science in China Series C-Life Sciences. 2005, FEB; 48(1): 70-80.
  1. 13.   Nuclear receptors as negative modulators of STAT3 in multiple myeloma
  2. Wang, L. H.; Yang, X. Y.; Zhang, X. H.; Farrar, W. L.
  3. Cell Cycle. 2005, FEB; 4(2): 242-245.
  1. 14.   Site- and subunit-specific incorporation of unnatural amino acids into HIV-1 reverse transcriptase
  2. Klarmann, G. J.; Eisenhauer, B. M.; Yi, Z.; Sitaraman, K.; Chatterjee, D. K.; Hecht, S. M.; Le Grice, S. F. J.
  3. Protein Expression and Purification. 2004, NOV; 38(1): 37-44.
  1. 15.   The soluble sema domain of the RON receptor inhibits macrophage-stimulating protein-induced receptor activation
  2. Angeloni, D.; Danilkovitch-Miagkova, A.; Miagkov, A.; Leonard, E. J.; Lerman, M. I.
  3. Journal of Biological Chemistry. 2004 279(5): 3726-3732.
  1. 16.   Molecular matchmaking: NNRTIs can enhance the dimerization of HIV type 1 reverse transcriptase
  2. Hughes, S. H.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2001 98(13): 6991-6992.
  1. 17.   Analysis of the degradation function of Mdm2
  2. Kubbutat, M. H. G.; Ludwig, R. L.; Levine, A. J.; Vousden, K. H.
  3. Cell Growth and Differentiation. 1999 10(2): 87-92.
  1. 18.   Comparison of the Specificity of Homo- and Heterodimeric Linked Hiv-1 and Hiv-2 Proteinase Dimers
  2. Bagossi, P.; Cheng, Y. S. E.; Oroszlan, S.; Tozser, J.
  3. Protein Engineering. 1998 11(6): 439-445.
  1. 19.   Subunit-Specific Mutagenesis of the Cysteine 280 Residue of the Reverse Transcriptase of Human Immunodeficiency Virus Type 1 - Effects On Sensitivity to a Specific Inhibitor of the Rnase H Activity
  2. Loya, S.; Gao, H. Q.; Avidan, O.; Boyer, P. L.; Hughes, S. H.; Hizi, A.
  3. Journal of Virology. 1997 71(7): 5668-5672.
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