Bibliography (ORCID ID:0000-0002-4803-8353):

1994

  1. A. Itano, D. Cado, F. Chan, E. Robey.  A Role for the Cytoplasmic Tail of the b chain of CD8 in Thymic Selection.  Immunity 1:287-290 (1994).

1995     

  1. F. K. M. Chan, J. Zhang, L. Cheng, D. Shapiro, A. Winoto.  Identification of Human and Mouse p19, a Novel CDK4 and CDK6 Inhibitor with Homology to p16INKMol. Cell Biol. 15(5): 2682-2688 (1995).
  2. B. Calnan, S. Szychowski, F. K. M. Chan, D. Cado, A. Winoto.  A Role for the Orphan Steroid Receptor Nur77 in Apoptosis Accompanying Antigen-Induced Negative Selection.  Immunity 3:273-282 (1995).

1997

  1. W. Kalus, R. Baumgartner, C. Renner, A. Noegel, F. K. M. Chan, A. Winoto, T. Holak.  NMR Structural Characterization of the CDK Inhibitor p19INK4d.   FEBS Letters 401: 127-132 (1997).
  2. L. Cheng, F. K. M. Chan, D. Cado, A. Winoto.  Functional redundancy of the Nur77 orphan steroid receptor family in mediating activation-induced apoptosis of thymocytes.  EMBO J. 16(8): 1865-1875 (1997).

1998

  1. F. K. M. Chan, A. Chen, A. Winoto.  Thymic Expression of the Transcription Factor Nur77 Rescues the T Cell but not the B Cell Abnormality of gld/gld Mice.  J. Immunol. 161: 4252-4256 (1998).

1999

  1. M. Lenardo, F. K. M. Chan, F. Hornung, H. McFarland, R. Siegel, J. Wang, L. Zheng.  Mature T Lymphocyte Apoptosis – Immune Regulation in a Dynamic and Unpredictable Antigenic Environment.  Annu. Rev. Immunol. 17:221-253 (1999).
  2. M. Brunner, C. Chambers, F. K. M. Chan, J. Hanke, A. Winoto, and J. P. Allison. CTLA-4-Mediated Inhibition of Early Events of T Cell Proliferation.  J. Immunol. 162:5813-5820 (1999).
  3. J. Wang, A. Lobito, L. Zheng, F. K. M. Chan, J. Dale, M. Sneller, E. Jaffe, J. Puck, S. Straus, M. Lenardo.  Inherited Human Caspase-10 Mutation Underlies Defective Apoptosis in Autoimmune Lymphoproliferative Syndrome, Type III.  Cell 98:47-58 (1999).

2000

  1. F. K. M. Chan, M. J. Lenardo.  A Crucial Role for p80 TNF-R2 in Amplifying p60 TNF-R1 Apoptosis Signals in T Lymphocytes.  Eur. J. Immunol.  30: 652-660 (2000). 
  2. R.M. Siegel, J. Frederiksen, D. Zacharias, F. K. M. Chan, M. Johnson, D. Lynch, R. Y. Tsien and M. J. Lenardo.  Fas Pre-Association is Essential for Transmembrane Signaling and Dominant Inhibition by Pathogenic Mutations.   Science, 288: 2354-7 (2000).  
  3. Richard M. Siegel, Francis Ka-Ming Chan, David A. Zacharias, Ruth Swofford, Kevin L. Holmes, Roger Y. Tsien and Michael J. Lenardo.Measurement of Molecular Interactions in Living Cells by Fluorescence Resonance Energy Transfer Between Variants of the Green Fluorescent Protein.  Science STKE protocol, 27th June, 2000.
  4. F. K. M. Chan, H. J. Chun, L. Zheng, R. M. Siegel, K. L. Bui and M. J. Lenardo.  A Novel Domain in Tumor Necrosis Factor Receptors Mediates Pre-Ligand Receptor Assembly and Signaling.  Science, 288:2351-4 (2000).   
  5. F. K. M. Chan.  The Pre-Ligand-Binding Assembly Domain (PLAD): A potential target of inhibition of tumor necrosis factor receptor function.  The Annals of Rheumatic Diseases, 59 (supplement): i50-i53 (2000). 
  6. F. K. M. Chan, R.M. Siegel and M. J. Lenardo.  Signaling by the TNF Receptor Superfamily and T cell Homeostasis.  Immunity, 13:419-422 (2000).
  7. R.M. Siegel,F. K. M. Chan,H. Chun and M. J. Lenardo.  The multifaceted role of Fas signaling in immune cell homeostasis and autoimmunity.  Nat. Immunol., 1:469-474 (2000).

2001

  1. F. K. M. Chan, R. M. Siegel, D. Zacharias, R. Swofford, K. L. Holmes, R. Y. Tsien and M. J. Lenardo.  Fluorescence Resonance Energy Transfer (FRET) Analysis of Cell Surface Receptor Interactions and Signaling Using Novel Variants of the Green Fluorescent Protein.  Cytometry, 44:361-8 (2001).

2002

  1. F. K. M. Chan and M. J. Lenardo.  Tumor Necrosis Factor Family Ligands and Receptors in the Immune System: Targets for Future Pharmaceuticals.    Drug News & Perspectives, vol. 15(8): 483-490 (2002).

2003

  1. F. K. M. Chan, J. Shisler, L. Zheng, J. G. Bixby, M. Felices, J. Orenstein, B. Moss and M. J. Lenardo. A Role for Tumor Necrosis Factor Receptor 2 (TNFR-2) and Receptor-interacting Protein (RIP) in Programmed Necrosis and Anti-Viral Responses.  J. Biol. Chem., 278(51): 51613-51621 (2003). (F.K. Chan is the corresponding author) 

2005

  1. G-M. Deng, L. Zheng, F. K. M. Chan and M. J. Lenardo.  Amelioration of inflammatory arthritis by targeting the Pre-ligand assembly domain (PLAD) of tumor necrosis factor receptors.  Nat. Med. 11(10): 1066-1072 (2005). 
  2. J.G. Bixby, T. Dutta Ray and F.K.M. Chan.  TNF, Cell Death and Inflammation.  Current Medicinal Chemistry – Anti-Inflammatory and Anti-Allergy Agents 4(6): 557-567 (2005). 
  3. L. Clancy, K. Mruk, K. Archer, M. Woelfel, J. Mongkolsapaya, G. Screaton, M. J. LenardoandF. K. M. Chan.  PLAD-mediated ligand-independent association between TRAIL receptor 4 and TRAIL receptor 2 regulates TRAIL-induced apoptosis.  Proc. Natl. Acad. Sci., 102(50): 18099-18104 (2005).

2006

  1. L. Zheng, N. Bidere, D. Staudt, A. Cubre, J. Orenstein, F.K. Chan and M. Lenardo.  Competitive control of independent programs of tumor necrosis factor-induced cell death by TRADD and RIP1.  Mol. Cell. Biol., 26(9): 3505-3513 (2006). 
  2. L.M. Sedger, S.R. Osvath, G. Li, X-M, Xu, F.K-M. Chan, J.W. Barrett and G. McFadden.  Poxvirus TNF-R like T2 proteins contain a conserved pre-ligand assembly domain (PLAD) that inhibits cellular TNF-R1 induced cell death.  J. Virol. 80(18): 9300-9309 (2006). 
  3. M. Woelfel, J. Bixby, M.A. Brehm and F. K-M. Chan.  Transgenic expression of the viral FLIP MC159 causes lpr/gld-like lymphoproliferation and autoimmunity.  J. Immunol. 177: 3814-3820 (2006). PMID: 16951343. 

2007

  1. F. K. Chan.  Three is Better Than One: Pre-ligand Assembly in the Regulation of TNF Receptor Signaling.  Cytokine 37(2): 101-107 (2007). PMCID: PMC1965282. 

2009

  1. Y. Cho, S. Challa, D. Moquin, R. Genga, T.D. Ray, M. Guildford, F.K.M. Chan. Phosphorylation-Driven Assembly of RIP1-RIP3 Complex Regulates Programmed Necrosis and Virus-Induced Inflammation.  Cell 137: 1112-1123 (2009). PMCID: PMC2727676  (Highlighted by Faculty 1000 as “exceptional”). 

2010

  1. Y.S. Cho, S. Challa, L. Clancy and F.K.M. Chan.  LPS-Induced Expression of TRAIL Promotes Dendritic Cell Differentiation. Immunology 130(4): 504-15 (2010).  PMCID: PMC2913261.
  2. D.M. Moquin and F.K.M. Chan.  The Molecular Regulation of Programmed Necrotic Cell Injury.  Trends in Biochemical Sciences 35(8): 434-41 (2010). PMCID: PMC2904865.
  3. Cho YS, Park SY, Shin HS and F.K. Chan.  Physiological consequences of programmed necrosis, an alternative form of cell demise.  Mol and Cells 29: 327-332 (2010). PMID: 20390367.  
  4. S. Challa and F.K.M. Chan.  Going up in Flames: Necrotic Cell Injury and Inflammatory Diseases. Cell Mol Life Sci 67: 3241-53 (2010).  PMCID: PMC3051829. 
  5. S. Challa, M. Woelfel, M. Guildford, D. Moquin and F.K-M. Chan.  The Viral Cell Death Inhibitor MC159 Enhances Innate Immunity Against Vaccinia Virus Infection.  J. Virol. 84(20): 10467-10476 (2010).  PMCID: PMC2950582. 

2011

  1. H. Zhang, X. Zhou, T. McQuade, F.K-M. Chan* and J. Zhang*.  Functional Complementation between FADD and RIP1 in Embryos and Lymphocytes.  Nature 471: 373-6 (2011).  PMCID: PMC3072026. * Co-corresponding authors  (Highlighted by Faculty 1000 as “Exceptional” and in the “top 2% of published articles in biology and medicine”).
  2. Y.S. Cho, T. McQuade, H. Zhang, J. Zhang and F.K.M. Chan.  RIP1-Dependent and Independent Effects of Necrostatin-1 in Necrosis and T cell Activation.  PLOS One 6(8): e23209 (2011). PMCID: PMC3154273. 
  3. Cho Y, Challa S, Chan FK. A RNA Interference Screen Identifies RIP3 as an Essential Inducer of TNF-Induced Programmed Necrosis. Adv Exp Med Biol. 2011; 691:589-93.  PMID: 21153365. 

2012

  1. F.K. Chan and E. H. Baehrecke.  RIP3 Finds Partners in Crime.  Cell 148: 148(1-2):17-8 (2012). PMCID: PMC3571655. 
  2. G.B. Fortes, L. Alves, R. de Oliveira, F.F. Dutra, D. Rodrigues, P.L. Fernandez, T. Souto-Padron, M.J. DeRosa, M. Kelliher, D. Golenbock, F.K. Chan, M.T. Bozza.  Heme induces programmed necrosis on macrophages through autocrine TNF and ROS production.  Blood. 2012 Mar 8; 119)10):2368-75. PMID: 22262768. 
  3. J. Li, T. McQuade, A.B. Siemer, J. Napetschnig, K. Moriwaki; Y.S. Hsiao, E. Damko, D. Moquin, T. Walz, A. McDermott, F.K-M. Chan and H. Wu.  The RIP1/RIP3 Necrosome Forms a Functional Amyloid Signaling Complex Required for Programmed Necrosis.  Cell 150, 339-350 (2012). PMCID: PMC3664196. 
  4. F.K. Chan.  Fueling the Flames: Mammalian programmed necrosis in inflammatory diseases.  Cold Spring Harb Perspect Biol. 4(11) doi:pii: a008805. 10.1101/cshperspect.a008805 (2012). PMCID: PMC3536335.

2013

  1. K. Moriwaki and F.K. Chan.  RIP3: A molecular switch for necrosis and inflammation.  Genes Dev. 2013 Aug 1;27(15):1640-9.  PMCID: PMC3744722. 
  2. D.M. Moquin, T. McQuade and F.K.M. Chan.  CYLD deubiquitinates RIP1 in the TNFa-induced necrosome to facilitate kinase activation and programmed necrosis.  PLoS ONE 2013 Oct 2, 8(10):e76841. PMCID: PMC3788787. 
  3. T. McQuade, Y.S. Cho and F.K.M. Chan.  Positive and negative phosphorylation regulates RIP1 and RIP3-induced programmed necrosis.  Biochemical Journal 2013 Dec 15, 456(3):409-15. PMID: 24059293. 

2014

  1. Sosna J, Voigt S, Mathieu S, Lange A, Thon L, Davarnia P, Herdegen T, Linkermann A, Rittger A, Chan FK, Kabelitz D, Schütze S, Adam D.  TNF-induced necroptosis and PARP-1-mediated necrosis represent distinct routes to programmed necrotic cell death.  Cell Mol Life Sci. 2014 Jan, 71(2):331-48. PMCID: PMC3889832. 
  1. K. Moriwaki and F.K. Chan.  Necrosis-Dependent and Independent Signaling of the RIP kinases in Infllammation.  Cytokine Growth Factor Reviews. 2014 Apr, 25(2):167-74.  PMCID: PMC3999177.
  2. J. Zhang and F.K.M. Chan.  RIPK3 Takes Another Deadly Turn.  Science.  2014 Mar 21;343(6177):1322-3.
  3. J. Upton and F.K.M. Chan.  Staying Alive: Cell Death in Anti-Viral Immunity.  Mol Cell 2014 Apr 24;54(2):273-280).  PMCID: PMC4010939.
  4. D. Weng, R. Marty-Roix, D. Ganesan, M.K. Proulx, G. Vladimer, W. Kaiser, K. Poulot, F.K.M. Chan, M.A. Kelliher, P. Harris, J. Bertin, P. Gough, D.M. Shayakhmetov, J. Goguen, K.A. Fitzgerald, N. Silverman, E. Lien.  Caspase-8 and RIP kinases regulate bacteria-induced innate immune responses and cell death.  Proc. Natl. Acad. Sci. 2014 May 20; 111(20):7391-6.  PMCID: PMC4034196. 
  5. A. Polykratis, N. Hermance M. Zelic, J. Roderick, C. Kim, T.Van, T.H. Lee, F.K.M. Chan, M. Pasparakisand M.A. Kelliher.  Cutting edge: RIPK1 kinase inactive mice are viable and protected from TNF-induced necroptosis in vivo.  J. Immunol. 2014 Aug 15, 193:1539-43. 
  6. F.K.M. Chan.  Cell Biology: A Guardian Angel of Cell Integrity.  Nature 2014 Sep 4, 513: 38-40.
  7. K. Moriwaki, S. Balaji, T. McQuade, N. Malhotra, J. Kang and F.K.M. Chan. The Necroptosis Adaptor RIPK3 Promotes Injury-Induced Cytokine Expression and Tissue Repair.  Immunity 2014 Oct, 41:567-78. (recommended by Faculty 1000 as being of special significance)
  8. Mandal, P., Berger, S. B, Pillay, S., Moriwaki, K., Huang, C., Guo, H., Lich, J.D., Finger, J., Kasparcova, V., Votta, B., Ouellette, M., King, B.W., Wisnoski, D., Lakdawala, A.S., DeMartino, M.P., Casillas, L.N., Haile, P.A., Sehon, C. A., Marquis, R. W., Upton, J. W., Daley-Bauer, L.P., Roback, L., Ramia, N., Dovey, C.M., Carette, J.E., Chan, F.K.M., Bertin, J., Gough, P. J., Mocarski, E. S., Kaiser, W. J.  RIP3 induces apoptosis independent of pronecrotic kinase activity.  Mol Cell 2014 Nov, 56: 481-95. 

2015

  1. Essential versus accessory aspects of cell death: recommendations of the NCCD 2015.  Cell Death and Differ. Cell Death and Differ. 2015 Jan; 22(1):58-73.
  2. Moriwaki K., Bertin J. Gough, P.J. and F.K.M. Chan.  A RIPK3-Caspase 8 complex mediates atypical pro-IL-1b processing. J Immunol. 2015 Feb 15; 194(4):1938-44.  PMC4324020. (recommended by Faculty 1000 as being of special significance)
  3. Moriwaki K., Bertin J., Gough P.J., Orlowski G.M. and F.K.M. Chan.  Differential roles of RIPK1 and RIPK3 in TNF-induced necroptosis and chemotherapeutic agent-induced cell death.  Cell Death & Dis. 2015 Feb 12; 6:e1636. 
  4. F.K.M. Chan, N.F. Luz and K. Moriwaki.  Programmed necrosis in the Cross Talk of Cell death and Inflammation.  Annu Rev Immunol. 2015; 33:79-106.  PMC4394030.

2016

  1. Moriwaki K, Farias Luz N, Balaji S, De Rosa MJ, O’Donnell CL, Gough PJ, Bertin J, Welsh RM, Chan FK.  The Mitochondrial Phosphatase PGAM5 is Dispensable for Necroptosis but Promotes Inflammasome Activation in Macrophages.  J Immunol. 2016 Jan 1; 196(1):407-15. PMCID: PMC4684958.
  2. Moriwaki K and Chan FKM.  Regulation of RIPK3 and RHIM-dependent necroptosis by the proteasome. J Biol Chem 2016 Mar 11;291(11):5948-59. PMCID: PMC4786728.
  3. Moriwaki K and Chan FKM.  Necroptosis-Independent Signaling by the RIP Kinases in Inflammation.  Cell Mol Life Sci. 2016 Apr 5 [Epub ahead of print].  PMID: 27048814.
  4. Farias Luz N, Balaji S, Okuda K, Bertin J, Gough PJ, Gazzinelli R, Bozza MT, Borges VM and Chan FKM.  RIPK1 and PGAM5 control Leishmania replication through distinct mechanisms. J Immunol. 2016 Jun 15; 196(2):5056-63.
  5. Moriwaki K, Balaji S and Chan FKM.  Border security: The role of RIPK3 in epithelium homeostasis.  Front. Cell Dev. Biol.  2016 June 28; 4:70. Doi: 10.3389/fcell.2016.00070.  PMCID: PMC4923062.
  6. FKM Chan.  RIPK3 slams the brake on leukemogenesis.  Cancer Cell July 11 2016.

2017

  1. Moriwaki K and Chan FKM.  The inflammatory signal adaptor RIPK3: functions beyond necroptosis. International Review of Cell and Molecular Biology 2017; 328: 253-275. doi: 10.1016/bs.ircmb.2016.08.007.
  2. Galluzzi L, Kepp O, Chan, FKM and Kroemer G.  Necroptosis: Mechanisms and Relevance to Disease.  Ann. Rev. Pathol. 2017 Jan 24; 12:103-130. doi: 10.1146/annurev-pathol-052016-100247.  PMCID: PMC5786374.
  3. Orlowski GM, Sharma S, Colbert JD, Bogyo M, Robertson SA, Kataoka H, Chan FK and Rock KL.  Multiple cathepsins promote inflammasome-independent particule-induced cell death during NLRP3-dependent IL-1b activation. J Leuk. Biol. 2017 Jan 13. pii: jlb.3HI0316-152R. doi: 10.1189/jlb.3HI0316-152R. [Epub ahead of print] PMID: 28087651.
  4. Moriwaki K, Balaji S, Bertin J, Gough PJ and Chan FKM.  Distinct kinase-independent role of RIPK3 in CD11c+ mononuclear phagocytes in cytokine-induced tissue repair. Cell Rep. 2017 Mar 7;18(10):2441-2451. doi: 10.1016/j.celrep.2017.02.015.
  5. DeSouza-Vieira T. and Chan FKM.  Bacterial pathogenesis: Pathogenic bacteria attack RHIM. Nat Microbiol. 2017 Mar 28; 2:17042.
  6. Kleino A, Ramia NF, Bozkurt G, Shen Y, Nailwal H, Huang J, Napetschnig J, Gangloff M, Chan FK, Wu H, Li J, Silverman N.  Peptidoglycan-sensing receptors trigger the formation of functional amyloids of the adaptor protein Imd to initiate Drosophila NF-kB signaling. Immunity. 2017 Oct 17;47(4):635-647.e6. doi: 10.1016/j.immuni.2017.09.011.

2018

  1. Rathinam VAK and Chan FKM.  Inflammasome, Inflammation and Tissue Homeostasis.  Trends Mol Med. 2018 Marl 24(3):304-318. doi: 10.1016/j.molmed.2018.01.004. 
  2. Molecular mechanisms of cell death: recommendations of the Nomenclature Committee on Cell Death 2018.  Cell Death Differ. 2018 Mar 25(3):486-541 doi: 10.1038/s41418-017-0012-4. Epub 2018 Jan 23.
  3. Necroptosis in anti-viral inflammation.  Nailwal H and Chan, FK.  Cell Death Differ. 2018 Jul 26. doi: 10.1038/s41418-018-0172-x.
  4. Moquin DM and Chan FK.  Loss-of-function RNAi screen to identify necrosis-signaling molecules.  Methods Mol Biol. 2018 Jul 26. doi: 10.1016/j.molmed.2018.01.004.
  5. Barbosa LA, Fiuza PP, Borges LJ, Rolim FA, Andrade MB, Luz NF, Quintela-Carvalho G, Lima JB, Almeida RP, Chan FK, Bozza MT, Borges VM, Prates DB. RIPK1-RIPK3-MLKL-Associated Necroptosis Drives Leishmania infantum Killing in Neutrophils. Front Microbiol. 2018 Sep 28;9:2283. doi: 10.3389/fmicb.2018.02283.
  6. Luz NF, Khouri R, Van Weyenbergh J, Zanette DL, Fiuza PP, Noronha A, Barral A, Boaventura VS, Prates DB, Chan FK, Andrade BB, Borges VM.  Leishmania braziliensis Subverts Necroptosis by Modulating RIPK3 Expression.  Front Microbiol. 2018 Sep 28;9:2283. doi: 10.3389/fmicb.2018.02283.

2020

  1. Moriwaki K, Balaji S and Chan FKM.  The Death-Inducing Activity of RIPK1 is Regulated by the pH Environment.  Science Signaling 2020 May 12; 13(631):eaay7066. doi: 10.1126/scisignal.aay7066.  PMCID:  PMC7337977.

2021

  1. Liu ZJ and Chan FKM.  Regulatory Mechanisms of RIPK1 in Cell Death and Inflammation.  Semin Cell and Dev Biol. 2021 Jan;109:70-75. doi: 10.1016/j.semcdb.2020.06.013. Epub 2020 Jun 29.
  2. Liu ZJ, Nailwal H, Rector J, Rahman M, Sam R, McFadden G, Chan FKM. A Class of Viral Inducer of RIPK3 Degradation Regulates Poxvirus Pathogenesis.  Immunity. 2021 Feb 9;54(2):247-258.e7.  PMCID: PMC7878414.
  3. Kenta Moriwaki, Francis K.M. Chan and Eiji Miyoshi.  Sweet modification and regulation of death receptor signaling pathway.  J Biochem. 2021 Mar 22; mvab034. doi: 10.1093/jb/mvab034
  4. Liu ZJ, Kang K and Chan FKM.  Generation of recombinant vaccinia virus and analysis of virus-induced cell death.  STAR Protoc. 2021 Oct 4;2(4):100871. doi: 10.1016/j.xpro.2021.100871.

2022

  1. Kenta Moriwaki, Christa Park, Kazuha Koyama, Sakthi Balaji, Kohei Kita, Ryoko Yagi, Sachiko Komazawa-Sakon, Manami Semba, Tatsuya Asuka, Hiroyasu Nakano, Yoshihiro Kamada, Eiji Miyoshi, Francis K.M. Chan.  The scaffold-dependent function of RIPK1 in dendritic cells promotes injury-induced colitis.  Mucosal Immunology 2022 Jan;15(1):84-95. doi: 10.1038/s41385-021-00446-y.
  2. Rucker AJ and Chan FK.  Tumor-intrinsic and immune modulatory roles of receptor-interacting protein kinases.  Trends Biochem. Sci. 2022 Apr;47(4):342-351. doi: 10.1016/j.tibs.2021.12.004.
  3. Kang K, Park C and Chan FK.  Necroptosis at a glance. J Cell Sci. 2022 Sep 1;135(17):jcs260091. Doi: 10.1242/jcs.260091. 

2023

  1. Apoptotic cell death in disease-current understanding of the NCCD 2023. Vitale I. … Chan FK … Galluzzi L. Cell Death Differ. 2023 May; 30 (5):1097-1154. doi: 10.1038/s41418-023-01153-w.
  2. Lei A, Yu H, Lu S, Lu H, Ding X, Tan T, Zhang H, Zhu M, Tian L, Wang X, Su S, Xue D, Zhang S, Zhao W, Chen Y, Xie W, Zhang L, Zhu Y, Zhao J, Jiang W, Church G, Chan FKM and Zhang J. A second-generation M1-polarized CAR macrophage with antitumor efficacy.  Nat Immunol. 2023 Nov 27. doi: 10.1038/s41590-023-0168708.

Book Chapter:

  1. F. K. M. Chan and M.J. Lenardo.  Programmed Cell Death.  In: Fundamental Immunology (5th edition) W.E. Paul, ed.  Lippincott-Raven (2003).
  1. F. K. M. Chan.  Monitoring molecular interactions in living cells using flow cytometric analysis of fluorescence resonance energy transfer.  Methods Mol Biol., 261:371-82 (2004)
  2. F. K. M. Chan and K. L. Holmes.  Flow cytometric analysis of fluorescence resonance energy transfer: a tool for high-throughput screening of molecular interactions in living cells.  Methods Mol Biol., 263:281-92 (2004).
  3. F. K. M. Chan.  Detection of Protein-Protein Interaction In Vivo using CFP and YFP.  In: Cell Biology: A Laboratory Handbook.  (3rd edition)  J. E. Celis.  Elsevier Science (2006).
  4. Francis Ka-Ming Chan.  Fueling the Flames: Mammalian Programmed Necrosis in Inflammatory Diseases.  Cell Survival and Cell Death, Cold Spring Harbor Perspectives in Biology.  Edited by EH Baehrecke, DR Green, S. Kornbluth and GS Salvesen.  Cold Spring Harbor Laboratory Press (2013)
  5. F.K.M. Chan, K. Moriwaki and M.J. DeRosa.  Detection of Necrosis by Release of Lactate Dehydrogenase Activity.  Editor: A. Snow and M. Lenardo.  Humana Press.  (2013).
  6. K. Moriwaki and F.K.M. Chan.  Programmed Necrosis in Immunity and Inflammatory Diseases.  Necrotic Cell Death (Cell Death in Biology and Diseases).  Editor: P. Vandenabeele and H-M. Shen.  Humana Press. (2014).
  7. F.K.M. Chan.  Programmed Necrosis/Necroptosis: An Inflammatory Form of Cell Death.  Cell Death: Mechanism and Disease.  Editor: Hao Wu.  Springer (2014).

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