Phage+and+tumor+reading+list+from+Phil+10-24-12

e-mail link: https://mail.google.com/mail/u/0/?shva=1#inbox/13a95094f2e8f530

Phil specifically mentioned this paper (also found below): Identifying autoantibody signatures in cancer: a promising challenge.

Adda, C.G., Anders, R.F., Tilley, L., Foley, M., 2002. Random sequence libraries displayed on phage: identification of biologically important molecules. Combinatorial Chemistry and High Throughput Screening 5, 1-14.

Random sequence libraries displayed on phage: identification of biologically important molecules. Combinatorial Chemistry and High Throughput Screening (haven't read this yet)

Barbas, C.F., Languino, L.R., Smith, J.W., 1993. High-Affinity Self-Reacting Human Antibodies by Design and Selection: Targeting the Integrin Ligand Binding Site. Proceedings of the National Academy of Sciences USA 90, 10003-10007.

High-Affinity Self-Reacting Human Antibodies by Design and Selection: Targeting the Integrin Ligand Binding Site.

BouHamdan, M., Xue, Y., Baudat, Y., Hu, B., Sire, J., Pomerantz, R.J., Duan, L.-X., 1998. Diversity of HIV-1 Vpr interactions involves usage of the WXXF motif of host cell proteins. Journal of Biological Chemistry 273, 8009-8016.

Diversity of HIV-1 Vpr interactions involves usage of the WXXF motif of host cell proteins.

Burritt, J.B., DeLeo, F.R., McDonald, C.L., Prigge, J.R., Dinauer, M.C., Nakamura, M., Nauseef, W.M., Jesaitis, A.J., 2001. Phage display epitope mapping of human neutrophil flavocytochromeb 558. Journal of Biological Chemistry 276, 2053-2061. Burton, D.R., Barbas, C.F., Persson, M.A.A., Koenig, S., Chanock, R.M., Lerner, R.A., 1991. A Large Array of Human Monoclonal Antibodies to Type 1 Human Immunodeficiency Virus from Combinatorial Libraries of Asymptomatic Individuals. Proceedings of the National Academy of Sciences USA 88, 10134-10137. Çelik, E., Fisher, A.C., Guarino, C., Mansell, T.J., DeLisa, M.P., 1997. A filamentous phage display system for N-linked glycoproteins. Protein Science 19, 2006-2013. Chatterjee, M., Mohapatra, S., Ionan, A., Bawa, G., Ali-Fehmi, R., Wang, X., Nowak, J., Ye, B., Nahhas, F.A., Lu, K., Witkin, S.S., Fishman, D., Munkarah, A., Morris, R., Levin, N.K., Shirley, N.N., Tromp, G., Abrams, J., Draghici, S., Tainsky, M.A., 2006. Diagnostic markers of ovarian cancer by high-throughput antigen cloning and detection on arrays. Cancer Res 66, 1181-1190. Coley, A.M., Campanale, N.V., Casey, J.L., Hodder, A.N., Crewther, P.E., Anders, R.F., Tilley, L.M., Foley, M., 2001. Rapid and precise epitope mapping of monoclonal antibodies against Plasmodium falciparum AMA1 by combined phage display of fragments and random peptides. Protein Eng. 14, 691-698. Cortese, R., Monaci, P., Luzzago, A., Santini, C., Bartoli, F., Cortese, I., Fortugno, P., Galfrè, G., Nicosia, A., Felici, F., 1996. Selection of biologically active peptides by phage display of random peptide libraries. Current Opinion in Biotechnology 7, 616-621. Desmetz, C., Maudelonde, T., Mange, A., Solassol, J., 2009. Identifying autoantibody signatures in cancer: a promising challenge. Expert Reviews in Proteomics 6.

Identifying autoantibody signatures in cancer: a promising challenge. (haven't read this yet)

<span style="font-family: 'Arial','sans-serif'; font-size: 16px;">Ferrer, M., Sullivan, B.J., Godbout, K.L., Burke, E., Stump, H.S., Godoy, J., Golden, A., Profy, A.T., Van Schravendijk, M.R., 1999. Structural and functional characterization of an epitope in the conserved C-terminal region of HIV-1 gp120. The Journal of Peptide Research 54, 32-42. <span style="font-family: 'Arial','sans-serif'; font-size: 16px;">Jespers, L.S., Roberts, A., Mahler, S.M., Winter, G., Hoogenboom, H.R., 1994. Guiding the selection of human antibodies from phage display repertoires to a single epitope of an antigen. Nature Biotechnology 12, 899-903. <span style="font-family: 'Arial','sans-serif'; font-size: 16px;">Marks, J.D., Ouwehand, W.H., Bye, J.M., Finnern, R., Gorick, B.D., Voak, D., Thorpe, S.J., Hughes-Jones, N.C., Winter, G., 1993. Human Antibody Fragments Specific for Human Blood Group Antigens From a Phage Display Library. Biotechnology 11, 1145-1149. <span style="font-family: 'Arial','sans-serif'; font-size: 16px;">McAfferty, J., Griffiths, A.D., Winter, G., Chiswell, D.J., 1990. Phage Antibodies: Filamentous Phage Displaying Antibody Variable Domains. Nature 348, 552-554. <span style="font-family: 'Arial','sans-serif'; font-size: 16px;">Mintz, P.J., Kim, J., Do, K.-A., Wang, X., Zinner, R.G., Cristofanilli, M., Arap, M.A., Hong, W.K., Troncoso, P., Logothetis, C.J., Pasqualini, R., Arap, W., 2003. Fingerprinting the circulating repertoire of antibodies from cancer patients. Nat Biotech 21, 57-63. <span style="font-family: 'Arial','sans-serif'; font-size: 16px;">Oyama, T., Sykes, K.F., Samli, K.N., Minna, J.D., Johnston, S.A., Brown, K.C., 2003. Isolation of lung tumor specific peptides from a random peptide library: generation of diagnostic and cell-targeting reagents. Cancer Letters 202, 219-230. <span style="font-family: 'Arial','sans-serif'; font-size: 16px;">Pasqualini, R., Ruosiahti, E., 1996. Organ Targeting //in vivo// Using Phage Display Peptide Libraries. Nature 380, 364-366. <span style="font-family: 'Arial','sans-serif'; font-size: 16px;">Petrenko, V.A., Vodyanoy, V.J., 2003. Phage display for detection of biological threat agents. Journal of Microbiological Methods 53, 253-262. <span style="font-family: 'Arial','sans-serif'; font-size: 16px;">Rader, C., Barbas, C.F., 1997. Phage display of combinatorial antibody libraries. Current Opinion in Biotechnology 8, 503-508. <span style="font-family: 'Arial','sans-serif'; font-size: 16px;">Sidhu, S.S., Fairbrother, W.J., Deshayes, K., 2003. Exploring protein–protein interactions with phage display. ChemBioChem 4, 14-25. <span style="font-family: 'Arial','sans-serif'; font-size: 16px;">Smith, G.P., Petrenko, V.A., 1997. Phage display. Chemical Reviews 97, 391-410.