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  1. 1.   Extracellular Matrix Scaffold-Assisted Tumor Vaccines Induce Tumor Regression And Long-Term Immune Memory
  2. Pal,Sanjay; Chaudhari, Rohan; Baurceanu,Iris; Hill,Brenna; Nagy,Bethany; Wolf,Matthew
  3. Advanced Materials (Deerfield Beach, Fla.). 2024, Feb 01; e2309843.
  1. 2.   Creation and preclinical evaluation of a novel mussel-inspired, biomimetic, bioactive bone graft scaffold: direct comparison with Infuse bone graft using a rat model of spinal fusion
  2. Cottrill, Ethan; Pennington, Zach; Wolf,Matthew; Dirckx, Naomi; Ehresman, Jeff; Perdomo-Pantoja, Alexander; Rajkovic, Christian; Lin, Jessica; Maestas, David R; Mageau, Ashlie; Lambrechts, Dennis; Stewart, Veronica; Sciubba, Daniel M; Theodore, Nicholas; Elisseeff, Jennifer H; Witham, Timothy
  3. Journal of Neurosurgery. Spine. 2023, Mar 31; 39(1): 113-121.
  1. 3.   A bioengineered in situ ovary (ISO) supports follicle engraftment and live-births post-chemotherapy
  2. Buckenmeyer,Michael; Sukhwani, Meena; Iftikhar, Aimon; Nolfi, Alexis L; Xian, Ziyu; Dadi, Srujan; Case, Zachary W; Steimer, Sarah R; D'Amore, Antonio; Orwig, Kyle E; Brown, Bryan N
  3. Journal of Tissue Engineering. 2023, Jan-Dec; 14: 20417314231197282.
  1. 4.   ? Recombineering Used to Engineer the Genome of Phage T7
  2. Jensen, Jordan D; Parks, Adam R; Adhya, Sankar; Rattray,Alison; Court,Don
  3. Antibiotics (Basel, Switzerland). 2020, Nov 13; 9(11): pii: E805.
  1. 5.   The Convergence of the Hedgehog/Intein Fold in Different Protein Splicing Mechanisms
  2. Beyer, Hannes M; Virtanen, Salla I; Aranko, A Sesilja; Mikula, Kornelia M; Lountos,George; Wlodawer,Alexander; Ollila, O H Samuli; Iwaï, Hideo
  3. International journal of molecular sciences. 2020, Nov 07; 21(21): 8367.
  1. 6.   Optimization of sortase A ligation for flexible engineering of complex protein systems
  2. Li,Jess; Zhang,Yue; Soubias,Olivier; Khago,Domarin; Chao, Fa-an; Li, Yifei; Shaw, Katherine; Byrd,Robert
  3. JOURNAL OF BIOLOGICAL CHEMISTRY. 2020, FEB 28; 295(9): 2664-2675.
  1. 7.   The crystal structure of the naturally split gp41-1 intein guides the engineering of orthogonal split inteins from cis-splicing inteins
  2. Michael Beyer, Hannes; Malgorzata Mikula, Kornelia; Li,Mi; Wlodawer,Alexander; Iwaï, Hideo
  3. The FEBS journal. 2019, Nov 19;
  1. 8.   Cancer targeting by TCR gene-engineered T cells directed against Kita-Kyushu Lung Cancer Antigen-1
  2. Marcinkowski, Bridget; Stevanovic, Sanja; Helman, Sarah R; Norberg, Scott M; Serna, Carylinda; Jin, Benjamin; Gkitsas, Nikolaos; Kadakia, Tejas; Warner,Andrew; Davis, Jeremy L; Rooper, Lisa; Hinrichs, Christian S
  3. Journal for immunotherapy of cancer. 2019, Aug 28; 7(1): 229.
  1. 9.   Automated Computational Detection, Quantitation, and Mapping of Mitosis in Whole-Slide Images for Clinically Actionable Surgical Pathology Decision Support
  2. Puri, Munish; Hoover, Shelley B; Hewitt, Stephen M; Wei,Bih; Adissu, Hibret Amare; Halsey, Charles H C; Beck, Jessica; Bradley, Charles; Cramer, Sarah D; Durham, Amy C; Esplin, D Glen; Frank, Chad; Lyle, L Tiffany; McGill, Lawrence D; Sánchez, Melissa D; Schaffer, Paula A; Traslavina, Ryan P; Buza, Elizabeth; Yang, Howard H; Lee, Maxwell P; Dwyer, Jennifer E; Simpson, R Mark
  3. Journal of pathology informatics. 2019, Feb; 10: 4.
  1. 10.   Detection of Endotoxin in Nano-formulations Using Limulus Amoebocyte Lysate (LAL) Assays
  2. Neun,Barry; Dobrovolskaia,Marina
  3. Journal of visualized experiments : JoVE. 2019, Jan 30; (143):
  1. 11.   Design of Nanoparticulate Group 2 Influenza Virus Hemagglutinin Stem Antigens That Activate Unmutated Ancestor B Cell Receptors of Broadly Neutralizing Antibody Lineages
  2. Corbett, Kizzmekia S; Moin, Syed M; Yassine, Hadi M; Cagigi, Alberto; Kanekiyo, Masaru; Boyoglu-Barnum, Seyhan; Myers, Sky I; Tsybovsky, Yaroslav; Wheatley, Adam K; Schramm, Chaim A; Gillespie, Rebecca A; Shi, Wei; Wang, Lingshu; Zhang, Yi; Andrews, Sarah F; Joyce, M Gordon; Crank, Michelle C; Douek, Daniel C; McDermott, Adrian B; Mascola, John R; Graham, Barney S; Boyington, Jeffrey C
  3. mBio. 2019, Jan-Feb; 10(1): pii: e02810-18.
  1. 12.   N-terminal alpha-amino group modification of antibodies using a site-selective click chemistry method
  2. Li, De-zhi; Han, Bing-nan; Wei, Rui; Yao, Gui-Yang; Chen, Zhizhen; Liu, Jie; Poon, Terence C. W.; Su, Wu; Zhu, Zhongyu; Dimitrov, Dimiter S.; Zhao, Qi
  3. MABS. 2018, Jul; 10(5): 712-719.
  1. 13.   Embryonic Stem Cells in Development and Regenerative Medicine
  2. Dogan, Aysegul
  3. Advances in experimental medicine and biology. 2018, Feb 21; 1079: 1-15.
  1. 14.   Characterization of Recombinant Human IL-15 Deamidation and Its Practical Elimination through Substitution of Asparagine 77
  2. Nellis, D. F.; Michiel, D. F.; Jiang, M. S.; Esposito, D.; Davis, R.; Jiang, H. G.; Korrell, A.; Knapp, G. C.; Lucernoni, L. E.; Nelson, R. E.; Pritt, E. M.; Procter, L. V.; Rogers, M.; Sumpter, T. L.; Vyas, V. V.; Waybright, T. J.; Yang, X. Y.; Zheng, A. M.; Yovandich, J. L.; Gilly, J. A.; Mitra, G.; Zhu, J. W.
  3. Pharmaceutical Research. 2012, Mar; 29(3): 722-738.
  1. 15.   Integrating the intrinsic conformational preferences of noncoded alpha-amino acids modified at the peptide bond into the Noncoded Amino acids Database
  2. Revilla-Lopez, G.; Rodriguez-Ropero, F.; Curco, D.; Torras, J.; Calaza, M. I.; Zanuy, D.; Jimenez, A. I.; Cativiela, C.; Nussinov, R.; Aleman, C.
  3. Proteins-Structure Function and Bioinformatics. 2011, Jun; 79(6): 1841-1852.
  1. 16.   Probing Cellular Processes with Oligo-Mediated Recombination and Using the Knowledge Gained to Optimize Recombineering
  2. Sawitzke, J. A.; Costantino, N.; Li, X. T.; Thomason, L. C.; Bubunenko, M.; Court, C.; Court, D. L.
  3. Journal of Molecular Biology. 2011, Mar; 407(1): 45-59.
  1. 17.   De Novo Design of a Shear-Thin Recoverable Peptide-Based Hydrogel Capable of Intrafibrillar Photopolymerization
  2. Rughani, R. V.; Branco, M. C.; Pochan, D.; Schneider, J. P.
  3. Macromolecules. 2010, Oct; 43(19): 7924-7930.
  1. 18.   Engineering of glycerol dehydrogenase for improved activity towards 1, 3-butanediol
  2. Zhang, H. F.; Lountos, G. T.; Ching, C. B.; Jiang, R. R.
  3. Applied Microbiology and Biotechnology. 2010, Sep; 88(1): 117-124.
  1. 19.   Genetically engineered mouse models in cancer research
  2. Walrath, J. C.; Hawes, J. J.; Van Dyke, T.; Reilly, K. M.
  3. Advances in cancer research. 2010, Apr 16; 106: 113-64.
  1. 20.   Engineered CH2 domains (nanoantibodies)
  2. Dimitrov, D. S.
  3. Mabs. 2009, Jan-Feb; 1(1): 26-8.
  1. 21.   Gene targeting in mouse embryonic stem cells
  2. Tessarollo, L.; Palko, M. E.; Akagi, K.; Coppola, V.
  3. Methods in molecular biology (Clifton, N.J.). 2009 530: 141-164.
  1. 22.   Modifying bacteriophage lambda with recombineering
  2. Thomason, L. C.; Oppenheim, A. B.; Court, D. L.
  3. Methods in molecular biology (Clifton, N.J.). 2009 501: 239-251.
  1. 23.   An engineered selenocysteine defines a unique class of antibody derivatives
  2. Hofer, T.; Thomas, J. D.; Burke, T. R.; Rader, C.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2008 105(34): 12451-12456.
  1. 24.   Allosteric effects in the marginally stable von Hippel-Lindau tumor suppressor protein and allostery-based rescue mutant design
  2. Liu, J.; Nussinov, R.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2008 105(3): 901-906.
  1. 25.   Multicopy plasmid modification with phage lambda red recombineering
  2. Thomason, L. C.; Costantino, N.; Shaw, D. V.; Court, D. L.
  3. Plasmid. 2007, Sep; 58(2): 148-158.
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