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  1. 1.   GSK-3a/ß and MEK inhibitors assist the microenvironment of tumor initiation
  2. Hassan, Ghmkin; Afify, Said M; Zahra, Maram H; Nawara, Hend M; Kumon, Kazuki; Iwasaki, Yoshiaki; Salomon,David; Seno, Akimasa; Seno, Masaharu
  3. Cytotechnology. 2023, Jun; 75(3): 243-253.
  1. 2.   Direct epitranscriptomic regulation of mammalian translation initiation through N4-acetylcytidine
  2. Arango, Daniel; Sturgill, David; Yang,Renbin; Kanai,Tapan; Bauer, Paulina; Roy, Jyoti; Wang, Ziqiu; Hosogane, Masaki; Schiffers, Sarah; Oberdoerffer, Shalini
  3. Molecular Cell. 2022, Jun 07;
  1. 3.   Profiling SARS-CoV-2 HLA-I peptidome reveals T cell epitopes from out-of-frame ORFs
  2. Weingarten-Gabbay, Shira; Klaeger, Susan; Sarkizova, Siranush; Pearlman, Leah R.; Chen, Da-Yuan; Gallagher, Kathleen M. E.; Bauer, Matthew R.; Taylor, Hannah B.; Dunn, W. Augustine; Tarr, Christina; Sidney, John; Rachimi, Suzanna; Conway, Hasahn L.; Katsis, Katelin; Wang, Yuntong; Leistritz-Edwards, Del; Durkin, Melissa R.; Tomkins-Tinch, Christopher H.; Finkel, Yaara; Nachshon, Aharon; Gentili, Matteo; Rivera, Keith D.; Carulli, Isabel P.; Chea, Vipheaviny A.; Chandrashekar, Abishek; Bozkus, Cansu Cimen; Carrington,Mary; Bhardwaj, Nina; Barouch, Dan H.; Sette, Alessandro; Maus, Marcela; Rice, Charles M.; Clauser, Karl R.; Keskin, Derin B.; Pregibon, Daniel C.; Hacohen, Nir; Carr, Steven A.; Abelin, Jennifer G.; Saeed, Mohsan; Sabeti, Pardis C.
  3. CELL. 2021, Jul 22; 184(15): 3962-3980.e17.
  1. 4.   Targeting Protein Translation by Rocaglamide and Didesmethyirocaglamide to Treat MPNST and Other for Sarcomas
  2. Chang, Long-Sheng; Oblinger, Janet L.; Burns, Sarah S.; Huang, Jie; Anderson,Larry; Hollingshead,Melinda; Shen, Rulong; Pan, Li; Agarwal, Garima; Ren, Yulin; Roberts, Ryan D.; O'Keefe,Barry; Kinghorn, A. Douglas; Collins,Jerry
  3. MOLECULAR CANCER THERAPEUTICS. 2020, Mar; 19(3): 731-741.
  1. 5.   The Role of Pyrophosphorolysis in the Initiation-to-Elongation Transition by E. coli RNA Polymerase
  2. Imashimizu, Masahiko; Kireeva, Maria L; Lubkowska,Lucyna; Kashlev,Mikhail; Shimamoto, Nobuo
  3. Journal of molecular biology. 2019, Jun 28; 431(14): 2528-2542.
  1. 6.   Production and characterization of a highly pure RNA polymerase holoenzyme from Mycobacterium tuberculosis
  2. Herrera-Asmat, Omar; Lubkowska, Lucyna; Kashlev, Mikhail; Bustamante, Carlos J; Guerra, Daniel G; Kireeva, Maria
  3. Protein Expression and Purification. 2017, Jun; 134: 1-10.
  1. 7.   High-throughput single-molecule screen for small-molecule perturbation of splicing and transcription kinetics
  2. Day, C. R.; Chen, H.; Coulon, A.; Meier, J. L.; Larson, D. R.
  3. Methods (San Diego, Calif.). 2016, 1-Mar; 96: 59-68.
  1. 8.   Attenuation of Neurovirulence, Biodistribution, and Shedding of a Poliovirus:Rhinovirus Chimera after Intrathalamic Inoculation in Macaca fascicularis
  2. Dobrikova, E. Y.; Goetz, C.; Walters, R. W.; Lawson, S. K.; Peggins, J. O.; Muszynski, K.; Ruppel, S.; Poole, K.; Giardina, S. L.; Vela, E. M.; Estep, J. E.; Gromeier, M.
  3. Journal of Virology. 2012, Mar; 86(5): 2750-2759.
  1. 9.   Growth rate regulation in Escherichia coli
  2. Jin, D. J.; Cagliero, C.; Zhou, Y. N.
  3. FEMS Microbiology Reviews. 2012, Mar; 36(2): 269-287.
  1. 10.   Gene-specific transcription activation via long-range allosteric shape-shifting
  2. Tsai, C. J.; Nussinov, R.
  3. Biochemical Journal. 2011, Oct; 439: 15-25.
  1. 11.   Determining the Frequency and Mechanisms of HIV-1 and HIV-2 RNA Copackaging by Single-Virion Analysis
  2. Dilley, K. A.; Ni, N.; Nikolaitchik, O. A.; Chen, J. B.; Galli, A.; Hu, W. S.
  3. Journal of Virology. 2011, Oct; 85(20): 10499-10508.
  1. 12.   Islet1-mediated activation of the beta-catenin pathway is necessary for hindlimb initiation in mice
  2. Kawakami, Y.; Marti, M.; Kawakami, H.; Itou, J.; Quach, T.; Johnson, A.; Sahara, S.; O'Leary, D. D. M.; Nakagawa, Y.; Lewandoski, M.; Pfaff, S.; Evans, S. M.; Belmonte, J. C. I.
  3. Development. 2011, Oct; 138(20): 4465-4473.
  1. 13.   Mechanisms and Factors that Influence High Frequency Retroviral Recombination
  2. Delviks-Frankenberry, K.; Galli, A.; Nikolaitchik, O.; Mens, H.; Pathak, V. K.; Hu, W. S.
  3. Viruses-Basel. 2011, Sep; 3(9): 1650-1680.
  1. 14.   Mechanisms of Human Immunodeficiency Virus Type 2 RNA Packaging: Efficient trans Packaging and Selection of RNA Copackaging Partners
  2. Ni, N.; Nikolaitchik, O. A.; Dilley, K. A.; Chen, J. B.; Galli, A.; Fu, W.; Prasad, V.; Ptak, R. G.; Pathak, V. K.; Hu, W. S.
  3. Journal of Virology. 2011, Aug; 85(15): 7603-7612.
  1. 15.   The Era GTPase recognizes the GAUCACCUCC sequence and binds helix 45 near the 3 ' end of 16S rRNA
  2. Tu, C.; Zhou, X. M.; Tarasov, S. G.; Tropea, J. E.; Austin, B. P.; Waugh, D. S.; Court, D. L.; Ji, X. H.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2011, Jun; 108(25): 10156-10161.
  1. 16.   Multiple Barriers to Recombination between Divergent HIV-1 Variants Revealed by a Dual-Marker Recombination Assay
  2. Nikolaitchik, O. A.; Galli, A.; Moore, M. D.; Pathak, V. K.; Hu, W. S.
  3. Journal of Molecular Biology. 2011, Apr; 407(4): 521-531.
  1. 17.   The microRNA-processing enzyme Dicer is dispensable for somite segmentation but essential for limb bud positioning
  2. Zhang, Z.; O'Rourke, J. R.; McManus, M. T.; Lewandoski, M.; Harfe, B. D.; Sun, X.
  3. Developmental Biology. 2011, Mar; 351(2): 254-265.
  1. 18.   Self-Assembling RNA Nanorings Based on RNAI/II Inverse Kissing Complexes
  2. Grabow, W. W.; Zakrevsky, P.; Afonin, K. A.; Chworos, A.; Shapiro, B. A.; Jaeger, L.
  3. Nano Letters. 2011, Feb; 11(2): 878-887.
  1. 19.   Constitutive reductions in mTOR alter cell size, immune cell development, and antibody production
  2. Zhang, S. L.; Readinger, J. A.; DuBois, W.; Janka-Junttila, M.; Robinson, R.; Pruitt, M.; Bliskovsky, V.; Wu, J. Z.; Sakakibara, K.; Patel, J.; Parent, C. A.; Tessarollo, L.; Schwartzberg, P. L.; Mock, B. A.
  3. Blood. 2011, Jan; 117(4): 1228-1238.
  1. 20.   Initiation complex dynamics direct the transitions between distinct phases of early HIV reverse transcription
  2. Liu, S. X.; Harada, B. T.; Miller, J. T.; Le Grice, S. F. J.; Zhuang, X. W.
  3. Nature Structural & Molecular Biology. 2010, Dec; 17(12): 1453-U83.
  1. 21.   Pdcd4 repression of lysyl oxidase inhibits hypoxia-induced breast cancer cell invasion
  2. Santhanam, A. N.; Baker, A. R.; Hegamyer, G.; Kirschmann, D. A.; Colburn, N. H.
  3. Oncogene. 2010, Jul; 29(27): 3921-3932.
  1. 22.   Have Tumor Suppressor PDCD4 and its Counteragent Oncogenic miR-21 Gone Rogue?
  2. Young, M. R.; Santhanam, A. N.; Yoshikawa, N.; Colburn, N. H.
  3. Molecular Interventions. 2010, Apr; 10(2): 76-79.
  1. 23.   Solution structure of the cap-independent translational enhancer and ribosome-binding element in the 3 ' UTR of turnip crinkle virus
  2. Zuo, X. B.; Wang, J. B.; Yu, P.; Eyler, D.; Xu, H.; Starich, M. R.; Tiede, D. M.; Simon, A. E.; Kasprzak, W.; Schwieters, C. D.; Shapiro, B. A.; Wang, Y. X.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2010, Jan 26; 107(4): 1385-1390.
  1. 24.   Identification and analysis of novel transcripts and promoters in the human killer cell immunoglobulin-like receptor (KIR) genes
  2. Li, H.; Wright, P. W.; Anderson, S. K.
  3. Methods in molecular biology (Clifton, N.J.). 2010 612: 377-91.
  1. 25.   Non-AUG translational initiation of a short CAPC transcript generating protein isoform
  2. Anaganti, S.; Hansen, J. K.; Ha, D.; Hahn, Y.; Chertov, O.; Pastan, I.; Bera, T. K.
  3. Biochemical and Biophysical Research Communications. 2009 380(3): 508-513.
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