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  1. 1.   Developmental onset of planarian whole-body regeneration depends on axis reset
  2. Booth, Clare L T; Stevens, Brian C; Stubbert, Clover A; Kallgren,Neil; Deihl,Ennis; Davies,Erin
  3. Current Biology : CB. 2025, Apr 11;
  1. 2.   Longitudinal single-cell profiles of lung regeneration after viral infection reveal persistent injury-associated cell states
  2. Niethamer, Terren K; Planer, Joseph D; Morley, Michael P; Babu, Apoorva; Zhao, Gan; Basil, Maria C; Cantu, Edward; Frank, David B; Diamond, Joshua M; Nottingham, Ana N; Li, Shanru; Sharma,Arnav; Hallquist, Hannah; Levin, Lillian I; Zhou, Su; Vaughan, Andrew E; Morrisey, Edward E
  3. Cell Stem Cell. 2025, Jan 13;
  1. 3.   Ets-1 transcription factor regulates glial cell regeneration and function in planarians
  2. Chandra, Bidushi; Voas,Matthew; Davies,Erin; Roberts-Galbraith, Rachel H
  3. Development (Cambridge, England). 2023, Sep 15; 150(18):
  1. 4.   The beneficial effects of commensal E. coli for colon epithelial cell recovery are related with Formyl peptide receptor 2 (Fpr2) in epithelial cells
  2. Chen,Keqiang; McCulloch, John; Das Neves, Rodrigo; Roderigues, Gisele; Hsieh,Wang-Ting; Gong,Wang; Yoshimura,Teizo; Huang, Jiaqiang; O'hUigin, Colm; Difilippantonio,Simone; McCollum, Matthew; Jones, Georgette; Durum,Scott; Trinchieri, Giorgio; Wang, Ji Ming
  3. Gut Pathogens. 2023, Jun 15; 15(1): 28.
  1. 5.   Craniofacial Development Is Fine-Tuned by Sox2
  2. Mandalos, Nikolaos Panagiotis; Dimou, Aikaterini; Gavala, Maria Angeliki; Lambraki, Efstathia; Remboutsika, Eumorphia
  3. Genes. 2023, Jan 31; 14(2):
  1. 6.   Regenerative responses of rabbit corneal endothelial cells to stimulation by fibroblast growth factor 1 (FGF1) derivatives, TTHX1001 and TTHX1114
  2. Weant, Jessica; Eveleth, David D.; Subramaniam, Amuthakannan; Jenkins-Eveleth, Jennifer; Blaber, Michael; Li, Ling; Ornitz, David M.; Alimardanov, Asaf; Broadt, Trevor; Dong, Hui; Vyas, Vinay; Yang, Xiaoyi; Bradshaw, Ralph A.
  3. Growth Factors. 2021, Dec 9;
  1. 7.   The Planarian Anatomy Ontology: A resource to connect data within and across experimental platforms
  2. Nowotarski, Stephanie H; Davies,Erin; Robb, Sofia M C; Ross, Eric J; Matentzoglu, Nicolas; Doddihal, Viraj; Mir, Mol; McClain, Melainia; Alvarado, Alejandro Sánchez
  3. Development (Cambridge, England). 2021, Aug 1; 148(15):
  1. 8.   PDCD4 regulates axonal growth by translational repression of neurite growth-related genes and is modulated during nerve injury responses
  2. Di Paolo, Andres Pablo; Eastman, Guillermo; Mesquita Ribeiro, Raquel; Farias, Joaquina; Macklin, Andrew; Kislinger, Thomas; Colburn, Nancy; Munroe, David; Sotelo Sosa, Jose Roberto; Dajas Bailador, Federico; Sotelo Silveira, Jose Roberto
  3. RNA (New York, N.Y.). 2020, NOV; 26(11): 1637-+.
  1. 9.   Wdr13 and streptozotocin-induced diabetes
  2. Mishra, Arun; Yedella, Komala; Lakshmi, Jyothi B.; Siva, Archana B.
  3. NUTRITION & DIABETES. 2018, Oct 29; 8(1): 57.
  1. 10.   In situ transcriptome characteristics are lost following culture adaptation of adult cardiac stem cells
  2. Kim, Taeyong; Echeagaray, Oscar H.; Wang, Bingyan J.; Casillas, Alexandria; Broughton, Kathleen M.; Kim, Bong-Hyun; Sussman, Mark A.
  3. Scientific Reports. 2018, Aug 13; 8(1): 12060.
  1. 11.   TEM8/ANTXR1 Blockade Inhibits Pathological Angiogenesis and Potentiates Tumoricidal Responses against Multiple Cancer Types
  2. Chaudhary, A.; Hilton, M. B.; Seaman, S.; Haines, D. C.; Stevenson, S.; Lemotte, P. K.; Tschantz, W. R.; Zhang, X. Y. M.; Saha, S.; Fleming, T.; St Croix, B.
  3. Cancer Cell. 2012, Feb; 21(2): 212-226.
  1. 12.   Limb Cells Don't Tell Time
  2. Mackem, S.; Lewandoski, M.
  3. Science. 2011, May; 332(6033): 1038-1039.
  1. 13.   Dynamic Patterns of Histone Lysine Methylation in the Developing Retina
  2. Rao, R. C.; Tchedre, K. T.; Malik, M. T. A.; Coleman, N.; Fang, Y. A.; Marquez, V. E.; Chen, D. F.
  3. Investigative Ophthalmology & Visual Science. 2010, Dec; 51(12): 6784-6792.
  1. 14.   Self assembled bi-functional peptide hydrogels with biomineralization-directing peptides
  2. Gungormus, M.; Branco, M.; Fong, H.; Schneider, J. P.; Tamerler, C.; Sarikaya, M.
  3. Biomaterials. 2010, Oct; 31(28): 7266-7274.
  1. 15.   Epimorphic regeneration in mice is p53-independent
  2. Arthur, L. M.; Demarest, R. M.; Clark, L.; Gourevitch, D.; Bedelbaeva, K.; Anderson, R.; Snyder, A.; Capobianco, A. J.; Lieberman, P.; Feigenbaum, L.; Heber-Katz, E.
  3. Cell Cycle. 2010, Sep; 9(18): 3667-3673.
  1. 16.   Stem cells as a therapeutic target for diabetes
  2. Mishra, P. K.; Singh, S. R.; Joshua, I. G.; Tyagi, S. C.
  3. Frontiers in Bioscience-Landmark. 2010, Jan; 15: 461-477.
  1. 17.   Cdk2 plays a critical role in hepatocyte cell cycle progression and survival in the setting of cyclin D1 expression in vivo
  2. Hanse, E. A.; Nelsen, C. J.; Goggin, M. M.; Anttila, C. K.; Mullany, L. K.; Berthet, C.; Kaldis, P.; Crary, G. S.; Kuriyama, R.; Albrecht, J. H.
  3. Cell Cycle. 2009 8(17): 2802-2809.
  1. 18.   Identification of FGFR4-activating mutations in human rhabdomyosarcomas that promote metastasis in xenotransplanted models
  2. Taylor, J. G.; Cheuk, A. T.; Tsang, P. S.; Chung, J. Y.; Song, Y. K.; Desai, K.; Yu, Y. L.; Chen, Q. R.; Shah, K.; Youngblood, V.; Fang, J.; Kim, S. Y.; Yeung, C.; Helman, L. J.; Mendoza, A.; Ngo, V.; Staudt, L. M.; Wei, J. S.; Khanna, C.
  3. Journal of Clinical Investigation. 2009 119(11): 3395-3407.
  1. 19.   Genetic substitution of Cdk1 by Cdk2 leads to embryonic lethality and loss of meiotic function of Cdk2
  2. Satyanarayana, A.; Berthet, C.; Lopez-Molina, J.; Coppola, V.; Tessarollo, L.; Kaldis, P.
  3. Development. 2008 135(20): 3389-3400.
  1. 20.   p21 inhibits Cdk1 in the absence of Cdk2 to maintain the G1/S phase DNA damage checkpoint
  2. Satyanarayana, A.; Hilton, M. B.; Kaldis, P.
  3. Molecular Biology of the Cell. 2008 19(1): 65-77.
  1. 21.   Genes that distinguish physiological and pathological angiogenesis
  2. Seaman, S.; Stevens, J.; Yang, M. Y.; Logsdon, D.; Graff-Cherry, C.; Croix, B. S.
  3. Cancer Cell. 2007, Jun; 11(6): 539-554.
  1. 22.   IL-15 induces C4+ effector memory T cell production and tissue emigration in nonhuman primates
  2. Picker, L. J.; Reed-Inderbitzin, E. F.; Hagen, S. I.; Edgar, J. B.; Hansen, S. G.; Legasse, A.; Planer, S.; Piatak, M.; Lifson, J. D.; Maino, V. C.; Axthelm, M. K.; Villinger, F.
  3. Journal of Clinical Investigation. 2006, JUN; 116(6): 1514-1524.
  1. 23.   Loss of emerin at the nuclear envelope disrupts the Rb1/E2F and MyoD pathways during muscle regeneration
  2. Melcon, G.; Kozlov, S.; Cutler, D. A.; Sullivan, T.; Hernandez, L.; Zhao, P.; Mitchell, S.; Nader, G.; Bakay, M.; Rottman, J. N.; Hoffman, E. P.; Stewart, C. L.
  3. Human Molecular Genetics. 2006, FEB 15; 15(4): 637-651.
  1. 24.   Cellular 8-oxo-7,8-dihydro-2 '-deoxyguanosine 5 '-triphosphate pyrophosphohydrolase activity of human and mouse MTH1 proteins does not depend on the proliferation rate
  2. Bialkowski, K.; Kasprzak, K. S.
  3. Free Radical Biology and Medicine. 2004, NOV 15; 37(10): 1534-1541.
  1. 25.   A novel cell-free protein synthesis system
  2. Sitaraman, K.; Esposito, D.; Klarmann, G.; Le Grice, S. F.; Hartley, J. L.; Chatterjee, D. K.
  3. Journal of Biotechnology. 2004 110(3): 257-263.
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