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  1. 281
    por Małecki, Andrzej, Skipor-Lahuta, Janina, Toborek, Michal, Abbott, N. Joan, Antonetti, David A., Su, Enming Joe, Lawrence, Daniel A., Atış, Müge, Akcan, Uğur, Yılmaz, Canan Uğur, Orhan, Nurcan, Düzgün, Poyraz, Ceylan, Umut Deniz, Arıcan, Nadir, Karahüseyinoğlu, Serçin, Şahin, Gizem Nur, Ahıshalı, Bülent, Kaya, Mehmet, Aydin, Sidar, Klopstein, Armelle, Engelhardt, Britta, Baumann, Julia, Tsao, Chih-Chieh, Huang, Sheng-Fu, Ogunshola, Omolara, Boytsova, Elizaveta B., Morgun, Andrey V., Khilazheva, Elena D., Pozhilenkova, Elena A., Gorina, Yana V., Martynova, Galina P., Salmina, Alla B., Bueno, David, Garcia-Fernàndez, Jordi, Castro, Victor, Skowronska, Marta, Toborek, Michal, Chupel, Matheus Uba, Minuzzi, Luciele Guerra, Filaire, Edith, Teixeira, Ana Maria, Corsi, Mariangela, Versele, Romain, Fuso, Andrea, Sevin, Emmanuel, Di Lorenzo, Cherubino, Businaro, Rita, Fenart, Laurence, Gosselet, Fabien, Candela, Pietra, Deli, Mária A., Delaney, Conor, O’Keefe, Eoin, Farrell, Michael, Doyle, Sarah, Campbell, Matthew, Drewes, Lester R., Appelt-Menzel, A., Cubukova, A., Metzger, M., Fischer, R., Francisco, David M. F., Bruggmann, Rémy, Fries, Alexa, Blecharz, Kinga G., Wagner, Josephin, Winkler, Lars, Schneider, Ulf, Vajkoczy, Peter, Furuse, Mikio, Gabbert, Lydia, Dilling, Christina, Sisario, Dmitri, Soukhoroukov, Vladimir, Burek, Malgorzata, Guérit, S., Fidan, E., Devraj, K., Czupalla, C. J., Macas, J., Thom, S., Plate, K. H., Gerhardt, H., Liebner, S., Harazin, András, Bocsik, Alexandra, Váradi, Judit, Fenyvesi, Ferenc, Tubak, Vilmos, Vecsernyés, Miklós, Helms, Hans Christian, Waagepetersen, Helle Sønderby, Nielsen, Carsten Uhd, Brodin, Birger, Hoyk, Zsófia, Tóth, Melinda E., Lénárt, Nikolett, Dukay, Brigitta, Kittel, Ágnes, Vígh, Judit, Veszelka, Szilvia, Walter, Fruzsina, Zvara, Ágnes, Puskás, László, Sántha, Miklós, Engelhardt, Sabrina, Ogunshola, Omolara O., Huber, Anna, Reitner, Alexander, Osmen, Samar, Hahn, Kathrin, Bounzina, Neli, Gerhartl, Anna, Schönegger, Anna, Steinkellner, Hannes, Laccone, Franco, Neuhaus, Winfried, Hudson, Natalie, Celkova, Lucia, Iltzsche, Anne, Drndarski, Svetlana, Begley, David J, Janiurek, Mette Mathiesen, Kucharz, Krzysztof, Christoffersen, Christina, Nielsen, Lars Bo, Lauritzen, Martin, Johnson, Rebecca H, Kho, Dan T, O’Carroll, Simon J, Angel, Catherine E, Graham, E. Scott, Pereira, Jennifer, Karali, Christina Simoglou, Cheng, Vinton, Zarghami, Niloufar, Soto, Manuel Sarmiento, Couch, Yvonne, Anthony, Daniel C., Sibson, Nicola R., Kealy, John, Keep, Richard F., Routhe, Lisa J., Xiang, Jianming, Ye, Hong, Hua, Ya, Moos, Torben, Xi, Guohua, Kristensen, M., Bach, A., Strømgaard, K., Kutuzov, Nikolay, Lopes-Pinheiro, Melissa A., Lim, Jamie, Kamermans, Alwin, van Horssen, Jack, Unger, Wendy W.J., Fontijn, Ruud, de Vries, Helga E., Majerova, Petra, Garruto, Ralph M., Marchetti, Luca, Francisco, David, Gruber, Isabelle, Lyck, Ruth, Mészáros, Mária, Porkoláb, Gergő, Kiss, Lóránd, Pilbat, Ana-Maria, Török, Zsolt, Bozsó, Zsolt, Fülöp, Lívia, Michalicova, Alena, Galba, Jaroslav, Mihaljevic, Sandra, Novak, Michal, Kovac, Andrej, Morofuji, Yoichi, Fujimoto, Takashi, Watanabe, Daisuke, Nakagawa, Shinsuke, Ujifuku, Kenta, Horie, Nobutaka, Izumo, Tsuyoshi, Anda, Takeo, Matsuo, Takayuki, Niu, Fang, Buch, Shilpa, Nyúl-Tóth, Ádám, Kozma, Mihály, Nagyőszi, Péter, Nagy, Krisztina, Fazakas, Csilla, Haskó, János, Molnár, Kinga, Farkas, Attila E., Galajda, Péter, Wilhelm, Imola, Krizbai, István A., Kelly, Eoin, Wallace, Eugene, Greene, Chris, Hughes, Stephanie, Kealy, John, Doyle, Niamh, Humphries, Marian M., Grant, Gerald A., Friedman, Alon, Veksler, Ronel, Molloy, Michael G., Meaney, James F., Pender, Niall, Doherty, Colin P., Park, Minseon, Liskiewicz, Arkadiusz, Przybyla, Marta, Kasprowska-Liśkiewicz, Daniela, Nowacka-Chmielewska, Marta, Malecki, Andrzej, Pombero, Ana, Garcia-Lopez, Raquel, Martinez-Morga, Marta, Martinez, Salvador, Prager, Ofer, Solomon-Kamintsky, Lyna, Schoknecht, Karl, Bar-Klein, Guy, Milikovsky, Dan, Vazana, Udi, Rosenbach, Dror, Kovács, Richard, Friedman, Alon, Radak, Zsolt, Rodríguez-Lorenzo, Sabela, Bruggmann, Remy, Kooij, Gijs, de Vries, Helga E, Oxana, Semyachkina-Glushkovskaya, Denis, Bragin, Elena, Vodovozova, Anna, Alekseeva, Alla, Salmina, Vladimir, Salmin, Andrey, Morgun, Nataliya, Malinovskaya, Elena, Khilazheva, Elizaveta, Boytsova, Alexander, Shirokov, Nikita, Navolokin, Alla, Bucharskaya, Yirong, Yang, Arkady, Abdurashitov, Artem, Gekalyuk, Mariya, Ulanova, Anastasia, Shushunova, Madina, Bodrova, Artem, Sagatova, Alexander, Khorovodov, Esmat, Shareef Ali, Valery, Pavlov, Artem, Tuchin, Jürgen, Kurths, de Abreu, Marcelle Silva, Calpena, Ana C., Espina, Marta, García, Maria Luisa, Romero, Ignacio A., Male, David, Storck, Steffen, Hartz, Anika, Pahnke, Jens, Surma, Claus U., Surma, M., Giżejewski, Z., Zieliński, H., Szczepkowska, Aleksandra, Kowalewska, Marta, Krawczynska, Agata, Herman, Andrzej P., Skipor, Janina, Kachappilly, Nicole, Veenstra, Mike, Rivera, Rosiris Leon, Williams, Dionna W., Morgello, Susan, Berman, Joan W., Wyneken, Ursula, Batiz, Luis Federico, Temizyürek, Arzu, Khodadust, Rouhollah, Küçük, Mutlu, Gürses, Candan, Emik, Serkan, Zielińska, Magdalena, Obara-Michlewska, Marta, Milewski, Krzysztof, Skonieczna, Edyta, Fręśko, Inez, Neuwelt, Edward A., Maria, Ana Raquel Santa, Bras, Ana Rita, Lipka, Dóra, Valkai, Sándor, Kincses, András, Dér, András, Deli, Maria A.
    Publicado 2017
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    Abstracts from the 20th International Symposium on Signal Transduction at the Blood-Brain Barriers
  2. 282
    “…Protein ubiquitination is mediated sequentially by ubiquitin activating enzyme E1, ubiquitin conjugating enzyme E2 and ubiquitin ligase E3. Uba1 was thought to be the only E1 until the recent identification of Uba6. …”
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    Orthogonal ubiquitin transfer identifies ubiquitination substrates under differential control by the two ubiquitin activating enzymes
  3. 283
    “…UBA7 expression has been reported to be notably decreased in lung cancer. …”
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    Ubiquitin-like modifier-activating enzyme 7 as a marker for the diagnosis and prognosis of breast cancer
  4. 284
    “…The high prevalence of unskilled birth attendant (UBA) delivery (47%) has resulted in negative consequences for the health of mothers and newborn babies in the country. …”
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    Exploring spatial variations in level and predictors of unskilled birth attendant delivery in Bangladesh using spatial analysis techniques: Findings from nationally representative survey data
  5. 285
    “…AIM: To investigate the function and mechanism of ubiquitin-like modifier activating enzyme 2 (Uba2) in progression of gastric cancer (GC) cells. …”
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    Ubiquitin-like modifier activating enzyme 2 promotes cell migration and invasion through Wnt/β-catenin signaling in gastric cancer
  6. 286
    “…Correspondingly, Arg190 in the UBA3 subunit of NEDD8’s heterodimeric E1 (the APPBP1-UBA3 complex), which corresponds to a Gln in ubiquitin’s E1 UBA1, is a key UBL selectivity determinant. …”
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    Structural Dissection of a Gating Mechanism Preventing Misactivation of Ubiquitin by NEDD8’s E1
  7. 287
    “…Ubiquitin (Ub) specifically interacts with the Ub-associating domain (UBA) in a proteasomal shuttle factor, while the latter is involved in either proteasomal targeting or self-assembly coacervation. …”
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    Kinetic Constraints in the Specific Interaction between Phosphorylated Ubiquitin and Proteasomal Shuttle Factors
  8. 288
    “…Meanwhile, overexpression of UBA2 had the opposite effects. Overexpression of the p53 mutant or c-Myc alleviated the effects of UBA2 knockdown on ccRCC cell proliferation and apoptosis. …”
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    Knockdown of ubiquitin-like modifier-activating enzyme 2 promotes apoptosis of clear cell renal cell carcinoma cells
  9. 289
    “…Moreover, the UBA domain is required for XIAP to activate NF-κB. …”
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    Backbone and side-chain (1)H, (13)C and (15)N assignments of the ubiquitin-associated domain of human X-linked inhibitor of apoptosis protein
  10. 290
    por Cho, Hyung-Ju
    Publicado 2021
    “…The goal of the proposed UBA is to avoid unnecessary distance calculations for nearby SP queries. …”
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    A Unified Approach to Spatial Proximity Query Processing in Dynamic Spatial Networks
  11. 291
    “…The UBA influence on the F-UBA pharmaceutical characteristics was evidenced compared with the references, i.e., mucoadhesive oral films containing suitable excipients but no active ingredient loaded. …”
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    In Vitro Anticancer Activity of Mucoadhesive Oral Films Loaded with Usnea barbata (L.) F. H. Wigg Dry Acetone Extract, with Potential Applications in Oral Squamous Cell Carcinoma Complementary Therapy
  12. 292
    “…We also find examples of recombination between UBA and the non-classical locus, ULA. Evidence for strong diversifying selection was found at a discrete suite of S. trutta UBA amino acid sites. …”
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    Selection and Phylogenetics of Salmonid MHC Class I: Wild Brown Trout (Salmo trutta) Differ from a Non-Native Introduced Strain
  13. 293
    “…UBA10452 MAGs harbour multiple copies of genes related to cold tolerance, particularly genes involved in DNA replication and repair. …”
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    Candidatus Nitrosopolaris, a genus of putative ammonia-oxidizing archaea with a polar/alpine distribution
  14. 294
    “…Structural studies of mouse SAD-A revealed that UBA binds to the kinase domain in a distinct mode and, more importantly, AIS nestles specifically into the KD-UBA junction. …”
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    Structural insight into the mechanism of synergistic autoinhibition of SAD kinases
  15. 295
    “…While UBA1 loss is cell lethal, it remains unknown how partial reduction in UBA1 activity is endured. …”
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    An adaptive stress response that confers cellular resilience to decreased ubiquitination
  16. 296
    “…The structure of TDP2 UBA bound to monoUb shows a canonical mode of UBA-Ub interaction. …”
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    Novel TDP2-ubiquitin interactions and their importance for the repair of topoisomerase II-mediated DNA damage
  17. 297
    “…Operative time was shortened for cases utilizing the UBA (38.9 mins) instead of the high-speed drill (44.7 mins; p=0.01). …”
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    External Dacryocystorhinostomy: A Comparison Of Ultrasonic Bone Aspiration To High-Speed Drilling
  18. 298
    “…Although the last 40 amino acids in yeast Uba2 have been implicated in its nuclear localization, little was known about the import pathways of Aos1, Uba2, and/or of the assembled E1 heterodimer. …”
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    Importin α/β mediates nuclear import of individual SUMO E1 subunits and of the holo-enzyme
  19. 299
    “…VEGFR2 undergoes VEGF-A-independent constitutive degradation via a UBA1-dependent ubiquitin-linked pathway. Depletion of UBA1 increased VEGFR2 recycling from endosome-to-plasma membrane and decreased proteolysis. …”
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    Ubiquitination of basal VEGFR2 regulates signal transduction and endothelial function
  20. 300
    “…Patescibacteria (Ca. Yanofskybacteria/UBA5738) and, using fluorescence in situ hybridization (FISH), discovered that nearly all of the Ca. …”
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    Symbiosis between Candidatus Patescibacteria and Archaea Discovered in Wastewater-Treating Bioreactors
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