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2121por Abazov, V.M., Abbott, B., Acharya, B.S., Adams, M., Adams, T., Agnew, J.P., Alexeev, G.D., Alkhazov, G., Alton, A., Alves, G.A., Antchev, G., Askew, A., Aspell, P., Jesus, A.C.S. Assis, Atanassov, I., Atkins, S., Augsten, K., Aushev, V., Aushev, Y., Avati, V., Avila, C., Badaud, F., Baechler, J., Bagby, L., Baldenegro Barrera, C., Baldin, B., Bandurin, D.V., Banerjee, S., Barberis, E., Baringer, P., Barreto, J., Bartlett, J.F., Bassler, U., Bazterra, V., Bean, A., Begalli, M., Bellantoni, L., Berardi, V., Beri, S.B., Bernardi, G., Bernhard, R., Berretti, M., Bertram, I., Besançon, M., Beuselinck, R., Bhat, P.C., Bhatia, S., Bhatnagar, V., Blazey, G., Blessing, S., Bloom, K., Boehnlein, A., Boline, D., Boos, E.E., Borchsh, V., Borissov, G., Borysova, M., Bossini, E., Bottigli, U., Bozzo, M., Brandt, A., Brandt, O., Brochmann, M., Brock, R., Bross, A., Brown, D., Bu, X.B., Buehler, M., Buescher, V., Bunichev, V., Burdin, S., Burkhardt, H., Buszello, C.P., Cafagna, F.S., Camacho-Pérez, E., Casey, B.C.K., Castilla-Valdez, H., Catanesi, M.G., Caughron, S., Chakrabarti, S., Chan, K.M., Chandra, A., Chapon, E., Chen, G., Cho, S.W., Choi, S., Choudhary, B., Cihangir, S., Claes, D., Clutter, J., Cooke, M., Cooper, W.E., Corcoran, M., Couderc, F., Cousinou, M.-C., Csanád, M., Csörgő, T., De Oliveira Martins, C., Cs"orgHo, T., Cuth, J., Cutts, D., Das, A., Davies, G., Deile, M., de Jong, S.J., De La Cruz-Burelo, E., De Leonardis, F., Déliot, F., Demina, R., Denisov, D., Denisov, S.P., Desai, S., Deterre, C., DeVaughan, K., Diehl, H.T., Diesburg, M., Ding, P.F., Dominguez, A., Doubek, M., Drutskoy, A., Druzhkin, D., Dubey, A., Dudko, L.V., Duperrin, A., Dutt, S., Eads, M., Edmunds, D., Eggert, K., Ellison, J., Elvira, V.D., Enari, Y., Eremin, V., Evans, H., Evdokimov, A., Evdokimov, V.N., Fauré, A., Feng, L., Ferbel, T., Ferro, F., Fiedler, F., Fiergolski, A., Filthaut, F., Fisher, W., Fisk, H.E., Forthomme, L., Fortner, M., Fox, H., Franc, J., Fuess, S., Garbincius, P.H., Garcia, F., Garcia-Bellido, A., García-González, J.A., Gavrilov, V., Geng, W., Georgiev, V., Gerber, C.E., Gershtein, Y., Giani, S., Ginther, G., Gogota, O., Golovanov, G., Grannis, P.D., Greder, S., Greenlee, H., Grenier, G., Gris, Ph., Grivaz, J.-F., Grohsjean, A., Grünendahl, S., Grünewald, M.W., Grzanka, L., Guillemin, T., Gutierrez, G., Gutierrez, P., Haley, J., Hammerbauer, J., Han, L., Harder, K., Harel, A., Hauptman, J.M., Hays, J., Head, T., Hebbeker, T., Hedin, D., Hegab, H., Heinson, A.P., Heintz, U., Hensel, C., Heredia-De La Cruz, I., Herner, K., Hesketh, G., Hildreth, M.D., Hirosky, R., Hoang, T., Hobbs, J.D., Hoeneisen, B., Hogan, J., Hohlfeld, M., Holzbauer, J.L., Howley, I., Hubacek, Z., Hynek, V., Iashvili, I., Ilchenko, Y., Illingworth, R., Isidori, T., Ito, A.S., Ivanchenko, V., Jabeen, S., Martínez-Ortega, J., Janda, M., Jayasinghe, A., Jeong, M.S., Jesik, R., Jiang, P., Johns, K., Johnson, E., Johnson, M., Jonckheere, A., Jonsson, P., Joshi, J., Jung, A.W., Juste, A., Kajfasz, E., Karev, A., Karmanov, D., Kašpar, J., Katsanos, I., Kaur, M., Kaynak, B., Kehoe, R., Kermiche, S., Khalatyan, N., Khanov, A., Kharchilava, A., Kharzheev, Y.N., Kiselevich, I., Kohli, J.M., Kopal, J., Kozelov, A.V., Kraus, J., Kumar, A., Kundrát, V., Kupco, A., Kurča, T., Kuzmin, V.A., Lami, S., Lammers, S., Latino, G., Lebrun, P., Lee, H.S., Lee, S.W., Lee, W.M., Le, X., Lellouch, J., Li, D., Li, H., Li, L., Li, Q.Z., Lim, J.K., Lincoln, D., Lindsey, C., Linhart, R., Linnemann, J., Lipaev, V.V., Lipton, R., Liu, H., Liu, Y., Lobodenko, A., Lokajicek, M., Lokajíček, M.V., Lopes de Sa, R., Losurdo, L., Lucas Rodríguez, F., Luna-Garcia, R., Lyon, A.L., Maciel, A.K.A., Macrí, M., Madar, R., Magaña-Villalba, R., Malawski, M., Malbouisson, H.B., Malik, S., Malyshev, V.L., Mansour, J., Jaffré, M., McCarthy, R., McGivern, C.L., Meijer, M.M., Melnitchouk, A., Menezes, D., Mercadante, P.G., Merkin, M., Meyer, A., Meyer, J., Miconi, F., Minafra, N., Minutoli, S., Molina, J., Mondal, N.K., Da Motta, H., Mulhearn, M., Mundim, L., Naaranoja, T., Nagy, E., Narain, M., Nayyar, R., Neal, H.A., Negret, J.P., Nemes, F., Neustroev, P., Nguyen, H.T., Niewiadomski, H., Novák, T., Nunnemann, T., Oguri, V., Oliveri, E., Oljemark, F., Orduna, J., Oriunno, M., Osman, N., Österberg, K., Pal, A., Palazzi, P., Parashar, N., Parihar, V., Park, S.K., Partridge, R., Parua, N., Pasechnik, R., Passaro, V., Patwa, A., Penning, B., Perfilov, M., Peroutka, Z., Peters, Y., Petridis, K., Petrillo, G., Pétroff, P., Pleier, M.-A., Podstavkov, V.M., Popov, A.V., Da Silva, W.L. Prado, Prewitt, M., Price, D., Procházka, J., Prokopenko, N., Qian, J., Quadt, A., Quinn, B., Quinto, M., Raben, T.G., Radermacher, E., Rangel, M., Radicioni, E., Ratoff, P.N., Ravotti, F., Razumov, I., Ripp-Baudot, I., Rizatdinova, F., Robutti, E., Rodrigues, R.F., Rominsky, M., Ross, A., Royon, C., Rubinov, P., Ruchti, R., Ruggiero, G., Saarikko, H., Sajot, G., Samoylenko, V.D., Sánchez-Hernández, A., Sanders, M.P., Santoro, A., Santos, A.S., Savage, G., Savitskyi, M., Sawyer, L., Scanlon, T., Schamberger, R.D., Scheglov, Y., Schellman, H., Schott, M., Schwanenberger, C., Schwienhorst, R., Scribano, A., Sekaric, J., Severini, H., Shabalina, E., Shary, V., Shaw, S., Shchukin, A.A., Shkola, O., Simak, V., Siroky, J., Skubic, P., Slattery, P., Smajek, J., Snoeys, W., Snow, G.R., Snow, J., Snyder, S., Söldner-Rembold, S., Sonnenschein, L., Soustruznik, K., Stark, J., Stefaniuk, N., Stefanovitch, R., Ster, A., Stoyanova, D.A., Strauss, M., Suter, L., Svoisky, P., Szanyi, I., Sziklai, J., Taylor, C., Tcherniaev, E., Titov, M., Tokmenin, V.V., Tsai, Y.-T., Tsybychev, D., Tuchming, B., Tully, C., Turini, N., Urban, O., Uvarov, L., Uvarov, S., Uzunyan, S., Vacek, V., Van Kooten, R., van Leeuwen, W.M., Varelas, N., Varnes, E.W., Vasilyev, I.A., Vavroch, O., Verkheev, A.Y., Vertogradov, L.S., Verzocchi, M., Vesterinen, M., Vilanova, D., Vokac, P., Wahl, H.D., Wang, C., Wang, M.H.L.S., Warchol, J., Watts, G., Wayne, M., Weichert, J., Welti, J., Welty-Rieger, L., Williams, J., Williams, M.R.J., Wilson, G.W., Wobisch, M., Wood, D.R., Wyatt, T.R., Xie, Y., Yamada, R., Yang, S., Yasuda, T., Yatsunenko, Y.A., Ye, W., Ye, Z., Yin, H., Yip, K., Youn, S.W., Yu, J.M., Zennamo, J., Zhao, T.G., Zhou, B., Zhu, J., Zich, J., Zielinski, K., Zielinski, M., Zieminska, D., Zivkovic, L.Enlace del recurso
Publicado 2020
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2122por Klausmann, Peter, Lilge, Lars, Aschern, Moritz, Hennemann, Katja, Henkel, Marius, Hausmann, Rudolf, Morabbi Heravi, Kambiz“…Deletion of spo0A led to increased growth rates with lowered surfactin titers, while deletion or elongation of abrB resulted in lowered growth rates and high surfactin yields, compared to KM1016. The double mutant strains B. subtilis KM1036 and KM1020 encoding Δspo0A abrB* and Δspo0A ΔabrB were compared to reference strain JABs32, with KM1036 exhibiting similar production parameters and impeded cell growth and surfactin production for KM1020. …”
Publicado 2021
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2123“…All three kinds of doctors shared similar attitude toward license unitarization. KM doctors most strongly agreed on the need of the cooperative practice (CP) between KM and WM and on the possibility of license unitarization among three groups. …”
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2124“…Twenty-seven spraints collected from February to May 2016 at four sites (Jangam Bridge approximately 6.1 km from the Gachang Dam, Docheong Bridge approximately 13.5 km, Chimsan Bridge approximately 15.1 km and Nogoek Bridge approximately 18 km) along the Sincheon River (approximately 27.06 km) were analyzed using 12 microsatellite markers. …”
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2125“…However, previous studies have mainly focused on the mid-high latitude region, and this method is still rarely applied at heights above 30 km, especially above 35 km. Therefore, seven sets of upper air (>35 km) sounding data from the Changsha Sounding Station (28°12′ N, 113°05′ E), China are analyzed with Thorpe analysis in this article. …”
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2126por Naumova, Alexandra A., Oleynik, Ekaterina A., Chernigovskaya, Elena V., Glazova, Margarita V.“…We found principal differences between Wistar and KM NPC in unstimulated controls: Wistar NPC culture contained both gamma-aminobutyric acid (GABA) and glutamatergic neurons; KM NPC culture was mainly represented by glutamatergic cells. …”
Publicado 2020
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2127“…The intake of anthocyanin-rich New Zealand blackcurrant (NZBC) extract (300 mg per day) over a week enhanced 16.1 km cycling time trial (TT) performance in endurance-trained cyclists without acute performance effects. …”
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2128por Kristiansen, Thomas, Lossius, Hans M, Søreide, Kjetil, Steen, Petter A, Gaarder, Christine, Næss, Pål A“…Patients were grouped according to transfer distance: ≤20 km, 21-100 km and > 100 km. RESULTS: Of the 7.353 included patients, 5.803 were admitted directly, and 1.550 were transferred. …”
Publicado 2011
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2129por Knechtle, Beat, Rüst, Christoph Alexander, Knechtle, Patrizia, Rosemann, Thomas, Lepers, Romuald“…The purpose of this study was to analyse the age-related declines in swimming, cycling, running and overall race time for both Triple Iron ultra-triathlon (11.4-km swimming, 540-km cycling and 126.6-km running) and Deca Iron ultra-triathlon (38-km swimming, 1,800-km cycling and 420-km running). …”
Publicado 2012
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2130“…The map of predicted probabilities of occurrence showed potentially suitable habitats accounting for 46 km(2) of the reserve for F. chaus, 62 km(2) for V. indica, 30 km(2) for P. hermaphroditus, 63 km(2) for H. vitticollis, 45 km(2) for H. smithii and 28 km(2) for H. edwardsii. …”
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2131por Oliveira, Nara R. C., Marques, Scherolin O., Luciano, Thais F., Pauli, José R., Moura, Leandro P., Caperuto, Erico, Pieri, Bruno L. S., Engelmann, Julia, Scaini, Gisele, Streck, Emilio L., Lira, Fabio S., Pinho, Ricardo A., Ropelle, Eduardo R., Silva, Adelino S. R., De Souza, Cláudio T.“…Our results showed that: (a) running at 0.8 km/h decreased the inflammatory proteins and increased the metabolic proteins compared with NE rats; (b) these responses were lower for the inflammatory proteins and higher for the metabolic proteins in young rats compared with middle-aged rats; (c) running at 1.2 km/h decreased the inflammatory proteins and increased the metabolic proteins compared with 0.8 km/h; (d) these responses were similar between young and middle-aged rats when trained at 1.2 km. …”
Publicado 2014
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2132“…During migration, individuals exhibited rates of movement between 2 and 59 km.d(−1) (mean = 17.58 km.d(−1)) and were recorded travelling annual distances of between 450 and 3760 km (mean = 1163 km). …”
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2133por Conn, Paul B., Moreland, Erin E., Regehr, Eric V., Richmond, Erin L., Cameron, Michael F., Boveng, Peter L.“…For bearded seals (0.07 animals km(−2)) and ringed seals (1.29 animals km(−2)), we find that eight flights traversing ≈7840 km are sufficient to achieve target precision levels (coefficient of variation (CV)<20%) for a 2.94×10(5) km(2) study area. …”
Publicado 2016
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2134“…RMS errors for ice speed are on the order of 5 km/d for 24–48 h since forecast using the sea ice model compared with 9 km/d using climatology. …”
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2135“…We initiate neutron beams of initial energies of 350 keV, 10 MeV, and 20 MeV at source altitudes of 4 km and 16 km upward and downward and see that in all these cases neutrons reach ground altitudes and that the cross‐section areas extend to several km(2). …”
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2136“…In spite of the negative effects by expression of thioredoxin gene (KmTRX), the thioredoxin reductase (KmTrxR) helped to enhance tolerance to multiple lignocellulose-derived inhibitors, such as formic acid and acetic acid. …”
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2137“…An MJO event observed in a major field campaign is reproduced using a front-running global cloud/cloud-system resolving model with 3.5 km, 7 km, and 14 km meshes. The eastward-migration speed of the MJO convective envelope in the 3.5 km and 14 km simulations agree well with observation, despite weak Kelvin wave signal power calculated by applying a combined Fourier-wavelet transform method. …”
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2138por Nikolaidis, Pantelis Theodoros, Di Gangi, Stefania, de Sousa, Caio Victor, Valeri, Fabio, Rosemann, Thomas, Knechtle, Beat“…Considering all swimmers, we found that (i) women were approximately 0.06 km/h faster than men (p = 0.011) and (ii) Australians were 0.13 km/h faster than Americans (p = 0.004) and Americans were 0.19 km/h faster than British (p<0.001) and 0.21 km/h faster than Canadians (p = 0.015). …”
Publicado 2018
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2139“…The sensitivity of the MDI was 81.82%, 80% and 100% in the 40, 80 and 100 km race distances. The specificity of the MDI was 80% for the 80 km race distance and 75% for the 40 and 120 km race distances. …”
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2140por Nikolaidis, Pantelis T., Villiger, Elias, Vancini, Rodrigo L., Rosemann, Thomas, Knechtle, Beat“…The purpose of the present research was to study the effect of sex and performance on pacing in short (Run1-10 km, Bike-50 km and Run2-5 km) and long distance (Run1-10 km, Bike-150 km and Run2-30 km) in the Powerman World Championship ‘Powerman Zofingen’. …”
Publicado 2018
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