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3141“…Despite its important role, there are many animal groups in which Prdm9 is absent (e.g. birds, reptiles, amphibians, diptera) and it has been suggested to have disruptive mutations and thus to be a pseudogene in dogs. …”
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3142por Chen, Shao-Yu, Zhang, Yi-Jun, Wang, Xiu-Ling, Sun, Jian-Yun, Xue, Yan, Zhang, Peng, Zhou, Hui, Qu, Liang-Hu“…CONCLUSION/SIGNIFICANCE: Our findings suggest that the genetic diversity in the R. sibiricus populations is the lowest among all investigated amphibians. We conclude that the isolation of R. sibiricus populations occurred recently and was a result of recent human activity and/or climatic changes. …”
Publicado 2012
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3143por Butchart, Stuart H. M., Scharlemann, Jörn P. W., Evans, Mike I., Quader, Suhel, Aricò, Salvatore, Arinaitwe, Julius, Balman, Mark, Bennun, Leon A., Bertzky, Bastian, Besançon, Charles, Boucher, Timothy M., Brooks, Thomas M., Burfield, Ian J., Burgess, Neil D., Chan, Simba, Clay, Rob P., Crosby, Mike J., Davidson, Nicholas C., De Silva, Naamal, Devenish, Christian, Dutson, Guy C. L., Fernández, David F. Día z, Fishpool, Lincoln D. C., Fitzgerald, Claire, Foster, Matt, Heath, Melanie F., Hockings, Marc, Hoffmann, Michael, Knox, David, Larsen, Frank W., Lamoreux, John F., Loucks, Colby, May, Ian, Millett, James, Molloy, Dominic, Morling, Paul, Parr, Mike, Ricketts, Taylor H., Seddon, Nathalie, Skolnik, Benjamin, Stuart, Simon N., Upgren, Amy, Woodley, Stephen“…Species occurring in important sites with greater PA coverage experienced smaller increases in extinction risk over recent decades: the increase was half as large for bird species with>50% of the IBAs at which they occur completely covered by PAs, and a third lower for birds, mammals and amphibians restricted to protected AZEs (compared with unprotected or partially protected sites). …”
Publicado 2012
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3144“…Nitrate and nitrite are common aqueous pollutants that are known to disrupt the thyroid axis. In amphibians, thyroid hormone (TH)-dependent metamorphosis is affected, although whether the effect is acceleration or deceleration of this developmental process varies from study to study. …”
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3145por Sun, Cheng, Shepard, Donald B., Chong, Rebecca A., López Arriaza, José, Hall, Kathryn, Castoe, Todd A., Feschotte, Cédric, Pollock, David D., Mueller, Rachel Lockridge“…Among vertebrates, most of the largest genomes are found within the salamanders, a clade of amphibians that includes 613 species. Salamander genome sizes range from ∼14 to ∼120 Gb. …”
Publicado 2012
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3146por Smargiassi, Maïté, Daghfous, Gheylen, Leroy, Baptiste, Legreneur, Pierre, Toubeau, Gerard, Bels, Vincent, Wattiez, Ruddy“…In addition, we clarified the intrinsic role of parvalbumins present in the cutaneous mucus of amphibians and fishes. We demonstrate that these Ca(2+)-binding proteins participate in innate bacterial defense mechanisms by means of calcium chelation. …”
Publicado 2012
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3147por Stöhr, Anke C, Blahak, Silvia, Heckers, Kim O, Wiechert, Jutta, Behncke, Helge, Mathes, Karina, Günther, Pascale, Zwart, Peer, Ball, Inna, Rüschoff, Birgit, Marschang, Rachel E“…Ranaviral disease in amphibians has been studied intensely during the last decade, as associated mass-mortality events are considered to be a global threat to wild animal populations. …”
Publicado 2013
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3148“…Moreover, when the species groups were assessed separately, amphibians was the only one well represented. Suggested priority sites for biodiversity conservation, without formal protection yet, was the only protected area category that over-represents carbon storage, agricultural production and biodiversity. …”
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3149por Pauly, Marie-Christin, Döbrössy, Máté D., Nikkhah, Guido, Winkler, Christian, Piroth, Tobias“…Genes and factors involved in the development of the subpallium have been extensively studied in most vertebrates, including amphibians, birds, and rodents. However, our knowledge on patterning of the human subpallium remains insufficient. …”
Publicado 2014
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3150por Sahlean, Tiberiu C., Gherghel, Iulian, Papeş, Monica, Strugariu, Alexandru, Zamfirescu, Ştefan R.“…Ectothermic organisms such as amphibians and reptiles are especially vulnerable as climatic conditions affect them directly. …”
Publicado 2014
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3151por Ling, Guiying, Gao, Jiuxiang, Zhang, Shumin, Xie, Zeping, Wei, Lin, Yu, Haining, Wang, Yipeng“…Although cathelicidins from mammals, birds, reptiles and fishes have been extensively studied, little is known about cathelicidins from amphibians. Here we report the identification and characterization of two cathelicidins (cathelicidin-RC1 and cathelicidin-RC2) from the bullfrog Rana catesbeiana. …”
Publicado 2014
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3152por Diaz Quiroz, Juan Felipe, Tsai, Eve, Coyle, Matthew, Sehm, Tina, Echeverri, Karen“…The molecular differences underlying this evolutionary divergence between mammals and amphibians are poorly understood. We focused on upstream regulators of gene expression as primary entry points into this question. …”
Publicado 2014
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3153“…BACKGROUND: Global warming has been frequently demonstrated to increase growth rate in larval amphibians that have considerable phenotypic plasticity; this may lead to an increase in larval survival because large larvae are less likely to be captured by gape-limited predators. …”
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3154por Rong, Xiaozhi, Chen, Chen, Zhou, Pin, Zhou, Yumei, Li, Yun, Lu, Ling, Liu, Yunzhang, Zhou, Jianfeng, Duan, Cunming“…R-spondin 3 (Rspo3) is a secreted protein that has been implicated in activating the Wnt/β-catenin signaling in amphibians and mammals. Here we report that zebrafish Rspo3 plays a negative role in regulating the zygotic Wnt/β-catenin signaling. …”
Publicado 2014
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3155por Venter, Oscar, Fuller, Richard A., Segan, Daniel B., Carwardine, Josie, Brooks, Thomas, Butchart, Stuart H. M., Di Marco, Moreno, Iwamura, Takuya, Joseph, Liana, O'Grady, Damien, Possingham, Hugh P., Rondinini, Carlo, Smith, Robert J., Venter, Michelle, Watson, James E. M.“…Here we use data on the distribution of protected areas and threatened terrestrial birds, mammals, and amphibians to assess current and possible future coverage of these species under the convention. …”
Publicado 2014
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3156“…MS-222 is used as anesthetic in poikilothermic animals such as fish and amphibians. However, it is often argued that MS-222 is only a hypnotic drug and its ability to block neural activity has been questioned. …”
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3157por Dheilly, Nolwenn M., Jouaux, Aude, Boudry, Pierre, Favrel, Pascal, Lelong, Christophe“…Among invertebrates, amphibians and fishes, triploids are viable although often sterile or infertile. …”
Publicado 2014
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3158por Sousounis, Konstantinos, Bhavsar, Rital, Looso, Mario, Krüger, Marcus, Beebe, Jessica, Braun, Thomas, Tsonis, Panagiotis A“…BACKGROUND: Amphibians have the remarkable ability to regenerate missing body parts. …”
Publicado 2014
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3159por Hudson, Lawrence N., Newbold, Tim, Contu, Sara, Hill, Samantha L. L., Lysenko, Igor, De Palma, Adriana, Phillips, Helen R. P., Senior, Rebecca A., Bennett, Dominic J., Booth, Hollie, Choimes, Argyrios, Correia, David L. P., Day, Julie, Echeverría‐Londoño, Susy, Garon, Morgan, Harrison, Michelle L. K., Ingram, Daniel J., Jung, Martin, Kemp, Victoria, Kirkpatrick, Lucinda, Martin, Callum D., Pan, Yuan, White, Hannah J., Aben, Job, Abrahamczyk, Stefan, Adum, Gilbert B., Aguilar‐Barquero, Virginia, Aizen, Marcelo A., Ancrenaz, Marc, Arbeláez‐Cortés, Enrique, Armbrecht, Inge, Azhar, Badrul, Azpiroz, Adrián B., Baeten, Lander, Báldi, András, Banks, John E., Barlow, Jos, Batáry, Péter, Bates, Adam J., Bayne, Erin M., Beja, Pedro, Berg, Åke, Berry, Nicholas J., Bicknell, Jake E., Bihn, Jochen H., Böhning‐Gaese, Katrin, Boekhout, Teun, Boutin, Céline, Bouyer, Jérémy, Brearley, Francis Q., Brito, Isabel, Brunet, Jörg, Buczkowski, Grzegorz, Buscardo, Erika, Cabra‐García, Jimmy, Calviño‐Cancela, María, Cameron, Sydney A., Cancello, Eliana M., Carrijo, Tiago F., Carvalho, Anelena L., Castro, Helena, Castro‐Luna, Alejandro A., Cerda, Rolando, Cerezo, Alexis, Chauvat, Matthieu, Clarke, Frank M., Cleary, Daniel F. R., Connop, Stuart P., D'Aniello, Biagio, da Silva, Pedro Giovâni, Darvill, Ben, Dauber, Jens, Dejean, Alain, Diekötter, Tim, Dominguez‐Haydar, Yamileth, Dormann, Carsten F., Dumont, Bertrand, Dures, Simon G., Dynesius, Mats, Edenius, Lars, Elek, Zoltán, Entling, Martin H., Farwig, Nina, Fayle, Tom M., Felicioli, Antonio, Felton, Annika M., Ficetola, Gentile F., Filgueiras, Bruno K. C., Fonte, Steven J., Fraser, Lauchlan H., Fukuda, Daisuke, Furlani, Dario, Ganzhorn, Jörg U., Garden, Jenni G., Gheler‐Costa, Carla, Giordani, Paolo, Giordano, Simonetta, Gottschalk, Marco S., Goulson, Dave, Gove, Aaron D., Grogan, James, Hanley, Mick E., Hanson, Thor, Hashim, Nor R., Hawes, Joseph E., Hébert, Christian, Helden, Alvin J., Henden, John‐André, Hernández, Lionel, Herzog, Felix, Higuera‐Diaz, Diego, Hilje, Branko, Horgan, Finbarr G., Horváth, Roland, Hylander, Kristoffer, Isaacs‐Cubides, Paola, Ishitani, Masahiro, Jacobs, Carmen T., Jaramillo, Víctor J., Jauker, Birgit, Jonsell, Mats, Jung, Thomas S., Kapoor, Vena, Kati, Vassiliki, Katovai, Eric, Kessler, Michael, Knop, Eva, Kolb, Annette, Kőrösi, Ádám, Lachat, Thibault, Lantschner, Victoria, Le Féon, Violette, LeBuhn, Gretchen, Légaré, Jean‐Philippe, Letcher, Susan G., Littlewood, Nick A., López‐Quintero, Carlos A., Louhaichi, Mounir, Lövei, Gabor L., Lucas‐Borja, Manuel Esteban, Luja, Victor H., Maeto, Kaoru, Magura, Tibor, Mallari, Neil Aldrin, Marin‐Spiotta, Erika, Marshall, E. J. P., Martínez, Eliana, Mayfield, Margaret M., Mikusinski, Grzegorz, Milder, Jeffrey C., Miller, James R., Morales, Carolina L., Muchane, Mary N., Muchane, Muchai, Naidoo, Robin, Nakamura, Akihiro, Naoe, Shoji, Nates‐Parra, Guiomar, Navarrete Gutierrez, Dario A., Neuschulz, Eike L., Noreika, Norbertas, Norfolk, Olivia, Noriega, Jorge Ari, Nöske, Nicole M., O'Dea, Niall, Oduro, William, Ofori‐Boateng, Caleb, Oke, Chris O., Osgathorpe, Lynne M., Paritsis, Juan, Parra‐H, Alejandro, Pelegrin, Nicolás, Peres, Carlos A., Persson, Anna S., Petanidou, Theodora, Phalan, Ben, Philips, T. Keith, Poveda, Katja, Power, Eileen F., Presley, Steven J., Proença, Vânia, Quaranta, Marino, Quintero, Carolina, Redpath‐Downing, Nicola A., Reid, J. Leighton, Reis, Yana T., Ribeiro, Danilo B., Richardson, Barbara A., Richardson, Michael J., Robles, Carolina A., Römbke, Jörg, Romero‐Duque, Luz Piedad, Rosselli, Loreta, Rossiter, Stephen J., Roulston, T'ai H., Rousseau, Laurent, Sadler, Jonathan P., Sáfián, Szabolcs, Saldaña‐Vázquez, Romeo A., Samnegård, Ulrika, Schüepp, Christof, Schweiger, Oliver, Sedlock, Jodi L., Shahabuddin, Ghazala, Sheil, Douglas, Silva, Fernando A. B., Slade, Eleanor M., Smith‐Pardo, Allan H., Sodhi, Navjot S., Somarriba, Eduardo J., Sosa, Ramón A., Stout, Jane C., Struebig, Matthew J., Sung, Yik‐Hei, Threlfall, Caragh G., Tonietto, Rebecca, Tóthmérész, Béla, Tscharntke, Teja, Turner, Edgar C., Tylianakis, Jason M., Vanbergen, Adam J., Vassilev, Kiril, Verboven, Hans A. F., Vergara, Carlos H., Vergara, Pablo M., Verhulst, Jort, Walker, Tony R., Wang, Yanping, Watling, James I., Wells, Konstans, Williams, Christopher D., Willig, Michael R., Woinarski, John C. Z., Wolf, Jan H. D., Woodcock, Ben A., Yu, Douglas W., Zaitsev, Andrey S., Collen, Ben, Ewers, Rob M., Mace, Georgina M., Purves, Drew W., Scharlemann, Jörn P. W., Purvis, Andy“…The database contains more than 1% of the total number of all species described, and more than 1% of the described species within many taxonomic groups – including flowering plants, gymnosperms, birds, mammals, reptiles, amphibians, beetles, lepidopterans and hymenopterans. …”
Publicado 2014
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3160por Mouchet, Maud, Levers, Christian, Zupan, Laure, Kuemmerle, Tobias, Plutzar, Christoph, Erb, Karlheinz, Lavorel, Sandra, Thuiller, Wilfried, Haberl, Helmut“…Using boosted regression trees that handle non-linear relationships, we compared the relative influence (as a measure of effectiveness) of environmental variables related to climate, landscape (or habitat heterogeneity), land-use intensity or energy availability to explain European vertebrate species richness (birds, amphibians, and mammals) at the continental and ecoregion scales. …”
Publicado 2015
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