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  1. 1961
    “…Comparative genome analysis of non-avian reptiles and amphibians provides important clues about the process of genome evolution in tetrapods. …”
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    Inference of the Protokaryotypes of Amniotes and Tetrapods and the Evolutionary Processes of Microchromosomes from Comparative Gene Mapping
  2. 1962
    “…Male T. viridipunctatus with higher heterozygosity tend to have lower parasite loads (i.e., higher survival) and lower asymmetry, providing a rare example of HFC in reptiles.…”
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    Sex-Specific Correlations of Individual Heterozygosity, Parasite Load, and Scalation Asymmetry in a Sexually Dichromatic Lizard
  3. 1963
    “…Within this superfamily, we defined enzymes with phospholipase A1 (PLA(1)) and A2 (PLA(2)) activity, which are common in host cell-targeting bacterial toxins and the venoms of certain insects and reptiles(1,2). However, we find that the fundamental role of the superfamily is to mediate antagonistic bacterial interactions as effectors of the type VI secretion system (T6SS) translocation apparatus; accordingly, we name these proteins type VI lipase effectors (Tle). …”
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    Diverse type VI secretion phospholipases are functionally plastic antibacterial effectors
  4. 1964
    “…CONCLUSIONS: We present a new large-scale phylogeny of squamate reptiles that should be a valuable resource for future comparative studies. …”
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    A phylogeny and revised classification of Squamata, including 4161 species of lizards and snakes
  5. 1965
    “…More recent studies have concluded that stereotypically thecodont tissues are also present in non-mammalian, non-crocodilian amniotes, but these studies were limited to crown groups or secondarily aquatic reptiles. As the sister group to Amniota, and the first tetrapods to exhibit dental occlusion, diadectids are the ideal candidates for studies of dental evolution among terrestrial vertebrates because they can be used to test hypotheses of development and homology in deep time. …”
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    Periodontal Ligament, Cementum, and Alveolar Bone in the Oldest Herbivorous Tetrapods, and Their Evolutionary Significance
  6. 1966
    por Tollis, Marc, Boissinot, Stéphane
    Publicado 2013
    “…The genomes of teleost fish and squamate reptiles contain a much more diverse array of non-LTR retrotransposon families, whereas copy number is relatively low. …”
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    Lizards and LINEs: Selection and Demography Affect the Fate of L1 Retrotransposons in the Genome of the Green Anole (Anolis carolinensis)
  7. 1967
    “…Several studies have also included other susceptible ectothermic vertebrates (fish and reptiles), but only very few cases of ranavirus infections in lizards have been previously detected. …”
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    Ranavirus infections associated with skin lesions in lizards
  8. 1968
    “…Ectothermic organisms such as amphibians and reptiles are especially vulnerable as climatic conditions affect them directly. …”
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    Refining Climate Change Projections for Organisms with Low Dispersal Abilities: A Case Study of the Caspian Whip Snake
  9. 1969
    “…Although cathelicidins from mammals, birds, reptiles and fishes have been extensively studied, little is known about cathelicidins from amphibians. …”
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    Cathelicidins from the Bullfrog Rana catesbeiana Provides Novel Template for Peptide Antibiotic Design
  10. 1970
    “…Members of this peptide group are also common components of reptile and arthropod venoms due to their multiple biological functions that include induction of pain, effects on many smooth muscle types, and lowering systemic blood pressure. …”
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    Ranakinestatin-PPF from the Skin Secretion of the Fukien Gold-Striped Pond Frog, Pelophylax plancyi fukienensis: A Prototype of a Novel Class of Bradykinin B(2) Receptor Antagonist Peptide from Ranid Frogs
  11. 1971
    “…Although hepatic diseases are a common occurrence in reptile medicine, there is no reference to the use of contrast-enhanced ultrasound (CEUS) and contrast-enhanced computed tomography (CECT) to evaluate the liver in lizards. …”
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    Evaluation of liver parenchyma and perfusion using dynamic contrast-enhanced computed tomography and contrast-enhanced ultrasonography in captive green iguanas (Iguana iguana) under general anesthesia
  12. 1972
    “…Reptiles have a wide diversity of sex-determining mechanisms and types of sex chromosomes. …”
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    The Staurotypus Turtles and Aves Share the Same Origin of Sex Chromosomes but Evolved Different Types of Heterogametic Sex Determination
  13. 1973
    “…Despite the importance of colour change in reptile ecology, few studies have investigated the occurrence of a circadian rhythm in lizard pigmentation. …”
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    Cyclic Colour Change in the Bearded Dragon Pogona vitticeps under Different Photoperiods
  14. 1974
    por 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
    Publicado 2014
    “…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. …”
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    The PREDICTS database: a global database of how local terrestrial biodiversity responds to human impacts
  15. 1975
    “…The ancient sequences show a 100% similarity with those of isolated L. tarentolae parasites grown on artificial nutrient media and a 99% similarity with two modern sequences isolated from reptiles. CONCLUSIONS: De facto, our findings re-open the debate about the potential survival of ancient L. tarentolae strain within human macrophage and its ability to spread systemically. …”
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    Leishmania tarentolae molecular signatures in a 300 hundred-years-old human Brazilian mummy
  16. 1976
    “…The fourth paralogue of ANT (ANT4) is present only in mammals and reptiles and is exclusively expressed in testicular germ cells where it is required for meiotic progression in the spermatocytes. …”
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    Two Adenine Nucleotide Translocase Paralogues Involved in Cell Proliferation and Spermatogenesis in the Silkworm Bombyx mori
  17. 1977
    “…The evolutionary tree revealed that all the transcript variants of Dicer1 belonging to a specific species were within the same node and the sequences belonging to primates, rodents and lagomorphs, avians and reptiles formed independent clusters. The bubaline dicer1 is closely related to that of cattle and other ruminants and significantly divergent from dicer of lower species such as tapeworm, sea urchin and fruit fly. …”
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    Biocomputational Characterization and Evolutionary Analysis of Bubaline Dicer1 Enzyme
  18. 1978
    “…Parthenogenesis, unisexuality and triploidy are interesting but poorly studied phenomena occurring in some reptile species. The mourning gecko (Lepidodactylus lugubris) represents a complex of diploid and triploid parthenogenetic mostly all-female populations (males occur quite rarely) widely distributed in coastal areas of the Indian and Pacific Oceans. …”
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    Comparative Chromosome Painting and NOR Distribution Suggest a Complex Hybrid Origin of Triploid Lepidodactylus lugubris (Gekkonidae)
  19. 1979
    “…A comparison of turtle genomes with those of chicken, selected nonavian reptiles, and human revealed shared and novel genomic features, such as numerous chromosomal rearrangements. …”
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    Physical Mapping and Refinement of the Painted Turtle Genome (Chrysemys picta) Inform Amniote Genome Evolution and Challenge Turtle-Bird Chromosomal Conservation
  20. 1980
    “…Found in amphibians, reptiles, birds, and all three mammalian clades, most of these genes are not restricted to teleosts. …”
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    An extended family of novel vertebrate photopigments is widely expressed and displays a diversity of function
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