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Full-Text Articles in Life Sciences
Exceptional Larval Morphology Of Nine Species Of The Anastrepha Mucronota Species Group (Diptera: Tephritidae), Erick J. Rodriguez, Gary J. Steck, Matthew R. Moore, Allen L. Norrbom, Jessica Diaz, Louis A. Somma, Raul Ruiz-Arce, Bruce D. Sutton, Norma Nolazco, Alies Muller, Marc A. Branham
Exceptional Larval Morphology Of Nine Species Of The Anastrepha Mucronota Species Group (Diptera: Tephritidae), Erick J. Rodriguez, Gary J. Steck, Matthew R. Moore, Allen L. Norrbom, Jessica Diaz, Louis A. Somma, Raul Ruiz-Arce, Bruce D. Sutton, Norma Nolazco, Alies Muller, Marc A. Branham
Papers in Evolution
Anastrepha is the most diverse and economically important genus of Tephritidae in the American tropics and subtropics. The striking morphology of the third instars of Anastrepha caballeroi Norrbom, Anastrepha crebra Stone, Anastrepha haplacantha Norrbom & Korytkowski, Anastrepha korytkowskii Norrbom, Anastrepha nolazcoae Norrbom & Korytkowski, and three newly discovered and as yet formally unnamed species (Anastrepha sp. Peru-82, Anastrepha sp. nr. protuberans, and Anastrepha sp. Sur-16), and the more typical morphology of Anastrepha aphelocentema Stone, are described using light and scanning electron microscopy. To contribute to a better understanding of the interspecific and intraspecific variation among species in the mucronota …
Answers To Common Misconceptions About Biological Evolution, Leah M. Abebe, Blake Bartels, Kaitlyn M. Caron, Adam M. Gleeson, Samuel N. Johnson, Tyler J. Kluza, Nicholas W. Knopik, Kristen N. Kramer, Masiel S. Maza, Kaitlyn A. Stava, Kaitlyn Sullivan, Jordan T. Trimble, Robert M. Zink , Editor
Answers To Common Misconceptions About Biological Evolution, Leah M. Abebe, Blake Bartels, Kaitlyn M. Caron, Adam M. Gleeson, Samuel N. Johnson, Tyler J. Kluza, Nicholas W. Knopik, Kristen N. Kramer, Masiel S. Maza, Kaitlyn A. Stava, Kaitlyn Sullivan, Jordan T. Trimble, Robert M. Zink , Editor
Papers in Evolution
“When you have an established scientific emergent truth, it is true whether or not you believe in it.” Neil deGrasse Tyson, Science in America. Very few people outside of a particular scientific discipline can actually say they understand it, because most do not have the training to “speak the language.” They are then not particularly bothered by its tenets and predictions. Of all the major branches of science, however, evolutionary biology is an exception to this generalization because even though people are not versed in the field, they sometimes have a negative, knee-jerk objection. This objection is often because they …
Exon-Primed Intron-Crossing (Epic) Markers For Non-Model Teleost Fishes, Chenhong Li, Jean-Jack M. Riethoven, Lingbo Ma
Exon-Primed Intron-Crossing (Epic) Markers For Non-Model Teleost Fishes, Chenhong Li, Jean-Jack M. Riethoven, Lingbo Ma
Papers in Evolution
Background: Exon-primed intron-crossing (EPIC) markers have three advantages over anonymous genomic sequences in studying evolution of natural populations. First, the universal primers designed in exon regions can be applied across a broad taxonomic range. Second, the homology of EPIC-amplified sequences can be easily determined by comparing either their exon or intron portion depending on the genetic distance between the taxa. Third, having both the exon and intron fragments could help in examining genetic variation at the intraspecific and interspecific level simultaneously, particularly helpful when studying species complex. However, the paucity of EPIC markers has hindered multilocus studies using nuclear gene …
Evolution Of Dna Polymerases: An Inactivated Polymerase-Exonuclease Module In Pol Ε&#;And A Chimeric Origin Of Eukaryotic Polymerases From Two Classes Of Archaeal Ancestors, Tahir Tahirov, Kira Makarova, Igor Rogozin, Youri Pavlov, Eugene Koonin
Evolution Of Dna Polymerases: An Inactivated Polymerase-Exonuclease Module In Pol Ε&#;And A Chimeric Origin Of Eukaryotic Polymerases From Two Classes Of Archaeal Ancestors, Tahir Tahirov, Kira Makarova, Igor Rogozin, Youri Pavlov, Eugene Koonin
Papers in Evolution
Background: Evolution of DNA polymerases, the key enzymes of DNA replication and repair, is central to any reconstruction of the history of cellular life. However, the details of the evolutionary relationships between DNA polymerases of archaea and eukaryotes remain unresolved.
Results: We performed a comparative analysis of archaeal, eukaryotic, and bacterial B-family DNA polymerases, which are the main replicative polymerases in archaea and eukaryotes, combined with an analysis of domain architectures. Surprisingly, we found that eukaryotic Polymerase ε consists of two tandem exonuclease-polymerase modules, the active N-terminal module and a C-terminal module in which both enzymatic domains are inactivated. The …
A Highly Conserved Family Of Inactivated Archaeal B Family Dna Polymerases, Igor Rogozin, Kira Makarova, Youri Pavlov, Eugene Koonin
A Highly Conserved Family Of Inactivated Archaeal B Family Dna Polymerases, Igor Rogozin, Kira Makarova, Youri Pavlov, Eugene Koonin
Papers in Evolution
A widespread and highly conserved family of apparently inactivated derivatives of archaeal B-family DNA polymerases is described. Phylogenetic analysis shows that the inactivated forms comprise a distinct clade among archaeal B-family polymerases and that, within this clade, Euryarchaea and Crenarchaea are clearly separated from each other and from a small group of bacterial homologs. These findings are compatible with an ancient duplication of the DNA polymerase gene followed by inactivation and parallel loss in some of the lineages although contribution of horizontal gene transfer cannot be ruled out. The inactivated derivative of the archaeal DNA polymerase could form a complex …