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Full-Text Articles in Cell and Developmental Biology
Unraveling The Genetic Mechanisms Involved In The Evolution And Development Of The Thoracic Appendages In Insects, Victor Medved
Unraveling The Genetic Mechanisms Involved In The Evolution And Development Of The Thoracic Appendages In Insects, Victor Medved
Wayne State University Dissertations
Insects display the greatest amount of structural and functional variation among animal groups, particularly in regard to their appendage morphology. These differences can range from the diverse pigmentation patterns between fore- and hindwings to changes in the size and shape of legs. The greatly enlarged jumping hind leg in crickets and grasshoppers is one of the best known illustrations of such diversity, representing a unique feature for the entire order of these insects (Orthoptera). Previous work from our lab has shown that the homeotic gene Ultrabithorax (Ubx) plays a key role in the enlargement of hind legs not only in …
The Cellular And Genetic Mechanisms Underlying Morphological Diversity Of Insects, Nataliya Turchyn
The Cellular And Genetic Mechanisms Underlying Morphological Diversity Of Insects, Nataliya Turchyn
Wayne State University Dissertations
The vast diversity of insect appendages provides an excellent model for examining the cellular and molecular basis of phenotypic changes in nature. One of the hallmarks of evolution of insect appendages is the differential enlargement of hind (T3) legs compared to their fore (T1) and mid (T2) counterparts. While basic information regarding the genetic mechanisms that regulate the size of the T3 legs became available in the past several years, virtually nothing is known about cellular mechanisms involved. To address this issue, we measured the relative mitotic activity (RMA) in Acheta domesticus (house cricket) and Oncopeltus fasciatus (milkweed bug), two …