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Full-Text Articles in Marine Biology
Multi-Omics Reveals Largely Distinct Transcript- And Protein-Level Responses To The Environment In An Intertidal Mussel, Lani U. Gleason, Florian J. Fekete, Richelle L. Tanner, W. Wesley Dowd
Multi-Omics Reveals Largely Distinct Transcript- And Protein-Level Responses To The Environment In An Intertidal Mussel, Lani U. Gleason, Florian J. Fekete, Richelle L. Tanner, W. Wesley Dowd
Biology, Chemistry, and Environmental Sciences Faculty Articles and Research
Organismal responses to stressful environments are influenced by numerous transcript- and protein-level mechanisms, and the relationships between expression changes at these levels are not always straightforward. Here, we used paired transcriptomic and proteomic datasets from two previous studies from gill of the California mussel, Mytilus californianus, to explore how simultaneous transcript and protein abundance patterns may diverge under different environmental scenarios. Field-acclimatized mussels were sampled from two disparate intertidal sites; individuals from one site were subjected to three further treatments (common garden, low-intertidal or high-intertidal outplant) that vary in temperature and feeding time. Assessing 1519 genes shared between …
Skeletal Anatomy Of The Pectoral Fin In Mudskipper Species From Terrestrial And Aquatic Habitats, Haodong Zhou, Cassandra M. Donatelli, Odette Laneuville, Emily M. Standen
Skeletal Anatomy Of The Pectoral Fin In Mudskipper Species From Terrestrial And Aquatic Habitats, Haodong Zhou, Cassandra M. Donatelli, Odette Laneuville, Emily M. Standen
Engineering Faculty Articles and Research
Mudskippers are a group of amphibious fishes in the family Oxudercidae, whose species inhabit a range of habitats from mostly aquatic to mostly terrestrial. Most of our understanding about habitat preference comes from natural history observations, particularly where they are collected (i.e., low intertidal vs. high intertidal regions). Mudskippers have undergone several morphological changes to accommodate a terrestrial life, including major changes to the pectoral and pelvic girdles. These changes result in a novel crutching gait, which mudskippers use to move over land. Though the appendicular morphology and crutching gait of mudskippers have been described in some species, few …
It Pays To Be Bumpy: Drag Reducing Armor In The Pacific Spiny Lumpsucker, Eumicrotremus Orbis, R. C. Hoover, Olivia H. Hawkins, Jack Rosen, Conrad D. Wilson, Callie H. Crawford, Meghan Holst, Jonathan M. Huie, Adam P. Summers, Cassandra M. Donatelli, Karly E. Cohen
It Pays To Be Bumpy: Drag Reducing Armor In The Pacific Spiny Lumpsucker, Eumicrotremus Orbis, R. C. Hoover, Olivia H. Hawkins, Jack Rosen, Conrad D. Wilson, Callie H. Crawford, Meghan Holst, Jonathan M. Huie, Adam P. Summers, Cassandra M. Donatelli, Karly E. Cohen
Engineering Faculty Articles and Research
Armor is a multipurpose set of structures that has evolved independently at least 30 times in fishes. In addition to providing protection, armor can manipulate flow, increase camouflage, and be sexually dimorphic. There are potential tradeoffs in armor function: increased impact resistance may come at the cost of maneuvering ability; and ornate armor may offer visual or protective advantages, but could incur excess drag. Pacific spiny lumpsuckers (Eumicrotremus orbis) are covered in rows of odontic, cone-shaped armor whorls, protecting the fish from wave driven impacts and the threat of predation. We are interested in measuring the effects of …
Epidermal Threads Reveal The Origin Of Hagfish Slime, Yu Zeng, David C. Plachetzki, Kristen Nieders, Hannah Campbell, Marissa Cartee, M. Sabrina Pankey, Kennedy Guillen, Douglas Fudge
Epidermal Threads Reveal The Origin Of Hagfish Slime, Yu Zeng, David C. Plachetzki, Kristen Nieders, Hannah Campbell, Marissa Cartee, M. Sabrina Pankey, Kennedy Guillen, Douglas Fudge
Biology, Chemistry, and Environmental Sciences Faculty Articles and Research
When attacked, hagfishes produce a soft, fibrous defensive slime within a fraction of a second by ejecting mucus and threads into seawater. The rapid setup and remarkable expansion of the slime make it a highly effective and unique form of defense. How this biomaterial evolved is unknown, although circumstantial evidence points to the epidermis as the origin of the thread- and mucus-producing cells in the slime glands. Here, we describe large intracellular threads within a putatively homologous cell type from hagfish epidermis. These epidermal threads averaged ~2 mm in length and ~0.5 μm in diameter. The entire hagfish body is …