Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 6 of 6
Full-Text Articles in Life Sciences
Development Of Helical, Fish-Inspired Cross-Step Filter For Collecting Harmful Algae, Adam Schroeder, Lauren Marshall, Brian Trease, Anna Becker, S. Laurie Sanderson
Development Of Helical, Fish-Inspired Cross-Step Filter For Collecting Harmful Algae, Adam Schroeder, Lauren Marshall, Brian Trease, Anna Becker, S. Laurie Sanderson
Arts & Sciences Articles
A new filter was developed to collect harmful algae colonies by adapting the cross-step filtration structures and mechanisms discovered recently in filter-feeding fish. Extending beyond previously published models that closely emulated the basic morphology of the fish, the new cross-step filter's major innovations are helical slots, radial symmetry, and rotation as an active anti-clogging mechanism. These innovations enable the transport of concentrated particles to the downstream end of the filter. This advance was made possible by recognizing that biologically imposed constraints such as bilateral symmetry do not apply to human-made filters. The use of helical slots was developed in a …
Localization Of Sumo-Modified Proteins Using Fluorescent Sumo-Trapping Proteins, Rui Yin, Catherine Harvey, Diane C. Shakes, Oliver Kerscher
Localization Of Sumo-Modified Proteins Using Fluorescent Sumo-Trapping Proteins, Rui Yin, Catherine Harvey, Diane C. Shakes, Oliver Kerscher
Arts & Sciences Articles
Here we are presenting a novel method to study the sumoylation of proteins and their sub-cellular localization in mammalian cells and nematode oocytes. This method utilizes a recombinant modified SUMO-trapping protein fragment, kmUTAG, derived from the Ulp1 SUMO protease of the stress-tolerant budding yeast Kluyveromyces marxianus. We have adapted the properties of the kmUTAG for the purpose of studying sumoylation in a variety of model systems without the use of antibodies. For the study of SUMO, KmUTAG has several advantages when compared to antibody-based approaches. This stress-tolerant SUMO-trapping reagent is produced recombinantly, it recognizes native SUMO isoforms from many …
Historical Art, Ecology, And Implication, Alan C. Braddock
Historical Art, Ecology, And Implication, Alan C. Braddock
Arts & Sciences Articles
"For fifteen years, I have researched, published, lectured, and taught about art and ecology, focusing on contemporary contexts as well as historical work produced long before Ernst Haeckel coined “ecology” (Oecologie) in 1866, and prior to the emergence of modern environmentalism..."
A Likelihood Ratio Test For Changes In Homeolog Expression Bias, Ronald D. Smith, Taliesin J. Kinser, Gregory D. Conradi Smith, Joshua R. Puzeyn
A Likelihood Ratio Test For Changes In Homeolog Expression Bias, Ronald D. Smith, Taliesin J. Kinser, Gregory D. Conradi Smith, Joshua R. Puzeyn
Arts & Sciences Articles
Background
Gene duplications are a major source of raw material for evolution and a likely contributor to the diversity of life on earth. Duplicate genes (i.e., homeologs, in the case of a whole genome duplication) may retain their ancestral function, sub- or neofunctionalize, or be lost entirely. A primary way that duplicate genes evolve new functions is by altering their expression patterns. Comparing the expression patterns of duplicate genes gives clues as to whether any of these evolutionary processes have occurred.
Results
We develop a likelihood ratio test for the analysis of the expression ratios of duplicate genes across two …
Origin And Evolution Of The Octoploid Strawberry Genome, Patrick P. Edger, Thomas J. Poorten, ..., Ron D. Smith, Scott J. Teresi, Joshua R. Puzey, Et Al.
Origin And Evolution Of The Octoploid Strawberry Genome, Patrick P. Edger, Thomas J. Poorten, ..., Ron D. Smith, Scott J. Teresi, Joshua R. Puzey, Et Al.
Arts & Sciences Articles
Cultivated strawberry emerged from the hybridization of two wild octoploid species, both descendants from the merger of four diploid progenitor species into a single nucleus more than 1 million years ago. Here we report a near-complete chromosome-scale assembly for cultivated octoploid strawberry (Fragaria × ananassa) and uncovered the origin and evolutionary processes that shaped this complex allopolyploid. We identified the extant relatives of each diploid progenitor species and provide support for the North American origin of octoploid strawberry. We examined the dynamics among the four subgenomes in octoploid strawberry and uncovered the presence of a single dominant subgenome with significantly …
Trpm4 Ion Channels In Pre-Bo¨Tzinger Complex Interneurons Are Essential For Breathing Motor Pattern But Not Rhythm, Marina Cristina D. Picardo, Yae K. Sugimura, Kaitlyn E. Dorst, Prajkta S. Kallurkar, Victoria T. Akins, Xingru Ma, Ryoichi Teruyama, Romaine Guinamard, Kaiwen Kam, Margaret Saha, Christopher A. Del Negro
Trpm4 Ion Channels In Pre-Bo¨Tzinger Complex Interneurons Are Essential For Breathing Motor Pattern But Not Rhythm, Marina Cristina D. Picardo, Yae K. Sugimura, Kaitlyn E. Dorst, Prajkta S. Kallurkar, Victoria T. Akins, Xingru Ma, Ryoichi Teruyama, Romaine Guinamard, Kaiwen Kam, Margaret Saha, Christopher A. Del Negro
Arts & Sciences Articles
Inspiratory breathing movements depend on pre-Bötzinger complex (preBötC) interneurons that express calcium (Ca2+)-activated nonselective cationic current (ICAN) to generate robust neural bursts. Hypothesized to be rhythmogenic, reducing ICAN is predicted to slow down or stop breathing; its contributions to motor pattern would be reflected in the magnitude of movements (output). We tested the role(s) of ICAN using reverse genetic techniques to diminish its putative ion channels Trpm4 or Trpc3 in preBötC neurons in vivo. Adult mice transduced with Trpm4-targeted short hairpin RNA (shRNA) progressively decreased the tidal volume of breaths yet surprisingly increased breathing frequency, often followed by gasping and …