The Molecular Signals that Regulate the Ontogeny of Aerobic Capacity, Lipid Metabolism and Elevated Myoglobin Concentrations in the Skeletal Muscles of Weddell Seals
Abstract: During the past three decades, intensive field studies have revealed much about the behavior, physiology, life history, and population dynamics of the Weddell seal (Leptonychotes weddelli) population of McMurdo Sound, Antarctica. These animals are marine predators that are highly adapted f...
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IEDA: US Antarctic Program Data Center
2009
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| Online Access: | http://get.iedadata.org/metadata/iso/600063 |
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dataone:http://get.iedadata.org/metadata/iso/600063 |
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openpolar |
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dataone:http://get.iedadata.org/metadata/iso/600063 2024-06-03T18:46:24+00:00 The Molecular Signals that Regulate the Ontogeny of Aerobic Capacity, Lipid Metabolism and Elevated Myoglobin Concentrations in the Skeletal Muscles of Weddell Seals Lyons, W. Berry Lyons Kanatous, Shane ENVELOPE(160.0,167.0,-77.0,-78.0) BEGINDATE: 2006-04-20T00:00:00Z ENDDATE: 2009-06-30T00:00:00Z 2009-01-01T00:00:00Z http://get.iedadata.org/metadata/iso/600063 unknown IEDA: US Antarctic Program Data Center Seals Antarctic Organisms and Ecosystems Biology Sea Surface Antarctica Southern Ocean Biosphere Oceans US Antarctic Program Data Center (USAP-DC) Dataset 2009 dataone:urn:node:IEDA_USAP 2024-06-03T18:11:58Z Abstract: During the past three decades, intensive field studies have revealed much about the behavior, physiology, life history, and population dynamics of the Weddell seal (Leptonychotes weddelli) population of McMurdo Sound, Antarctica. These animals are marine predators that are highly adapted for an aquatic life in shore-fast and pack ice habitats. They must locate and capture sparsely distributed under the ice. Most of what is known about their diving behavior is based on studies of adult animals with little known about the development or the genetic controls of diving behavior of young animals. The goal of this project is to examine the temporal development of aerobic capacity, lipid metabolism and oxygen stores in the skeletal muscles of young Weddell seals and to determine which aspects of the cellular environment are important in the regulation of these adaptations during maturation. This project builds on past results to investigate the molecular controls that underlie the development of these adaptations. The first objective is to further characterize the ontogenetic changes in muscle aerobic capacity, lipid metabolism and myoglobin concentration and distribution using enzymatic, immuno-histochemical and myoglobin assays in newly weaned, subadult, and adult seals. The second objective is to determine the molecular controls that regulate these changes in aerobic capacity, fiber type distribution and myoglobin in skeletal muscles during maturation. Through subtractive hybridization and subsequent analysis, differences in mRNA populations in the swimming muscles of the different age classes of Weddell seals will be determined. These techniques will allow for the identification of the proteins and transcription factors that influence the ontogenetic changes in myoglobin concentration, fiber type distribution and aerobic capacity. These results will increase our understanding of both the ontogeny and molecular mechanisms by which young seals acquire the physiological capabilities to make deep (up to 700 m) and long aerobic dives (ca 20 min). This study will advance knowledge of the molecular regulation for the adaptations that enable active skeletal muscle to function under hypoxic conditions; this has a broader application for human medicine especially in regards to cardiac and pulmonary disease. Additional broader impacts include the participation of underrepresented scientists and a continuation of a website in collaboration with the Science Teachers Access to Resources at Southwestern University (STARS Program) which involves weekly updates about research efforts during the field season, weekly questions/answer session involving students and teachers, and updates on research results throughout the year. Dataset Antarc* Antarctic Antarctica Leptonychotes weddelli McMurdo Sound Southern Ocean Weddell Seal Weddell Seals IEDA: US Antarctic Program Data Center (via DataONE) Antarctic Southern Ocean McMurdo Sound Weddell ENVELOPE(160.0,167.0,-77.0,-78.0) |
| institution |
Open Polar |
| collection |
IEDA: US Antarctic Program Data Center (via DataONE) |
| op_collection_id |
dataone:urn:node:IEDA_USAP |
| language |
unknown |
| topic |
Seals Antarctic Organisms and Ecosystems Biology Sea Surface Antarctica Southern Ocean Biosphere Oceans US Antarctic Program Data Center (USAP-DC) |
| spellingShingle |
Seals Antarctic Organisms and Ecosystems Biology Sea Surface Antarctica Southern Ocean Biosphere Oceans US Antarctic Program Data Center (USAP-DC) Lyons, W. Berry Lyons Kanatous, Shane The Molecular Signals that Regulate the Ontogeny of Aerobic Capacity, Lipid Metabolism and Elevated Myoglobin Concentrations in the Skeletal Muscles of Weddell Seals |
| topic_facet |
Seals Antarctic Organisms and Ecosystems Biology Sea Surface Antarctica Southern Ocean Biosphere Oceans US Antarctic Program Data Center (USAP-DC) |
| description |
Abstract: During the past three decades, intensive field studies have revealed much about the behavior, physiology, life history, and population dynamics of the Weddell seal (Leptonychotes weddelli) population of McMurdo Sound, Antarctica. These animals are marine predators that are highly adapted for an aquatic life in shore-fast and pack ice habitats. They must locate and capture sparsely distributed under the ice. Most of what is known about their diving behavior is based on studies of adult animals with little known about the development or the genetic controls of diving behavior of young animals. The goal of this project is to examine the temporal development of aerobic capacity, lipid metabolism and oxygen stores in the skeletal muscles of young Weddell seals and to determine which aspects of the cellular environment are important in the regulation of these adaptations during maturation. This project builds on past results to investigate the molecular controls that underlie the development of these adaptations. The first objective is to further characterize the ontogenetic changes in muscle aerobic capacity, lipid metabolism and myoglobin concentration and distribution using enzymatic, immuno-histochemical and myoglobin assays in newly weaned, subadult, and adult seals. The second objective is to determine the molecular controls that regulate these changes in aerobic capacity, fiber type distribution and myoglobin in skeletal muscles during maturation. Through subtractive hybridization and subsequent analysis, differences in mRNA populations in the swimming muscles of the different age classes of Weddell seals will be determined. These techniques will allow for the identification of the proteins and transcription factors that influence the ontogenetic changes in myoglobin concentration, fiber type distribution and aerobic capacity. These results will increase our understanding of both the ontogeny and molecular mechanisms by which young seals acquire the physiological capabilities to make deep (up to 700 m) and long aerobic dives (ca 20 min). This study will advance knowledge of the molecular regulation for the adaptations that enable active skeletal muscle to function under hypoxic conditions; this has a broader application for human medicine especially in regards to cardiac and pulmonary disease. Additional broader impacts include the participation of underrepresented scientists and a continuation of a website in collaboration with the Science Teachers Access to Resources at Southwestern University (STARS Program) which involves weekly updates about research efforts during the field season, weekly questions/answer session involving students and teachers, and updates on research results throughout the year. |
| format |
Dataset |
| author |
Lyons, W. Berry Lyons Kanatous, Shane |
| author_facet |
Lyons, W. Berry Lyons Kanatous, Shane |
| author_sort |
Lyons, W. Berry Lyons |
| title |
The Molecular Signals that Regulate the Ontogeny of Aerobic Capacity, Lipid Metabolism and Elevated Myoglobin Concentrations in the Skeletal Muscles of Weddell Seals |
| title_short |
The Molecular Signals that Regulate the Ontogeny of Aerobic Capacity, Lipid Metabolism and Elevated Myoglobin Concentrations in the Skeletal Muscles of Weddell Seals |
| title_full |
The Molecular Signals that Regulate the Ontogeny of Aerobic Capacity, Lipid Metabolism and Elevated Myoglobin Concentrations in the Skeletal Muscles of Weddell Seals |
| title_fullStr |
The Molecular Signals that Regulate the Ontogeny of Aerobic Capacity, Lipid Metabolism and Elevated Myoglobin Concentrations in the Skeletal Muscles of Weddell Seals |
| title_full_unstemmed |
The Molecular Signals that Regulate the Ontogeny of Aerobic Capacity, Lipid Metabolism and Elevated Myoglobin Concentrations in the Skeletal Muscles of Weddell Seals |
| title_sort |
molecular signals that regulate the ontogeny of aerobic capacity, lipid metabolism and elevated myoglobin concentrations in the skeletal muscles of weddell seals |
| publisher |
IEDA: US Antarctic Program Data Center |
| publishDate |
2009 |
| url |
http://get.iedadata.org/metadata/iso/600063 |
| op_coverage |
ENVELOPE(160.0,167.0,-77.0,-78.0) BEGINDATE: 2006-04-20T00:00:00Z ENDDATE: 2009-06-30T00:00:00Z |
| long_lat |
ENVELOPE(160.0,167.0,-77.0,-78.0) |
| geographic |
Antarctic Southern Ocean McMurdo Sound Weddell |
| geographic_facet |
Antarctic Southern Ocean McMurdo Sound Weddell |
| genre |
Antarc* Antarctic Antarctica Leptonychotes weddelli McMurdo Sound Southern Ocean Weddell Seal Weddell Seals |
| genre_facet |
Antarc* Antarctic Antarctica Leptonychotes weddelli McMurdo Sound Southern Ocean Weddell Seal Weddell Seals |
| _version_ |
1800873531069693952 |