Stress-omics: A multi-omics approach to discriminate stress states in a marine mammal

Repeated or chronic stress, such as that caused by anthropogenic activity and environmental disturbance, may affect animal health and fitness and contribute to population declines by consequential changes in food webs. However, the physiological impacts of repeated stress have not been extensively s...

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Bibliographic Details
Main Authors: Deyarmin, Jared S, McCormley, Molly, Champagne, Cory, Stephan, Alicia, Houser, Dorian, Crocker, Daniel, Khudyakov, Jane
Format: Text
Language:unknown
Published: Scholarly Commons 2018
Subjects:
Bioinformatics
Integrative Biology
Other Animal Sciences
Elephant Seals
Online Access:https://scholarlycommons.pacific.edu/researchday/2018/events/20
id ftunivpacificmsl:oai:scholarlycommons.pacific.edu:researchday-1226
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spelling ftunivpacificmsl:oai:scholarlycommons.pacific.edu:researchday-1226 2023-05-15T16:05:40+02:00 Stress-omics: A multi-omics approach to discriminate stress states in a marine mammal Deyarmin, Jared S McCormley, Molly Champagne, Cory Stephan, Alicia Houser, Dorian Crocker, Daniel Khudyakov, Jane 2018-04-28T17:00:00Z https://scholarlycommons.pacific.edu/researchday/2018/events/20 unknown Scholarly Commons https://scholarlycommons.pacific.edu/researchday/2018/events/20 Research Day Bioinformatics Integrative Biology Other Animal Sciences text 2018 ftunivpacificmsl 2022-04-10T21:41:37Z Repeated or chronic stress, such as that caused by anthropogenic activity and environmental disturbance, may affect animal health and fitness and contribute to population declines by consequential changes in food webs. However, the physiological impacts of repeated stress have not been extensively studied in wild animals, hindering development of biomarkers that conservation practitioners can use to identify chronically stressed individuals. Baseline endocrine measurements are commonly used for stress diagnosis, but they may be less robust indicators of stress than their downstream molecular mediators. We used a non-targeted, multi-omics approach to profile global changes in target gene and protein abundance in response to acute and repeated stress in northern elephant seals (Mirounga angustirostris). Text Elephant Seals University of the Pacific, McGeorge School of Law: Scholarly Commons
institution Open Polar
collection University of the Pacific, McGeorge School of Law: Scholarly Commons
op_collection_id ftunivpacificmsl
language unknown
topic Bioinformatics
Integrative Biology
Other Animal Sciences
spellingShingle Bioinformatics
Integrative Biology
Other Animal Sciences
Deyarmin, Jared S
McCormley, Molly
Champagne, Cory
Stephan, Alicia
Houser, Dorian
Crocker, Daniel
Khudyakov, Jane
Stress-omics: A multi-omics approach to discriminate stress states in a marine mammal
topic_facet Bioinformatics
Integrative Biology
Other Animal Sciences
description Repeated or chronic stress, such as that caused by anthropogenic activity and environmental disturbance, may affect animal health and fitness and contribute to population declines by consequential changes in food webs. However, the physiological impacts of repeated stress have not been extensively studied in wild animals, hindering development of biomarkers that conservation practitioners can use to identify chronically stressed individuals. Baseline endocrine measurements are commonly used for stress diagnosis, but they may be less robust indicators of stress than their downstream molecular mediators. We used a non-targeted, multi-omics approach to profile global changes in target gene and protein abundance in response to acute and repeated stress in northern elephant seals (Mirounga angustirostris).
format Text
author Deyarmin, Jared S
McCormley, Molly
Champagne, Cory
Stephan, Alicia
Houser, Dorian
Crocker, Daniel
Khudyakov, Jane
author_facet Deyarmin, Jared S
McCormley, Molly
Champagne, Cory
Stephan, Alicia
Houser, Dorian
Crocker, Daniel
Khudyakov, Jane
author_sort Deyarmin, Jared S
title Stress-omics: A multi-omics approach to discriminate stress states in a marine mammal
title_short Stress-omics: A multi-omics approach to discriminate stress states in a marine mammal
title_full Stress-omics: A multi-omics approach to discriminate stress states in a marine mammal
title_fullStr Stress-omics: A multi-omics approach to discriminate stress states in a marine mammal
title_full_unstemmed Stress-omics: A multi-omics approach to discriminate stress states in a marine mammal
title_sort stress-omics: a multi-omics approach to discriminate stress states in a marine mammal
publisher Scholarly Commons
publishDate 2018
url https://scholarlycommons.pacific.edu/researchday/2018/events/20
genre Elephant Seals
genre_facet Elephant Seals
op_source Research Day
op_relation https://scholarlycommons.pacific.edu/researchday/2018/events/20
_version_ 1766401574338297856

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