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Genomics of migration : from marine distributions of salmonids to mechanisms of olfactory and magnetic cue perception for natal homing

ScholarsArchive at Oregon State University

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Title Genomics of migration : from marine distributions of salmonids to mechanisms of
olfactory and magnetic cue perception for natal homing
Names Bellinger, M. Renee (creator)
Banks, Michael A. (advisor)
Date Issued 2014-12-02 (iso8601)
Note Graduation date: 2015
Abstract Substantial scientific investment has been directed towards understanding
factors that influence distribution patterns and animals' remarkable ability for precise
orientation and navigation, yet fundamental gaps in our knowledge remain. In my
dissertation, I applied emerging genetic technologies to conduct a top-down and
bottom-up investigation of animal movement and cue perception. First, in partnership
with Project CROOS and the California Salmon Genetic Stock Identification project,
stock-specific, marine migratory distributions of Chinook salmon (Oncorhynchus
tshawytscha) were characterized for five consecutive months (2010) over 1000 km of
coastline. A statistical model was developed to provide measures of relative stockspecific
abundance, insights into broad factors that influence migratory distribution,
and for fisheries management applications. For the second component of my
dissertation, I studied specialized olfactory cells of salmonids that are proposed to
contain nanometer-sized magnetite crystals that interact with earth strength magnetic
fields to transduce them into neural signals. The transcriptome profiles of candidate
magnetoreceptor and non-magnetic cells isolated from olfactory rosette tissue, whole
olfactory rosettes, and blood and muscle tissue were characterized from ~661 million
Illumina RNA-seq reads. A total of 1,006 differentially expressed genes were
identified in the magnetic cell sample type. Results, consistent with having identified
genes involved in magnetite crystal formation in fish, were used to develop a genetic
model of magnetic sensory perception. Finally, to provide insights into olfaction-based
homing that takes place in freshwater, the olfactory repertoire of salmonids was
inferred from the Rainbow trout (O. mykiss) genome and compared to that of 15 other
teleosts and the jawless fish, sea lamprey (Petromyzon marinus), an ancient species.
The abundance and diversity of trace amine-associated and V2R-like genes suggests
that these classes of chemoreceptors have biological importance. These findings have
relevance for resolving if salmon and other marine organisms imprint on magnetic
fields, and contribute to our understanding of how magnetic sense, olfaction, and
genetic programming are involved in migratory distributions.
Genre Thesis/Dissertation
Topic Genomics
Identifier http://hdl.handle.net/1957/54640

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