Examining the Nature of Epistasis between wupA and for Incomplete Dominance at wupA and epistatic Interactions with for Alleles give Rise to a Gradient Effect in Foraging Behaviour

Examining the Nature of Epistasis between wupA and for Incomplete Dominance at wupA and epistatic Interactions with for Alleles give Rise to a Gradient Effect in Foraging Behaviour

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Foraging behaviour in Drosophila melanogaster larvae is influenced by natural allelic variation in the foraging (for) gene that encodes a cyclic GMP – dependent protein Kinase (PKG), such that rovers (forR) traverse greater distances while foraging than sitters (fors). Foraging behaviour is also inf...

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Bibliographic Details
Main Author: Meese-Tamuri, Saira
Other Authors: Fitzpatrick, Mark
Language:en_ca
Published: 2012
Subjects:
Foraging behaviour
Drosophila Melanogaster
wings up A gene
foraging gene
Incomplete dominance
PKG
Troponin I
0369
0384
Online Access:http://hdl.handle.net/1807/32484
id ndltd-TORONTO-oai-tspace.library.utoronto.ca-1807-32484
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spelling ndltd-TORONTO-oai-tspace.library.utoronto.ca-1807-324842013-04-19T20:02:57ZExamining the Nature of Epistasis between wupA and for Incomplete Dominance at wupA and epistatic Interactions with for Alleles give Rise to a Gradient Effect in Foraging BehaviourMeese-Tamuri, SairaForaging behaviourDrosophila Melanogasterwings up A geneforaging geneIncomplete dominancePKGTroponin I03690384Foraging behaviour in Drosophila melanogaster larvae is influenced by natural allelic variation in the foraging (for) gene that encodes a cyclic GMP – dependent protein Kinase (PKG), such that rovers (forR) traverse greater distances while foraging than sitters (fors). Foraging behaviour is also influenced by natural allelic variation in the wings up A (wupA) gene that encodes the Troponin-I protein (TnI). Specifically, wupAlow allele suppresses the dominance of the forR allele, turning rovers into sitters. The dominance of the natural wupA alleles and their interactions with allelic combinations in for has not been characterized. I conducted various crosses and found that wupA alleles exhibit incomplete dominance. More importantly, I found that allelic combinations of wupA and for gave rise to a range in larval foraging behaviour. In this study, I propose that this gradient effect in foraging behaviour is due to variation in levels of PKG activity and TnI phosphorylation potential.Fitzpatrick, Mark2012-062012-07-23T15:28:08ZNO_RESTRICTION2012-07-23T15:28:08Z2012-07-23Thesishttp://hdl.handle.net/1807/32484en_ca
collection NDLTD
language en_ca
sources NDLTD
topic Foraging behaviour
Drosophila Melanogaster
wings up A gene
foraging gene
Incomplete dominance
PKG
Troponin I
0369
0384
spellingShingle Foraging behaviour
Drosophila Melanogaster
wings up A gene
foraging gene
Incomplete dominance
PKG
Troponin I
0369
0384
Meese-Tamuri, Saira
Examining the Nature of Epistasis between wupA and for Incomplete Dominance at wupA and epistatic Interactions with for Alleles give Rise to a Gradient Effect in Foraging Behaviour
description Foraging behaviour in Drosophila melanogaster larvae is influenced by natural allelic variation in the foraging (for) gene that encodes a cyclic GMP – dependent protein Kinase (PKG), such that rovers (forR) traverse greater distances while foraging than sitters (fors). Foraging behaviour is also influenced by natural allelic variation in the wings up A (wupA) gene that encodes the Troponin-I protein (TnI). Specifically, wupAlow allele suppresses the dominance of the forR allele, turning rovers into sitters. The dominance of the natural wupA alleles and their interactions with allelic combinations in for has not been characterized. I conducted various crosses and found that wupA alleles exhibit incomplete dominance. More importantly, I found that allelic combinations of wupA and for gave rise to a range in larval foraging behaviour. In this study, I propose that this gradient effect in foraging behaviour is due to variation in levels of PKG activity and TnI phosphorylation potential.
author2 Fitzpatrick, Mark
author_facet Fitzpatrick, Mark
Meese-Tamuri, Saira
author Meese-Tamuri, Saira
author_sort Meese-Tamuri, Saira
title Examining the Nature of Epistasis between wupA and for Incomplete Dominance at wupA and epistatic Interactions with for Alleles give Rise to a Gradient Effect in Foraging Behaviour
title_short Examining the Nature of Epistasis between wupA and for Incomplete Dominance at wupA and epistatic Interactions with for Alleles give Rise to a Gradient Effect in Foraging Behaviour
title_full Examining the Nature of Epistasis between wupA and for Incomplete Dominance at wupA and epistatic Interactions with for Alleles give Rise to a Gradient Effect in Foraging Behaviour
title_fullStr Examining the Nature of Epistasis between wupA and for Incomplete Dominance at wupA and epistatic Interactions with for Alleles give Rise to a Gradient Effect in Foraging Behaviour
title_full_unstemmed Examining the Nature of Epistasis between wupA and for Incomplete Dominance at wupA and epistatic Interactions with for Alleles give Rise to a Gradient Effect in Foraging Behaviour
title_sort examining the nature of epistasis between wupa and for incomplete dominance at wupa and epistatic interactions with for alleles give rise to a gradient effect in foraging behaviour
publishDate 2012
url http://hdl.handle.net/1807/32484
work_keys_str_mv AT meesetamurisaira examiningthenatureofepistasisbetweenwupaandforincompletedominanceatwupaandepistaticinteractionswithforallelesgiverisetoagradienteffectinforagingbehaviour
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