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No evidence for a Y chromosomal effect on alternative behavioral strategies in mice

This study takes the first step toward testing a Y chromosomal effect on both aggression and thermoregulatory nest-building behavior in mouse lines either bidirectionally selected for short (SAL) and long (LAL) attack latency or high (HIGH) and low (LOW) nest-building behavior. Using reciprocal cros...

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Published in:	Behavior genetics 1997-09, Vol.27 (5), p.477-482
Main Authors:	Sluyter, F, Bult, A, Lynch, C B, Meeter, F, van Oortmerssen, G A
Format:	Article
Language:	English
Subjects:	Aggression - physiology Animals Arousal - genetics Biological Evolution Body Temperature Regulation - genetics Crosses, Genetic Female Male Mice Nesting Behavior - physiology Reaction Time - genetics Selection, Genetic Y Chromosome
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container_issue	5
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container_title	Behavior genetics
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creator	Sluyter, F Bult, A Lynch, C B Meeter, F van Oortmerssen, G A
description	This study takes the first step toward testing a Y chromosomal effect on both aggression and thermoregulatory nest-building behavior in mouse lines either bidirectionally selected for short (SAL) and long (LAL) attack latency or high (HIGH) and low (LOW) nest-building behavior. Using reciprocal crosses between SAL and LAL, and between HIGH and LOW, we found no indications for Y chromosomal effects on thermoregulatory nest-building behavior. As for aggression, we confirmed earlier studies on SAL and LAL, i.e., the origin of the Y chromosome influences attack latency, i.e., aggression. However, we did not find indications for a Y chromosomal effect on aggression in the HIGH and LOW lines. Since aggression and nest-building behavior have been shown to be characteristic parameters of two fundamentally different behavioral strategies, the present data underline the improbability of Y chromosomal genes underlying the genetic architecture of alternative behavioral strategies.
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subjects	Aggression - physiology Animals Arousal - genetics Biological Evolution Body Temperature Regulation - genetics Crosses, Genetic Female Male Mice Nesting Behavior - physiology Reaction Time - genetics Selection, Genetic Y Chromosome
title	No evidence for a Y chromosomal effect on alternative behavioral strategies in mice
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