Topics
corpus callosumAnatomical structure
anterior commissureAnatomical structure
forebrainAnatomical structure
Male and female mice from HI and LO lines selectively bred by Collins for strength of lateralization were tested for paw preference and then studied histologically to assess size of forebrain commissures and myelination of the corpus callosum. When compared to LO line mice, HI line mice were more strongly lateralized for paw preference and had larger brains as well as greater cross-sectional areas of the anterior commissure and corpus callosum. A substantial sex difference was found only for body size. Myelination of the corpus callosum did not differ consistently between the lines or sexes. Path analysis indicated that the line difference in the anterior commissure was a consequence of the difference in brain size, but corpus cal...
Sex dimorphism occurs when group means differ by four or more standard deviations. However, the aver...
The medial amygdala (MeA) is a sexually dimorphic brain region that regulates fear responses, emotio...
The C57BL/6 (B6) mouse is the background strain most frequently used for genetically-modified mice. ...
Mice from two selected lines differing markedly in their degree of lateralization, and from a random...
The brains of 18 female mice from two lines selectively bred for lateralization of paw preference we...
A proportion of animals of the BALB/c inbred mouse strain have an unusually small (sometimes absent)...
Ward et al. (Brain Research 424 (1987) 84-88) have reported that reduced size of the corpus callosum...
Laboratory mice are the most commonly studied mammal today and they are frequently used as models of...
Sex differences in behavior and morphology are usually assumed to be stronger in polygynous species ...
There are substantial individual differences in the size and shape of the corpus callosum and such d...
Eleven generations of bidirectional selection for lateralization produced 2 lines of mice that diffe...
Sex differences in behavior and morphology are usually assumed to be stronger in polygynous species ...
Behaviorally relevant sex differences are often associated with structural differences in the brain ...
The corpus callosum is the brain’s primary pathway for interhemispheric communication between the le...
The medial amygdala (MeA) is a sexually dimorphic brain region that regulates fear responses, emotio...
Sex dimorphism occurs when group means differ by four or more standard deviations. However, the aver...
The medial amygdala (MeA) is a sexually dimorphic brain region that regulates fear responses, emotio...
The C57BL/6 (B6) mouse is the background strain most frequently used for genetically-modified mice. ...
Mice from two selected lines differing markedly in their degree of lateralization, and from a random...
The brains of 18 female mice from two lines selectively bred for lateralization of paw preference we...
A proportion of animals of the BALB/c inbred mouse strain have an unusually small (sometimes absent)...
Ward et al. (Brain Research 424 (1987) 84-88) have reported that reduced size of the corpus callosum...
Laboratory mice are the most commonly studied mammal today and they are frequently used as models of...
Sex differences in behavior and morphology are usually assumed to be stronger in polygynous species ...
There are substantial individual differences in the size and shape of the corpus callosum and such d...
Eleven generations of bidirectional selection for lateralization produced 2 lines of mice that diffe...
Sex differences in behavior and morphology are usually assumed to be stronger in polygynous species ...
Behaviorally relevant sex differences are often associated with structural differences in the brain ...
The corpus callosum is the brain’s primary pathway for interhemispheric communication between the le...
The medial amygdala (MeA) is a sexually dimorphic brain region that regulates fear responses, emotio...
Sex dimorphism occurs when group means differ by four or more standard deviations. However, the aver...
The medial amygdala (MeA) is a sexually dimorphic brain region that regulates fear responses, emotio...
The C57BL/6 (B6) mouse is the background strain most frequently used for genetically-modified mice. ...
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