The female phenotype: Nature's default?
- 1 January 1998
- journal article
- research article
- Published by Taylor & Francis in Developmental Neuropsychology
- Vol. 14 (2), 213-231
- https://doi.org/10.1080/87565649809540710
Abstract
Traditional mammalian developmental models focus on the presence or absence of testosterone as the critical factor differentiating males from females. In this view, a female phenotype occurs by default in the absence of masculinizing hormones. Accumulating evidence, however, suggests that ovarian hormones also play an important role in development of the female brain. The existence of an active ovarian influence on female development (which supplements passive feminization via the absence of testosterone) changes our assumptions and ideas about sexual differentiation and has important theoretical and scientific implications for the study of behavioral similarities and differences between the sexes, and their neural substrates.Keywords
This publication has 92 references indexed in Scilit:
- Oral contraceptive use affects manual praxis but not simple visually guided movementsDevelopmental Neuropsychology, 1998
- A reexamination of the visuospatial deficit in turner syndrome: Contributions of working memoryDevelopmental Neuropsychology, 1998
- Spatial reasoning in children with congenital adrenal hyperplasia due to 21‐hydroxylase deficiencyDevelopmental Neuropsychology, 1998
- Absence of postnatal testosterone fails to demasculinize the male rat's corpus callosumDevelopmental Brain Research, 1996
- Lack of activational influence of ovarian hormones on the size of the female rat's corpus callosumPhysiology & Behavior, 1996
- Prepubertal testosterone treatment of neonatally gonadectomized male rats: Defeminization and masculinization of behavioral and endocrine function in adulthoodNeuroscience & Biobehavioral Reviews, 1995
- A developmental study of sex and age interactions in the human corpus callosumDevelopmental Brain Research, 1992
- Changes in alpha-fetoprotein and albumin synthesis rates and their levels during fetal and neonatal development of rat brainDevelopmental Brain Research, 1983
- Ontogeny and distribution of alpha-fetoprotein in feto-neonatal rat brainDevelopmental Brain Research, 1981
- Differential effects of testosterone metabolites in the neonatal period on open-field behavior and lordosis in the ratHormones and Behavior, 1979