From genes to aggressive behavior: the role of serotonergic system

Bioessays 28 (5):495-503 (2006)
  Copy   BIBTEX

Abstract

Recent investigations in neurogenomics have opened up new lines of research into a crucial genetic problem—the pathway from genes to behavior. This paper concentrates on the involvement of protein elements in the brain neurotransmitter serotonin (5‐HT) system in the genetic control of aggressive behavior. Specifically, it describes: (1) the effect of the knockout of MAO A, the principal enzyme in 5‐HT degradation, (2) the association of intermale aggression with the polymorphism in the Tph2 gene encoding the key enzyme in 5‐HT synthesis in the brain, tryptophan hydroxylase (TPH), and (3) the effect of selective breeding for nonaggressive behavior on 5‐HT metabolism, TPH activity and 5‐HT1A receptors in the brain. The review provides converging lines of evidence that: (1) brain 5‐HT contributes to a critical mechanism underlying genetically defined individual differences in aggressiveness, and (2) genes encoding pivotal enzymes in 5‐HT metabolism (TPH and MAO A), 5‐HT‐transporter, 5‐HT1A and 5‐HT1B receptors belong to a group of genes that modulate aggressive behavior. BioEssays 28: 495–503, 2006. © 2006 Wiley Periodicals, Inc.

Categories

Keywords

Reprint years

DOI

10.1002/bies.20412

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 91,881

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

A quantitative genetic approach to understanding aggressive behavior.Bart Kempenaers & Wolfgang Forstmeier - 2009 - Behavioral and Brain Sciences 32 (3-4):282-283.
Hubungan antara Rasa percaya diri Dan agresivitas pada atlet bola basket.Marko Santoso & Monty P. Satiadarma - 2010 - Phronesis (Misc) 7 (1).
Sex, gender, and difference.Victoria K. Burbank - 1992 - Human Nature 3 (3):251-277.
A general account of selection: Biology, immunology, and behavior.David L. Hull, Rodney E. Langman & Sigrid S. Glenn - 2001 - Behavioral and Brain Sciences 24 (3):511-528.
Genes versus Genomes: The Role of Genome Organization in Evolution.Ehud Lamm - 2010 - Dissertation, Tel Aviv University
Are Language Conventions Philosophically Explanatory?Adele Mercier - 2003 - Croatian Journal of Philosophy 3 (2):111-124.
Explaining gender differences in aggression: An ambitious but inconclusive attempt.Mary B. Harris - 1999 - Behavioral and Brain Sciences 22 (2):225-226.
Serotonin and affiliative behavior.Simon N. Young & D. S. Moskowitz - 2005 - Behavioral and Brain Sciences 28 (3):367-368.
Kinship asymmetries and the divided self.David Haig - 2008 - Behavioral and Brain Sciences 31 (3):271-272.
Genes, Genomes, and Genomics.Evelyn Fox Keller - 2011 - Biological Theory 6 (2):132-140.
Evolution, Genes, and Behavior.Ian Tattersall - 2001 - Zygon 36 (4):657-666.
Genes, behavior, and developmental emergentism: One process, indivisible?Kenneth F. Schaffner - 1998 - Philosophy of Science 65 (2):209-252.

Analytics

Added to PP
2013-11-23

Downloads
46 (#345,620)

6 months
6 (#520,848)

Historical graph of downloads
How can I increase my downloads?

Citations of this work

The nurture of nature: Hereditary plasticity in evolution.Ehud Lamm & Eva Jablonka - 2008 - Philosophical Psychology 21 (3):305 – 319.
Bridging the gap: The developmental aspects of evolution.Eva Jablonka & Marion J. Lamb - 2007 - Behavioral and Brain Sciences 30 (4):378-389.

Add more citations

References found in this work

A bigger mouse? The rat genome unveiled.John M. Hancock - 2004 - Bioessays 26 (10):1039-1042.

Add more references