Male mice, genetically selected for aggression, characterized by short attack latency (SAL) or long attack latency (LAL), differ on several testosterone (T)-related parameters during ontogeny and adult age. The variation in aggressive behavior at adult age may be due to differences in degree of androgenization prenatally. When exposed to T at prenatal, neonatal, and/or adult age, nonlactating females also display intraspecific fighting behavior. In the present study, we investigated in females of the SAL and LAL selection lines, whether the differentiation of aggression involves processes similar to ones seen in males. Therefore, we injected females with testosterone propionate (TP) or vehicle on the day of birth, treated them after ovariec...
The studies described in the present thesis were performed to investigate the interaction between ge...
Testosterone secretory capacity of testicular Leydig cells was determined in fetal males of an aggre...
The studies described in the present thesis were performed to investigate the interaction between ge...
Male mice, genetically selected for aggression, characterized by short attack latency (SAL) or long ...
Genetic differences in female house mice in aggressive r sponse tosex steroid hormone treatment. PHY...
Male mice, genetically selected for aggression, characterized by short attack latency (SAL) or long ...
Selection lines of mice, artificially selected for aggression based upon the attack latency score (A...
Selection lines of mice, artificially selected for aggression based upon the attack latency score (A...
An attempt was made to determine the role of the Y chromosome in the development of aggression in wi...
This paper reviews our present state of knowledge of genetic variation in (offensive) aggression in ...
Intersexual aggression was observed during an early experiment concerning the effects of XX male sex...
Testosterone secretory capacity of testicular Leydig cells was determined in fetal males of an aggre...
Testosterone (T) and estradiol (E(2)) are involved in intraspecific aggressive behavior. Both steroi...
The studies described in the present thesis were performed to investigate the interaction between ge...
Testosterone secretory capacity of testicular Leydig cells was determined in fetal males of an aggre...
The studies described in the present thesis were performed to investigate the interaction between ge...
Male mice, genetically selected for aggression, characterized by short attack latency (SAL) or long ...
Genetic differences in female house mice in aggressive r sponse tosex steroid hormone treatment. PHY...
Male mice, genetically selected for aggression, characterized by short attack latency (SAL) or long ...
Selection lines of mice, artificially selected for aggression based upon the attack latency score (A...
Selection lines of mice, artificially selected for aggression based upon the attack latency score (A...
An attempt was made to determine the role of the Y chromosome in the development of aggression in wi...
This paper reviews our present state of knowledge of genetic variation in (offensive) aggression in ...
Intersexual aggression was observed during an early experiment concerning the effects of XX male sex...
Testosterone secretory capacity of testicular Leydig cells was determined in fetal males of an aggre...
Testosterone (T) and estradiol (E(2)) are involved in intraspecific aggressive behavior. Both steroi...
The studies described in the present thesis were performed to investigate the interaction between ge...
Testosterone secretory capacity of testicular Leydig cells was determined in fetal males of an aggre...
The studies described in the present thesis were performed to investigate the interaction between ge...