Myelination in the absence of myelin-associated glycoprotein.

The hypothesis that myelin-associated glycoprotein (MAG) initiates myelin formation is based in part on observations that MAG has an adhesive role in interactions between oligodendrocytes and neurons. Furthermore, the over- or underexpression of MAG in transfected Schwann cells in vitro leads to accelerated myelination or hypomyelination, respectively. Here we test this idea by creating a null mutation in the mag locus and deriving mice that are totally deficient in MAG expression at the RNA and protein level.

T-maze spontaneous alternation rate is decreased in S100 beta transgenic mice.

S100 beta, a calcium-binding brain specific protein, may affect both brain development and hippocampal long-term potentiation. S100 beta levels are elevated in Down syndrome (DS), and the gene for S100 beta is located on chromosome 21, which is duplicated in DS. To test the hypothesis that, elevated levels of S100 beta cause behavioral alterations in a mammalian system, 3 transgenic mouse lines with multiple copies of the human gene for S100 beta were derived and behaviorally tested.

Female specific hyperactivity in S100 beta transgenic mice does not habituate in open-field.

S100 beta, a calcium-binding brain specific protein, may affect brain development and long-term potentiation. Its gene maps to a region of chromosome 21 duplicated in Down's Syndrome (DS), and its levels are elevated in DS. To test the hypothesis that elevated S100 beta levels cause brain dysfunction in a mammalian system, transgenic mice carrying multiple copies of the human S100 beta gene have been generated and their locomotory patterns are analyzed in open field situations.

Female transgenic mice carrying multiple copies of the human gene for S100 beta are hyperactive.

Down syndrome (DS) (trisomy 21) is the most frequent genetic cause of mental retardation in man. The gene coding for the beta subunit of human S100 protein (S100 beta) has been mapped to chromosome 21. The dimeric form of S100 beta may function as a neurotrophic factor in the CNS and may also influence the establishment of hippocampal long-term potentiation (LTP).

Learning to find the opponent: an ethological analysis of the behavior of paradise fish (Macropodus opercularis) in intra- and interspecific encounters.

In Experiment 1, 15 behavior patterns of male paradise fish (Macropodus opercularis; n = 72) toward a male conspecific, a male of another species, or no stimulus were recorded, both in home and novel situations. In Experiment 2, the same behaviors were recorded in a runway, and the same stimuli were used as reinforcers in the goal box (n = 18). A typical learning curve was seen when the subject found a male paradise fish in the goal box, learning was followed by apparent extinction when another species was found in the goal box, and few signs of learning were seen when the goal box was empty.

Inheritance of species-specific behaviors in the paradise fish (Macropodus opercularis): a diallel study.

Species-specific elements of the paradise fish's ethogram were recorded in one familiar and three different unfamiliar environments, which were designed to model certain features of this species' natural habitat: (1) a densely vegetated home range, (2) a novel open field, (3) a small novel place, and (4) a small novel place with a predator. The inheritance of the behavioral elements was investigated employing a five-times-replicated diallel cross among three inbred strains. A detailed Hayman analysis of variance and a variance-covariance analysis were performed to uncover the genetic architectures of these phenotypes.

Genotype-environment interaction and the correlation structure of behavioral elements in paradise fish (Macropodus opercularis).

Three inbred strains and all their possible F1 crosses were monitored in one familiar and three unfamiliar situations. Their behavior was described by species-specific elements of the ethogram. Genetic variability was demonstrated both for behavioral elements and for factors extracted by Principal Components Analyses (PCA).

Diallel genetic analysis of the elements of paradise fish's (Macropodus opercularis L.) behavior in familiar and novel situations.

Elements of the paradise fish's ethogram were recorded in 1 familiar and 3 different unfamiliar situations and the inheritance of these behavioral elements was investigated employing a five times replicated diallel cross between 3 inbred strains. A generalized Hayman Analysis of Variance and a Variance Covariance Analysis were performed to estimate genetic effects and parameters, such as, additive genetic variance, different sorts of dominance variance, reciprocal effects, direction and degree of dominance, ratio between the frequency of dominant and of recessive alleles, minimum number of effective factors and heritabilities, etc. Knowing the genetic architecture, we make inferences about the possible evolutionary past of the behavioral elements and explain why selection might favor certain types of paradise fish's behavior in particular circumstances.

The behaviour of the paradise fish (Macropodus opercularis) in two different open-fields. A correlation study.

The behaviour of the paradise fish in a traditional "closed" and in a new "transparent" open-field was investigated. The traditional way of measuring ambulation scores was extended by recording ethologically defined behaviour units. The correlations found between the scores measured in the "closed" field and those measured in the "transparent" field are discussed in this paper.