А. В. Куликов scite author profile

The brain neurotransmitter serotonin is involved in the regulation of aggressive behavior. The main factor determining the brain serotonin level is the activity of the rate‐limiting enzyme in the biosynthesis of the neurotransmitter – tryptophan hydroxylase isoform (TPH) 2 encoded by the Tph2 gene. Recently the C1473G single‐nucleotide polymorphism in the Tph2 gene was reported. Here we study the C1473G polymorphism in 10 inbred mouse strains (C57BL/6J, AKR/J, DD/He, C3H/HeJ, YT/Y, BALB/cJLac, CC57BR/Mv and A/He) and demonstrate the association of the polymorphism with brain TPH activity and intermale aggressiveness. TPH activity in the midbrain of mice homozygous for the 1473C allele was higher than that in mice carrying 1473G alleles. A close association of the 1473C allele with increased number of attacks towards another male was found. The results support a link between the C1473G polymorphism in Tph2 gene, trypthophan hydroxylase activity and intensity of intermale aggression.

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The use of spin relaxation phenomena in the investigation of the structure of model and biological systems by the method of spin labels

Куликов

Likhtenstein

1977

Advances in Molecular Relaxation and Interaction Processes

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Evidence for the involvement of central serotonin in mechanism of domestication of silver foxes

Попова

Voitenko

Куликов

et al. 1991

Pharmacology Biochemistry and Behavior

116

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Photoswitchable organic field-effect transistors and memory elements comprising an interfacial photochromic layer

Frolova¹,

Susarova²,

Куликов³

et al. 2015

Chem. Commun.

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Optical memory elements based on photoswitchable organic field-effect transistors have been designed by using an interfacial layer of photochromic spirooxazine molecules sandwiched between semiconductor and dielectric layers. Optical and electrical programming of the designed devices leads to multiple discrete states demonstrating drastically different electrical characteristics (VTH, IDS) and advanced stability.

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Multidimensional Coherent and Convex Risk Measures

Куликов¹

2008

Theory Probab. Appl.

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Automated measurement of spatial preference in the open field test with transmitted lighting

Куликов¹,

Tikhonova²,

Куликов³

2008

Journal of Neuroscience Methods

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C1473G polymorphism in mouse tph2 gene is linked to tryptophan hydroxylase‐2 activity in the brain, intermale aggression, and depressive‐like behavior in the forced swim test

Osipova

Куликов

Попова

2008

J of Neuroscience Research

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Tryptophan hydroxylase-2 (TPH2) is the rate-limiting enzyme of brain serotonin synthesis. The C1473G polymorphism in the mouse tryptophan hydroxylase-2 gene affects the enzyme's activity. In the present study, we investigated the linkage between the C1473G polymorphism, enzyme activity in the brain, and behavior in the forced swim, intermale aggression, and open field tests using mice of the C57BL/6 (C/C) and CC57BR/Mv (G/G) strains and the B6-1473C (C/C) and B6-1473G (G/G) lines created by three successive backcrossings on C57BL/6. Mice of the CC57BR/Mv strain had decreased brain enzyme activity, aggression intensity, and immobility in the forced swim test, but increased locomotor activity and time spent in the central part of the open field arena compared with animals of the C57BL/6 strain. Mice of the B6-1473G line homozygous for the 1473G allele had lower TPH2 activity in the brain, aggression intensity, and immobility time in the forced swim test compared with animals of the B6-1473C line homozygous for the 1473C allele. No differences were found between the B6-1473G and B6-1473C mice in locomotor activity and time spent in the central part of the arena in the open field test. Thus, the C1473G polymorphism is involved in the determination of TPH2 activity and is linked to aggression intensity and forced-swim immobility in mice. At the same time, the polymorphism does not affect locomotion and anxiety-related behavior in the open field test. The B6-1473C and B6-1473G mice represent a valuable experimental model for investigating molecular mechanisms of serotonin-related behavior.

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