Формирование индивидуального опыта и его нейрогенетическое обеспечение: Экспрессия гена c-fos
Диссертация
В многочисленных исследованиях было показано, что научение сопровождается изменениями в экспрессии генов, которые приводят к морфологическим изменениям мозга (Abel & Lattal, 2001; Kandel, 2001). Первым этапом каскада таких изменений является экспрессия ранних генов, и в частности, раннего гена c-fos (Анохин, 1997). Экспрессия ранних генов обнаруживается в разнообразных моделях научения… Читать ещё >
Список литературы
- Абрамова А.Б., Анохин К. В. Индукция гена c-fos в мозге цыплят при зрительном импринтинге // Журн. ВНД. 1997. — Т. 47. — Вып.4. — С. 766−770.
- Александров И.О., Максимова Н. Е. Научение // Психология сегодня. М.: Инфра-М, 1997.
- Александров Ю.И. Психофизиологическое значение активности центральных и периферических нейронов в поведении. М.: Наука, 1989.
- Александров Ю.И., Гринченко Ю. В. Иерархическая организация элементарного поведенческого акта // Системные аспекты нейрофизиологии поведения. М.: Наука, 1979.-С. 170−234.
- Александров Ю.И., Гринченко Ю. В. Иерархическая организация физиологических субсистем и нейрональная активность в пищедобывательном поведенческом акте // Нейрофизиологические механизмы поведения. М., 1982.
- Александров Ю.И., Корпусова А. В., Гринченко Ю. В., Мац В.Н., Лаукка С., Ярвилехто Т. Морфологические изменения и реорганизация активности нейронов коры в поведении хронически алкоголизированных кроликов // Журн. ВНД. 1994. — Т. 44. -С. 1084−1092.
- Анохин К.В. Генные зонды для картирования нервных сетей при обучении // Принципы и механизмы деятельности мозга человека. Л.: Наука, 1989. — С. 191−192.
- Анохин К.В. Молекулярные сценарии консолидации долговременной памяти // Журн. ВИД. 1997. — Т. 47. — Вып.2. — С. 261−279.
- Анохин К.В., Судаков К. В. Системная организация поведения: Новизна как ведущий фактор экспрессии ранних генов в мозге при обучении II Успехи физиологических наук. 1993. — Т. 24. — № 3. — С. 53−70.
- Анохин П.К. Проблемы высшей нервной деятельности. М.: АМН СССР, 1949.
- Анохин П.К. Системный анализ интегративной деятельности нейрона //Успехи физиологических наук. 1974. — Т. 5. — С. 5−92.
- Анохин П.К. Узловые механизмы функциональной системы как аппарата саморегуляции II Очерки по физиологии функциональных систем. М.: Медицина, 1975.-С. 307−322.
- Безденежных Б.Н. Активность корковых нейронов в пищедобывательном поведении при микроионофоретическом подведении к ним ацетилхолина и L-глютамата // Журн. ВНД. 1983. — Т. 33. — Вып.З. — С. 500−507.
- Беритов И.С. Структурные и функциональные основы психической деятельности. М.: Изд-во АН СССР, 1963.
- Бехтерев В.М. Обоснование объективной психологии // Проблемы развития и воспитания человека. М.: Издательство «Институт практической психологии», Воронеж: НПО «МОДЭК», 1997. — С. 35−96.
- Бобровников Л.В. Исследование корковых нейронов методом микроионофореза, управляемого нейронной активностью // Журн. ВНД. 1986. — Т. 36. — Вып.5. — С. 975 977.
- Брушлинский А.В. Проблемы психологии субъекта. М., 1994.
- Брушлинский А.В., Сергиенко Е. А. Ментальная репрезентация как системная модель в когнитивной психологии // Ментальная репрезентация: Динамика и структура. М.: Издательство «Институт психологии РАН», 1998. — С. 5−22.
- Гальперин П.Я. Методы обучения и умственное развитие ребенка. М., 1985.
- Горкин А.Г. Специализация нейронов в обучении: Автореф. дис. канд. псих, наук. М., 1988.-24 с.
- Горкин А.Г., Шевченко Д. Г. Стабильность поведенческой специализации нейронов Н Журн. ВНД. 1990. — Т. 40. — Вып.2. — С. 291−300.
- Горкин А.Г., Шевченко Д. Г. Отражение структуры памяти в активности системоспецифичных нейронов // Психологический журнал. 1991. — Т. 12. — № 2. — С. 60−69.
- Горкин А.Г., Шевченко Д. Г. Отражение истории обучения в активности нейронов лимбической коры кроликов //Журн. ВНД. 1993. — Т. 43. — Вып.1. — С. 172−175.
- Давыдов В.В. Виды обобщения в обучении. М.: Педагогика, 1972.
- Иоффе М.Е. Кортико^спинальные механизмы инструментальных двигательных реакций. М.: Наука, 1975.
- Котляр Б.И. Нейробиологические основы обучения. М.: Наука, 1989. — 240 с.
- Крик Ф. Мысли о мозге // Мозг. М.: Мир, 1982.
- Куман Э.А., Латаш Л. П. Полифункциональный характер ответов одиночных нейронов зрительной коры бодрствующей крысы на вспышки света // Нейрофизиология. 1970. — Т. 2. — № 3. — С. 242−250.
- Лурия А.Р. Высшие корковые функции человека. М.: Издательство МГУ, 1969.
- Малеева Н.Е., Иволгина Г. Л., Анохин К. В., Лимборская С. А. Анализ экспрессии протоонкогена c-fos в коре головного мозга крыс при обучении // Генетика. 1989. — Т. 25.-№ 6.-С. 1119−1121.
- Найссер У. Познание и реальность: смысл и принципы когнитивной психологии. -М&bdquo- 1980.
- Павлов И.П. Избранные произведения. М.: Издательство АН СССР, 1949.639 с.
- Равич-Щербо И. В. Исследования по психогенетике человека // Вопросы психологии. 1972. -Т.2. — С. 178−187.
- Толмен Э. Когнитивные карты у крыс и у человека // Хрестоматия по истории психологии. М.: МГУ, 1980. — С. 63−82.
- Швырков В.Б. Нейрофизиологическое изучение системных механизмов поведения. М.: Наука, 1978. — 240 с.
- Швырков В.Б. Цель как системообразующий фактор в поведении и обучении //
- Нейрофизиологические механизмы поведения. М., 1982.
- Швырков В.Б. Психофизиологическое изучение структуры субъективного отражения // Психологический журнал. 1985. — Т. 6. — № 3. — С. 22−37.
- Швырков В.Б. Основные этапы развития системно-эволюционного подхода в психофизиологии // Психологический журнал. 1993. — Т. 14. — № 3. — С. 15−27.
- Швырков В.Б. Введение в объективную психологию: Нейрональные основы психики. М.: Институт психологии РАН, 1995. — 162 с.
- Швыркова Н.А. Активность нейронов коры и гиппокампа в обучении // Нейроны в поведении: системные аспекты. М.: Наука, 1986. — С. 253−270.
- Шерстнев В.В. Нейрохимическая характеристика «молчащих» нейронов коры мозга //Доклады Академии наук СССР. 1972. — Т. 202. — № 6. — С. 1473−1476.Г
- Экспериментальная психология. М.: Прогресс, 1973. — 342 с.
- Юнг К. Г. Проблемы души нашего времени. М.: Прогресс, 1996. — 336 с.
- Abel, Т., Lattal, К.М. Molecular mechanisms of memory acquisition, consolidation and retrieval // Curr Opin Neurobiol. 2001. — V. 11. — P. 180−187.
- Abraham, W.C., Goddard, G.V. Asymmetric relationship between homosynaptic long-term potentiation and heterosynaptic long-term depression // Nature. 1983. — V. 305. — P. 717−719.
- Aitkin, L.M., Moore, D.R. Inferior colliculus. II. Development of tuning characteristics and tonotopic organization in central nucleus of the neonatal cat // J Neurophysiol. 1975. -V. 38.-P. 1208−1216.
- Alexandrov, Yu.l., Grinchenko, Yu.V., Averkin, R.G., Shevchenko, D.G. Relationship of neuronal basis of premorbid food-acquisition (FA) and alcohol-acquisition behaviour (AA) // Behav Pharmacol. 1998. — V. 9. — P. 11.
- Alexandrov, Yu.l., Grinchenko, Yu.V., Bodunov, M.V., Maz, V.N., Korpusova, A.V., Laukka, S., Sams, M. Neuronal subserving of behavior before and after chronic ethanol treatment // Alcohol. 2000. — V. 22. — P. 97−106.
- Alexandrov, Yu.l., Grinchenko, Yu.V., Laukka, S., Jarvilehto, Т., Maz, V.N., Korpusova, A.V. Effect of ethanol on hippocampal neurons depends on their behavioral specialization // Acta Physiol Scand. 1993. — V. 149. — P. 105−115.
- Anokhin, K.V., Mileusnic, R., Shamakina, I.Y., Rose, S.P.R. Effects of early experience on c-fos gene expression in the chick forebrain // Brain Res. 1991. — V. 544. -C. 101−107.
- Anokhin, K.V., Rose, S.P.R. Learning-induced increase of immediate early gene messenger RNA in the chick forebrain // Eur J Neurosci. 1991. — V. 3. — P. 162−167.
- Araki, C.M., Hamassaki-Britto, D.E. Motion-sensitive neurons in the chick retina: a study using Fos immunohistochemistry // Brain Research. 1998. — V. 794. — P. 333−337.
- Badiani, A., Oates, M.M., Day, H.E.W., Watson, S.J., Akil, H., Robinson, Т.Е. Amphetamine-induced behavior, dopamine release, and c-fos mRNA expression: Modulation by environmental novelty // J Neurosci. 1998. — V. 18. — P. 10 579−10 593.
- Bailey, C.H., Kandel, E.R. Structural changes accompanying memory storage II Annu Rev Physiol. 1993. — V. 55. — P. 397−426.
- Bartel, D.P., Sheng, M., Lau, L.F., Greenberg, M.E. Growth factors and membrane depolarization activate distinct programs of early response gene expression: Dissociation of fos and jun induction // Genes and Development. 1989. -V. 3. — P. 304−313.
- Bartels, A., Zeki, S. The neural basis of romantic love // Neuroreport. 2000. — V. 11. — P. 3829−3834.
- Beck, C.H.M., Fibiger, H.C. Conditioned fear-induced changes in behavior and in the expression of the immediate early gene c-fos: With and without diazepam pretreatment II J Neurosci. 1995. — V. 15. — P. 709−720.
- Berretta, S., Parthasarathy, H.B., Graybiel, A.M. Local release of GABAergic inhibition in the motor cortex induces immediate-early gene expression in indirect pathway neurons of the striatum // J Neurosci. 1997. — V. 17. — P. 4752−4763.
- Berridge, M. Second messenger dualism in neuromodulation and memory // Nature. -1986. V. 323. — P. 294−295.
- Bertaina, V., Destrade, C. Differential time courses of c-fos mRNA expression inhippocampal subfields following acquisition and recall testing in mice // Cognitive Brain Res. 1995. — V. 2. — C. 269−275.
- Bialy, M., Nikolaev, E., Beck, J., Kaczmarek, L. Delayed c-fos expression in sensory cortex following sexual learning in male rats II Mol Brain Res. 1992. — V. 14. — P. 352−356.
- Black, I.В., Adler, J.E., Dreyfus, C.F., Friedman, W.F., LaGamma, E.F., Roach, A.H. Biochemistry of information storage in the nervous system // Science. 1987. — V. 236. — P. 1263−1268.
- Bliss, T.V.P., Collingridge, G.L. A synaptic model of memory: Long-term potentiationfin the hippocampus // Nature. 1993. -V. 361. — P. 31−39.
- Bontempi, В., Sharp, F.R. Systemic morphine-induced Fos protein in the rat striatum and nucleus accumbens is regulated by fj opioid receptors in the substantia nigra and ventral tegmental area // J Neurosci. 1997. — V. 17. — P. 8596−8612.
- Boyle, W.J., Lampert, M.A., Lipsick, J.S., Baluda, M.A. Avian myeloblastosis virus and E26 virus oncogene products are nuclear proteins II PNAS. 1984. — V. 81. — P. 4265−4269.
- Bradford, C.M., McCabe, B.J. Neuronal activity related to memory in the intermediate and medial part of the hyperstriatum ventrale of the chick brain // Brain Res. 1994. — V. 640.-P. 11−16.
- Brown, M.W., Horn, G. Learning-related alterations in the visual responsiveness of neurons in a memory system of the chick brain // Eur J Neurosci. 1994. — V. 6. — P. 1479-f 1490.
- Brown, M.W., Wilson, F.A.W., Riches, I.P. Neuronal evidence that inferomedial temporal cortex is more important than hippocampus in certain processes underlying recognition memory// Brain Res. 1987. -V. 409. — P. 158−162.
- Buser, P., Kitakis, A., Weisendanger, M. Modulation of visual input to single neurons of the motor cortex by the primary visual area in the cat // Brain Res. 1968. — V. 10. — P. 262−265.
- Cahusac, P.M.В., Rolls, E.T., Miyashita, Y., Niki, H. Modification of the responses of hippocampal neurons in the monkey during the learning of a conditional spatial response task // Hippocampus. 1993. — V. 3. — P. 29−42.
- Calamandrei, G., Keverne, E.B. Differential expression of Fos protein in the brain of female mice dependent on pup sensory cues and maternal experience // Behav Neurosci. -1994.-V. 108.-P. 113−120.
- Campeau, S., Hayward, M.D., Hope, B.T., Rosen, J.В., Nestler, E.J., Davis, M. Induction of the c-fos proto-oncogene in rat amygdala during unconditioned and conditioned fear // Brain Res. 1991. — V. 565. — P. 349−352.
- Carretta, D., Herve-Minvielle, A., Bajo, V.M., Villa, A.E.P., Rouiller, E.M. c-Fos expression in the auditory pathways related to the significance of acoustic signals in rats performing a sensory-motor task // Brain Res. 1999. — V. 841. — P. 170−183.
- Carrive, P., Kehoe, E.J., Macrae, M., Paxinos, G. Fos-like immunoreactivity in locus coeruleus after classical conditioning of the rabbit’s nictitating membrane response // Neuroscience Lett. 1997. -V. 223. — P. 33−36.
- Carson, R.G., Riek, S. Changes in muscle recruitment patterns during skill acquisition // Exp Brain Res. 2001. — V. 138. — P. 71 -87.
- Castro-Alamancos, M.A., Borrell, J., Garcia-Segura, L.M. Performance in an escapetask induces Fos-like immunoreactivity in a specific area of the motor cortex of the rat //
- Neuroscience. 1992. -V. 49. — P. 157−162.
- Caubet, J.-F. c-fos proto-oncogene expression in the nervous system during mousedevelopment // Mol Cell Biol. 1989. — V. 9. — P. 2269−2272.
- Chang, F.C.T., Scott, T.R. Conditioned taste aversions modify neural responses in therat nucleus tractus solitarius // J Neurosci. 1984. — V. 4. — P. 1850−1862.
- Chang, J.Y., Chen, L., Luo, F., Shi, L.H., Woodward, D.J. Neuronal responses in the frontal cortico-basal ganglia system during delayed matching-to-sample task: ensemble recording in freely moving rats // Exp Brain Res. 2002. — V.142. — P.67−80.
- Chang, J., Sawyer, S.F., Lee, R.S., Woodward, D.J. Electrophysiological andpharmacological evidence for the role of the nucleus accumbens in cocaine selfadministration in freely moving rats IIJ Neurosci. 1994. — V. 14. — P. 1224−1244.
- Clayton, D.F. The genomic action potential // Neurobiology of Learning and Memory.-2000.-V. 74.-P. 185−216.
- Cochran, B.H., Reffel, A.C., Stiles, C.D. Molecular cloning of gene sequencesregulated by platelet-derived growth factor// Cell. 1983. -V. 33. — P. 939−947.
- Cochran, B.H., Zullo, J., Verma, I.M., Stiles, C.D. Expression of the c-fos gene andfos-related gene is stimulated by platelet-derived growth factor II Science. 1984. — V. 226.-P. 1080−1082.
- Curran, Т., Franza, B.R.Jr. Fos and Jun: The AP-1 connection II Cell. 1988. — V. 55. — P. 395−397.
- Curran, Т., Miller, A.D., Zokas, L., Verma, I.M. Viral and cellular fos proteins: A comparative analysis // Cell. 1984. — V. 36. — P. 259−268.
- Curran, Т., Morgan, J.I. Superinduction of c-fos by nerve growth factor in the presence of peripherally active benzodiazepines // Science. 1985. — V. 229. — P. 12 651 268.
- Curran, Т., Morgan, J.I. Barium modulates c-fos expression and post-translational modification // PNAS. 1986. -V. 83. — P. 8521−8524.
- Curran, Т., Morgan, J.I. Memories of fos II BioEssays. 1987. — V. 7. — P. 255−258.
- Curran, Т., Van Beveren, C., Ling, N., Verma, I.M. Viral and cellular fos proteins are complexed with a 39,000-dalton cellular protein // Molecular and Cellular Biology. 1985. -V. 5.-P. 167−172.
- Da Costa, A.P.S., Broad, K.D., Kendrick K.M. Olfactory memory and maternal behavior-induced changes in c-fos and zif/268 mRNA expression in the sheep brain // Mol Brain Res. 1997. — V. 46. — P. 63−76.
- Davis, H.P., Squire, L.R. Protein synthesis and memory: A review II Psychological Bulletin. 1984. — V. 96. — P. 518−559.
- Demmer, J., Dragunow, M., Lawlor, P.A., Mason, S.E., Leah, J.D., Abraham, W.C. Tate, W.P. Differential expression of immediate early genes after hippocampal long-term potentiation in awake rats II Mol Brain Res. 1993. — V. 17. — P. 279−286.
- Distel, R.J., Ro, H.-S., Rosen, B.S., Groves, D.L., Spiegelman, B.M. Nucleoprotein complexes that regulate gene expression in adipocyte differentiation: Direct participation of c-fos II Cell. 1987. — V. 49. — P. 835−844.
- Douglas, R.M., Dragunow, M., Robertson, H.A. High-frequency discharge of dentate granule cells, but not long-term potentiation, induces c-fos protein // Molecular Brain Research. 1988. -V. 4. — P. 259−262.
- Dragunow, M., Abraham, W.C., Goulding, M., Mason, S.E., Robertson, H.A., Faull, R.L.M. Long-term potentiation and the induction of c-fos mRNA and proteins in the dentate gyrus of unanesthetized rats // Neurosci Lett. 1989. — V. 101. — P. 274−280.
- Dragunow, M., de Castro, D., Faull, R.L.M. Induction of Fos in glia-like cells after focal brain injury but not during wallerian degeneration // Brain Res. 1990a. — V. 527. — P. 41−54.
- Dragunow, M., Goulding, M., Faull, R.L.M., Ralph, R., Мее, E., Frith, R. Induction of c-fos mRNA and protein in neurons and glia after traumatic brain injury: Pharmacological characterization II Exp Neurology. 1990b. — V. 107. — P. 236−248.
- Dragunow, M., Faull, R.L.M. MK801 induces c-fos protein in thalamic and neocortical neurons of rat brain // Neurosci Lett. 1990. -V. 113. — P. 144−150.
- Dragunow, M., Faull, R.L.M., Jarsen, K.L.R. MK-801, an antagonist of NMDA receptors, inhibits injury-induced c-fos protein accumulation in rat brain // Neurosci Lett. -1990c. -V. 109.-P. 128−133.
- Dragunow, M., Robertson, H.A. Kindling stimulation induces c-fos protein (s) in granule cells of the rat dentate gyrus // Nature. 1987. — V. 329. — P. 441−442.
- Dragunow, M., Robertson, H.A. Localization and induction of c-fos protein-like immunoreactive material in the nuclei of adult mammalian neurons // Brain Research. -1988a. V. 440. — P. 252−260.
- Dragunow, M., Robertson, H.A. Brain injury induces c-fos protein (s) in nerve and glial-like cells in adult mammalian brain // Brain Res. 1988b. — V. 455. — P. 295−299.
- Edelman, G.M. Neural Darwinism: The theory of neuronal group selection. Oxford University Press, 1989.
- Ehret, G., Fischer, R. Neuronal activity and tonotopy in the auditory system visualized by c-fos gene expression // Brain Res. 1991. — V. 567. — P. 350−354.
- Eilam, D., Golani, I, Home base behavior of rats (Rattus norvegicus) exploring a novel environment // Behavioral Brain Res. 1989. — V. 34. — P. 199−211.
- Esser, K.H., Condon, C.J., Suga, N., Kanwal, J.S. Syntax processing by auditory cortical neurons in the FM-FM area of the mustached bat Pteronotus parnellii II PNAS. -1997. V. 94. — P. 14 019−14 024.
- Favorov, O., Whitsel, B.L. Spatial organization of the peripheral input to area 1 cell columns: I. The detection of «segregates» // Brain Res Rev. 1988. -V. 13. — P. 25−42.
- Filipkowski, R.K., Rydz, M., Berdel, В., Morys, J., Kaczmarek, L. Tactile experience induces c-fos expression in rat barrel cortex // Learn Mem. 2000. — V. 7. — P. 116−122.
- Franza, B.R.Jr., Rauscher III, F.J., Josephs, S.F., Curran, T. The Fos complex and Fos-related antigens recognize sequence elements that contain AP-1 binding sites // Science. 1988. — V. 239. — P. 1150−1153.
- Fregnac, Y., Shulz, D., Thorpe, S., Bienenstock, E. Cellular analogs of visual cortical epigenesis. I. Plasticity of orientation selectivity // J Neurosci. 1992. — V. 12. — P. 12 801 300.
- Gandolfo, F., Li, C.-S.R., Benda, B.J., Padoa Schioppa, C., Bizzi, E. Cortical correlates of learning in monkeys adapting to a new dynamical environment // Proc Natl Acad Sci. 2000. — V. 97. — P. 2259−2263.
- Goelet, P., Castellucci, V.F., Schacher, S., Kandel, E.R. The long and the short of long-term memory a molecular framework II Nature. — 1986. — V. 322. — P. 419−422.
- Gorkin, A.G., Shevchenko, D.G. The stability of units behavioral specialization // Neurosci Behav Physiol. 1991. — V. 21. — P. 222−229.
- Graybiel, A.M., Moratalla, R., Robertson, H.A. Amphetamine and cocaine induce drug-specific activation of the c-fos gene in striosome-matrix compartments and limbic subdivisions of the striatum II PNAS. 1990. -V. 87. — P. 6912−6916.
- Greenberg, M.E., Greene, L.A., Ziff, E.B. Nerve growth factor and epidermal growth factor induce rapid transient changes in proto-oncogene transcription in PC12 cells // The Journal of Biological Chemistry. 1985. -V. 260. — P. 14 101−14 110.
- Greenberg, M.E., Ziff, E.B. Stimulation of 3T3 cells induces transcription of the c-fos proto-oncogene II Nature. 1984. — V. 311. — P. 433−437.
- Greenberg, M.E., Ziff, E.B., Greene, L.A. Stimulation of neuronal acetylcholine receptors induces rapid gene transcription // Science. 1986. — V. 234. — P. 80−83.
- Grimm, R., Tischmeyer, W. Complex patterns of immediate early gene induction in rat brain following brightness discrimination training and pseudotraining // Beh Brain Res. -1997.-V. 84.-P. 109−116.
- Gubits, R.M., Smith, T.M., Fairhurst, J.L., Yu, H. Adrenergic receptors mediate changes in c-fos mRNA levels in brain // Mol Brain Res. 1989. — V. 6. — P. 39−45.
- Guthrie, K.M., Anderson, A.J., Leon, M., Gall, C. Odor-induced increases in c-fos mRNA expression reveal an anatomical «unit» for odor processing in olfactory bulb // PNAS. 1993. — V. 90. — P. 3329−3333.
- Guzowski, J.F., Setlow, В., Wagner, E.K., McGaugh, J.L. Experience-dependent gene expression in the rat hippocampus after spatial learning: A comparison of the immediate-early genes Arc, c-fos, and zif268 IIJ Neurosci. 2001. — V. 21. — P. 5089−5098.
- Halazonetis, T.D., Georgopoulos, K., Greenberg, M.E., Leder, P. c-Jun dimerizes with itself and c-Fos, forming complexes of different DNA binding affinities // Cell. 1988. — V. 55. -P. 917−924.
- Handa, R.J., Nunley, K.M., Bollnow, M.R. Induction of c-fos mRNA in the brain and anterior pituitary gland by a novel environment // NeuroReport. 1993. — V. 4. — P. 10 791 082.
- Hasselmo, M.E., Rolls, E.T., Baylis, G.C. The role of expression and identity in the face-selective responses of neurons in the temporal visual cortex of the monkey // Beh Brain Res. 1989. — V. 32. — P. 203−218.
- Herrera, D.G., Figueiredo, B.F., Cuello, A.C. Differential regulation of c-fos expression after cortical brain injury during development // Dev Brain Res. 1993. — V. 76. — P. 79−85.
- Hess, U.S., Lynch, G., Gall, C.M. Changes in c-fos mRNA expression in rat brain during odor discrimination learning: Differential involvment of hippocampal subfields CA1 and CA3 // J Neurosci. 1995a. — V. 15. — P. 4786−4795.
- Hess, U.S., Lynch, G., Gall, C.M. Regional patterns of c-fos mRNA expression in rat hippocampus following exploration of a novel environment versus performance of a well-learned discrimination // J Neurosci. 1995b. -V. 15. — P. 7796−7809.
- Heurteaux, C., Messier, C., Destrade, C., Lazdunski, M. Memory processing and apamin induce immediate early gene expression in mouse brain // Mol Brain Res. 1993. -V. 3. — P. 17−22.
- Hockfield, S. Selected methods for antibody and nucleic acid probes. Plainview, N.Y.: Cold Spring Harbor Laboratory Press, 1993. — 659 pgs.
- Horn, G" Nicol, A.U., Brown, M.W. Tracking memory’s trace II PNAS. 2001. — V. 98. — P. 5282−5287.
- Houpt, T.A., Philopena, J.M., Wessel, T.C., Joh, Т.Н., Smith, G.P. Increased c-fos expression in nucleus of the solitary tract correlated with conditioned taste aversion to sucrose in rats // Neurosci Lett. 1994. — V. 172. — P. 1−5.
- Hubel, D. & Wiesel, T. Receptive fields of single neurons in the cat’s striate cortex // J Physiol. 1959. — V. 148. — P. 579−596.
- Hughes, P., Beilharz, E., Gluckman, P., Dragunow, M. Brain-derived neurotrophic factor is induced as an immediate early gene following N-methyl-D-aspartate receptor activation // Neuroscience. 1993. — V. 57. — P. 319−328.
- Jasmin, L., Gogas, K.R., Ahlgren, S.C., Levine, J.D., Basbaum, A.I. Walking evokes a distinctive pattern of Fos-like immunoreactivity in the caudal brainstem and spinal cord of the rat I/ Neuroscience. 1994. — V. 58. — P. 275−286.
- Jog, M.S., Kubota, K., Connolly, C.I., Hillegaart, V., Graybiel, A.M. Building neural representations of habits // Science. 1999. — V. 286. — P. 1745−1749.
- Johnson, R.S., Spiegelman, B.M., Papaioannou, V. Pleiotropic effects of a null mutation in the c-fos proto-oncogene // Cell. 1992. — V. 71. — P. 577−586.
- Jorgensen, M.B., Deckert, J., Wright, D.C., Gehlert, D.R. Delayed c-fos proto-oncogene expression in the rat hippocampus induced by transient global cerebral ischemia: an in situ hybridization study // Brain Res. 1989. — V. 484. — P. 393−398.
- Kaczmarek, L., Kaminska, B. Molecular biology of cell activation // Exp Cell Res. -1989.-V. 183.-P. 24−35.
- Kaczmarek, L., Nikolajew, E. C-Fos protooncogene expression and neuronal plasticity // Acta Neurobiol Exp. 1990. — V. 50. — P. 173−179.
- Kaczmarek, L., Siedlecki, J.A., Danysz, W. Proto-oncogene c-fos induction in rat hippocampus // Mol Brain Res. 1988. — V. 3. — P. 183−186.
- Kandel, E.R. The molecular biology of memory storage: A dialogue between genes and synapses // Science. 2001. — V.294. — P. 1030−1038.
- Kandiel, A., Chen, S., Hillman, D.E. c-fos gene expression parallels auditory adaptation in the adult rat II Brain Research. 1999. — V. 839. — P. 292−297.
- Kasik, J.W., Wan, Y.-J. Y., Ozato, K. A burst of c-fos gene expression in the mouse occurs at birth // Mol Cell Biol. 1987. — V. 7. — P. 3349−3352.
- Kelly, K., Cochran, B.H., Stiles, C.D., Leder, P. Cell-specific regulation of the c-myc gene by lymphocyte mitogens and platelet-derived growth factor // Cell. 1983. — V. 35. — P. 603−610.
- Kendrick, K.M., Levy, F., Keverne, E.B. Changes in the sensory processing of olfactory signals induced by birth in sheep // Science. 1992. — V. 256. — P. 833−836.
- Kerr, J.E., Beck, S.G., Handa, R.J. Androgens selectively modulate c-fos messenger RNA induction in the rat hippocampus following novelty // Neuroscience. 1996. — V. 74. -P. 757−766.
- Kimpo, R.R., Doupe, A.J. FOS is induced by singing in distinct neuronal populations in a motor network // Neuron. 1997. — V. 18. — P. 315−325.
- Kleim, J.A., Lussnig, E., Schwarz, E.R., Comery, T.A., Greenough, W.T. Synaptogenesis and FOS expression in the motor cortex of the adult rat after motor skill learning // J Neurosci. 1996. -V. 16. — P. 4529−4535.
- Kouzarides, Т., Ziff, E. The role of the leucine zipper in the fos-jun interaction // Nature. 1988. -V. 336. — P. 646−651.
- Kruijer, W., Cooper, J.A., Hunter, Т., Verma, I.M. Platelet-derived growth factor induces rapid but transient expression of the c-fos gene and protein // Nature. 1984. — V. 312.-P. 711−716.
- Kruijer, W., Schubert, D., Verma, I.M. Induction of the proto-oncogene fos by nerve growth factor // PNAS. 1985. — V. 82. — P. 7330−7334.
- Mack, K.J., Mack, P.A. Induction of transcription factors in somatosensory cortex after tactile stimulation // Mol Brain Res. 1992. -V. 12. — P. 141−147.
- Margoliash, D. Acoustic parameters underlying the responses of song-specific neurons in the white-crowned sparrow // J Neurosci. 1983. — V. 3. — P. 1039−1057.
- Margoliash, D. Preference for autogenous song by auditory neurons in a song system nucleus of the white-crowned sparrow // J Neurosci. 1986. — V. 6. — P. 1643−1661.
- Mason, R.J., Rose, S.P.R. Lasting changes in spontaneous multi-unit activity in the chick brain following passive avoidance training II Neuroscience. 1987. — V. 21. — P. 931 941.
- Mason, R.J., Rose, S.P.R. Passive avoidance learning produces focal elevation of bursting activity in the chick brain: Amnesia abolishes the increase // Beh and Neural Biol. -1988.-V. 49.-P. 280−292.
- McCabe, B.J., Horn, G. Learning-related changes in Fos-like immunoreactivity in the chick forebrain after imprinting // PNAS. 1994. — V. 91. — P. 11 417−11 421.
- Melia, K.R., Ryabinin, A.E., Corodimas, K.P., Wilson, M.C., LeDoux, J.E. Hippocampal-dependent learning and experience-dependent activation of the hippocampus are preferentially disrupted by ethanol // Neuroscience. 1996. — V. 74. — P. 313−322.
- Melzer, P., Steiner, H. Stimulus-dependent expression of immediate-early genes in rat somatosensory cortex // J Comp Neurology. 1997. — V. 380. — P. 145−153.
- Messier, C., Mourre, C., Bontempi, В., Sif, J., Lazdunski, M., Destrade, C. Effect of apamin, a toxin that inhibits Ca2+ -dependent K+ channels, on learning and memory processes // Brain Res. 1991. — V. 551. — P. 322−326.
- Milanovic, S., Radulovic, J., Laban, O., Stiedl, O., Henn, F., Spiess, J. Production of the Fos protein after contextual fear conditioning of C57BL/6N mice // Brain Res. 1998. -V. 784. — P. 37−47.
- Milbrandt, J. Nerve growth factor rapidly induces c-fos mRNA in PC12 rat pheochromocytoma cells // PNAS. 1986. — V. 83. — P. 4789−4793.
- Mileusnic, R., Anokhin, K.V., Rose, S.P.R. Antisense oligodeoxynucleotides to c-fos are amnestic for passive avoidance in the chick // NeuroReport. 1996. — V. 7. — P. 12 691 272.
- Milner, В., Squire, L.R., Kandel, E.R. Cognitive neuroscience and the study of memory // Neuron. 1998. — V.20. — P.445−468.
- Miyachi, S., Hikosaka, O., Lu, X. Differential activation of monkey striatal neurons in the early and late stages of procedural learning II Exp Brain Res. 2002. — V. 146. — P. 122 126.
- Montero, V.M. C-fos induction in sensory pathways of rats exploring a novel complex environment: Shifts of active thalamic reticular sectors by predominant sensory cues // Neuroscience. 1997. — V. 76. — P. 1069−1081.
- Montero, V.M., Jian, S. Induction of c-fos protein by patterned visual stimulation in central visual pathways of the rat II Brain Res. 1995. — V. 690. — P. 189−199.
- Mora, F., Rolls, E., Burton, M. Modulation during learning of the responses of neurons in the lateral hypothalamus to the sight of food // Exp Neurol. 1976. — V. 53. — P. 508−519.
- Moratalla, R., Vickers, E.A., Roberson, И.А., Cochran, B.H., Graybiel, A.M. Coordinate expression of c-fos and jun В is induced in the rat striatum by cocaine // J Neurosci. 1993. — V. 13. — P. 423−433.
- Morgan, J.I., Cohen, D. R., Hempstead, J.L., Curran, T. Mapping patterns of c-fos expression in the central nervous system after seizure II Science. 1987. — V. 237. — P. 192 197.
- Morgan, J.I., Curran, T. Role of ion flux in the control of c-fos expression // Nature. -1986. -V. 322.-P. 552−555.
- Mountacastle, V.B., Davies, P.W., Berman, A.L. Response properties of neurons of cat’s somatic sensory cortex to peripheral stimuli II J Neurophysiol. 1957. — V. 20. — P. 374−407.
- Mountcastle, V.B. The evolution of ideas concerning the function of the neocortex // Cerebral Cortex. 1995. — V. 5. — P. 289−295.
- Muller, R., Bravo, R., Burckhardt, J., Curran, T. Induction of c-fos gene and protein by growth factors precedes activation of с-тус II Nature. 1984. — V. 312. — P. 716−720.
- Nakabeppu, Y., Ryder, K., Nathans, D. DNA binding activities of three murine Jun proteins: Stimulation by Fos II Cell. 1988. — V. 55. — P. 907−915.
- Narins, P.M., Capranica, R.R. Sexual differences in the auditory system of the tree frog Eleutherodactylus coqui II Science. 1976. — V. 192. — P. 378−380.
- Nieder, A., Wagner, H. Perception and neuronal coding of subjective contours in the owl // Nature Neuroscience. 1999. — V. 2. — № 7. — P. 660−663.
- Nikolaev, E., Tischmeyer, W., Krug, M., Matties, H. Kaczmarek, L. c-fos protooncogene expression in rat hippocampus and entorhinal cortex following titanic stimulation of the perforant path // Brain Res. 1991. — V. 560. — P. 346−349.
- Nikolaev, E., Werka, Т., Kaczmarek, L. C-fos protooncogene expression in rat brain after long-term training of two-way active avoidance reaction II Beh Brain Res. 1992. — V. 48.-P. 91−94.
- Ogawa, T. Visual input to the cat’s motor cortex // J. Physiol.Soc.Jap. 1975. — V. 37. — № 11. — P. 369−370.
- O’Keefe, J. Place units in the hippocampus of the freely moving rat // Exp Neurol. -1976.-V. 51.-P. 78−109.
- O’Keefe, J. Do hippocampal pyramidal cells signal non-spatial as well as spatial information? // Hippocampus. 1999. — V. 9. — P. 352−364.
- Onodera, H., Kogure, K., Ono, Y., Igarashi, K., Kiyota, Y., Nagaoka, A. Protooncogene c-fos is transiently induced in the rat cerebral cortex after forebrain ischemia II Neurosci Lett. 1989. — V. 98. — P. 101−104.
- Papa, M., Pellicano, M.P., Welzl, H., Sadile, A.G. Distributed changes in c-Fos and c-Jun immunoreactivity in the rat brain associated with arousal and habituation to novelty II Brain Res Bull. 1993. — V. 32. — P. 509−515.
- Pardo, J.V., Fox, P.T., Raichle, M.E. Localization of a human system for sustained attention by positron emission tomography // Nature. 1991. — V. 349. — P. 61−64.
- Paxinos, G., Watson, C. The rat brain in stereotaxic coordinates. San Diego: Academic Press, 1997.
- Pich, E.M., Pagliusi, S.R., Tessari, M., Talabot-Ayer, D., van Huijsduijnen, R.H., Chiamulera, C. Common neural substrates for the addictive properties of nicotine and cocaine // Science. 1997. — V. 275. — P. 83−86.
- Pond, F., Sinnamon, H., Adams, D. Single unit recording in the midbrain of rats during shock-elicited fighting behaviour // Brain Res. 1977. — V. 120. — P. 469−484.
- Radulovic, J., Kammermeier, Spiess, J. Relationship between Fos production and classical fear conditioning: effects of novelty, latent inhibition, and unconditioned stimulus preexposure // J Neurosci. 1998. — V. 18. — P. 7452−7461.
- Ranck, J.B. Studies on single neurons in dorsal hippocampal formation and septum in unrestrained rats. I. Behavioural correlates and firing repertoires // Exp Neurol. 1973. — V. f41.-P. 461−531.
- Rauschecker, J.P., Tian, В., Hauser, M. Processing of complex sounds in the macaque nonprimary auditory cortex // Science. 1995. — V. 268. — P. 111−114.
- Rauscher III, F.J., Sambucetti, L.C., Curran, Т., Distel, R.J., Spiegelman, B.M. Common DNA binding site for Fos protein complexes and transcription factor AP-1 // Cell.1988.-V. 52. P. 471−480.
- Robertson, H.A., Peterson, M.R., Murphy, K., Robertson, G.S. Drdopamine receptor agonists selectively activate striatal c-fos independent of rotational behavior // Brain Res.1989.-V. 503.-P. 346−349.
- Rolls, E.T., Baylis, G.C. Size and contrast have only small effects on the responses to faces of neurons in the cortex of the superior temporal sulcus of the monkey // Exp Brain * Res. 1986. — V. 65. — P. 38−48.
- Rolls, E., Roper-Hall, A., Sanghera, M. The latency of activation of neurons in the lateral hypothalamus and substantia innominata during feeding in the monkey If Brain Res. -1979.-V. 64.-P. 121−135.
- Romand, R., Ehret, G. Development of tonotopy in the inferior colliculus. I. Electrophysiological mapping in house mice // Developmental Brain Research. 1990. — V. 54. — P. 221−234.
- Rosen, K.M., McCormack, M.A., Villa-Komaroff, L., Mower, G.D. Brief visual experience induces immediate early gene expression in the cat visual cortex // PNAS. -1992. V. 89. — P. 5437−5441.
- Ruppert, C., Wille, W. Proto-oncogene c-fos is highly induced by disruption of neonatal but not of mature brain tissue // Mol Brain Res. 1987. — V. 2. — P. 51−56.
- Ruzdijic, S., Pecovic, S., Kanazir, S., Ivkovic, S., Stojiljkovic, M., Rakic, L. Temporal and spatial preferences of c-fos mRNA expression in the rat brain following cortical lesion // Brain Res. 1993. — V. 60. — P. 230−240.
- Saffen, D.W., Cole, A.J., Worley, P.F., Christy, B.A., Ryder, K., Baraban, J.M. Convulsant-induced increase in transcription factor messenger RNAs in rat brain // PNAS. -1988. V. 85. — P. 7795−7799.
- Sagar, S.M., Sharp, F.R., Curran, T. Expression of c-fos protein in brain: Metabolic mapping at the cellular level II Science. 1988. -V. 240. — P. 1328−1331.
- Sakata, S., Kitsukawa, Т., Kaneko, Т., Yamomori, Т., Sakurai, Y. Task-dependent and cell-type-specific Fos enhancement in rat sensory cortices during audio-visual discrimination // Eur J Neurosci. 2002. — V. 15. — P. 735−743.
- Sambucetti, L.C., Curran, T. The Fos protein complex is associated with DNA in isolated nuclei and binds to DNA cellulose II Science. 1986. -V. 234. — P. 1417−1419.
- Schoenbaum, G., Chiba, A.A., Gallagher, M. Neural encoding in orbitofrontal cortex and basolateral amygdala during olfactory discrimination learning // J Neurosci. 1999. — V. 19.-p. 1876−1884.
- Schreiber, S.S., Baudry, M. Selective neuronal vulnerability in the hippocampus a role for gene expression? // TINS. — 1995. — V. 18. — P. 446−451.
- Sharp, F.R., Gonzalez, M.F., Hisanaga, K., Mobley, W.C., Sagar, S.M. Induction of the c-fos gene product in rat forebrain following cortical lesions and NGF injections // Neurosci Lett. 1989. — V. 100. — P. 117−122.
- Sharp, F.R., Liu, J., Nickolenko, J., Bontempi, B. NMDA and D1 receptors mediate induction of c-fos and junB genes in striatum following morphine administration: implications for studies of memory // Behav Brain Res. 1995. — V. 66. — P. 225−230.
- Sheng, M., Greenberg, M.E. The regulation and function of c-fos and other immediate early genes in the nervous system II Neuron. 1990. — V. 4. — P. 477−485.
- Shima, K., Tanji, J. Role for cingulate motor area cells in voluntary movement selection based on reward // Science. 1998. -V. 282. — P. 1335−1338.
- Shima, K., Tanji, J. Neuronal activity in the supplementary and presupplementary motor areas for temporal organization of multiple movements // J Neurophysiol. 2000. — V. 84.-P. 2148−60.
- Smeyne, R.J., Curran, Т., Morgan, J.I. Temporal and spatial expression of a fos-lacZ transgene in the developing nervous system // Mol Brain Res. 1992. — V. 16. — P. 158−162.
- Smeyne, R.J., Vendrell, M., Hayward, M., Baker, S.J., Miao, G.G., Schilling, K., Robertson, L.M., Curran, Т., Morgan, J.I. Continuous c-fos expression precedes programmed cell death in vivo II Nature. 1993. — V. 363. — P. 166−169.
- Smith, MA, Banerjee, S., Gold, P.W., Glowa, J. Induction c-fos mRNA in rat brain by conditioned and unconditioned stressors // Brain Res. 1992. — V. 578. — P. 135−141.
- Staiger, J.F., Bisler, S., Schleicher, A., Gass, P., Stehle, J.H., Zilles, K. Exploration of a novel environment leads to the expression of inducible transcription factors in barrel-related columns // Neuroscience. 2002. — V. 99. — P. 7−16.
- Staiger, J.F., Masanneck, C., Bisler, S., Schleicher, A., Zuschratter, W., Zilles, K. Excitatory and inhibitory neurons express c-Fos in barrel-related columns after exploration of a novel environment // Neuroscience. 2002. — V. 109. — P. 687−699.
- Stiebler, I., Ehret, G. Inferior Colliculus of the Mouse. I. A Quantitative Study of Tonotopic Organization, Frequency Representation, and Tone-Threshhold Distribution // Journal of Comp Neurol. 1985. — V. 238. — P. 65−76.
- Stone, E.A., Zhang, Y., John, S., Filer, D., Bing, G. Effect of locus coeruleus lesion on c-fos expression in the cerebral cortex caused by yohimbine injection or stress // Brain Res. 1993. -V. 603. — P. 181−185.
- Swadlow, H.A., Hicks, T.P. Subthreshold receptive fields and baseline excitability of «silent» S1 callosal neurons in awake rabbits: contributions of AMPA/kainate and NMDA receptors // Exp Brain Res. 1997. — V. 115. — P. 403−409.
- Swank, M.W., Bernstein, I.L. c-Fos induction in response to a conditioned stimulus after single trial taste aversion learning // Brain Res. 1994. -V. 636. — P. 202−208.
- Swank, M.W., Ellis, A.E., Cochran, B.N. c-Fos antisense blocks acquisition and extinction of conditioned taste aversion in mice // NeuroReport. 1996. — V. 7. — P. 18 661 870.
- Swank, M.W., Schafe, G.E., Bernstein, I.L. c-Fos induction in response to taste stimulai previously paired with amphetamine or LiCI during taste aversion learning II Brain Res. 1995. — V. 673. — P. 251−261.
- Tanaka, K. Neuronal mechanisms of object recognition // Science. 1993. — V. 262. — P. 685−688.
- Tanji, J., Okano, K., Sato, K.C. Relation of neurons in the nonprimary motor cortex to bilateral hand movement II Nature. 1987. — V. 327. — P. 618−620.
- Teskey, G.C., Atkinson, B.G., Cain, D.P. Expression of the proto-oncogene c-fos following electrical kindling in the rat II Mol Brain Res. 1991. -V. 11. — P. 1−10.
- Thompson, R.F. The neurobiology of learning and memory // Science. 1986. — V. 233.-P. 941−947.
- Tischmeyer, W., Kaczmarek, L., Strauss, M., Jork, R., Matthies, H. Accumulation of c-fos mRNA in rat hippocampus during acquisition of a brightness discrimination II Behavioral and Neural Biology. 1990. -V. 54. — P. 165−171.
- Tolliver, B.K., Sganga, M.W., Sharp, F.R. Suppression of c-fos induction in the nucleus accumbens prevents acquisition but not expression of morphine-conditioned place preference // Eur J Neurosci. 2000. — V. 12. — P. 3399−3406.
- Tronel, S., Sara, S.J. Mapping of olfactory memory circuits: Region-specific c-fos activation after odor-reward associative learning or after its retrieval // Learning & Memory. -2002.-V. 9.-P. 105−111.
- Van Beveren, С., van Straaten, F., Curran, Т., Muller, R., Verma, I.M. Analysis of FBJ-MuSV provirus and c-fos (mouse) gene reveals that viral and cellular fos gene products have different carboxy termini // Cell. 1983. — V. 32. — P. 1241−1255.
- Vann et al., Brown, M.W., Aggleton, J.P. Fos expression in the rostral thalamic nuclei and associated cortical regions in response to different spatial memory tests // Neuroscience. 2000a. — V. 101. — P. 983−991.
- Vann, S.D., Brown, M.W., Erichsen, J.T., Aggleton, J.P. Fos imaging reveals differential patterns of hippocampal and parahippocampal subfield activation in rats in response to different spatial memory tests It J Neurosci. 2000b. — V. 20. — P. 2711−2718.
- Villa, A.E.P., Tetko, I.V., Hyland, В., Najem, A. Spatiotemporal activity patterns of rat cortical neurons predict responses in a conditioned task // PNAS. 1999. — V. 96. — P. 11 061 111.
- Wahlsten, D. Single-gene influences on brain and behavior // Annu Rev Psychol. -1999. -V. 50. P. 599−624.
- Wan, H., Aggleton, J.P., Brown, M.W. Different contributions of the hippocampus and perirhinal cortex to recognition memory IIJ Neurosci. 1999. — V. 19. — P. 1142−1148.
- Wang, Z.-Q., Ovitt, C., Grigoriadis, A.E., Mohle-Steinlein, U., Ruther, U., Wagner, E.F. Bone and haematopoietic defects in mice lacking c-fos II Nature. 1992. — V. 360. — P. 741 745.
- Weinberg, R.A. The action of oncogenes in the cytoplasm and nucleus II Science. -1985. -V. 230. P. 770−776.
- Weiser, M., Baker, H., Wessel, T.C., Joh, Т.Н. Axotomy-induced differential gene induction in neurons of the locus ceruleus and substantia nigra II Mol Brain Res. 1993. — V. 17.-P. 319−327.
- Weissman, D.H., Woldorff, M.G., Hazlett, C.J., Mangun, G.R. Effects of practice on executive control investigated with fMRI II Cog Brain Res. 2002. — V. 15. — P. 47−60.
- Wenzel, A., Grimm, C., Marti, A., Kueng-Hitz, N., Hafezi, F., Niemeyer, G., Reme, C.E. c-fos controls the «private pathway» of light-induced apoptosis of retinal photoreceptors I IJ Neurosci. 2000. — V. 20. — P. 81−88.
- White, J.D., Gall, C.M. Differential regulation of neuropeptide and proto-oncogene mRNA content in the hippocampus following recurrent seizures И Mol Brain Res. 1987. -V. 3.-P. 21−29.
- Wiedenmayer, C.P., Barr, G.A. Developmental changes in c-fos expression to an age-specific social stressor in infant rats // Beh Brain Res. 2001. — V. 126. — P. 147−157.
- Wilson, M.A., McNaughton, B.L. Dynamics of the hippocampal ensemble code for space // Science. 1993. — V. 261. — P. 1055−1058.
- Wilson, F.A., Rolls, E.T. The effects of stimulus novelty and familiarity on neuronal activity in the amygdala of monkeys performing recognition memory tasks // Exp Brain Res. -1993.-V. 93.-P. 367−382.
- Wirtshafter, D., Stratford, T.R., Shim, I. Placement in a novel environment induces Fos-like immunoreactivity in supramammilary cells projecting to the hippocampus and midbrain II Brain Res. 1998. — V. 789. — P. 331−334.
- Wisden, W., Errington, M.L., Williams, S., Dunnett, S.B., Waters, C., Hitchcock, D., Evan, G., Bliss, T.V.P., Hunt, S.P. Differential expression of immediate early genes in the hippocampus and spinal cord // Neuron. 1990. — V. 4. — P. 603−614.
- Wong, Y., Kwan, H., Mac Kay, W., & Murphy, J. Participation of precentral neurons in somatically and visually triggered movements in awake primates // Brain Res. 1982. — V. 247. — P. 49−56.
- Worley, P.F., Bhat, R.V., Baraban, J.M., Erickson, C.A., McNaughton, B.L. Barnes, C.A. Thresholds for synaptic activation of transcription factors in hippocampus: correlation with long-term enhancement // J Neurosci. 1993. — V. 13. — P. 4776−4786.
- Xiang, J.Z., Brown, M.W. Differential neuronal encoding of novelty, familiarity and recency in the regions of the anterior temporal lobe II Neuropharmacology. 1998. — V. 37.- P. 657−76.
- Zhang, Y.-Q., Ji, Y.-P., Mei, J. Behavioral training-induced c-Fos expression in the rat nucleus basalis of Meynert during aging // Brain Research. 2000. — V. 879. — P. 156−162.
- Zhu, X.O., Brown, M.W. Changes in neuronal activity related to the repetition and relative familiarity of visual stimuli in rhinal and adjacent cortex of the anaesthetized rat // Brain Res. 1995. — V. 689. — P. 101−110. I
- Zhu, X.O., Brown, M.W., Aggleton, J.P. Neuronal signaling of information important to I visual recognition memory in rat rhinal and neighbouring cortices II Eur J Neurosci. 1995a. щ- V. 7. P. 753−765. 1
- Zhu, X.O., Brown, M.W., McCabe, B.J., Aggleton, J.P. Effects of the novelty or 1 familiarity of visual stimuli on the expression of the immediate early gene c-fos in rat brain // Neuroscience. 1995b. — V. 69. — P. 821 -829. J
- Zhu, X.O., McCabe, B.J., Aggleton, J.P., Brown, M.W. Mapping visual recognition 1 memory through expression of the immediate early gene c-fos // NeuroReport. 1996. — V. 7.-P. 1871−1875.