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HomeUCLA Brain Research Institute (BRI)  > People  > Affinity Groups  > Neuroendocrinology
Paul Micevych

Paul Micevych, Ph.D.

Biography

Research efforts in the Micevych laboratory involve understanding the cellular and molecular events underlying estrogen action on neurons and glial cells. Estrogen has profound effects on cognitive function and neuroprotection, as well as, reproductive functions. Estrogen affects the expression and activity of various neuropeptides and sex steroids. In particular they have focused on regulation mu-opioid and nociceptin receptors in the CNS regulation of sexual behavior. Recent experiments have demonstrated the synthesis of progesterone in the brain, its regulation by estrogen and physiologic functions of neuroprogesterone. RT-PCR and calcium imaging experiments in neurons and astrocytes have been used to elucidate the mechanisms of estrogen rapid signaling in both glial cells and neurons. The Micevych laboratory has demonstrated that estrogen can modulate nociceptive signaling through rapid actions on primary sensory neurons demonstrating a novel mechanism of estrogen modulation of pain. Additionally, the Micevych Laboratory has been studying the neuroprotective action of estrogen in the nigrostriatal dopamine system. Estrogen activates the insulin-like growth factor-1 (IGF-1) to ameliorate a hallmark of ParkinsonA?s disease A? the neurodegeneration of dopamine neurons. Significantly, estrogen or IGF-1 is efficacious after either central or peripheral administration. Together these experiments underscore the broad range of estrogen signaling influencing both physiology and pathology.

Stephanie White, Ph.D.

Biography

Social influences on learning and memory How do social interactions influence the brain? Our laboratory is interested in how social behaviors affect neuronal plasticity at sites responsible for learning in an Australian songbird, the zebra finch. We study song learning behavior that is essential for reproductive opportunity and is mediated by known neural circuitry. In zebra finches, both the learned behavior and its underlying neural structures are sexually dimorphic, and plasticity is greatest during critical developmental phases. Within a comparative framework, we use behavioral, electrophysiological, and molecular techniques to investigate how social interactions shape gene expression patterns, how these changes modulate neural circuit properties and ultimately, how this constellation of changes sculpts behavior.

Publications

A selected list of publications:

Fraley E R, Burkett Z D, Day N F, Schwartz B A, Phelps P E, White S A   Mice with Dab1 or Vldlr insufficiency exhibit abnormal neonatal vocalization patterns Scientific reports, 2016; 6(3): 25807.
Berg Jamee M, Lee Changhoon, Chen Leslie, Galvan Laurie, Cepeda Carlos, Chen Jane Y, Peñagarikano Olga, Stein Jason L, Li Alvin, Oguro-Ando Asami, Miller Jeremy A, Vashisht Ajay A, Starks Mary E, Kite Elyse P, Tam Eric, Gdalyahu Amos, Al-Sharif Noor B, Burkett Zachary D, White Stephanie A, Fears Scott C, Levine Michael S, Wohlschlegel James A, Geschwind Daniel H   JAKMIP1, a Novel Regulator of Neuronal Translation, Modulates Synaptic Function and Autistic-like Behaviors in Mouse Neuron, 2015; 88(6): 1173-91.
Miller Julie E, Hafzalla George W, Burkett Zachary D, Fox Cynthia M, White Stephanie A   Reduced vocal variability in a zebra finch model of dopamine depletion: implications for Parkinson disease Physiological reports, 2015; 3(11): .
Whitney Osceola, Voyles Tawni, Hara Erina, Chen Qianqian, White Stephanie A, Wright Timothy F   Differential FoxP2 and FoxP1 expression in a vocal learning nucleus of the developing budgerigar Developmental neurobiology, 2015; 75(7): 778-90.
Burkett Zachary D, Day Nancy F, Peñagarikano Olga, Geschwind Daniel H, White Stephanie A   VoICE: A semi-automated pipeline for standardizing vocal analysis across models Scientific reports, 2015; 5(7): 10237.
Hara Erina, Perez Jemima M, Whitney Osceola, Chen Qianqian, White Stephanie A, Wright Timothy F   Neural FoxP2 and FoxP1 expression in the budgerigar, an avian species with adult vocal learning Behavioural brain research, 2015; 283(7): 22-9.
Heston Jonathan B, White Stephanie A   Behavior-linked FoxP2 regulation enables zebra finch vocal learning The Journal of neuroscience : the official journal of the Society for Neuroscience, 2015; 35(7): 2885-94.
Condro Michael C, White Stephanie A   Recent Advances in the Genetics of Vocal Learning Comparative cognition & behavior reviews, 2014; 9(2): 75-98.
Grant Laura M, Richter Franziska, Miller Julie E, White Stephanie A, Fox Cynthia M, Zhu Chunni, Chesselet Marie-Francoise, Ciucci Michelle R   Vocalization deficits in mice over-expressing alpha-synuclein, a model of pre-manifest Parkinson’s disease Behavioral neuroscience, 2014; 128(2): 110-21.
Condro Michael C, White Stephanie A   Distribution of language-related Cntnap2 protein in neural circuits critical for vocal learning The Journal of comparative neurology, 2014; 522(1): 169-85.
Chen Qianqian, Heston Jonathan B, Burkett Zachary D, White Stephanie A   Expression analysis of the speech-related genes FoxP1 and FoxP2 and their relation to singing behavior in two songbird species The Journal of experimental biology, 2013; 216(Pt 19): 3682-92.
White, SA   FoxP2 and vocalization, in ‘New Perspectives on the Origins of Language’, 2013; 144: 211-235.
Hilliard AT, Miller JE, Horvath S & White SA   Distinct neurogenomic states in basal ganglia subregions relate differently to singing behavior in songbirds, PLoS Computational Biology, 2012; 8: e1002773.
*Hilliard AT, *Miller JE, Fraley ER, Horvath S, White SA   Molecular microcircuitry underlies functional specification in a basal ganglia circuit dedicated to vocal learning, Neuron, 2012; 73: 537-552.
White Stephanie A   Genes and vocal learning Brain and language, 2010; 115(1): 21-8.
Panaitof SC, Abrahams BS, Dong H, Geschwind DH & White SA   Language-related Cntnap2 is differentially expressed in sexually dimorphic nuclei essential for vocal learning in songbirds, Journal of Comparative Neurology, 2010; .
Miller Julie E, Hilliard Austin T, White Stephanie A   Song practice promotes acute vocal variability at a key stage of sensorimotor learning PloS one, 2010; 5(1): e8592.
Teramitsu Ikuko, Poopatanapong Amy, Torrisi Salvatore, White Stephanie A   Striatal FoxP2 is actively regulated during songbird sensorimotor learning PloS one, 2010; 5(1): e8548.
Hilliard AT & White SA   Evolutionary Precursors of Syntax, Biological Foundations and Origin of Syntax, edited by Derek Bickerton and Eörs Szathmáry; Strüngmann Forum Reports, 2009; 3: 161-182.
Számadö S, Bishop D, d’Errico, F, Fischer J, Hurford J, Okanoya K, Szathmáry E & White SA   What are the possible biological and genetic foundations for syntactic phenomena?, Biological Foundations and Origin of Syntax, edited by Derek Bickerton and Eörs Szathmáry; Strüngmann Forum Reports, 2009; 3: 207-236.
Spence RD, Zhen Y, White S, Schlinger BA, Day LB   Recovery of motor and cognitive function after cerebellar lesions in a songbird: role of estrogens The European Journal of Neuroscience, 2009; 29(6): 1225-34.
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Miller Julie E, Spiteri Elizabeth, Condro Michael C, Dosumu-Johnson Ryan T, Geschwind Daniel H, White Stephanie A   Birdsong decreases protein levels of FoxP2, a molecule required for human speech Journal of Neurophysiology, 2008; 100(4): 2015-25.
Teramitsu Ikuko, White Stephanie A   Motor learning: the FoxP2 puzzle piece Current Biology, 2008; 18(8): R335-7.
JE Miller & SA White   The sleeping bird gets the song, Journal of Neurophysiology, 2007; 98: 3-4.
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White Stephanie A, Fisher Simon E, Geschwind Daniel H, Scharff Constance, Holy Timothy E   Singing mice, songbirds, and more: models for FOXP2 function and dysfunction in human speech and language The Journal of neuroscience : the official journal of the Society for Neuroscience, 2006; 26(41): 10376-9.
Teramitsu Ikuko, White Stephanie A   FoxP2 regulation during undirected singing in adult songbirds The Journal of neuroscience : the official journal of the Society for Neuroscience, 2006; 26(28): 7390-4.
Wada K, Howard J, McDonnell P, Lints T, Rivas MV, Whitney O, Horita H, Patterson M, White SA,Scharff C, Haesler S, Zhao S, Sakaguchi H, Hagiwara M, Shiraki T, Hirozane-Kishikawa T, Skene P, Hayashizaki Y, Carninci P& Jarvis ED   A molecular neuroethological approach for identifying and characterizing a cascade of behaviorally regulated genes PNAS, 2006; 103: 15212-15217.
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Teramitsu I & White SA   FoxP2 regulation during undirected singing in adult songbirds Journal of Neuroscience, 2006; 26: 7390-7394.
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White SA, Fisher SE, Geschwind DH, Scharff C, Holy TE   Singing mice, songbirds and more: models for FOXP2 function and dysfunction in human speech and language Journal of Neuroscience, 2006; 26: 10376-10379.
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Poopatanapong A, Teramitsu I, Byun JS,Vician LJ, Herschman HR, White SA   Singing, but not seizure, induces Synaptotagmin IV in zebra finch song nuclei Journal of Neurobiology, 2006; 66: 1613-1629.
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The Avian Brain Nomenclature Consortium   Avian brains and a paradigm shift in understanding vertebrate brain evolution, Nature Reviews Neuroscience, 2005; 6: 151-159.
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Nilson Paige Crystal, Teramitsu Ikuko, White Stephanie Ann   Caudal thoracic air sac cannulation in zebra finches for isoflurane anesthesia Journal of neuroscience methods, 2005; 143(2): 107-15.
Jarvis Erich D, Güntürkün Onur, Bruce Laura, Csillag András, Karten Harvey, Kuenzel Wayne, Medina Loreta, Paxinos George, Perkel David J, Shimizu Toru, Striedter Georg, Wild J Martin, Ball Gregory F, Dugas-Ford Jennifer, Durand Sarah E, Hough Gerald E, Husband Scott, Kubikova Lubica, Lee Diane W, Mello Claudio V, Powers Alice, Siang Connie, Smulders Tom V, Wada Kazuhiro, White Stephanie A, Yamamoto Keiko, Yu Jing, Reiner Anton, Butler Ann B, Butler Ann B   Avian brains and a new understanding of vertebrate brain evolution Nature reviews. Neuroscience, 2005; 6(2): 151-9.
Reiner A, Perkel D, Bruce L, Butler A, Csillag A, Kuenzel W, Medina L, Paxinos G, Powers A, Shimisu T, Striedter G, Wild M, Ball G, Durand S, Gunturkun O, Lee D, Mello C, White SA, Hough T, Kubikova L, Smulders T, Wada K, Dugas-Ford J, Husband S, Yamamoto K, Yu J, Siang C, Jarvis ED   Revised nomenclature for avian telencephalon and some related brain nuclei Journal of Comparative Neurology, 2004; 473: 377-414.
Scharff, C White, SA   Genetic components of vocal learning Annals of the New York Academy of Sciences, 2004; 1016: 325-47.
Teramitsu, I Kudo, LC London, SE Geschwind, DH White, SA   Parallel FoxP1 and FoxP2 expression in songbird and human brain predicts functional interaction The Journal of Neuroscience, 2004; 24(13): 3152-63.
Reiner Anton, Perkel David J, Bruce Laura L, Butler Ann B, Csillag András, Kuenzel Wayne, Medina Loreta, Paxinos George, Shimizu Toru, Striedter Georg, Wild Martin, Ball Gregory F, Durand Sarah, Gütürkün Onur, Lee Diane W, Mello Claudio V, Powers Alice, White Stephanie A, Hough Gerald, Kubikova Lubica, Smulders Tom V, Wada Kazuhiro, Dugas-Ford Jennifer, Husband Scott, Yamamoto Keiko, Yu Jing, Siang Connie, Jarvis Erich D   The Avian Brain Nomenclature Forum: Terminology for a New Century in Comparative Neuroanatomy The Journal of comparative neurology, 2004; 473(1): E1-E6.
White Stephanie A, Nguyen Tuan, Fernald Russell D   Social regulation of gonadotropin-releasing hormone The Journal of experimental biology, 2002; 205(Pt 17): 2567-81.
White SA   Learning to communicate Current Opinion in Neurobiology, 2001; 11: 510-520.
Livingston*FL, White*SA, & Mooney R   Slow NMDA-PSCs at synapses critical for song development are not required for song learning in zebra finches Nature Neuroscience, 2000; 3: 482-488.
White, SA Livingston, FS Mooney, R   Androgens modulate NMDA receptor-mediated EPSCs in the zebra finch song system Journal of Neurophysiology, 1999; 82(5): 2221-34.
White SA & Mooney R   Can an old bird change his tune? Current Biology, 1999; 9: R688-690.
Fernald RD & White SA   Social control of brains: from behavior to genes, The Cognitive Neurosciences, 1999; 2nd edition: 1193-1208.
Spiro, JE White, SA   Neuroethology: a meeting of brain and behavior Neuron, 1998; 21(5): 981-9.
White, SA Fernald, RD   Changing through doing: behavioral influences on the brain Recent progress in hormone research, 1997; 52: 455-73; discussion 473-4.
Fox* HE, White* SA, Kau MHF & Fernald RD   Stress and dominance in a social fish Journal of Neuroscience, 1997; 17: 6463-6469.
White, SA Kasten, TL Bond, CT Adelman, JP Fernald, RD   Three gonadotropin-releasing hormone genes in one organism suggest novel roles for an ancient peptide Proceedings of the National Academy of Sciences of the United States of America, 1995; 92(18): 8363-7.
White SA & Fernald RD   Gonadotropin-releasing hormone-containing neurons change size with reproductive state in female Haplochromis burtoni, Journal of Neuroscience, 1993; 13: 434-441.
Niranjala J.K. Tillakaratne, Ph.D

Niranjala Tillakaratne, Ph.D

Publications

A selected list of publications:

Duru Paul, Tillakaratne Niranjala, Kim Jung, Zhong Hui, Stauber Stacey, Pham Tran, Xiao Mei Si, Edgerton V. Reggie, Roy Roland.   Spinal neuronal activation during locomotor-like activity enabled by epidural stimulation and 5-hydroxytryptamine agonists in spinal rats, J Neurosci Res, 2015; 93(8): 1229-1239.
Tillakaratne Niranjala J K, Duru Paul, Fujino Hidemi, Zhong Hui, Xiao Mei Si, Edgerton V Reggie, Roy Roland R   Identification of interneurons activated at different inclines during treadmill locomotion in adult rats Journal of neuroscience research, 2014; 92(12): 1714-22.
Shah Prithvi K, Garcia-Alias Guillermo, Choe Jaehoon, Gad Parag, Gerasimenko Yury, Tillakaratne Niranjala, Zhong Hui, Roy Roland R, Edgerton V Reggie   Use of quadrupedal step training to re-engage spinal interneuronal networks and improve locomotor function after spinal cord injury Brain : a journal of neurology, 2013; 136(Pt 11): 3362-77.
Joseph M Selvan, Ying Zhe, Zhuang Yumei, Zhong Hui, Wu Aiguo, Bhatia Harsharan S, Cruz Rusvelda, Tillakaratne Niranjala J K, Roy Roland R, Edgerton V Reggie, Gomez-Pinilla Fernando   Effects of diet and/or exercise in enhancing spinal cord sensorimotor learning PloS one, 2012; 7(7): e41288.
Joseph M Selvan, Bilousova Tina, Zdunowski Sharon, Wu Zhongqi-Phyllis, Middleton Blake, Boudzinskaia Maia, Wong Bonnie, Ali Noore, Zhong Hui, Yong Jing, Washburn Lorraine, Escande-Beillard Nathalie, Dang Hoa, Edgerton V Reggie, Tillakaratne Niranjala J K, Kaufman Daniel L   Transgenic mice with enhanced neuronal major histocompatibility complex class I expression recover locomotor function better after spinal cord injury Journal of neuroscience research, 2011; 89(3): 365-72.
Tillakaratne NJ, Guu JJ, de Leon RD, Bigbee AJ, London NJ, Zhong H, Ziegler M,Joynes R, Roy RR, Edgerton VR.   Functional recovery of stepping in rats after a complete neonatal spinal cord transection is not due to regrowth across the lesion site , Neuroscience, 2010; 166: 23-33.
Khristy W, Ali NJ, Bravo AB, de Leon R, Roy RR, Zhong H, London NJ, Edgerton VR, Tillakaratne NJ   Changes in GABA(A) receptor subunit gamma 2 in extensor and flexor motoneurons and astrocytes after spinal cord transection and motor training, Brain Res, 2009; 1273: 9-17.
Otoshi CK, Walwyn WM, Tillakaratne NJ, Zhong H, Roy RR, Edgerton VR   Distribution and localization of 5-HT(1A) receptors in the rat lumbar spinal cord after transection and deafferentation, J Neurotrauma, 2009; 26: 575-84.
Jindrich DL, Joseph MS, Otoshi CK, Wei RY, Zhong H, Roy RR, Tillakaratne NJ,Edgerton VR   Spinal learning in the adult mouse using the Horridge paradigm, J Neurosci Methods, , 2009; 182(2): 250-4.
Edgerton VR, Courtine G, Gerasimenko YP, Lavrov I, Ichiyama RM, Fong AJ, Cai LL, Otoshi CK, Tillakaratne NJ, Burdick JW, Roy RR   Training locomotor networks, Brain Res Rev, 2008; 57: 241-54 (Review).
Bigbee AJ, Crown ED, Ferguson AR, Roy RR, Tillakaratne NJ, Grau JW, Edgerton VR   Two chronic motor training paradigms differentially influence acute, Behav Brain Res, 2007; 180: 95-101.
Ahn, SN Guu, JJ Tobin, AJ Edgerton, VR Tillakaratne, NJ   Use of c-fos to identify activity-dependent spinal neurons after stepping in intact adult rats Spinal Cord, 2006; 44: 547-59.
Zanjani H, Lemaigre-Dubreuil Y, Tillakaratne NJK, Blokhin A, McMahon RP, Tobin AJ and Vogel MW.   Cerebellar Purkinje cell loss in aging Hu-Bcl2 transgenic mice, J Comp Neurol, 2004; 475: 481-92.
Edgerton VR, Tillakaratne NJK, Bigbee AJ, de Leon RD, and Roy RR   Locomotor recovery potential after spinal cord injury, Neuro-behavioral determinants of interlimb coordination, edited by Swinnen S. & P Duysens J, 2004; .
Edgerton, VR Tillakaratne, NJ Bigbee, AJ de Leon, RD Roy, RR   Plasticity of the spinal neural circuitry after injury Annual review of neuroscience. , 2004; 27: 145-67.
Hoang, TX Nieto, JH Tillakaratne, NJ Havton, LA   Autonomic and motor neuron death is progressive and parallel in a lumbosacral ventral root avulsion model of cauda equina injury The Journal of comparative neurology. , 2003; 467(4): 477-86.
Mackie, M Hughes, DI Maxwell, DJ Tillakaratne, NJ Todd, AJ   Distribution and colocalisation of glutamate decarboxylase isoforms in the rat spinal cord Neuroscience. , 2003; 119(2): 461-72.
Tillakaratne, NJ de Leon, RD Hoang, TX Roy, RR Edgerton, VR Tobin, AJ   Use-dependent modulation of inhibitory capacity in the feline lumbar spinal cord The Journal of neuroscience, 2002; 22(8): 3130-43.
Edgerton, VR Leon, RD Harkema, SJ Hodgson, JA London, N Reinkensmeyer, DJ Roy, RR Talmadge, RJ Tillakaratne, NJ Timoszyk, W Tobin, A   Retraining the injured spinal cord The Journal of physiology. , 2001; 533(Pt 1): 15-22.
Tillakaratne, NJ Mouria, M Ziv, NB Roy, RR Edgerton, VR Tobin, AJ   Increased expression of glutamate decarboxylase (GAD(67)) in feline lumbar spinal cord after complete thoracic spinal cord transection Journal of neuroscience research. , 2000; 60(2): 219-30.
Banerjee, PK Tillakaratne, NJ Brailowsky, S Olsen, RW Tobin, AJ Snead, OC   Alterations in GABAA receptor alpha 1 and alpha 4 subunit mRNA levels in thalamic relay nuclei following absence-like seizures in rats Experimental neurology. , 1998; 154(1): 213-23.
Banerjee PK, Olsen RW, Tillakaratne NJK, Brailowsky S, Tobin AJ, and Snead OC, 3rd.   Absence seizures decrease steroid modulation of t-[35S]butylbicyclophosphorothionate binding in thalamic relay nuclei, J Pharmacol Exp Ther, 1998; 287: 766-772.
Edgerton VR, Roy RR, de Leon RD, Tillakaratne NJK, and Hodgson JA.   Does motor learning occur in spinal cord?, The neuroscientist, 1997; 3: 287-294.
Edgerton, VR de Leon, RD Tillakaratne, N Recktenwald, MR Hodgson, JA Roy, RR   Use-dependent plasticity in spinal stepping and standing Advances in neurology. , 1997; 72: 233-47.
Mahmoudi M, Kang M H, Tillakaratne N, Tobin A J, Olsen R W   Chronic intermittent ethanol treatment in rats increases GABA(A) receptor alpha4-subunit expression: possible relevance to alcohol dependence Journal of neurochemistry, 1997; 68(6): 2485-92.
Tillakaratne N J, Medina-Kauwe L, Gibson K M   gamma-Aminobutyric acid (GABA) metabolism in mammalian neural and nonneural tissues Comparative biochemistry and physiology. Part A, Physiology, 1995; 112(2): 247-63.
Segovia J, Lawless G M, Tillakaratne N J, Brenner M, Tobin A J   Cyclic AMP decreases the expression of a neuronal marker (GAD67) and increases the expression of an astroglial marker (GFAP) in C6 cells Journal of neurochemistry, 1994; 63(4): 1218-25.
Hendrickson A E, Tillakaratne N J, Mehra R D, Esclapez M, Erickson A, Vician L, Tobin A J   Differential localization of two glutamic acid decarboxylases (GAD65 and GAD67) in adult monkey visual cortex The Journal of comparative neurology, 1994; 343(4): 566-81.
Medina-Kauwe L K, Tillakaratne N J, Wu J Y, Tobin A J   A rat brain cDNA encodes enzymatically active GABA transaminase and provides a molecular probe for GABA-catabolizing cells Journal of neurochemistry, 1994; 62(4): 1267-75.
Esclapez M, Tillakaratne N J, Kaufman D L, Tobin A J, Houser C R   Comparative localization of two forms of glutamic acid decarboxylase and their mRNAs in rat brain supports the concept of functional differences between the forms The Journal of neuroscience : the official journal of the Society for Neuroscience, 1994; 14(3 Pt 2): 1834-55.
Esclapez M, Tillakaratne N J, Tobin A J, Houser C R   Comparative localization of mRNAs encoding two forms of glutamic acid decarboxylase with nonradioactive in situ hybridization methods The Journal of comparative neurology, 1993; 331(3): 339-62.
Greif K F, Tillakaratne N J, Erlander M G, Feldblum S, Tobin A J   Transient increase in expression of a glutamate decarboxylase (GAD) mRNA during the postnatal development of the rat striatum Developmental biology, 1992; 153(1): 158-64.
Kasckow J W, Tillakaratne N J, Kim H, Strecker G J, Tobin A J, Olsen R W   Expression of GABAA receptor polypeptides in clonal rat cell lines Brain research, 1992; 581(1): 143-7.
Bu D F, Erlander M G, Hitz B C, Tillakaratne N J, Kaufman D L, Wagner-McPherson C B, Evans G A, Tobin A J   Two human glutamate decarboxylases, 65-kDa GAD and 67-kDa GAD, are each encoded by a single gene Proceedings of the National Academy of Sciences of the United States of America, 1992; 89(6): 2115-9.
Tillakaratne N J, Erlander M G, Collard M W, Greif K F, Tobin A J   Glutamate decarboxylases in nonneural cells of rat testis and oviduct: differential expression of GAD65 and GAD67 Journal of neurochemistry, 1992; 58(2): 618-27.
Erlander M G, Tillakaratne N J, Feldblum S, Patel N, Tobin A J   Two genes encode distinct glutamate decarboxylases Neuron, 1991; 7(1): 91-100.
Khrestchatisky M, MacLennan A J, Tillakaratne N J, Chiang M Y, Tobin A J   Sequence and regional distribution of the mRNA encoding the alpha 2 polypeptide of rat gamma-aminobutyric acidA receptors Journal of neurochemistry, 1991; 56(5): 1717-22.
MacLennan A J, Brecha N, Khrestchatisky M, Sternini C, Tillakaratne N J, Chiang M Y, Anderson K, Lai M, Tobin A J   Independent cellular and ontogenetic expression of mRNAs encoding three alpha polypeptides of the rat GABAA receptor Neuroscience, 1991; 43(2-3): 369-80.
Greif K F, Erlander M G, Tillakaratne N J, Tobin A J   Postnatal expression of glutamate decarboxylases in developing rat cerebellum Neurochemical research, 1991; 16(3): 235-42.
Tobin A J, Khrestchatisky M, MacLennan A J, Chiang M Y, Tillakaratne N J, Xu W T, Jackson M B, Brecha N, Sternini C, Olsen R W   Structural, developmental and functional heterogeneity of rat GABAA receptors Advances in experimental medicine and biology, 1991; 287(3): 365-74.
John Maclennan A, Frantz G D, Weatherwax R C, Tillakaratne N J, Tobin A J   Expression of mRNAs that encode D2 dopamine receptor subtypes: Anatomical, developmental, and pharmacological studies Molecular and cellular neurosciences, 1990; 1(2): 151-60.
Segovia J, Tillakaratne N J, Whelan K, Tobin A J, Gale K   Parallel increases in striatal glutamic acid decarboxylase activity and mRNA levels in rats with lesions of the nigrostriatal pathway Brain research, 1990; 529(1-2): 345-8.
Kim Y S, Thomas J W, Tillakaratne N J, Montpied P, Suzdak P D, Banner C, Ginns E, Tobin A J, Paul S M   Glutamic acid decarboxylase mRNA in rat brain: regional distribution and effects of intrastriatal kainic acid Brain research, 1987; 427(1): 77-82.
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