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ARTICLES
Tanaka,
D.H., Li, S., Mukae, S. and Tanabe, T. (2021) Genetic recombination in
disgust-associated bitter taste-responsive neurons of the central nucleus of
amygdala in male mice Neuroscience Letters 742: 135456.
Saegusa, H., Li,
X., Wang,X., Kayakiri, M. and Tanabe, T. (2020) Knockdown of microglial
Cav2.2 N-type voltage-dependent Ca2+ channel ameliorates
behavioral deficits in a mouse model of Parkinson’s disease, FEBS Letters 594:
2914-2922. doi: 10.1002/1873-3468.13853.
Mikeli, M.,
Fujikawa, M., Nagahisa, K., Yasuda, S., Yamada, N. and Tanabe, T. (2020)
Contribution of GPD2/mGPDH to an alternative respiratory chain of the
mitochondrial energy metabolism and the stemness in CD133-positive HuH-7 cells
Genes to Cells
2020;25:139-148. https ://doi.org/10.1111/gtc.12744
Tanaka, D.H. and
Tanabe, T. (2019) Changing consciousness epistemically (CHANCE): An empirical
method to convert the subjective content of consciousness into scientific
data. J. Mind Behav. 40: 177-190
Huntula, S., Saegusa, H., Wang, X., Zong, S. and Tanabe, T. (2019) Involvement of N-type Ca2+
channel in microglial activation and its implications to aging-induced
exaggerated cytokine response. Cell calcium 82:
102059. https://doi.org/10.1016/j.ceca.2019.102059
Tanaka, D.H., Li,
S., Mukae, S. and Tanabe, T. (2019) Genetic access to gustatory
disgust-associated neurons in the interstitial nucleus of the posterior limb
of the anterior commissure in male mice Neuroscience 413:45-63.
Wang, X., Saegusa,
H., Huntula, S. and Tanabe, T. (2019) Blockade of microglial Cav1.2 Ca2+
channel exacerbates the symptoms in a Parkinson’s disease model. Scientific
Reports 9:9138. https://doi.org/10.1038/s41598-019-45681-3
Tanaka, D.H. and
Tanabe, T. (2018) CHANCE: a method that enables a researcher to fully know
the content of consciousness of a subject in scientific experiments. bioRxiv
doi:
https://doi.org/10.1101/495523.
Tanaka, D.H. and Tanabe, T. (2018) A Conjecture for Objectification of the
Content of Consciousness. viXra:1804.0169.
Kondo, D., Saegusa, H. and Tanabe, T. (2018) Involvement of
phosphatidylinositol-3 kinase/Akt/mammalian target of rapamycin/peroxisome
proliferator-activated receptor γ pathway for
induction and maintenance of neuropathic pain. Biochem. Biophys. Res. Commun.
499: 253-259.
Kishikawa, J.I., Inoue, Y., Fujikawa, M., Nishimura, K., Nakanishi, A.,
Tanabe, T., Imamura, H. and Yokoyama, K. (2018) General anesthetics cause
mitochondrial dysfunction and reduction of intracellular ATP levels. PLoS
ONE 13(1):e0190213. doi: 10.1371.
Fujikawa, M.,
Sugawara, K., Tanabe, T. and Yoshida, M. (2015) Assembly of human
mitochondrial ATP synthase through two separate intermediates, F1-c-ring and b-e-g complex. FEBS Letters 589:
2707-2712.
Saegusa, H. and
Tanabe, T. (2014) N-type voltage-dependent Ca2+ channel in
non-excitable microglial cells in mice is involved in the pathophysiology of
neuropathic pain. Biochem. Biophys. Res. Commun. 450:142-147.
Kurihara, T., Sakura,i E., Toyomoto, M., Kii, I., Kawamoto, D., Asada, T.,
Tanabe, T., Yoshimura, M., Hagiwara, M. and Miyata, A. (2014) Alleviation of
behavioral hypersensitivity in mouse models of inflammatory pain with two
structurally different casein kinase 1 (CK1) inhibitors.
Molecular
Pain 10: 17.
Sakurai, E., Kurihara, T., Kouchi, K., Saegusa, H., Zong, S. and
Tanabe, T. (2009) Upregulation of casein kinase 1 epsilon in dorsal root
ganglia and spinal cord after mouse spinal nerve injury contributes to
neuropathic pain. Molecular Pain 5: 74.
Li, L., Saegusa, H. and Tanabe, T. (2009) Deficit
of heat shock transcription factor 1- heat shock 70kDa protein 1A axis
determines the cell death vulnerability in a model of spinocerebellar ataxia
type 6. Genes to Cells 14: 1253-1269.
Kondo, D., Saegusa, H., Yabe, R., Takasaki, I., Kurihara, T., Zong, S. and
Tanabe, T. (2009) Peripheral-type benzodiazepine receptor antagonist is
effective in relieving neuropathic pain in mice. J. Pharmacol. Sci. 110:
55-63.
Saegusa, H.,
Wakamori, M., Matsuda, Y., Wang, J., Mori, Y., Zong, S. and Tanabe, T. (2007)
Properties of human Cav2.1 channel with a
spinocerebellar ataxia type 6 mutation expressed in Purkinje cells. Molec.
Cell. Neurosci. 34: 261-270.
Kondo, D., Yabe, R., Kurihara, T., Saegusa, H., Zong, S. and Tanabe, T.
(2006) Progesterone receptor antagonist is effective for relieving
neuropathic pain. Eur. J. Pharm. 54: 44-48.
Osanai, M.,
Saegusa, H., Kazuno, A., Nagayama, S., Hu, Q., Zong, S., Murakoshi, T. and
Tanabe, T. (2006) Altered cerebellar function in mice lacking Cav2.3
Ca2+ channel. Biochem. Biophys. Res. Commun. 344: 920-925.
Takasaki, I.,
Kurihara, T., Saegusa, H., Zong, S. and Tanabe, T. (2005) Effects of
glucocorticoid receptor antagonists on allodynia and hyperalgesia in mouse
model of neuropathic pain. Eur. J. Pharm. 524: 80-83.
Hu, Q., Saegusa, H., Hayashi, Y. and
Tanabe, T. (2005) The carboxy-terminal tail region of human Cav2.1
(P/Q-type) channel is not an essential determinant for its subcellular localization
in cultured neurons. Genes to Cells 10: 87-96.
Yokoyama,
K., Kurihara, T., Saegusa, H., Zong, S., Makita, K. and Tanabe, T. (2004).
Blocking the R-type (CaV2.3)
Ca2+ channel enhanced morphine analgesia and reduced morphine
tolerance Eur. J. Neurosci. 20: 3516-3519.
Takahashi, E., Fukuda,
K., Miyoshi, S., Murta, M., Kato, T., Ita, M., Tanabe, T., Ogawa, S. (2004)
Leukemia inhibitory factor activates cardiac L-type Ca2+ channels
via phosphorylation of serine 1829 in the
rabbit CaV1.2 subunit.
Circulation Research
94:1242-1248.
Yokoyama, K., Kurihara, T., Makita, K. and Tanabe, T. (2003) Plastic Change
of N-type Ca Channel Expression after Preconditioning is Responsible for
Prostaglandin E2-induced Long-lasting Allodynia Anesthesiology 99: 1364-1370.
Takei, T., Saegusa, H., Zong, S., Murakoshi, T., Makita, K., and Tanabe, T.
(2003). Increased sensitivity to halothane but decreased sensitivity to
propofol in mice lacking the N-type Ca2+ channel Neuroscience
Letters 350:41-45.
Takei, T., Saegusa,
H.,
Zong, S., Murakoshi,
T., Makita,
K., and Tanabe,
T. (2003) Anesthetic Sensitivities to Propofol and Halothane in
Mice Lacking the R-type (Cav2.3)
Ca2+ Channel. Anesthesia
and Analgesia 97: 96-103.
Kurihara, T.,
Nonaka, T. & Tanabe, T. (2003). Acetic acid-conditioning stimulus induces long-lasting antinociception
of somatic inflammatory pain. Pharmacol. Biochem.
Behavior 74: 841-849.
Han, W., Saegusa, H., Zong, S. and Tanabe, T. (2002)
Altered Cocaine Effects in Mice Lacking Cav2.3 (α1E) Calcium Channel. Biochem. Biophys. Res. Commun. 299: 299-304.
Abe, M., Kurihara, T., Han, W.,
Shinomiya, K. & Tanabe, T. (2002). Changes in expression of
voltage-dependent ion channel subunits in dorsal root ganglia of rats with
radicular injury and pain. Spine 27:1517-1525.
Tsunemi, T., Saegusa, H., Ishikawa, K., Nagayama, S., Murakoshi, T.,
Mizusawa, H. & Tanabe, T. (2002). Novel Cav2.1 splice variants isolated
from Purkinje cells do not generate P-type Ca2+ current. Journal of
Biological Chemistry 277: 7214-7221.
Sakata, Y., Saegusa, H., Zong, S., Osanai, M., Murakoshi, T., Shimizu, Y., Noda, T.,
Aso, T. & Tanabe, T. (2002) Cav2.3 (α1E)
Ca2+ channel participates in the
control of sperm function. FEBS
Letters 516: 229-233.
Toriyama, H., Wang, L., Saegusa, H., Zong, S., Osanai, M., Murakoshi, T.,
Noda, T., Ohno, K. & Tanabe, T. (2002) Protective function of Cav2.3
(α1E) Ca2+ channel in ischemic neuronal
injury. NeuroReport 13: 261-265.
Matsuda, Y., Saegusa, H., Zong, S., Noda, T. and Tanabe,T. (2001)
Mice lacking Cav2.3 (α1E) calcium channel
exhibit hyperglycemia. Biochem.
Biophys. Res. Commun. 289:791-795.
Ogasawara, M., Kurihara, T., Hu, Q. & Tanabe, T. (2001). Characterization
of acute somatosensory pain
transmission in P/Q-type Ca2+ channel mutant mice, leaner. FEBS Letters 508: 181-186.
Sakata, Y., Saegusa, H., Zong, S., Osanai, M., Murakoshi, T., Shimizu, Y., Noda, T.,
Aso, T. & Tanabe, T. (2001) Analysis of Ca2+ currents in
spermatocytes from mice lacking Cav2.3 (α1E)
Ca2+ channel. Biochem.
Biophys. Res. Commun. 288: 1032-1036.
Murakoshi, T., Song, S., Konishi, S. & Tanabe, T. (2001) Multiple
G-protein-coupled receptors mediate presynaptic inhibition at single
excitatory synapses in the rat
visual cortex. Neuroscience Letters 309: 117-120.
Ishikawa, K., Owada, K., Ishida, K., Fujigasaki, H., Li, M., Tsunemi, T.,
Ohkoshi, N., Toru, S., Mizutani, T., Hayashi, M., Arai, N., Hasegawa, K.,
Kawanami, T., Kato, T., Makifuchi, T., Shoji, S., Tanabe, T. & Mizusawa,
H. (2001). Cytoplasmic and nuclear polyglutamine-aggregates in SCA6 Purkinje
cells. Neurology
56: 1753-1756.
Saegusa, H., Kurihara, T., Zong, S., Kazuno, A., Matsuda, Y., Nonaka, T.,
Han, W., Toriyama, H. & Tanabe, T. (2001). Suppression of inflammatory
and neuropathic pain symptoms in mice lacking N-type Ca2+ channel. The
EMBO J. 20: 2349-2356.
Kubota, M., Murakoshi, T., Saegusa, H., Kazuno, A., Zong, S., Hu, Q., Noda,
T. & Tanabe, T. (2001) Intact LTP and fear memory but impaired spatial
memory in mice lacking Cav2.3 (α1E) channel. Biochem.
Biophys. Res. Commun. 282: 242-248.
Tateyama, M., Zong, S. Tanabe, T. &
Ochi, R. (2001). Properties of α1E Ca2+ channel
currents expressed in cultured adult rabbit ventricular myocytes. American
J. Physiol., Cell Physiol. 280: C175-C182.
Fujigasaki, H., Uchihara, T., Koyano, S., Iwabuchi, K., Yagishita, S.,
Makifuchi, T., Nakamura, A., Ishida, K., Toru, S., Hirai, S., Ishikawa, K.,
Tanabe, T. & Mizusawa, H. (2000) Ataxin-3 is translocated into the nucleus for the
formation of intranuclear inclusions in normal and Machado-Joseph disease
brains. Experimental Neurology 165: 248-256.
Saegusa, H., Kurihara, T., Zong, S., Minowa, O., Kazuno, A., Han, W.,
Matsuda, Y., Yamanaka, H., Osanai, M., Noda, T. & Tanabe, T. (2000).
Altered pain responses in mice lacking α1E subunit of
the voltage-dependent Ca2+
channel. Proc. Natl. Acad. Sci. USA 97: 6132-6137.
Toru, S., Murakoshi, T., Ishikawa, K., Saegusa, H., Fujigasaki, H., Uchida,
T., Nagayama, S., Osanai, M., Mizusawa H. and Tanabe, T. (2000).
Spinocerebellar ataxia type 6 mutation alters P-type calcium channel
function. Journal of Biological Chemistry 275: 10893-10898.
Ishikawa, K., Fujigasaki, H., Saegusa, H., Ohwada, K., Fujita, T., Iwamoto,
H., Komatsuzaki, Y., Toru, S., Toriyama, H., Watanabe, M., Ohkoshi, N.,
Shoji, S., Kanazawa, I.,
Tanabe, T. & Mizusawa, H. (1999). Abundant expression and cytoplasmic
aggregations of alpha1A-voltage-dependent
calcium channel protein associated with neurodegeneration in spinocerebellar
ataxia type 6. Hum. Molec. Genet. , 8: 1185-1193.
Nakai, J., Tanabe, T., Konno, T., Adams, B.A. & Beam, K.G. (1998).
Localization in the II-III loop of
the dihydropyridine receptor of a sequence critical for excitation-contraction
coupling. Journal of Biological Chemistry, 273: 24983-24986.
Neuhuber, B., Gerster, U., Doering, F., Glossmann, H., Tanabe, T. &
Flucher, B. E. (1998). Association of calcium channel α1S and β1a subunits is required for the targeting of β1a but
not of α1S into skeletal muscle triads. Proc.
Natl. Acad. Sci. USA 95: 5015-5020.
Minabe-Saegusa, C., Saegusa, H., Tsukahara, M., and Noguchi, S. (1998).
Sequence and expression of a novel
mouse gene PRDC (protein related to DAN and cerberus) identified by a gene
trap approach. Dev. Growth & Differ. 40: 343-353.
Urayama, O., Murakoshi, T., Kubota, M., Hara, Y., Chihara, J. and Ikawa, Y.
(1997) Coincident induction of Krev-1/rap 1A, rap 1B and H-ras mRNAs in the rat spinal cord by noxious stimulation. Molecular
Brain Research, 45:
331-334.
Adams, B.A. & Tanabe, T. (1997). Structural regions of the cardiac Ca channel α1C
subunit involved in Ca-dependent inactivation. J. Gen. Physiol.
110: 379-389.
Adams, B. A., Tanabe, T. & Beam, K. G. (1996). Ca2+ current activation
rate correlates with α1 subunit density. Biophys.
J. 71: 156-162.
Yassin, M., Zong, S. & Tanabe, T. (1996). G-protein modulation of
neuronal class E (α1E) calcium channel expressed in
GH3 cells. Biochem. Biophys. Res. Commun. 220: 453-458.
Zong, S., Yassin, M. & Tanabe, T. (1995). G-protein modulation of α1A (P/Q) type calcium channel expressed in GH3 cells. Biochem.
Biophys. Res. Commun. 215: 302-308.
Zhou, J., Zong, S. & Tanabe, T. (1995). Modulation of cloned neuronal
calcium channels through membrane delimited pathway. Biochem. Biophys.
Res. Commun. 208: 485-491.
Takekura, H, Takeshima, H, Nishimura, S, Takahashi, M, Tanabe, T, Flockerzi,
V, Hofmann, F, Franzini-Armstrong C (1995). Co-expression in CHO cells of two
muscle proteins involved in excitation-contraction coupling. Muscle Res
Cell Motil. 16 (5): 465-480.
Adams, B. A., Mori, Y., Kim, M., Tanabe, T.
& Beam, K. G. (1994). Heterologous expression of BI Ca2+ channels in
dysgenic muscle. J. Gen. Physiol. 104: 985-996.
Takekura, H., Bennett, L., Tanabe, T., Beam, K. G. & Franzini-Armstrong,
C. (1994). Restoration of junctional tetrads in dysgenic myotubes by
dihydropyridine receptor cDNA. Biophys. J. 67: 793-803.
Zong, S., Zhou, J. & Tanabe, T. (1994). Molecular determinants of
calcium-dependent inactivation in cardiac L-type calcium channels.
Biochem. Biophys. Res. Commun. 201: 1117-1123.
Pragnell, M., De Waard, M., Mori, Y., Tanabe, T., Snutch, T. P. &
Campbell, K. P. (1994). Calcium channel β subunit
binds to a conserved motif in the
I-II cytoplasmic linker of the α1 subunit. Nature 368: 67-70.
Garcia, J., Tanabe, T. & Beam, K. G. (1994). Relationship of calcium
transients to calcium currents and charge movements in myotubes expressing
skeletal muscle and cardiac DHP receptors. J. Gen. Physiol.
103: 125-147.
Zhang, J.-F., Randall, A. D., Ellinor, P. T., Horne, W. A., Sather, W. A., Tanabe, T., Schwarz, T. L. &
Tsien, R. W. (1993). Distinctive pharmacology and kinetics of cloned neuronal
Ca2+ channels and their possible
counterparts in mammalian CNS neurons. Neuropharmacology 32:
1075-1088.
Sather, W. A., Tanabe, T., J.-F.
Zhang, Mori, Y., Adams, M. E. & Tsien,
R. W. (1993). Distinctive biophysical and pharmacological properties of class
A (BI) calcium channel α1 subunits. Neuron
11: 291-303.
Beam, K. G., Adams, B. A., Niidome, T., Numa, S. & Tanabe, T. (1992).
Function of a truncated
dihydropyridine receptor as both voltage sensor and calcium channel. Nature
360: 169-171.
Tanabe, T., Adams, B. A., Numa, S. & Beam, K. G. (1991). Repeat I of the dihydropyridine receptor is critical in
determining calcium channel activation kinetics. Nature 352:
800-803.
Mori, Y., Friedrich, T., Kim, M., Mikami, A., Nakai, J., Ruth, P., Bosse, E.,
Hofmann, F., Flockerzi, V., Furuichi, T., Mikoshiba, K., Imoto, K., Tanabe,
T. & Numa, S. (1991). Primary structure and functional expression from
complementary DNA of a brain
calcium channel. Nature 350: 398-402.
Adams, B. A., Tanabe, T., Mikami, A., Numa, S. & Beam, K. G. (1990).
Intramembrane charge movement restored in dysgenic skeletal muscle by
injection of dihydropyridine receptor cDNAs. Nature 346:
569-572.
Tanabe, T., Beam, K. G., Adams, B. A.,
Niidome, T. & Numa, S. (1990). Regions of the
skeletal muscle dihydropyridine receptor critical for excitation-contraction
coupling. Nature 346: 567-569.
Tanabe, T., Mikami, A., Numa, S. & Beam, K. G. (1990). Cardiac-type
excitation-contraction coupling in dysgenic skeletal muscle injected with
cardiac dihydropyridine receptor cDNA. Nature 344: 451-453.
Kaupp, U. B., Niidome, T., Tanabe, T., Terada, S., Boenigk, W., Stuehmer, W.,
Cook, N. J., Kangawa, K., Matsuo, H., Hirose, T., Miyata, T. & Numa, S.
(1989). Primary structure and functional expression from complementary DNA of
the rod photoreceptor cyclic
GMP-gated channel. Nature 342: 762-766.
Mikami, A., Imoto, K., Tanabe, T., Niidome, T., Mori, Y., Takeshima, H.,
Narumiya, S. & Numa, S. (1989). Primary structure and functional
expression of the cardiac
dihydropyridine-sensitive calcium channel. Nature 340: 230-233.
Tanabe, T., Beam, K. G., Powell, J. A. & Numa, S. (1988). Restoration of
excitation-contraction coupling and slow calcium current in dysgenic muscle
by dihydropyridine receptor complementary DNA. Nature 336:
134-139.
Tanabe, T., Takeshima, H., Mikami, A., Flockerzi, V., Takahashi, H., Kangawa,
K., Kojima, M., Matsuo, H., Hirose, T. & Numa, S. (1987). Primary
structure of the receptor for
calcium channel blockers from skeletal muscle. Nature 328:
313-318.
Nukada, T., Tanabe, T., Takahashi, H., Noda, M., Haga, K., Haga, T.,
Ichiyama, A., Kangawa, K., Hiranaga, M., Matsuo, H. & Numa, S. (1986).
Primary structure of the α-subunit of bovine adenylate cyclase-inhibiting G-protein deduced
from the cDNA sequence. FEBS
Lett. 197: 305-310.
Nukada, T., Tanabe, T., Takahashi, H., Noda, M., Hirose, T., Inayama, S.
& Numa, S. (1986). Primary structure of the
α-subunit of bovine adenylate cyclase-stimulating
G-protein deduced from the cDNA
sequence. FEBS Lett. 195: 220-224.
Sugimoto, K., Nukada, T., Tanabe, T., Takahashi, H., Noda, M., Minamino, N.,
Kangawa, K., Matsuo, H., Hirose, T., Inayama, S. & Numa, S. (1985).
Primary structure of the β-subunit of bovine transducin deduced from the
cDNA sequence. FEBS Lett. 191: 235-240.
Tanabe, T., Nukada, T., Nishikawa, Y., Sugimoto, K., Suzuki, H., Takahashi,
H., Noda, M., Haga, T., Ichiyama, A., Kangawa, K., Minamino, N., Matsuo, H.
& Numa, S. (1985). Primary structure of the
α-subunit of transducin and its relationship to ras
proteins. Nature 315: 242-245.
Kubo, T., Noda, M., Takai, T., Tanabe, T., Kayano, T., Shimizu, S., Tanaka, K., Takahashi, H.,
Hirose, T., Inayama, S., Kikuno, R., Miyata, T. & Numa, S. (1985).
Primary structure ofδ-subunit precursor of calf
muscle acetylcholine receptor deducted from cDNA sequence. Eur. J.
Biochem. 149: 5-13.
Noda, M., Shimizu,
S., Tanabe, T., Takai, T., Kayano, T., Ikeda, T., Takahashi, H., Nakayama,
H., Kanaoka, Y., Minamino, N., Kangawa, K., Matsuo, H., Raftery, M. A.,
Hirose, T., Inayama, S., Hayashida, H., Miyata, T. & Numa, S. (1984).
Primary structure of Electrophorus electricus sodium channel deduced from
cDNA sequence. Nature 312: 121-127.
Tanabe, T., Noda, M., Frutani, Y., Takai, T., Takahashi, H., Tanaka, K.,
Hirose, T., Inayama, S. & Numa, S. (1984). Primary structure of β-subunit precursor of calf muscle acetylcholine receptor deduced
from cDNA sequence. Eur. J. Biochem. 144: 11-17.
Takai, T., Noda, M., Furutani, Y., Takahashi, H., Notake, M., Shimizu, S., Kayano,
T., Tanabe, T., Tanaka, K., Hirose, T., Inayama, S. & Numa, S. (1984).
Primary structure of γ-subunit precursor of calf
muscle acetylcholine receptor deduced from the
cDNA sequence. Eur. J. Biochem. 143: 109-115.
Noda, M., Furutani, Y., Takahashi, H., Toyosato, M., Tanabe, T., Shimizu, S., Kikyotani,
S., Kayano, T., Hirose, T., Inayama, S. & Numa, S. (1983). Cloning and
sequence analysis of calf cDNA and human genomic DNA encoding α-subunit precursor of muscle acetylcholine receptor. Nature
305: 818-823.
Noda, M., Takahashi, H., Tanabe, T., Toyosato, M., Kikyotani, S., Furutani,
Y., Hirose, T., Takashima, H., Inayama, S., Miyata, T. & Numa, S. (1983).
Structural homology of Torpedo californica acetylcholine receptor subunits. Nature
302: 528-532.
Noda, M., Takahashi, H., Tanabe, T., Toyosato, M., Kikyotani, S., Hirose, T.,
Asai, M., Takashima, H., Inayama, S., Miyata, T. & Numa, S. (1983).
Primary structure of β- and δ-subunit
precursors of Torpedo californica acetylcholine receptor deduced from cDNA
sequences. Nature 301: 251-255.
Noda, M., Takahashi, H., Tanabe, T., Toyosato, M., Furutani, Y., Hirose, T.,
Asai, M., Inayama, S., Miyata, T. & Numa, S. (1982). Primary structure of
α-subunit precursor of Torpedo californica
acetylcholine receptor deduced from cDNA sequence. Nature 299:
793-797.
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