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Yoshitaka Fukada

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Co-Publications
Name
48
Okano, Toshiyuki
23
Shichida, Yoshinori
14
Kojima, Daisuke
11
Sanada, Kamon
9
Hirota, Tsuyoshi
6
Imai, Hiroo
6
Imamoto, Yasushi
6
Kasahara, Takaoki
5
Takanaka, Yoko
5
Kandori, Hideki
4
Terakita, Akihisa
4
Nakamura, Atsushi
4
Mano, Hiroaki
4
Haga, Tatsuya
4
Doi, Masao

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Publications

TOP 3
Sasaki Momoko; Yoshitane Hikari; Du Ngoc-Hien; Okano Toshiyuki; Fukada Yoshitaka
Preferential inhibition of BMAL2-CLOCK activity by PER2 reemphasizes its negative role and a positive role of BMAL2 in the circadian transcription.
Yoshitane Hikari; Takao Toshifumi; Satomi Yoshinori; Du Ngoc-Hien; Okano Toshiyuki; Fukada Yoshitaka
Roles of CLOCK phosphorylation in suppression of E-box-dependent transcription.
Kon Naohiro; Hirota Tsuyoshi; Kawamoto Takeshi; Kato Yukio; Tsubota Tadashi; Fukada Yoshitaka
Activation of TGF-beta/activin signalling resets the circadian clock through rapid induction of Dec1 transcripts.

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All Publications

2009: Sasaki Momoko; Yoshitane Hikari; Du Ngoc-Hien; Okano Toshiyuki; Fukada Yoshitaka
Preferential inhibition of BMAL2-CLOCK activity by PER2 reemphasizes its negative role and a positive role of BMAL2 in the circadian transcription.
The Journal of biological chemistry 2009;284(37):25149-59.
2009: Yoshitane Hikari; Takao Toshifumi; Satomi Yoshinori; Du Ngoc-Hien; Okano Toshiyuki; Fukada Yoshitaka
Roles of CLOCK phosphorylation in suppression of E-box-dependent transcription.
Molecular and cellular biology 2009;29(13):3675-86.
2008: Kon Naohiro; Hirota Tsuyoshi; Kawamoto Takeshi; Kato Yukio; Tsubota Tadashi; Fukada Yoshitaka
Activation of TGF-beta/activin signalling resets the circadian clock through rapid induction of Dec1 transcripts.
Nature cell biology 2008;10(12):1463-9.
2008: Katadae Maiko; Hagiwara Ken'ichi; Wada Akimori; Ito Masayoshi; Umeda Masato; Casey Patrick J; Fukada Yoshitaka
Interacting targets of the farnesyl of transducin gamma-subunit.
Biochemistry 2008;47(32):8424-33.
2008: Kojima Daisuke; Dowling John E; Fukada Yoshitaka
Probing pineal-specific gene expression with transgenic zebrafish.
Photochemistry and photobiology 2008;84(4):1011-5.
2008: Kojima Daisuke; Torii Masaki; Fukada Yoshitaka; Dowling John E
Differential expression of duplicated VAL-opsin genes in the developing zebrafish.
Journal of neurochemistry 2008;104(5):1364-71.
2008: Tamai So-ichi; Sanada Kamon; Fukada Yoshitaka
Time-of-day-dependent enhancement of adult neurogenesis in the hippocampus.
PloS one 2008;3(12):e3835.
2007: Shimizu Fumiko; Fukada Yoshitaka
Circadian phosphorylation of ATF-2, a potential activator of Period2 gene transcription in the chick pineal gland.
Journal of neurochemistry 2007;103(5):1834-42.
2007: Torii Masaki; Kojima Daisuke; Okano Toshiyuki; Nakamura Atsushi; Terakita Akihisa; Shichida Yoshinori; Wada Akimori; Fukada Yoshitaka
Two isoforms of chicken melanopsins show blue light sensitivity.
FEBS letters 2007;581(27):5327-31.
2007: Asada Naoyuki; Sanada Kamon; Fukada Yoshitaka
LKB1 regulates neuronal migration and neuronal differentiation in the developing neocortex through centrosomal positioning.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2007;27(43):11769-75.
2007: Tsuji Takahiro; Hirota Tsuyoshi; Takemori Nobuaki; Komori Naoka; Yoshitane Hikari; Fukuda Masafumi; Matsumoto Hiroyuki; Fukada Yoshitaka
Circadian proteomics of the mouse retina.
Proteomics 2007;7(19):3500-8.
2007: Nakao Nobuhiro; Yasuo Shinobu; Nishimura Atsuko; Yamamura Takashi; Watanabe Tsuyoshi; Anraku Tsubasa; Okano Toshiyuki; Fukada Yoshitaka; Sharp Peter J; Ebihara Shizufumi; Yoshimura Takashi
Circadian clock gene regulation of steroidogenic acute regulatory protein gene expression in preovulatory ovarian follicles.
Endocrinology 2007;148(7):3031-8.
2007: Mano Hiroaki; Fukada Yoshitaka
A median third eye: pineal gland retraces evolution of vertebrate photoreceptive organs.
Photochemistry and photobiology 2007;83(1):11-8.
2006: Wada Yasutaka; Sugiyama Junichi; Okano Toshiyuki; Fukada Yoshitaka
GRK1 and GRK7: unique cellular distribution and widely different activities of opsin phosphorylation in the zebrafish rods and cones.
Journal of neurochemistry 2006;98(3):824-37.
2006: Kubo Yoko; Akiyama Masashi; Fukada Yoshitaka; Okano Toshiyuki
Molecular cloning, mRNA expression, and immunocytochemical localization of a putative blue-light photoreceptor CRY4 in the chicken pineal gland.
Journal of neurochemistry 2006;97(4):1155-65.
2006: Hatori Megumi; Okano Toshiyuki; Nakajima Yoshito; Doi Masao; Fukada Yoshitaka
Lcg is a light-inducible and clock-controlled gene expressed in the chicken pineal gland.
Journal of neurochemistry 2006;96(6):1790-800.
2006: Kurabayashi Nobuhiro; Hirota Tsuyoshi; Harada Yuko; Sakai Mihoko; Fukada Yoshitaka
Phosphorylation of mCRY2 at Ser557 in the hypothalamic suprachiasmatic nucleus of the mouse.
Chronobiology international 2006;23(1-2):129-34.
2005: Harada Yuko; Sakai Mihoko; Kurabayashi Nobuhiro; Hirota Tsuyoshi; Fukada Yoshitaka
Ser-557-phosphorylated mCRY2 is degraded upon synergistic phosphorylation by glycogen synthase kinase-3 beta.
The Journal of biological chemistry 2005;280(36):31714-21.
2005: Kassai Hidetoshi; Aiba Atsu; Nakao Kazuki; Nakamura Kenji; Katsuki Motoya; Xiong Wei-Hong; Yau King-Wai; Imai Hiroo; Shichida Yoshinori; Satomi Yoshinori; Takao Toshifumi; Okano Toshiyuki; Fukada Yoshitaka
Farnesylation of retinal transducin underlies its translocation during light adaptation.
Neuron 2005;47(4):529-39.
2005: Kassai Hidetoshi; Satomi Yoshinori; Fukada Yoshitaka; Takao Toshifumi
Top-down analysis of protein isoprenylation by electrospray ionization hybrid quadrupole time-of-flight tandem mass spectrometry; the mouse Tgamma protein.
Rapid communications in mass spectrometry : RCM 2005;19(2):269-74.
2004: Sanada Kamon; Harada Yuko; Sakai Mihoko; Todo Takeshi; Fukada Yoshitaka
Serine phosphorylation of mCRY1 and mCRY2 by mitogen-activated protein kinase.
Genes to cells : devoted to molecular & cellular mechanisms 2004;9(8):697-708.
2004: Doi Masao; Okano Toshiyuki; Yujnovsky Irene; Sassone-Corsi Paolo; Fukada Yoshitaka
Negative control of circadian clock regulator E4BP4 by casein kinase Iepsilon-mediated phosphorylation.
Current biology : CB 2004;14(11):975-80.
2004: Hirota Tsuyoshi; Fukada Yoshitaka
Resetting mechanism of central and peripheral circadian clocks in mammals.
Zoological science 2004;21(4):359-68.
2004: Hashimoto Yuichi; Matsuda Takahiko; Matsuura Yoshiharu; Haga Tatsuya; Fukada Yoshitaka
Production of N-lauroylated G protein alpha-subunit in Sf9 insect cells: the type of N-acyl group of Galpha influences G protein-mediated signal transduction.
Journal of biochemistry 2004;135(3):319-29.
2004: Hagiwara Ken'ichi; Wada Akimori; Katadae Maiko; Ito Masayoshi; Ohya Yoshikazu; Casey Patrick J; Fukada Yoshitaka
Analysis of the molecular interaction of the farnesyl moiety of transducin through the use of a photoreactive farnesyl analogue.
Biochemistry 2004;43(2):300-9.
2003: Okano Toshiyuki; Fukada Yoshitaka
Chicktacking pineal clock.
Journal of biochemistry 2003;134(6):791-7.
2003: Fukada Yoshitaka
Molecular oscillation behind the clockface.
Journal of biochemistry 2003;134(6):773-5.
2003: Hayashi Yuichiro; Sanada Kamon; Hirota Tsuyoshi; Shimizu Fumiko; Fukada Yoshitaka
p38 mitogen-activated protein kinase regulates oscillation of chick pineal circadian clock.
The Journal of biological chemistry 2003;278(27):25166-71.
2003: Nakaya Michio; Sanada Kamon; Fukada Yoshitaka
Spatial and temporal regulation of mitogen-activated protein kinase phosphorylation in the mouse suprachiasmatic nucleus.
Biochemical and biophysical research communications 2003;305(3):494-501.
2003: Shimizu Fumiko; Sanada Kamon; Fukada Yoshitaka
Purification and immunohistochemical analysis of calcium-binding proteins expressed in the chick pineal gland.
Journal of pineal research 2003;34(3):208-16.
2003: Shimizu Kimiko; Okada Masato; Nagai Katsuya; Fukada Yoshitaka
Suprachiasmatic nucleus circadian oscillatory protein, a novel binding partner of K-Ras in the membrane rafts, negatively regulates MAPK pathway.
The Journal of biological chemistry 2003;278(17):14920-5.
2003: Fukada Yoshitaka; Asaoka Yoichi
[Photoreception and circadian clock system in the pineal gland]
No to shinkei = Brain and nerve 2003;55(1):13-24.
2002: Asaoka Yoichi; Mano Hiroaki; Kojima Daisuke; Fukada Yoshitaka
Pineal expression-promoting element (PIPE), a cis-acting element, directs pineal-specific gene expression in zebrafish.
Proceedings of the National Academy of Sciences of the United States of America 2002;99(24):15456-61.
2002: Hirota Tsuyoshi; Okano Toshiyuki; Kokame Koichi; Shirotani-Ikejima Hiroko; Miyata Toshiyuki; Fukada Yoshitaka
Glucose down-regulates Per1 and Per2 mRNA levels and induces circadian gene expression in cultured Rat-1 fibroblasts.
The Journal of biological chemistry 2002;277(46):44244-51.
2002: Kasahara Takaoki; Okano Toshiyuki; Haga Tatsuya; Fukada Yoshitaka
Opsin-G11-mediated signaling pathway for photic entrainment of the chicken pineal circadian clock.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2002;22(17):7321-5.
2002: Doi Masao; Nakajima Yoshito; Okano Toshiyuki; Fukada Yoshitaka
Light-dependent changes in the chick pineal temperature and the expression of cHsp90 alpha gene: a potential contribution of in vivo temperature change to the photic-entrainment of the chick pineal circadian clock.
Zoological science 2002;19(6):633-41.
2002: Takanaka Yoko; Okano Toshiyuki; Yamamoto Kazuyuki; Fukada Yoshitaka
A negative regulatory element required for light-dependent pinopsin gene expression.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2002;22(11):4357-63.
2002: Fukada Yoshitaka; Okano Toshiyuki
Circadian clock system in the pineal gland.
Molecular neurobiology 2002;25(1):19-30.
2002: Sanada Kamon; Okano Toshiyuki; Fukada Yoshitaka
Mitogen-activated protein kinase phosphorylates and negatively regulates basic helix-loop-helix-PAS transcription factor BMAL1.
The Journal of biological chemistry 2002;277(1):267-71.
2001: Yamamoto K; Okano T; Fukada Y
Chicken pineal Cry genes: light-dependent up-regulation of cCry1 and cCry2 transcripts.
Neuroscience letters 2001;313(1-2):13-6.
2001: Okano T; Yamamoto K; Okano K; Hirota T; Kasahara T; Sasaki M; Takanaka Y; Fukada Y
Chicken pineal clock genes: implication of BMAL2 as a bidirectional regulator in circadian clock oscillation.
Genes to cells : devoted to molecular & cellular mechanisms 2001;6(9):825-36.
2001: Doi M; Nakajima Y; Okano T; Fukada Y
Light-induced phase-delay of the chicken pineal circadian clock is associated with the induction of cE4bp4, a potential transcriptional repressor of cPer2 gene.
Proceedings of the National Academy of Sciences of the United States of America 2001;98(14):8089-94.
2001: Okano T; Fukada Y
Photoreception and circadian clock system of the chicken pineal gland.
Microscopy research and technique 2001;53(1):72-80.
2001: Okano T; Sasaki M; Fukada Y
Cloning of mouse BMAL2 and its daily expression profile in the suprachiasmatic nucleus: a remarkable acceleration of Bmal2 sequence divergence after Bmal gene duplication.
Neuroscience letters 2001;300(2):111-4.
2001: Hayashi Y; Sanada K; Fukada Y
Circadian and photic regulation of MAP kinase by Ras- and protein phosphatase-dependent pathways in the chick pineal gland.
FEBS letters 2001;491(1-2):71-5.
2001: Nakamura A; Kojima D; Okano T; Imai H; Terakita A; Shichida Y; Fukada Y
Regulatory mechanism for the stability of the meta II intermediate of pinopsin.
Journal of biochemistry 2001;129(2):329-34.
2001: Hirota T; Kagiwada S; Kasahara T; Okano T; Murata M; Fukada Y
Effect of brefeldin A on melatonin secretion of chick pineal cells.
Journal of biochemistry 2001;129(1):51-9.
2000: Wada Y; Okano T; Fukada Y
Phototransduction molecules in the pigeon deep brain.
The Journal of comparative neurology 2000;428(1):138-44.
2000: Harada Y; Sanada K; Fukada Y
Circadian activation of bullfrog retinal mitogen-activated protein kinase associates with oscillator function.
The Journal of biological chemistry 2000;275(47):37078-85.
2000: Kasahara T; Okano T; Yoshikawa T; Yamazaki K; Fukada Y
Rod-type transducin alpha-subunit mediates a phototransduction pathway in the chicken pineal gland.
Journal of neurochemistry 2000;75(1):217-24.
2000: Kojima D; Mano H; Fukada Y
Vertebrate ancient-long opsin: a green-sensitive photoreceptive molecule present in zebrafish deep brain and retinal horizontal cells.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2000;20(8):2845-51.
2000: Matsushita A; Yoshikawa T; Okano T; Kasahara T; Fukada Y
Colocalization of pinopsin with two types of G-protein alpha-subunits in the chicken pineal gland.
Cell and tissue research 2000;299(2):245-51.
2000: Sanada K; Hayashi Y; Harada Y; Okano T; Fukada Y
Role of circadian activation of mitogen-activated protein kinase in chick pineal clock oscillation.
The Journal of neuroscience : the official journal of the Society for Neuroscience 2000;20(3):986-91.
2000: Matsuda T; Fukada Y
Functional analysis of farnesylation and methylation of transducin.
Methods in enzymology 2000;316():465-81.
2000: Okano T; Fukada Y
Photoreceptors in pineal gland and brain: cloning, localization, and overexpression.
Methods in enzymology 2000;316():278-91.
1999: Mano H; Kojima D; Fukada Y
Exo-rhodopsin: a novel rhodopsin expressed in the zebrafish pineal gland.
Brain research. Molecular brain research 1999;73(1-2):110-8.
1999: Nakamura A; Kojima D; Imai H; Terakita A; Okano T; Shichida Y; Fukada Y
Chimeric nature of pinopsin between rod and cone visual pigments.
Biochemistry 1999;38(45):14738-45.
1999: Shouno O; Sanada K; Asano T; Fukada Y
Characterization of N-acylation of Go alpha purified from bovine retinas.
Neuroreport 1999;10(14):2999-3002.
1999: Hagiwara K; Fukada Y
[Regulation of protein functions by fatty acid acylation and isoprenylation]
Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme 1999;44(8 Suppl):1337-45.
1999: Fukada Y
[Regulation of protein function by lipid modifications]
Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme 1999;44(8 Suppl):1319-20.
1999: Kojima D; Fukada Y
Non-visual photoreception by a variety of vertebrate opsins.
Novartis Foundation symposium 1999;224():265-79; discussion 279-82.
1998: Matsuda T; Hashimoto Y; Ueda H; Asano T; Matsuura Y; Doi T; Takao T; Shimonishi Y; Fukada Y
Specific isoprenyl group linked to transducin gamma-subunit is a determinant of its unique signaling properties among G-proteins.
Biochemistry 1998;37(27):9843-50.
1998: Wada Y; Okano T; Adachi A; Ebihara S; Fukada Y
Identification of rhodopsin in the pigeon deep brain.
FEBS letters 1998;424(1-2):53-6.
1998: Takanaka Y; Okano T; Iigo M; Fukada Y
Light-dependent expression of pinopsin gene in chicken pineal gland.
Journal of neurochemistry 1998;70(3):908-13.
1997: Tachibanaki S; Imai H; Mizukami T; Okada T; Imamoto Y; Matsuda T; Fukada Y; Terakita A; Shichida Y
Presence of two rhodopsin intermediates responsible for transducin activation.
Biochemistry 1997;36(46):14173-80.
1997: Okano T; Takanaka Y; Nakamura A; Hirunagi K; Adachi A; Ebihara S; Fukada Y
Immunocytochemical identification of pinopsin in pineal glands of chicken and pigeon.
Brain research. Molecular brain research 1997;50(1-2):190-6.
1997: Hirunagi K; Ebihara S; Okano T; Takanaka Y; Fukada Y
Immunoelectron-microscopic investigation of the subcellular localization of pinopsin in the pineal organ of the chicken.
Cell and tissue research 1997;289(2):235-41.
1997: Okano T; Fukada Y
Phototransduction cascade and circadian oscillator in chicken pineal gland.
Journal of pineal research 1997;22(3):145-51.
1997: Okano T; Yamazaki K; Kasahara T; Fukada Y
Molecular cloning of heterotrimeric G-protein alpha-subunits in chicken pineal gland.
Journal of molecular evolution 1997;44 Suppl 1():S91-7.
1996: Nishimura S; Sasaki J; Kandori H; Matsuda T; Fukada Y; Maeda A
Structural changes in the peptide backbone in complex formation between activated rhodopsin and transducin studied by FTIR spectroscopy.
Biochemistry 1996;35(41):13267-71.
1996: Shouno O; Kokame K; Araki M; Takao T; Shimonishi Y; Murata M; Yoshizawa T; Fukada Y
Preparation and characterization of monoclonal antibodies specific for lauroylated isoform of bovine transducin alpha-subunit: immunohistochemical analysis of bovine retinas.
Journal of neurochemistry 1996;66(5):2188-96.
1996: Sanada K; Shimizu F; Kameyama K; Haga K; Haga T; Fukada Y
Calcium-bound recoverin targets rhodopsin kinase to membranes to inhibit rhodopsin phosphorylation.
FEBS letters 1996;384(3):227-30.
1996: Kojima D; Oura T; Hisatomi O; Tokunaga F; Fukada Y; Yoshizawa T; Shichida Y
Molecular properties of chimerical mutants of gecko blue and bovine rhodopsin.
Biochemistry 1996;35(8):2625-9.
1995: Okano T; Fukada Y; Yoshizawa T
Molecular basis for tetrachromatic color vision.
Comparative biochemistry and physiology. Part B, Biochemistry & molecular biology 1995;112(3):405-14.
1995: Fukada Y; Okano T
[Molecular analysis of biological clocks]
Seikagaku. The Journal of Japanese Biochemical Society 1995;67(9):1137-42.
1995: Sanada K; Kokame K; Yoshizawa T; Takao T; Shimonishi Y; Fukada Y
Role of heterogeneous N-terminal acylation of recoverin in rhodopsin phosphorylation.
The Journal of biological chemistry 1995;270(26):15459-62.
1995: Fukada Y; Matsuda T
[Biological significance of lipid modifications of G-proteins]
Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme 1995;40(7):889-902.
1995: Kojima D; Imai H; Okano T; Fukada Y; Crescitelli F; Yoshizawa T; Shichida Y
Purification and low temperature spectroscopy of gecko visual pigments green and blue.
Biochemistry 1995;34(3):1096-106.
1995: Fukada Y
Prenylation and carboxylmethylation of G-protein gamma subunit.
Methods in enzymology 1995;250():91-105.
1994: Matsuda T; Takao T; Shimonishi Y; Murata M; Asano T; Yoshizawa T; Fukada Y
Characterization of interactions between transducin alpha/beta gamma-subunits and lipid membranes.
The Journal of biological chemistry 1994;269(48):30358-63.
1994: Okano T; Yoshizawa T; Fukada Y
Pinopsin is a chicken pineal photoreceptive molecule.
Nature 1994;372(6501):94-7.
1994: Shichida Y; Imai H; Imamoto Y; Fukada Y; Yoshizawa T
Is chicken green-sensitive cone visual pigment a rhodopsin-like pigment? A comparative study of the molecular properties between chicken green and rhodopsin.
Biochemistry 1994;33(31):9040-4.
1994: Fukada Y; Kokame K
[Covalent lipid modifications of heterotrimeric G proteins]
Nippon yakurigaku zasshi. Folia pharmacologica Japonica 1994;103(6):263-72.
1994: Okada T; Matsuda T; Kandori H; Fukada Y; Yoshizawa T; Shichida Y
Circular dichroism of metaiodopsin II and its binding to transducin: a comparative study between meta II intermediates of iodopsin and rhodopsin.
Biochemistry 1994;33(16):4940-6.
1994: Lin S W; Imamoto Y; Fukada Y; Shichida Y; Yoshizawa T; Mathies R A
What makes red visual pigments red? A resonance Raman microprobe study of retinal chromophore structure in iodopsin.
Biochemistry 1994;33(8):2151-60.
1994: Fukada Y; Matsuda T; Kokame K; Takao T; Shimonishi Y; Akino T; Yoshizawa T
Effects of carboxyl methylation of photoreceptor G protein gamma-subunit in visual transduction.
The Journal of biological chemistry 1994;269(7):5163-70.
1993: Shichida Y; Okada T; Kandori H; Fukada Y; Yoshizawa T
Nanosecond laser photolysis of iodopsin, a chicken red-sensitive cone visual pigment.
Biochemistry 1993;32(40):10832-8.
1993: Kokame K; Fukada Y; Shichida Y; Okada M; Honda Y; Yoshizawa T
Identification of the alpha-subunits of rod and cone transducin in chicken photoreceptor cells.
Experimental eye research 1993;57(2):135-40.
1993: Fukada Y
[Photoreceptors and GTP-binding protein in visual cells]
Seikagaku. The Journal of Japanese Biochemical Society 1993;65(7):513-36.
1993: Kameyama K; Haga K; Haga T; Kontani K; Katada T; Fukada Y
Activation by G protein beta gamma subunits of beta-adrenergic and muscarinic receptor kinase.
The Journal of biological chemistry 1993;268(11):7753-8.
1992: Okano T; Fukada Y; Shichida Y; Yoshizawa T
Photosensitivities of iodopsin and rhodopsins.
Photochemistry and photobiology 1992;56(6):995-1001.
1992: Fukada Y; Matsuda T
[Modification of heterotrimeric G proteins by fatty acids and isoprenoids]
Seikagaku. The Journal of Japanese Biochemical Society 1992;64(11):1349-53.
1992: Kokame K; Fukada Y; Yoshizawa T; Takao T; Shimonishi Y
Lipid modification at the N terminus of photoreceptor G-protein alpha-subunit.
Nature 1992;359(6397):749-52.
1992: Kojima D; Okano T; Fukada Y; Shichida Y; Yoshizawa T; Ebrey T G
Cone visual pigments are present in gecko rod cells.
Proceedings of the National Academy of Sciences of the United States of America 1992;89(15):6841-5.
1992: Okano T; Kojima D; Fukada Y; Shichida Y; Yoshizawa T
Primary structures of chicken cone visual pigments: vertebrate rhodopsins have evolved out of cone visual pigments.
Proceedings of the National Academy of Sciences of the United States of America 1992;89(13):5932-6.
1990: Kandori H; Mizukami T; Okada T; Imamoto Y; Fukada Y; Shichida Y; Yoshizawa T
Bathoiodopsin, a primary intermediate of iodopsin at physiological temperature.
Proceedings of the National Academy of Sciences of the United States of America 1990;87(22):8908-12.
1990: Fukada Y; Kokame K; Okano T; Shichida Y; Yoshizawa T; McDowell J H; Hargrave P A; Palczewski K
Phosphorylation of iodopsin, chicken red-sensitive cone visual pigment.
Biochemistry 1990;29(43):10102-6.
1990: Kuwata O; Imamoto Y; Okano T; Kokame K; Kojima D; Matsumoto H; Morodome A; Fukada Y; Shichida Y; Yasuda K
The primary structure of iodopsin, a chicken red-sensitive cone pigment.
FEBS letters 1990;272(1-2):128-32.
1990: Loppnow G R; Miley M E; Mathies R A; Liu R S; Kandori H; Shichida Y; Fukada Y; Yoshizawa T
Structure of the retinal chromophore in 7,9-dicis-rhodopsin.
Biochemistry 1990;29(38):8985-91.
1990: Fukada Y; Takao T; Ohguro H; Yoshizawa T; Akino T; Shimonishi Y
Farnesylated gamma-subunit of photoreceptor G protein indispensable for GTP-binding.
Nature 1990;346(6285):658-60.
1990: Shichida Y; Kato T; Sasayama S; Fukada Y; Yoshizawa T
Effects of chloride on chicken iodopsin and the chromophore transfer reactions from iodopsin to scotopsin and B-photopsin.
Biochemistry 1990;29(24):5843-8.
1990: Fukada Y; Okano T; Shichida Y; Yoshizawa T; Trehan A; Mead D; Denny M; Asato A E; Liu R S
Comparative study on the chromophore binding sites of rod and red-sensitive cone visual pigments by use of synthetic retinal isomers and analogues.
Biochemistry 1990;29(12):3133-40.
1990: Fukada Y; Yoshizawa T; Saito T; Ohguro H; Akino T
Binding of GTP to transducin is not inhibited by arrestin and phosphorylated rhodopsin.
FEBS letters 1990;261(2):419-22.
1989: Imamoto Y; Kandori H; Okano T; Fukada Y; Shichida Y; Yoshizawa T
Effect of chloride ion on the thermal decay process of the batho intermediate of iodopsin at low temperature.
Biochemistry 1989;28(24):9412-6.
1989: Okano T; Fukada Y; Artamonov I D; Yoshizawa T
Purification of cone visual pigments from chicken retina.
Biochemistry 1989;28(22):8848-56.
1989: Fukada Y; Ohguro H; Saito T; Yoshizawa T; Akino T
Beta gamma-subunit of bovine transducin composed of two components with distinctive gamma-subunits.
The Journal of biological chemistry 1989;264(10):5937-43.
1989: Fukada Y; Okano T; Artamonov I D; Yoshizawa T
Chicken red-sensitive cone visual pigment retains a binding domain for transducin.
FEBS letters 1989;246(1-2):69-72.
1989: Shichida Y; Taniguchi Y; Kuwata O; Fukada Y; Yoshizawa T; Horiuchi S; Takeichi M
Monoclonal antibodies to chicken iodopsin.
Experimental eye research 1989;48(2):281-93.

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