Yoshitaka Fukada
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Computer Science
Yoshitaka Fukada's Degrees
- PhD Computer Science University of Tokyo
- Masters Computer Science University of Tokyo
- Bachelors Computer Science University of Tokyo
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(Suggest an Edit or Addition)Yoshitaka Fukada's Published Works
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Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Identification, classification and anatomical segregation of cells with X‐like and Y‐like properties in the lateral geniculate nucleus of old‐world primates. (1976) (526)
- Primary structures of chicken cone visual pigments: vertebrate rhodopsins have evolved out of cone visual pigments. (1992) (335)
- Pinopsin is a chicken pineal photoreceptive molecule (1994) (321)
- Farnesylated γ-subunit of photoreceptor G protein indispensable for GTP-binding (1990) (314)
- Glucose Down-regulates Per1 and Per2mRNA Levels and Induces Circadian Gene Expression in Cultured Rat-1 Fibroblasts* 210 (2002) (289)
- Resetting Mechanism of Central and Peripheral Circadian Clocks in Mammals (2004) (255)
- Receptive field organization of cat optic nerve fibers with special reference to conduction velocity. (1971) (253)
- FBXL21 Regulates Oscillation of the Circadian Clock through Ubiquitination and Stabilization of Cryptochromes (2013) (223)
- The circadian clock regulates rhythmic activation of the NRF2/glutathione-mediated antioxidant defense pathway to modulate pulmonary fibrosis (2014) (210)
- Lipid modification at the N terminus of photoreceptor G-protein α-subunit (1992) (194)
- Ser-557-phosphorylated mCRY2 Is Degraded upon Synergistic Phosphorylation by Glycogen Synthase Kinase-3β* (2005) (193)
- Mitogen-activated Protein Kinase Phosphorylates and Negatively Regulates Basic Helix-Loop-Helix-PAS Transcription Factor BMAL1* (2002) (152)
- UV-Sensitive Photoreceptor Protein OPN5 in Humans and Mice (2011) (149)
- Vertebrate Ancient-Long Opsin: A Green-Sensitive Photoreceptive Molecule Present in Zebrafish Deep Brain and Retinal Horizontal Cells (2000) (147)
- Exo-rhodopsin: a novel rhodopsin expressed in the zebrafish pineal gland. (1999) (139)
- The chondrocyte clock gene Bmal1 controls cartilage homeostasis and integrity. (2016) (137)
- Activation of TGF-β/activin signalling resets the circadian clock through rapid induction of Dec1 transcripts (2008) (126)
- DYRK1A and Glycogen Synthase Kinase 3β, a Dual-Kinase Mechanism Directing Proteasomal Degradation of CRY2 for Circadian Timekeeping (2010) (125)
- Roles of CLOCK Phosphorylation in Suppression of E-Box-Dependent Transcription (2009) (125)
- Circadian clock gene regulation of steroidogenic acute regulatory protein gene expression in preovulatory ovarian follicles. (2007) (123)
- Cone visual pigments are present in gecko rod cells. (1992) (120)
- CLOCK-Controlled Polyphonic Regulation of Circadian Rhythms through Canonical and Noncanonical E-Boxes (2014) (112)
- Purification of cone visual pigments from chicken retina. (1989) (111)
- Carboxyl methylation and farnesylation of transducin gamma‐subunit synergistically enhance its coupling with metarhodopsin II. (1991) (109)
- LKB1 Regulates Neuronal Migration and Neuronal Differentiation in the Developing Neocortex through Centrosomal Positioning (2007) (109)
- Light-induced phase-delay of the chicken pineal circadian clock is associated with the induction of cE4bp4, a potential transcriptional repressor of cPer2 gene (2001) (97)
- Identification of Nonvisual Photomotor Response Cells in the Vertebrate Hindbrain (2013) (95)
- Effects of carboxyl methylation of photoreceptor G protein gamma-subunit in visual transduction. (1994) (95)
- Suprachiasmatic Nucleus Circadian Oscillatory Protein, a Novel Binding Partner of K-Ras in the Membrane Rafts, Negatively Regulates MAPK Pathway* (2003) (89)
- Two isoforms of chicken melanopsins show blue light sensitivity (2007) (85)
- The E3 ubiquitin ligase UBE3A is an integral component of the molecular circadian clock through regulating the BMAL1 transcription factor (2014) (85)
- Chicken pineal clock genes: implication of BMAL2 as a bidirectional regulator in circadian clock oscillation (2001) (84)
- Primary Structure of a γ Subunit of G Protein, γ12, and Its Phosphorylation by Protein Kinase C * (1995) (80)
- Role of Circadian Activation of Mitogen-Activated Protein Kinase in Chick Pineal Clock Oscillation (2000) (80)
- Identification of rhodopsin in the pigeon deep brain (1998) (80)
- Two-Site “Simultaneous” Immunoassay with Monoclonal Antibodies for the Determination of Surfactant Apoproteins in Human Amniotic Fluid (1985) (78)
- Studies on structure and function of rhodopsin by use of cyclopentatrienylidene 11-cis-locked-rhodopsin. (1984) (77)
- Chicken pineal Cry genes: light-dependent up-regulation of cCry1 and cCry2 transcripts (2001) (76)
- Serine phosphorylation of mCRY1 and mCRY2 by mitogen‐activated protein kinase (2004) (75)
- Is chicken green-sensitive cone visual pigment a rhodopsin-like pigment? A comparative study of the molecular properties between chicken green and rhodopsin. (1994) (66)
- ADARB1 catalyzes circadian A-to-I editing and regulates RNA rhythm (2016) (65)
- GRK1 and GRK7: Unique cellular distribution and widely different activities of opsin phosphorylation in the zebrafish rods and cones (2006) (63)
- The primary structure of iodopsin, a chicken red‐sensitive cone pigment (1990) (63)
- A NOVEL RHODOPSIN ANALOGUE POSSESSING THE CYCLOPENTATRIENYLIDENE STRUCTURE AS THE LL-CIS-LOCKED AND THE FULL PLANAR CHROMOPHORE (1982) (61)
- Light-dependent and circadian clock-regulated activation of sterol regulatory element-binding protein, X-box-binding protein 1, and heat shock factor pathways (2011) (61)
- A Median Third Eye: Pineal Gland Retraces Evolution of Vertebrate Photoreceptive Organs † (2007) (60)
- Circadian clock system in the pineal gland (2007) (59)
- Activation by G protein beta gamma subunits of beta-adrenergic and muscarinic receptor kinase. (1993) (59)
- Immunocytochemical identification of pinopsin in pineal glands of chicken and pigeon. (1997) (58)
- Kinship of cephalopod photoreceptor G‐protein with vertebrate transducin (1986) (57)
- Time-of-Day-Dependent Enhancement of Adult Neurogenesis in the Hippocampus (2008) (55)
- CaMKII is essential for the cellular clock and coupling between morning and evening behavioral rhythms (2014) (54)
- Differential expression of duplicated VAL‐opsin genes in the developing zebrafish (2008) (54)
- Characterization of interactions between transducin alpha/beta gamma-subunits and lipid membranes. (1994) (53)
- Role of Heterogeneous N-terminal Acylation of Recoverin in Rhodopsin Phosphorylation (*) (1995) (52)
- Differentiation of both rod and cone types of photoreceptors in the in vivo and in vitro developing pineal glands of the quail. (1992) (51)
- Farnesylation of Retinal Transducin Underlies Its Translocation during Light Adaptation (2005) (51)
- Non-visual photoreception by a variety of vertebrate opsins. (1999) (50)
- p38 Mitogen-activated Protein Kinase Regulates Oscillation of Chick Pineal Circadian Clock* (2003) (49)
- Preferential Inhibition of BMAL2-CLOCK Activity by PER2 Reemphasizes Its Negative Role and a Positive Role of BMAL2 in the Circadian Transcription* (2009) (49)
- Pineal expression-promoting element (PIPE), a cis-acting element, directs pineal-specific gene expression in zebrafish (2002) (48)
- Presence of two rhodopsin intermediates responsible for transducin activation. (1997) (48)
- Light-induced body color change in developing zebrafish. (2010) (47)
- Monoclonal antibodies against human pulmonary surfactant apoproteins: specificity and application in immunoassay. (1985) (47)
- Cloning of mouse BMAL2 and its daily expression profile in the suprachiasmatic nucleus: a remarkable acceleration of Bmal2 sequence divergence after Bmal gene duplication (2001) (47)
- Comparative study on the chromophore binding sites of rod and red-sensitive cone visual pigments by use of synthetic retinal isomers and analogues. (1990) (47)
- Beta gamma-subunit of bovine transducin composed of two components with distinctive gamma-subunits. (1989) (47)
- Visual pigments in the pineal complex of the Japanese quail, Japanese grass lizard and bullfrog: immunocytochemistry and HPLC analysis. (1994) (47)
- JNK regulates the photic response of the mammalian circadian clock (2012) (46)
- Circular dichroism of metaiodopsin II and its binding to transducin: a comparative study between meta II intermediates of iodopsin and rhodopsin. (1994) (45)
- SCOP/PHLPP1β mediates circadian regulation of long-term recognition memory (2016) (45)
- Specific isoprenyl group linked to transducin gamma-subunit is a determinant of its unique signaling properties among G-proteins. (1998) (42)
- Negative Control of Circadian Clock Regulator E4BP4 by Casein Kinase Iϵ-Mediated Phosphorylation (2004) (41)
- Highly sensitive detection of protein phosphorylation by using improved Phos‐tag Biotin (2012) (41)
- Photoreception and circadian clock system of the chicken pineal gland (2001) (41)
- What makes red visual pigments red? A resonance Raman microprobe study of retinal chromophore structure in iodopsin. (1994) (41)
- PHOTOSENSITIVITIES OF IODOPSIN AND RHODOPSINS (1992) (41)
- Chimeric nature of pinopsin between rod and cone visual pigments. (1999) (40)
- Purification of four forms of the beta gamma subunit complex of G proteins containing different gamma subunits. (1993) (40)
- Circadian and photic regulation of MAP kinase by Ras‐ and protein phosphatase‐dependent pathways in the chick pineal gland (2001) (40)
- Immunoreactivities to rhodopsin and rod/cone transducin antisera in the retina, pineal complex and deep brain of the bullfrog, Rana catesbeiana. (1994) (38)
- Phototransduction molecules in the pigeon deep brain (2000) (38)
- Effects of chloride on chicken iodopsin and the chromophore transfer reactions from iodopsin to scotopsin and B-photopsin. (1990) (38)
- Phosphorylation of iodopsin, chicken red-sensitive cone visual pigment. (1990) (37)
- Activation of phosphodiesterase in frog rod outer segment by an intermediate of rhodopsin photolysis. II. (1981) (37)
- Farnesylated gamma-subunit of photoreceptor G protein indispensable for GTP-binding. (1990) (37)
- Circadian proteomics of the mouse retina (2007) (35)
- Transcriptional repressor TIEG1 regulates Bmal1 gene through GC box and controls circadian clockwork (2010) (35)
- Mutation of a PER2 phosphodegron perturbs the circadian phosphoswitch (2019) (34)
- Chicktacking pineal clock. (2003) (33)
- Spatial and temporal regulation of mitogen-activated protein kinase phosphorylation in the mouse suprachiasmatic nucleus. (2003) (33)
- Molecular cloning, mRNA expression, and immunocytochemical localization of a putative blue‐light photoreceptor CRY4 in the chicken pineal gland (2006) (33)
- Light‐Dependent Expression of Pinopsin Gene in Chicken Pineal Gland (1998) (33)
- Effect of chloride ion on the thermal decay process of the batho intermediate of iodopsin at low temperature. (1989) (32)
- Homeobox transcription factor Six7 governs expression of green opsin genes in zebrafish (2015) (32)
- Rod‐Type Transducin α‐Subunit Mediates a Phototransduction Pathway in the Chicken Pineal Gland (2000) (31)
- Opsin-G11-Mediated Signaling Pathway for Photic Entrainment of the Chicken Pineal Circadian Clock (2002) (31)
- Phototransduction cascade and circadian oscillator in chicken pineal gland (1997) (30)
- Nanosecond laser photolysis of iodopsin, a chicken red-sensitive cone visual pigment. (1993) (28)
- Immunoelectron-microscopic investigation of the subcellular localization of pinopsin in the pineal organ of the chicken (1997) (28)
- Diversity of opsin immunoreactivities in the extraretinal tissues of four anuran amphibians. (2000) (28)
- Calcium‐bound recoverin targets rhodopsin kinase to membranes to inhibit rhodopsin phosphorylation (1996) (27)
- A specific βγ-subunit of transducin stimulates ADP-ribosylation of the α-subunit by pertussis toxin (1990) (27)
- Bathoiodopsin, a primary intermediate of iodopsin at physiological temperature. (1990) (26)
- Monoclonal antibodies to chicken iodopsin. (1989) (26)
- Comprehensive analysis of a novel mouse model of the 22q11.2 deletion syndrome: a model with the most common 3.0-Mb deletion at the human 22q11.2 locus (2020) (26)
- Functional D-box sequences reset the circadian clock and drive mRNA rhythms (2019) (24)
- Localization of iodopsin in the chick retina during in vivo and in vitro cone differentiation. (1990) (24)
- Salt-inducible kinase 3 regulates the mammalian circadian clock by destabilizing PER2 protein (2017) (24)
- Negative control of circadian clock regulator E4BP4 by casein kinase Iepsilon-mediated phosphorylation. (2004) (24)
- Molecular properties of chimerical mutants of gecko blue and bovine rhodopsin. (1996) (24)
- Lipid modification at the N terminus of photoreceptor G-protein alpha-subunit. (1992) (24)
- Brain and pineal 7α-hydroxypregnenolone stimulating locomotor activity: Identification, mode of action and regulation of biosynthesis (2013) (24)
- Circadian Activation of Bullfrog Retinal Mitogen-activated Protein Kinase Associates with Oscillator Function* (2000) (23)
- Ectopic expression of cone‐specific G‐protein‐coupled receptor kinase GRK7 in zebrafish rods leads to lower photosensitivity and altered responses (2011) (22)
- Molecular basis for tetrachromatic color vision. (1995) (21)
- Biosynthesis and Biological Actions of Pineal Neurosteroids in Domestic Birds (2013) (20)
- Six6 and Six7 coordinately regulate expression of middle-wavelength opsins in zebrafish (2019) (20)
- ASK family kinases mediate cellular stress and redox signaling to circadian clock (2018) (20)
- Phosphorylation of mCRY2 at Ser557 in the Hypothalamic Suprachiasmatic Nucleus of the Mouse (2006) (19)
- [9] Prenylation and carboxylmethylation of G-protein γ subunit (1995) (19)
- Chicken red‐sensitive cone visual pigment retains a binding domain for transducin (1989) (19)
- Localization of iodopsin and rod-opsin immunoreactivity in the retina and pineal complex of the river lamprey, Lampetra japonica (1994) (19)
- USP7 and TDP-43: Pleiotropic Regulation of Cryptochrome Protein Stability Paces the Oscillation of the Mammalian Circadian Clock (2016) (19)
- Activation of phosphodiesterase in frog rod outer segment by an intermediate of rhodopsin photolysis I. (1981) (18)
- PHOTORECEPTOR CELL TYPES IN THE RETINA OF VARIOUS VERTEBRATE SPECIES: IMMUNOCYTOCHEMISTRY WITH ANTIBODIES AGAINST RHODOPSIN AND IODOPSIN (1992) (18)
- Colocalization of pinopsin with two types of G-protein α-subunits in the chicken pineal gland (2000) (18)
- Identification and isolation of common and tissue-specific geranylgeranylated gamma subunits of guanine-nucleotide-binding regulatory proteins in various tissues. (1992) (18)
- Top-down analysis of protein isoprenylation by electrospray ionization hybrid quadrupole time-of-flight tandem mass spectrometry; the mouse Tgamma protein. (2005) (17)
- In Vivo Role of Phosphorylation of Cryptochrome 2 in the Mouse Circadian Clock (2014) (17)
- Macrophage inhibitory cytokine MIC‐1 is upregulated by short‐wavelength light in cultured normal human dermal fibroblasts (2009) (17)
- Cell-based inhibitor screening identifies multiple protein kinases important for circadian clock oscillations (2015) (17)
- The E 3 ubiquitin ligase UBE 3 A is an integral component of the molecular circadian clock through regulating the BMAL 1 transcription factor (2014) (16)
- Identification of a retina-specific MEKA protein as a 33 K protein. (1989) (16)
- Differentiation of pinopsin-immunoreactive cells in the developing quail pineal organ: an in-vivo and in-vitro immunohistochemical study (1999) (15)
- Primary structure of a gamma subunit of G protein, gamma 12, and its phosphorylation by protein kinase C. (1995) (15)
- Structural changes in the peptide backbone in complex formation between activated rhodopsin and transducin studied by FTIR spectroscopy. (1996) (15)
- Functional analysis of farnesylation and methylation of transducin. (2000) (14)
- A Negative Regulatory Element Required for Light-Dependentpinopsin Gene Expression (2002) (14)
- Purification and low temperature spectroscopy of gecko visual pigments green and blue. (1995) (13)
- A-to-I RNA editing enzyme ADAR2 regulates light-induced circadian phase-shift (2018) (13)
- MEKA/Phosducin Attenuates Hydrophobicity of Transducin βγ Subunits without Binding to Farnesyl Moiety (1996) (13)
- Purification and Characterization of Three MEKA-Like Proteins in Liver: Association of a 94 kDa Protein with β γ Subunits of G-Proteins (1993) (13)
- Immunohistochemical localization of iodopsin in the retina of the chicken and Japanese quail (1990) (12)
- Rod-type transducin alpha-subunit mediates a phototransduction pathway in the chicken pineal gland. (2000) (12)
- Activation of phosphodiesterase by chicken iodopsin (1982) (12)
- Circadian phosphorylation of ATF‐2, a potential activator of Period2 gene transcription in the chick pineal gland (2007) (12)
- Molecular Cloning and Characterization of a cDNA Encoding the Retinal Arylalkylamine N-Acetyltransferase of the Rainbow Trout, Oncorhynchus mykiss (1998) (12)
- Functional D-box sequences reset the circadian clock and drive mRNA rhythms (2019) (12)
- SCOP/PHLPP1β in the basolateral amygdala regulates circadian expression of mouse anxiety-like behavior (2016) (12)
- Activation of phosphodiesterase in frog rod outer segment by rhodopsin analogues. (1982) (12)
- New Biosynthesis and Biological Actions of Avian Neurosteroids (2013) (12)
- Neuroprotective Role of the Basic Leucine Zipper Transcription Factor NFIL3 in Models of Amyotrophic Lateral Sclerosis* (2013) (11)
- Light-Dependent Changes in the Chick Pineal Temperature and the Expression of cHsp90 α gene: A Potential Contribution of in vivo Temperature Change to the Photic-Entrainment of the Chick Pineal Circadian Clock (2002) (11)
- Structure of the retinal chromophore in 7,9-dicis-rhodopsin. (1990) (11)
- Effect of brefeldin A on melatonin secretion of chick pineal cells. (2001) (11)
- Photoreceptors in pineal gland and brain: cloning, localization, and overexpression. (2000) (9)
- Interacting Targets of the Farnesyl of Transducin γ-Subunit (2008) (9)
- Na+/Ca2+ exchanger mediates cold Ca2+ signaling conserved for temperature-compensated circadian rhythms (2021) (9)
- Biochemical and photochemical analyses of retinal proteins in chicken cone cells (1991) (8)
- Binding of GTP to transducin is not inhibited by arrestin and phosphorylated rhodopsin (1990) (8)
- Identification of the α-Subunits of Rod and Cone Transducin in Chicken Photoreceptor Cells (1993) (8)
- Regulatory mechanism for the stability of the meta II intermediate of pinopsin. (2001) (8)
- A novel rhodopsin analog with bicyclic retinal involving the 8-18 bonded structure in the chromophore. (1988) (8)
- Molecular encoding and synaptic decoding of context during salt chemotaxis in C. elegans (2022) (7)
- Post-transcriptional repression of circadian component CLOCK regulates cancer-stemness in murine breast cancer cells (2021) (7)
- Analysis of the molecular interaction of the farnesyl moiety of transducin through the use of a photoreactive farnesyl analogue. (2004) (7)
- Purification and immunohistochemical analysis of calcium‐binding proteins expressed in the chick pineal gland (2003) (7)
- Immunohistochemical Localization of Opsins and Alpha-Subunit of Transducin in the Pineal Complex and Deep Brain of the Japanese Grass Lizard, Takydromus tachydromoides (2001) (6)
- Lcg is a light‐inducible and clock‐controlled gene expressed in the chicken pineal gland (2006) (6)
- Probing Pineal‐specific Gene Expression with Transgenic Zebrafish † (2008) (6)
- Effects of gonadal steroids on pineal morphogenesis and cell differentiation of the embryonic quail studied under cell culture conditions. (2003) (6)
- Preparation and Characterization of Chicken Rod and Cone Pigments (1993) (6)
- Production of N-Lauroylated G Protein α-Subunit in Sf9 Insect Cells: The Type of N-Acyl Group of Gα Influences G Protein–Mediated Signal Transduction (2004) (6)
- Activation of phosphodiesterase by rhodopsin and its analogues (2004) (5)
- Posttranslational Modification of GTP-Binding Proteins (1991) (5)
- Foxq2 determines blue cone identity in zebrafish (2021) (5)
- Primary Structure of a (cid:103) Subunit of G Protein, (cid:103) 12 , and Its Phosphorylation by Protein Kinase C* (1995) (5)
- Attenuated SIRT1 Activity Leads to PER2 Cytoplasmic Localization and Dampens the Amplitude of Bmal1 Promoter-Driven Circadian Oscillation (2021) (5)
- Glucose induces circadian gene expression in cultured rat-1 fibroblasts. (2003) (5)
- Colocalization of pinopsin with two types of G-protein alpha-subunits in the chicken pineal gland. (2000) (5)
- Lithium ion adduction enables UPLC-MS/MS-based analysis of multi-class 3-hydroxyl group-containing keto-steroids[S] (2020) (4)
- [Cognitive Function and Calcium. Ca2+-dependent regulatory mechanism of circadian clock oscillation and its relevance to neuronal function]. (2015) (4)
- Adiponectin regulates the circadian rhythm of glucose and lipid metabolism (2022) (4)
- Brain-specific homeobox Bsx specifies identity of pineal gland between serially homologous photoreceptive organs in zebrafish (2019) (4)
- Rhythmic transcription of Bmal1 stabilizes the circadian timekeeping system in mammals (2022) (4)
- 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. (2004) (4)
- Circadian Phosphorylation of CLOCK and BMAL1. (2021) (3)
- MEKA/phosducin attenuates hydrophobicity of transducin beta gamma subunits without binding to farnesyl moiety. (1996) (3)
- Light-dependent activation of G proteins by two isoforms of chicken melanopsins. (2015) (3)
- Brain-specific homeobox Bsx specifies identity of pineal gland between serially homologous photoreceptive organs in zebrafish (2019) (3)
- Purification and characterization of three MEKA-like proteins in liver: association of a 94 kDa protein with beta gamma subunits of G-proteins. (1993) (3)
- The differences in the expressions of visual pigments and transducin in photoreceptor cell differentiation. (1996) (3)
- Correction: Salt-inducible kinase 3 regulates the mammalian circadian clock by destabilizing PER2 protein (2017) (3)
- CIPC-dependent phosphorylation of CLOCK and NPAS2 in circadian clockwork (2009) (3)
- Molecular cloning of heterotrimeric G-protein alpha-subunits in chicken pineal gland. (1997) (3)
- Structure and function of γ-subunit of photoreceptor G-protein (transducin) (1991) (3)
- Identification of the alpha-subunits of rod and cone transducin in chicken photoreceptor cells. (1993) (2)
- Deep brain photoreceptors in lower vertebrates (1999) (2)
- [Covalent lipid modifications of heterotrimeric G proteins]. (1994) (2)
- Structure and function of gamma-subunit of photoreceptor G-protein (transducin). (1991) (2)
- Preparation and Characterization of Monoclonal Antibodies Specific for Lauroylated Isoform of Bovine Transducin α‐Subunit: Immunohistochemical Analysis of Bovine Retinas (1996) (2)
- Molecular cloning of heterotrimeric G-protein α-subunits in chicken pineal gland (2009) (2)
- Farnesylation Versus Geranylgeranylation in G-Protein-Mediated Light Signaling (2011) (2)
- Prenylation and carboxylmethylation of G-protein gamma subunit. (1995) (2)
- PHOTOSENSITIVITY AND QUANTUM YIELD OF CHICKEN CONE VISUAL PIGMENT, IODOPSIN : Physiology : Abstracts of papers presented at the 60th Annual Meeting of the Zoological Society of Japan (1989) (2)
- Hippocampal 7α-Hydroxylated Neurosteroids Are Raised by Training and Bolster Remote Spatial Memory with Increase of the Spine Densities (2020) (2)
- Molecular connections between circadian clock and health/aging. (2022) (1)
- Molecular oscillation behind the clockface. (2003) (1)
- Photochemical and biochemical properties of chicken pinopsin (1999) (1)
- [Photoreception and circadian clock system in the pineal gland]. (2003) (1)
- Stereotaxic Surgery for Suprachiasmatic Nucleus Lesions in Mice. (2017) (1)
- PHOTORECEPTION BY THE PINEAL COMPLEX : IMMUNOHISTOCHEMISTRY AND HPLC : Physiology (1990) (1)
- mTOR-AKT signaling in cellular clock resetting triggered by osmotic stress. (2022) (1)
- Heat Shock Factors Modulate Circadian Rhythms (2016) (1)
- Functional heterogeneity of βγ-subunit of frog transducin (1990) (1)
- Biological Clocks and Circadian Rhythms (2019) (0)
- [Molecular analysis of biological clocks]. (1995) (0)
- A specific beta gamma-subunit of transducin stimulates ADP-ribosylation of the alpha-subunit by pertussis toxin. (1990) (0)
- Training-Induced 7α-Hydroxylated Neurosteroids in Mouse Hippocampus Bolster Remote Spatial Memory (2020) (0)
- N-TERMINAL STRUCTURE OF PHOTORECEPTOR G-PROTEIN α-SUBUNIT(Physiology)(Proceedings of the Sixty-Second Annual Meeting of the Zoological Society of Japan) (1991) (0)
- Kinase signaling in distinct neuronal populations in the mouse brain controls sleep homeostasis and the circadian clock. (2023) (0)
- Recent advances in biological rhythm and non-visual photoreception: Report for the session 10 at the 19th International Conference on Retinal Proteins (2023) (0)
- An Important Role of Circadian Phosphorylation of CRY Proteins in the Mouse Peripheral Clock (2006) (0)
- Role of Farnesylation of Transducin in Rod Photoreceptor Cells (2004) (0)
- [Regulation of protein functions by fatty acid acylation and isoprenylation]. (1999) (0)
- Protein Modifications Pace the Circadian Oscillation of Biological Clocks (2015) (0)
- HORIZONTAL LIFTS OF CURVES THROUGH A HOPF FIBRATION AND SOME EXAMPLES OF HOPF TORI (2017) (0)
- Regulation of remote spatial memory formation by neurosteroids and its diurnal change in mice (2022) (0)
- [Regulation of the circadian rhythm by phosphorylation and ubiquitination]. (2014) (0)
- Light-dependent activation of G_ by vertebrate opsins (2001) (0)
- Author response: Post-transcriptional repression of circadian component CLOCK regulates cancer-stemness in murine breast cancer cells (2021) (0)
- CIS-ACTING DNA ELEMENT RESPONSIBLE FOR TISSUE-SPECIFIC EXPRESSION OF THE TWO RHODOPSIN GENES IN ZEBRAFISH(Physiology)Proceedings of the Seventy-First Annual Meeting of the Zoological Society of Japan (2000) (0)
- Carboxyl methylation andfarnesylation oftransducin y-subunit synergistically enhanceitscoupling with metarhodopsin 11 (1991) (0)
- Meta II intermediate of chicken pinopsin (1999) (0)
- 1P243 Cloning and characterization of chicken melanopsin (2004) (0)
- Phosphorylation-dependent regulation of CLOCK-BMAL1 function in circadian clockwork (2009) (0)
- ANALYSIS OF PUTATIVE CLOCK-RELATED GENES INDUCED BY LIGHT IN A PHASE-DEPENDENT MANNER(Physiology&Biochemistry,Abstracts of papers presented at the 74^ Annual Meeting of the Zoological Society of Japan) : (2003) (0)
- Molecular approaches to circadian regulation of the long-term memory formation (2009) (0)
- Molecular mechanism of light-dependent transcriptional regulation in the pineal cells. (2003) (0)
- Molecular mechanism of circadian regulation of object recognition memory (2016) (0)
- IMMUNOHISTOCHEMISTRY ON THE LOCALIZATION OF VISUAL PIGMENTS IN THE RETINA OF BlRDS AND REPTILES : Physiology (1990) (0)
- Molecular mechanism of CRY protein stabilization mediated by E3 ubiquitin ligase FBXL21 (2016) (0)
- [Regulation of protein function by lipid modifications]. (1999) (0)
- W4-4 Chick Pineal Circadian Clock : The Clock Genes and Photoentrainment. (2001) (0)
- Lint‐O cooperates with L(3)mbt in target gene suppression to maintain homeostasis in fly ovary and brain (2022) (0)
- [Photoreceptors for Entrainment of Circadian Rhythms]. (2021) (0)
- Roles of Na+/Ca2+ exchanger in circadian clock and the application for drug discovery (2022) (0)
- Cryptochrome is expressed in the chicken retinal photoreceptor cells (2006) (0)
- 34.4. G11-mediated pineal phototransduction for entrainment of the pineal clock (2007) (0)
- Pinopsin and its Photon-Signaling in Chicken Pineal (1996) (0)
- PIPE : A NOVEL CIS-ACTING ELEMENT RESPONSIBLE FOR PINEAL-SPECIFIC GENE EXPRESSION IN THE ZEBRAFISH(Physiology)(Proceedings of the Seventy-Third Annual Meeting of the Zoological Society of Japan) (2002) (0)
- Impact roles of the RNA Editing Enzyme in the mammalian circadian clockwork (2016) (0)
- Nardilysin regulates the mammalian circadian clock via modulating PER2 function (2017) (0)
- and Noncanonical E-Boxes of Circadian Rhythms through Canonical (2014) (0)
- [Modification of heterotrimeric G proteins by fatty acids and isoprenoids]. (1992) (0)
- Molecular regulation of photosensitivities in visual cells (2007) (0)
- Comparative study on rod and cone opsin kinase in the zebrafish (2005) (0)
- REGULATORY MECHANISM FOR STABILITY OF ACTIVE INTERMEDIATE OF PINOPSIN(Physiology)Proceedings of the Seventy-First Annual Meeting of the Zoological Society of Japan (2000) (0)
- Opsin Kinase Activities Characterize Light Responses of Rod and Cone Photoreceptors (2013) (0)
- Neural basis for adaptation to the environments (2016) (0)
- Exorhodopsin is a novel opsin expressed in zebrafish pineal gland. (1998) (0)
- The circadian clock in the piriform cortex intrinsically tunes daily changes of odor-evoked neural activity (2023) (0)
- Unique lipids and unique properties of retinal proteins (1995) (0)
- Photo-transduction pathway and MAP kinase cascade in the chicken pineal circadian clock system (1999) (0)
- Running title : In vivo role of C-terminal phosphorylation of CRY2 3 (2014) (0)
- Characterization of N-acylation of Go alpha purified from bovine retinas. (1999) (0)
- Diurnal shift of mouse activity by the deficiency of an aging-related gene Lmna. (2022) (0)
- Photoreception and G_ -mediated phototransduction in the chicken pinealocyte (2000) (0)
- A-to-I RNA editing enzyme ADAR2 regulates light-induced circadian phase-shift (2018) (0)
- Primary structures ofchicken conevisual pigments: Vertebrate rhodopsins haveevolved outofconevisual pigments (vislon/cDNA doning/molecular evolution) (1992) (0)
- [Photoreceptors and GTP-binding protein in visual cells]. (1993) (0)
- Functional Role of Melatonin in the Formation of Circadian Rhythms in the Zebrafish(Oscillatory Mechanisms and Functional Differentiation of Circadian Clocks,Symposium,PROCEEDING OF THE 76^ ANNUAL MEETING OF THE ZOOLOGICAL SOCIETY OF JAPAN) (2005) (0)
- [Oscillatory Mechanisms and Functional Differentiation of Circadian Clocks] (2005) (0)
- Functional heterogeneity of beta gamma-subunit of frog transducin. (1990) (0)
- THE PRIMARY STRUCTURE OF CHICKEN RED SENSITIVE CONE VISUAL PIGMENT, IODOPSIN : Physiology (1990) (0)
- RETINAL BINDING SITES OF ROD AND REDSENSITIVE CONE VISUAL PIGMENTS : Physiology : Abstracts of papers presented at the 60th Annual Meeting of the Zoological Society of Japan (1989) (0)
- Characterization of N-acylation of Goα purified from bovine retinas (1999) (0)
- Diurnal variation in declarative memory and the involvement of SCOP in cognitive functions in nonhuman primates (2023) (0)
- A NOVEL PHOTOTRANSDUCTION CASCADE INVOLVED IN THE PHOTIC INPUT PATHWAY TO CIRCADIAN CLOCK OSCILLATOR(Physiology)Proceedings of the Seventy-First Annual Meeting of the Zoological Society of Japan (2000) (0)
- Inhibition of metatonin synthesis in chick pineal cells by pulse treatment with brefeldin A (1999) (0)
- Molecular mechanisms of circadian regulation of the memory for novel objects (2011) (0)
- Contributors to Volume 15 (1993) (0)
- PHOTOBLEACHING PROCESSES OF GECKO VISUAL PIGMENTS.(Physiology)Proceedings of the Sixty-Third Annual Meeting of the Zoologiacal Socistry of Japan (1992) (0)
- The circadian clock responds to cellular stresses (2016) (0)
- Deep Brain Photoreceptors in Vertebrates. (1999) (0)
- The Primate Frontal Lobe and Behavior (2010) (0)
- [Regulation of phototransduction in rod cells by selective farnesylation of G-protein transducin: farnesyl as a molecular post-it]. (2006) (0)
- REGULATION OF PINOPSIN GENE EXPRESSION IN CHICKEN PINEAL GLAND(Physiology)(Proceedings of the Sixty-Ninth Annual Meeting of the Zoological Society of Japan) (1998) (0)
- Identification of VAL-Opsin-Expressing Horizontal Cells in the Zebrafish Retinal Cell Culture (2002) (0)
- Supplemental Data Negative Control of Circadian Clock Regulator E 4 BP 4 by Casein Kinase (2004) (0)
- 2SAP-03 From non-bleachable rhodopsin to non-visual opsins(2SAP Rhodopsin Research : Past, Present and Future,Symposium,The 51th Annual Meeting of the Biophysical Society of Japan) (2013) (0)
- Essential Role of Isoprenylation of Transducin in Regulation of Phototransduction in Rod Cells (2006) (0)
- CIRCADIAN ACTIVATION OF MAP KINASE AND PHOTIC INPUT PATHWAY IN CLOCK CELLS (2000) (0)
- Molecular Mechanisms of the Function of Pineal Organs (2014) (0)
- Structures and functions of lipid modifications on heterotrimeric G proteins. (1993) (0)
- Research on early process of visual sense in cone. (1989) (0)
- [Biological significance of lipid modifications of G-proteins]. (1995) (0)
- Molecular Analysis of Light-signaling and Circadian Rhythm in the Brain (2007) (0)
- Proteolytic degradation of SCOP contributes to activation of ERK/MAPK and memory formation (2007) (0)
- Entrainment of Circadian Clocks in Birds : Molecular Mechanisms of Light-dependent Phase Shifts(Entrainment of Biological Clocks,Symposium,PROCEEDING OF THE 75^ ANNUAL MEETING OF THE ZOOLOGICAL SOCIETY OF JAPAN) (2004) (0)
- 2P344 Spectral properties of chicken melanopsins(Photobiology-vision and photoreception,Poster Presentations) (2007) (0)
- Molecular Mechanisms of Photoreception and Circadian Clock Systems in Animals (2006) (0)
- EXO-RHODOPSIN : A NOVEL RHODOPSIN OF ZEBRAFISH(Physiology)(Proceedings of the Sixty-Ninth Annual Meeting of the Zoological Society of Japan) (1998) (0)
- SCREENING OF CLOCK RELATED GENES IN THE CHICKEN PINEAL GLAND BY DIFFERENTIAL DISPLAY ANALYSIS(Physiology)(Proceedings of the Seventieth Annual Meeting of the Zoological Society of Japan) (1999) (0)
- Molecular Basis of Color Vision. Structure and Function of Iodopsin. (1991) (0)
- Table of Contents (1991) (0)
- 【Grant-in-Aid for Scientific Research(S)】 Biological Sciences (Biology) Title of Project: Dissection of Mammalian Biological Clock System at a Molecular Level (2012) (0)
- Lipid Modifications of Signal-Transducing Proteins. (1996) (0)
- [Light-induced dephosphorylation of phosphoproteins in rod outer segments in bovine and frog retina]. (1993) (0)
- Visualization of VAL-Opsin-Expressing Cells by Zebrafish Transgenesis (2003) (0)
- Role of second extracellular loop of pinopsin in stabilization of metapinopsin II (2000) (0)
- 2SC04 Regulation of Light Signaling in Rod Cells by G-protein βγ Complex (2004) (0)
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What Schools Are Affiliated With Yoshitaka Fukada?
Yoshitaka Fukada is affiliated with the following schools:
