Norio Tanada scite author profile

Norio Tanada

5Publications

12Citation Statements Received

93Citation Statements Given

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The University of Tokyo, Osaka University

Publications

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Design and Synthesis of Sphingomyelin–Cholesterol Conjugates and Their Formation of Ordered Membranes

Matsumori

Tanada

Nozu

et al. 2011

Chemistry A European J

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A lipid raft is a cholesterol (Chol)-rich microdomain floating in a sea of lipid bilayers. Although Chol is thought to interact preferentially with sphingolipids such as sphingomyelin (SM), rather than with glycerophospholipids, the origin of the specific interaction has remained unresolved, primarily because of the high mobility of lipid molecules and weak intermolecular interactions. In this study, we synthesized SM-Chol conjugates with functionally designed linker portions to restrain Chol mobility and examined their formation of ordered membranes by a detergent insolubility assay, fluorescence anisotropy experiments, and fluorescence-quenching assay. In all of the tests, membranes prepared from the conjugates showed properties of ordered domains comparable to a SM-Chol (1:1) membrane. To gain insight into the structure of bilayers composed from the conjugates, we performed molecular dynamics simulations with 64 molecules of the conjugates, which suggested that the conjugates form a stable bilayer structure by bending at the linker portion and, mostly, reproduce the hydrogen bonds between the SM and Chol portions. These results imply that the molecular recognition between SM and Chol in an ordered domain is essentially reproduced by the conjugated molecules and, thus, demonstrates that these conjugate molecules could potentially serve as molecular probes for understanding molecular recognition in lipid rafts.

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Dissociated neuronal culture expressing ionotropic odorant receptors as a hybrid odorant biosensor—proof-of-concept study

Tanada

Sakurai

Mitsuno

et al. 2012

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Artificial odorant sensors generally perform poorer than olfactory systems in living organisms. The excellent performances of living odorant systems are achieved by the molecular recognition abilities of odorant receptors and the neuronal information processing that follows. To take advantages of this, here we propose a novel hybrid odorant biosensor by means of expressing ionotropic odorant receptors of insects into dissociated neuronal cultures of rodents. This combination of materials brings significant advantages such as easy functional expression, prolonged lifetime, and an ability to amplify the weak ionic currents of odorant receptors. In the present work, pheromone receptors and co-receptors of silkmoth, i.e., BmOR1 and BmorOrco, were expressed in neuronal cultures via liposome transfection. Consequently, BmOR1 and BmorOrco were co-expressed in 8% of neuronal cells, and both receptors were co-localized on a cell membrane. In Ca++ imaging experiments, synchronous increase of calcium signals at the presentation of BOL was found in both transfected cells and non-transfected cells in a dose-dependent manner. These results provide the proof-of-concept of the proposed hybrid odorant biosensor.

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Feasibility Study of Odor Biosensor Using Dissociate Neuronal Culture with Gene Expression of Ionotropic Odorant Receptors

et al. 2011

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The feasibility study of novel odor biosensor using dissociate neuronal culture expressing ion channel built-in odor receptors

Tanada¹,

Sakurai

Mitsuno

et al. 2010

Neuroscience Research

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The feasibility study of novel odor biosensor using dissociate neuronal culture expressing ion channel built-in odor receptors

Tanada

Sakurai

Mitsuno

et al. 2011

Neuroscience Research

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Norio Tanada

Design and Synthesis of Sphingomyelin–Cholesterol Conjugates and Their Formation of Ordered Membranes

Dissociated neuronal culture expressing ionotropic odorant receptors as a hybrid odorant biosensor—proof-of-concept study

Feasibility Study of Odor Biosensor Using Dissociate Neuronal Culture with Gene Expression of Ionotropic Odorant Receptors

The feasibility study of novel odor biosensor using dissociate neuronal culture expressing ion channel built-in odor receptors

The feasibility study of novel odor biosensor using dissociate neuronal culture expressing ion channel built-in odor receptors

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