Shih-Rung Yeh scite author profile

gle's medium (DMEM), then treated with serum-and phosphate-free DMEM containing 100 pM ascorbate with or without ISO (10 pLM final concentration) and incubated at 37°C for 15 min. The cells were then assayed for whole-cell phosphorylation as described (7). The extent of receptor phosphorylation was quantitated with a Molecular Dynamics phosphorimaging system and ImageQuant software.23. We thank R.J. Lefkowitz for encouragement and insightful reading of the manuscript and members of his laboratory for antisera to ,BARK1 and -2, antisera to 3-arrestin-1 and -2, wild-type ,BARK1, 3-arrestin-1 and -2 cDNA constructs, and wild-type and phosphorylation site-deficient f32AR cDNA constructs. Supported in part by a grant from the Na- (Fig. 2A, left). The ot and EPSPs evoked in the LG neuron by all subthreshold levels of sensory nerve shock were increased, and the stimulus threshold was reduced (10). These effects were not readily reversible and persisted after 5 hours of wash. In subordinate crayfish, however, serotonin reversibly reduced the LG neuron's EPSPs (Fig. 2A, middle 1 EPSPs evoked by all subthreshold levels of sensory nerve shock were reduced in the presence of bath-applied serotonin, and the stimulus threshold of an LG spike was increased (10). A 1-hour wash with saline restored the LG EPSPs and in some instances produced a rebound excitation. In dominant crayfish, serotonin reversibly enhanced LG responses over the complete range of subthreshold stimuli ( Fig. 2A, right), and reduced the LG neuron's stimulus threshold (10). We obtained similar results in 37 juvenile (Fig. 3A) and 23 adult (10) crayfish. Serotonin had no obvious effect on the responses of other mechanosensory interneurons, some of which contribute to the 1 EPSP in the LG neuron ( Fig. 1) LG EPSPs were recorded from the proximal axon (9).-71-101-ir

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Neuronal Adaptations to Changes in the Social Dominance Status of Crayfish

Yeh

1997

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The effect of superfused serotonin (5-HT; 50 microns) on the synaptic responses of the lateral giant (LG) interneuron in crayfish was found to depend on the social status of the animal. In socially isolated animals. 5-HT persistently increased the response of LG to sensory nerve shock. After social isolates were paired in a small cage, they fought and determined their dominant and subordinate status. After 12 d of pairing, 5-HT reversibly inhibited the response of LG in the social subordinate and reversibly increased the response of LG in the social dominant crayfish. The effect of 5-HT changed approximately linearly from response enhancement to inhibition in the new subordinate over the 12 d of pairing. If, after 12 d pairing, the subordinate was reisolated for 8 d, the response enhancement was restored. If the subordinate, instead, was paired with another subordinate and became dominant in this new pair, the inhibitory effect of 5-HT changed to an enhancing effect over the next 12 d of pairing. If, however, two dominant crayfish were paired and one became subordinate, the enhancing effect of 5-HT persisted in the new subordinate even after 38 d pairing. These different effects of serotonin result from the action of two or more molecular receptors for serotonin. A vertebrate 5-HT, agonist had no effect on social isolates but reversibly inhibited the response of LG in both dominant and subordinate crayfish. The inhibitory effects of the agonist developed approximately linearly over the first 12 d of pairing. A vertebrate 5-HT2 agonist persistently increased the response of LG in isolate crayfish and reversibly increased the response of the cell in dominant and subordinate crayfish. Finally, although neurons that might mediate these effects of superfused 5-HT are unknown, one pair of 5-HT-immunoreactive neurons appears to contact the LG axon and initial axon segment in each abdominal ganglion in its projection caudally from the thorax.

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Insight into the Dinuclear {Fe(NO)₂}¹⁰{Fe(NO)₂}¹⁰ and Mononuclear {Fe(NO)₂}¹⁰ Dinitrosyliron Complexes

Yeh

Lin

et al. 2012

Inorg. Chem.

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The reversible redox transformations [(NO)(2)Fe(S(t)Bu)(2)](-) ⇌ [Fe(μ-S(t)Bu)(NO)(2)](2)(2-) ⇌ [Fe(μ-S(t)Bu)(NO)(2)](2)(-) ⇌ [Fe(μ-S(t)Bu)(NO)(2)](2) and [cation][(NO)(2)Fe(SEt)(2)] ⇌ [cation](2)[(NO)(2)Fe(SEt)(2)] (cation = K(+)-18-crown-6 ether) are demonstrated. The countercation of the {Fe(NO)(2)}(9) dinitrosyliron complexes (DNICs) functions to control the formation of the {Fe(NO)(2)}(10){Fe(NO)(2)}(10) dianionic reduced Roussin's red ester (RRE) [PPN](2)[Fe(μ-SR)(NO)(2)](2) or the {Fe(NO)(2)}(10) dianionic reduced monomeric DNIC [K(+)-18-crown-6 ether](2)[(NO)(2)Fe(SR)(2)] upon reduction of the {Fe(NO)(2)}(9) DNICs [cation][(NO)(2)Fe(SR)(2)] (cation = PPN(+), K(+)-18-crown-6 ether; R = alkyl). The binding preference of ligands [OPh](-)/[SR](-) toward the {Fe(NO)(2)}(10){Fe(NO)(2)}(10) motif of dianionic reduced RRE follows the ligand-displacement series [SR](-) > [OPh](-). Compared to the Fe K-edge preedge energy falling within the range of 7113.6-7113.8 eV for the dinuclear {Fe(NO)(2)}(9){Fe(NO)(2)}(9) DNICs and 7113.4-7113.8 eV for the mononuclear {Fe(NO)(2)}(9) DNICs, the {Fe(NO)(2)}(10) dianionic reduced monomeric DNICs and the {Fe(NO)(2)}(10){Fe(NO)(2)}(10) dianionic reduced RREs containing S/O/N-ligation modes display the characteristic preedge energy 7113.1-7113.3 eV, which may be adopted to probe the formation of the EPR-silent {Fe(NO)(2)}(10)-{Fe(NO)(2)}(10) dianionic reduced RREs and {Fe(NO)(2)}(10) dianionic reduced monomeric DNICs in biology. In addition to the characteristic Fe/S K-edge preedge energy, the IR ν(NO) spectra may also be adopted to characterize and discriminate [(NO)(2)Fe(μ-S(t)Bu)](2) [IR ν(NO) 1809 vw, 1778 s, 1753 s cm(-1) (KBr)], [Fe(μ-S(t)Bu)(NO)(2)](2)(-) [IR ν(NO) 1674 s, 1651 s cm(-1) (KBr)], [Fe(μ-S(t)Bu)(NO)(2)](2)(2-) [IR ν(NO) 1637 m, 1613 s, 1578 s, 1567 s cm(-1) (KBr)], and [K-18-crown-6 ether](2)[(NO)(2)Fe(SEt)(2)] [IR ν(NO) 1604 s, 1560 s cm(-1) (KBr)].

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Dual and Opposing Modulatory Effects of Serotonin on Crayfish Lateral Giant Escape Command Neurons

et al. 2001

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Serotonin modulates afferent synaptic transmission to the lateral giant neurons of crayfish, which are command neurons for escape behavior. Low concentrations, or high concentrations reached gradually, are facilitatory, whereas high concentrations reached rapidly are inhibitory. The modulatory effects rapidly reverse after brief periods of application, whereas longer periods of application are followed by facilitation that persists for hours. These effects of serotonin can be reproduced by models that involve multiple interacting intracellular signaling systems that are each stimulated by serotonin. The dependence of the neuromodulatory effect on dose, rate, and duration of modulator application may be relevant to understanding the effects of natural neuromodulation on behavior and cognition and to the design of drug therapies.

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A flexible hydrophilic-modified graphene microprobe for neural and cardiac recording

Chen

Lin

Hsu

et al. 2013

Nanomedicine: Nanotechnology, Biology and Medicine

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Abi plays an opposing role to Abl inDrosophilaaxonogenesis and synaptogenesis

Lin

Huang

Kao

et al. 2009

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Abl tyrosine kinase (Abl) regulates axon guidance by modulating actin dynamics. Abelson interacting protein (Abi), originally identified as a kinase substrate of Abl, also plays a key role in actin dynamics, yet its role with respect to Abl in the developing nervous system remains unclear. Here we show that mutations in abi disrupt axonal patterning in the developing Drosophila central nervous system (CNS). However, reducing abi gene dosage by half substantially rescues Abl mutant phenotypes in pupal lethality, axonal guidance defects and locomotion deficits. Moreover, we show that mutations in Abl increase synaptic growth and spontaneous synaptic transmission frequency at the neuromuscular junction. Double heterozygosity for abi and enabled(ena) also suppresses the synaptic overgrowth phenotypes of Abl mutants, suggesting that Abi acts cooperatively with Ena to antagonize Abl function in synaptogenesis. Intriguingly, overexpressing Abi or Ena alone in cultured cells dramatically redistributed peripheral F-actin to the cytoplasm, with aggregates colocalizing with Abi and/or Ena, and resulted in a reduction in neurite extension. However, co-expressing Abl with Abi or Ena redistributed cytoplasmic F-actin back to the cell periphery and restored bipolar cell morphology. These data suggest that abi and Ablhave an antagonistic interaction in Drosophila axonogenesis and synaptogenesis, which possibly occurs through the modulation of F-actin reorganization.

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Chelate‐Thiolate‐Coordinate Ligands Modulating the Configuration and Electrochemical Property of Dinitrosyliron Complexes (DNICs)

Yeh

Lin

Liu

et al. 2015

Chemistry A European J

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As opposed to the reversible redox reaction ({Fe(NO)2 }(10) reduced-form DNIC [(NO)2 Fe(S(CH2 )3 S)](2-) (1)⇌{Fe(NO)2 }(9) oxidized-form [(NO)2 Fe(S(CH2 )3 S)](-) ), the chemical oxidation of the {Fe(NO)2 }(10) DNIC [(NO)2 Fe(S(CH2 )2 S)](2-) (2) generates the dinuclear {Fe(NO)2 }(9) -{Fe(NO)2 }(9) complex [(NO)2 Fe(μ-SC2 H4 S)2 Fe(NO)2 ](2-) (3) bridged by two terminal [SC2 H4 S](2-) ligands. On the basis of the Fe K-edge pre-edge energy and S K-edge XAS, the oxidation of complex 1 yielding [(NO)2 Fe(S(CH2 )3 S)](-) is predominantly a metal-based oxidation. The smaller S1-Fe1-S2 bond angle of 94.1(1)° observed in complex 1 (S1-Fe1-S2 88.6(1)° in complex 2), compared to the bigger bond angle of 100.9(1)° in the {Fe(NO)2 }(9) DNIC [(NO)2 Fe(S(CH2 )3 S)](-) , may be ascribed to the electron-rich {Fe(NO)2 }(10) DNIC preferring a restricted bite angle to alleviate the electronic donation of the chelating thiolate to the electron-rich {Fe(NO)2 }(10) core. The extended transition state and natural orbitals for chemical valence (ETS-NOCV) analysis on the edt-/pdt-chelated {Fe(NO)2 }(9) and {Fe(NO)2 }(10) DNICs demonstrates how two key bonding interactions, that is, a FeS covalent σ bond and thiolate to the Fe d z 2 charge donation, between the chelating thiolate ligand and the {Fe(NO)2 }(9/10) core could be modulated by the backbone lengths of the chelating thiolate ligands to tune the electrochemical redox potential (E1/2 =-1.64 V for complex 1 and E1/2 =-1.33 V for complex 2) and to dictate structural rearrangement/chemical transformations (S-Fe-S bite angle and monomeric vs. dimeric DNICs).

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Flexible carbon nanotubes electrode for neural recording

Lin

Lee

Yeh

et al. 2009

Biosensors and Bioelectronics

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Shih-Rung Yeh

The Effect of Social Experience on Serotonergic Modulation of the Escape Circuit of Crayfish

Neuronal Adaptations to Changes in the Social Dominance Status of Crayfish

Insight into the Dinuclear {Fe(NO)₂}¹⁰{Fe(NO)₂}¹⁰ and Mononuclear {Fe(NO)₂}¹⁰ Dinitrosyliron Complexes

Dual and Opposing Modulatory Effects of Serotonin on Crayfish Lateral Giant Escape Command Neurons

A flexible hydrophilic-modified graphene microprobe for neural and cardiac recording

Abi plays an opposing role to Abl inDrosophilaaxonogenesis and synaptogenesis

Chelate‐Thiolate‐Coordinate Ligands Modulating the Configuration and Electrochemical Property of Dinitrosyliron Complexes (DNICs)

Flexible carbon nanotubes electrode for neural recording

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Shih-Rung Yeh

The Effect of Social Experience on Serotonergic Modulation of the Escape Circuit of Crayfish

Neuronal Adaptations to Changes in the Social Dominance Status of Crayfish

Insight into the Dinuclear {Fe(NO)2}10{Fe(NO)2}10 and Mononuclear {Fe(NO)2}10 Dinitrosyliron Complexes

Dual and Opposing Modulatory Effects of Serotonin on Crayfish Lateral Giant Escape Command Neurons

A flexible hydrophilic-modified graphene microprobe for neural and cardiac recording

Abi plays an opposing role to Abl inDrosophilaaxonogenesis and synaptogenesis

Chelate‐Thiolate‐Coordinate Ligands Modulating the Configuration and Electrochemical Property of Dinitrosyliron Complexes (DNICs)

Flexible carbon nanotubes electrode for neural recording

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Product

Resources

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Insight into the Dinuclear {Fe(NO)₂}¹⁰{Fe(NO)₂}¹⁰ and Mononuclear {Fe(NO)₂}¹⁰ Dinitrosyliron Complexes