Xuan-Yang Li scite author profile

Characterization of glycosaminoglycans (GAGs), including chondroitin sulfate (CS), dermatan sulfate (DS) and heparan sulfate (HS), is important in developing an understanding of cellular function and in assuring quality of preparations destined for biomedical applications. While use of 1 H and 13 C NMR spectroscopy has become common in characterization of these materials, spectra are complex and difficult to interpret when a more heterogeneous GAG type or a mixture of several types is present. Herein a method based on 1 H-15 N two dimensional NMR experiments is described. The 15 N-and 1 H-chemical shifts of amide signals from 15 N-containing acetylgalactosamines in CSs are shown to be quite sensitive to the sites of sulfation (4-, 6-or 4,6-), and easily distinguishable from those of DS. The amide signals from residual 15 N-containing acetylglucosamines in HS are shown to be diagnostic of the presence of these GAG components as well. Most data were collected at natural abundance of 15 N despite its low percentage. However enrichment of the 15 N-content in GAGs using metabolic incorporation from 15 N-glutamine added to cell culture media is also demonstrated, and used to distinguish metabolic states in different cell types.

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Hierarchically porous polyimide/Ti ₃ C ₂ T _x film with stable electromagnetic interference shielding after resisting harsh conditions

Cheng

Qin

et al. 2021

Sci. Adv.

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Polymer-based conductive nanocomposites are promising for electromagnetic interference (EMI) shielding to ensure stable operations of electronic devices and protect humans from electromagnetic radiation. Although MXenes have shown high EMI shielding performances, it remains a great challenge to construct highly efficient EMI shielding polymer/MXene composite films with minimal MXene content and high durability to harsh conditions. Here, hierarchically porous polyimide (PI)/Ti 3 C 2 T x films with consecutively conductive pathways have been constructed via a unidirectional PI aerogel-assisted immersion and hot-pressing strategy. Contributed by special architectures and high conductivities, PI/Ti 3 C 2 T x films with 2.0 volume % Ti 3 C 2 T x have high absolute EMI shielding effectiveness up to 15,527 dB cm 2 g −1 at the thickness of 90 μm. Superior EMI shielding performance can be retained even after being subjected to hygrothermal or combustion environments, cryogenic (−196°C) or high (250°C) temperatures, and rapid thermal shock (∆T = 446°C), demonstrating high potential as high-performance EMI shielding materials resisting harsh conditions.

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Monolithic Ni‐Mo‐B Bifunctional Electrode for Large Current Water Splitting

Liu

Chen

et al. 2021

Adv Funct Materials

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Screening and developing highly efficient electrodes is key to large-scale water electrolysis. The practical industrial electrode should fulfill several criteria of high activity, structural stability, and fast bubble evolution at a large current density. In this study, a novel monolithic 3D hollow foam electrode that can achieve the requirements of large current density water electrolysis is developed and fabricated through a simple electroless plating-calcination strategy. This strong 3D Ni-Mo-B hollow foam electrode can withstand a pressure of 2.37 MPa and exhibits high electrochemical surface area, high conductivity, and low gas transfer resistance, drastically boosting its catalytic performance. It affords 50 mA cm -2 at overpotentials of only 68 mV for hydrogen evolution reaction and 293 mV for oxygen evolution reaction and can survive at a large current density of 5 A cm -2 while maintaining its structure and performance in 1.0 m KOH. The advantages of facile preparation, high mechanical strength, high gas mass transfer ability, and excellent performance enable this structure to be a potential electrode, active substrate, or 3D catalyst in many fields.

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Identification and characterization of cyclin X which activates transcriptional activities of c-Myc

Wang

Liu

et al. 2007

Mol Biol Rep

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Behavioral characterization of neuropathic pain on the glabrous skin areas reinnervated solely by axotomy-regenerative axons after adult rat sciatic nerve crush

Ren

Ding²,

Xiao³

et al. 2016

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In cranial and spinal nerve ganglia, both axotomized primary sensory neurons without regeneration (axotomy-nonregenerative neurons) and spared intact primary sensory neurons adjacent to axotomized neurons (axotomy-spared neurons) have been definitely shown to participate in pain transmission in peripheral neuropathic pain states. However, whether axotomized primary sensory neurons with regeneration (axotomy-regenerative neurons) would be integral components of neural circuits underlying peripheral neuropathic pain states remains controversial. In the present study, we utilized an adult rat sciatic nerve crush model to systematically analyze pain behaviors on the glabrous plantar surface of the hindpaw sural nerve skin territories. To the best of our knowledge, our results for the first time showed that heat hyperalgesia, cold allodynia, mechanical allodynia, and mechanical hyperalgesia emerged and persisted on the glabrous sural nerve skin areas after adult rat sciatic nerve crush. Interestingly, mechanical hyperalgesia was sexually dimorphic. Moreover, with our optimized immunofluorescence staining protocol of free-floating thick skin sections for wide-field epifluorescence microscopic imaging, changes in purely regenerative reinnervation on the same skin areas by axotomized primary sensory afferents were shown to be paralleled by those pathological pain behaviors. To our surprise, Protein Gene Product 9.5-immunoreactive nerve fibers with regular and large varicosities ectopically emigrated into the upper dermis of the glabrous sural nerve skin territories after adult rat sciatic nerve crush. Our results indicated that axotomy-regenerative primary sensory neurons could be critical elements in neural circuits underlying peripheral neuropathic pain states. Besides, our results implied that peripheral neuropathic pain transmitted by axotomy-regenerative primary sensory neurons alone might be a new dimension in the clinical therapy of peripheral nerve trauma beyond regeneration.

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Interface engineering with zincophilic MXene for regulated deposition of dendrite-free Zn metal anode

Zhu

Essandoh

et al. 2022

Energy Storage Materials

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Electrospun nickel loaded porous carbon nanofibers for simultaneous determination of adenine and guanine

Luo

Ding

et al. 2015

Electrochimica Acta

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Differential motor and sensory functional recovery in male but not female adult rats is associated with remyelination rather than axon regeneration after sciatic nerve crush

Tong

Ding²,

Jing³

et al. 2015

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Peripheral nerve functional recovery after injuries relies on both axon regeneration and remyelination. Both axon regeneration and remyelination require intimate interactions between regenerating neurons and their accompanying Schwann cells. Previous studies have shown that motor and sensory neurons are intrinsically different in their regeneration potentials. Moreover, denervated Schwann cells accompanying myelinated motor and sensory axons have distinct gene expression profiles for regeneration-associated growth factors. However, it is unknown whether differential motor and sensory functional recovery exists. If so, the particular one among axon regeneration and remyelination responsible for this difference remains unclear. Here, we aimed to establish an adult rat sciatic nerve crush model with the nonserrated microneedle holders and measured rat motor and sensory functions during regeneration. Furthermore, axon regeneration and remyelination was evaluated by morphometric analysis of electron microscopic images on the basis of nerve fiber classification. Our results showed that Aα fiber-mediated motor function was successfully recovered in both male and female rats. Aδ fiber-mediated sensory function was partially restored in male rats, but completely recovered in female littermates. For both male and female rats, the numbers of regenerated motor and sensory axons were quite comparable. However, remyelination was diverse among myelinated motor and sensory nerve fibers. In detail, Aβ and Aδ fibers incompletely remyelinated in male, but not female rats, whereas Aα fibers fully remyelinated in both sexes. Our result indicated that differential motor and sensory functional recovery in male but not female adult rats is associated with remyelination rather than axon regeneration after sciatic nerve crush.

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Xuan-Yang Li

Characterization of Glycosaminoglycans by ¹⁵N NMR Spectroscopy and in Vivo Isotopic Labeling

Hierarchically porous polyimide/Ti ₃ C ₂ T _x film with stable electromagnetic interference shielding after resisting harsh conditions

Monolithic Ni‐Mo‐B Bifunctional Electrode for Large Current Water Splitting

Identification and characterization of cyclin X which activates transcriptional activities of c-Myc

Behavioral characterization of neuropathic pain on the glabrous skin areas reinnervated solely by axotomy-regenerative axons after adult rat sciatic nerve crush

Interface engineering with zincophilic MXene for regulated deposition of dendrite-free Zn metal anode

Electrospun nickel loaded porous carbon nanofibers for simultaneous determination of adenine and guanine

Differential motor and sensory functional recovery in male but not female adult rats is associated with remyelination rather than axon regeneration after sciatic nerve crush

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Xuan-Yang Li

Characterization of Glycosaminoglycans by 15N NMR Spectroscopy and in Vivo Isotopic Labeling

Hierarchically porous polyimide/Ti 3 C 2 T x film with stable electromagnetic interference shielding after resisting harsh conditions

Monolithic Ni‐Mo‐B Bifunctional Electrode for Large Current Water Splitting

Identification and characterization of cyclin X which activates transcriptional activities of c-Myc

Behavioral characterization of neuropathic pain on the glabrous skin areas reinnervated solely by axotomy-regenerative axons after adult rat sciatic nerve crush

Interface engineering with zincophilic MXene for regulated deposition of dendrite-free Zn metal anode

Electrospun nickel loaded porous carbon nanofibers for simultaneous determination of adenine and guanine

Differential motor and sensory functional recovery in male but not female adult rats is associated with remyelination rather than axon regeneration after sciatic nerve crush

Contact Info

Product

Resources

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Characterization of Glycosaminoglycans by ¹⁵N NMR Spectroscopy and in Vivo Isotopic Labeling

Hierarchically porous polyimide/Ti ₃ C ₂ T _x film with stable electromagnetic interference shielding after resisting harsh conditions