Jianbao Zhang scite author profile

Early (E9.5–E11.5) embryonic heart cells beat spontaneously, even though the adult pacemaking mechanisms are not yet fully established. Here we show that in isolated murine early embryonic cardiomyocytes periodic oscillations of cytosolic Ca2+ occur and that these induce contractions. The Ca2+ oscillations originate from the sarcoplasmic reticulum and are dependent on the IP3 and the ryanodine receptor. The Ca2+ oscillations activate the Na+-Ca2+ exchanger, giving rise to subthreshold depolarizations of the membrane potential and/or action potentials. Although early embryonic heart cells are voltage-independent Ca2+ oscillators, the generation of action potentials provides synchronization of the electrical and mechanical signals. Thus, Ca2+ oscillations pace early embryonic heart cells and the ensuing activation of the Na+-Ca2+ exchanger evokes small membrane depolarizations or action potentials.

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Relationship between scalp potential and autonomic nervous activity during a mental arithmetic task

Zhang

Xie

et al. 2009

Autonomic Neuroscience

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Moisture-Resilient Graphene-Dyed Wool Fabric for Strain Sensing

Zhai

et al. 2020

ACS Appl. Mater. Interfaces

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E-textile consisting of natural fabrics has become a promising material to construct wearable sensors due to its comfortability and breathability on the human body. However, the reported fabric-based e-textile materials, such as graphene-treated cotton, silk, and flax, generally suffer from the electrical and mechanical instability in long-term wearing. In particular, fabrics on the human body have to endure heat variation, moisture evaporation from metabolic activities, and even the immersion with body sweat. To face the above challenges, here we report a wool-knitted fabric sensor treated with graphene oxide (GO) dyeing followed by l-ascorbic acid (l-AA) reduction (rGO). This rGO-based strain sensor is highly stretchable, washable, and durable with rapid sensing response. It exhibits excellent linearity with more than 20% elongation and, most importantly, withstand moisture from 30 to 90% (or even immersed with water) and still maintains good electrical and mechanical properties. We further demonstrate that, by integrating this proposed material with the near-field communication (NFC) system, a batteryless, wireless wearable body movement sensor can be constructed. This material can find wide use in smart garment applications.

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Jianbao Zhang

Evaluation to the antioxidant activity of total flavonoids extract from persimmon (Diospyros kaki L.) leaves

Intracellular Ca2+ Oscillations, a Potential Pacemaking Mechanism in Early Embryonic Heart Cells

Relationship between scalp potential and autonomic nervous activity during a mental arithmetic task

Moisture-Resilient Graphene-Dyed Wool Fabric for Strain Sensing

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