Electrical Control of Escherichia coli Growth Measured with Simultaneous Modulation and Imaging [0.03%]
用电控制的大肠杆菌生长的同步调控与成像测量方法研究
Xu Han,Bradley R Foster,Christine K Payne
Xu Han
Background: The use of electricity to mediate bacterial growth is unique in providing spatial control, but requires a more detailed understanding. Methods: We use two gold wires on a glass coverslip with an overlayer of agar to image Escher...
Integrating Bioelectrical Currents and Ca2+ Signaling with Biochemical Signaling in Development and Pathogenesis [0.03%]
生物电流和钙离子信号在发育和致病中的生化作用机制整合研究
Ang Li,Jingsong Zhou,Randall B Widelitz et al.
Ang Li et al.
Roles of bioelectrical signals are increasingly recognized in excitable and nonexcitable non-neural tissues. Diverse ion-selective channels, pumps, and gap junctions participate in bioelectrical signaling, including those transporting calci...
Mustafa B A Djamgoz,Michael Levin
Mustafa B A Djamgoz
Correction to: Artificial Intelligence, Brains, and Beyond: Imperial College London Neurotechnology Symposium, 2020, by Tarasenko A, et al. BIOE 2020;2:310-313 [0.03%]
对“人工智能、大脑和更远:帝国理工学院神经技术研讨会,2020”的更正,BIOE 2020;2:310-313,塔拉斯enko A,等。
[This corrects the article DOI: 10.1089/bioe.2020.0040.]. Copyright 2020, Mary Ann Liebert, Inc., publishers.
Published Erratum
Bioelectricity. 2020 Dec 1;2(4):426. DOI:10.1089/bioe.2020.0040.correx 2020
Novel Electrode Designs for Neurostimulation in Regenerative Medicine: Activation of Stem Cells [0.03%]
用于再生医学神经刺激的新型电极设计:激活干细胞
Stephanie N Iwasa,HaoTian H Shi,Sung Hwa Hong et al.
Stephanie N Iwasa et al.
Neural stem and progenitor cells (i.e., neural precursors) are found within specific regions in the central nervous system and have great regenerative capacity. These cells are electrosensitive and their behavior can be regulated by the pre...
Jarno M A Tanskanen,Annika Ahtiainen,Jari A K Hyttinen
Jarno M A Tanskanen
Biological neuronal cells communicate using neurochemistry and electrical signals. The same phenomena also allow us to probe and manipulate neuronal systems and communicate with them. Neuronal system malfunctions cause a multitude of sympto...
Artificial Intelligence, Brains, and Beyond: Imperial College London Neurotechnology Symposium, 2020 [0.03%]
人工智能、大脑和更远的未来:帝国理工学院神经技术研讨会,2020年
Anna Tarasenko,Mikheil Oganesyan,Daryna Ivaskevych et al.
Anna Tarasenko et al.
In this report, we give an overview of the proceedings from the online Imperial College London Neurotechnology Symposium 2020. The first part deals with the fundamentals of how artificial intelligence (AI) can be used to inform research fra...
Masayuki Yamashita
Masayuki Yamashita
Background: To study the molecular mechanism of galvanotropism in vitro, the strength of an electric field (EF) must be controlled precisely. In this study, I present a culture system that supplies an EF of constant strength by regulating t...
Physiological Effects of the Electrogenic Current Generated by the Na+/K+ Pump in Mammalian Articular Chondrocytes [0.03%]
哺乳动物关节软骨细胞中Na+/K+泵产生的电生电流的生理效应
Mary M Maleckar,Pablo Martín-Vasallo,Wayne R Giles et al.
Mary M Maleckar et al.
Background: Although the chondrocyte is a nonexcitable cell, there is strong interest in gaining detailed knowledge of its ion pumps, channels, exchangers, and transporters. In combination, these transport mechanisms set the resting potenti...