Definition: The term "actinoelectric" refers to a type of electrical system used in power generation and distribution systems that involves the use of magnets to control the flow of current and generate electricity. Actinoelectric systems are commonly used for generating electrical power at very low voltages, ranging from approximately 60 V down to under 7.5 V. The system typically uses a single circuit breaker or switch with two ends for power to pass between the magnet and the generator housing. In this type of system, the magnet rotates around a central axis while the current flows through an external circuit. Actinoelectric systems are capable of generating both direct current (DC) and alternating current (AC) electricity at very low voltages. The difference in voltage between these two electrical types can be quite significant, ranging from tens to hundreds of volts depending on the specific equipment used. The operation of actinoelectric systems is controlled by a control unit or controller that monitors the state of the system and adjusts it as necessary to maintain a specified level of voltage. This process is typically carried out using electronic circuits and logic gates. Actinoelectric systems are widely used in a variety of applications, including power generation, distribution, and transmission of electricity throughout North America, Europe, and Asia. They are also being explored for use in the renewable energy sector as a clean and efficient method of generating electricity.

actinoelectric

Definition: Actin electrically refers to a cellular process in which actins, an intermediate filament, bind to other proteins through their actin-actinin (A3) complex. It occurs in many types of cells but is particularly important for maintaining cell polarity, as it prevents the cell from slipping or sliding along the membrane. The actinoelectrically complex contains both A1 and A2 subunits. The A1 unit binds to a specific protein, called the N-terminus of the actin filament (A3). The A2 unit acts like an electrostatic force between A1 and A3, repelling them towards each other. Actin is composed of two identical subunits: alpha subunit (also known as myosin) and beta subunit. Together they form a single monomer that is the basis for cell motility and tension during muscle contraction. The actinoelectrically complex is essential for maintaining proper alignment between the N-terminus of the A3 protein and the two subunits of the myosin alpha subunit. Without this interaction, the A3/A1-A2 complex would not be able to bind to other proteins, leading to misalignment or deformation. The actinoelectrically complex is also important for regulating the movement of the myofilament during muscle contraction, which is crucial for muscle force generation and tension.

actinoelectrically

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actinoelectricity