Answer:
Myocyte or muscle cells
Explanation:
Myocyte cells also known as muscle cells are the cells that form the muscular tissue. A group of myocytes arrange in parallel lines will form a muscle fiber, groups of fibers will make a muscle.
Muscle fibers are bundled together and in contact with a neuron through the neuromuscular junction (the place where the fiber and the neuron joint). When the fiber is exited by the neuron it will contract and make the muscle move.
Depending on how and where are they located, there are three types of muscular cells:
- Smooth: is in different organs, such as, intestines, stomach or urinary bladder.
- Cardiac: is the one that makes the walls of the heart.
- Skeletal: is the one that is in contact with bones and is in charge of the skeleton movement.
Answer:
An equinox is an event that takes place in Earth's orbit around the sun. ... The equinoxes and solstices are caused by Earth's tilt on its axis and ceaseless motion in orbit. You can think of an equinox as happening on the imaginary dome of our sky, or as an event that happens in Earth's orbit around the sun.
Explanation:
Answer:
Cell growth but also involved in cancer development
Explanation:
Tyrosine-kinase receptors are the main receptors for the growth hormones, but also cytokines and hormones. These receptors are regulators of normal cellular processes, but if a mutation occurs it can lead to activation of a series of signalling cascades that change the gene expression. Consequently, this has a critical role in the development and progression of many types of cancer.
Answer:
Decrease
Explanation:
Paraquat can induce alterations in endoplasmic reticulum that might contribute to the changes in glucose-6-phosphatase activity, resulting in an increase of blood glucose level and/or all the effects can be attributed to a high level of circulating epinephrine produced by paraquat toxicosis. Paraquat induces mitochondrial dysfunction and ATP depletion in brain tissues or cultured cells (54,62). Therefore, our in vivo findings of ATP depletion would be a contributory factor for the observed proteasome dysfunction. The two reactions use carrier molecules to transport the energy from one to the other. The lower energy form, NADP+, picks up a high energy electron and a proton and is converted to NADPH. When NADPH gives up its electron, it is converted back to NADP+
