Answer:
The role of CFTR is to build channels on the cell surface to enable the flow of chloride (Cl-). When the CFTR protein works properly, the balance of Cl-and fluid at the cell surface is normal. If the mutation of CFTR protein happens the balance of Cl- and fluids is disrupted, causing mucus in various organs to become thick and gluey. As a result, lung infections and, eventually, respiratory failure in the lungs might occur. Mutations on the CFTR normally change single amino acids in the CFTR protein which happens in abnormal channel breaks down soon after it is made.
Explanation:
The CFTR gene gives direction for producing a protein called the cystic fibrosis trans membrane conductance regulator. This protein functions being a channel over the membrane of cells that produce mucus, sweat, saliva, tears, and digestive enzymes.The channel transports negatively filled particles called chloride ions into and out of cells.The transport of chloride ions improves control the movement of water in tissues, which is essential for the creation of thin, freely flowing mucus. Mucus is a slippery substance that greases and defends the lining of the airways, digestive system, reproductive system, and different organs and tissues.The CFTR protein further regulates the role of other channels, such as those that transport positively charged particles called sodium ions across cell membranes. These channels are essential for the normal function of organs such as the lungs and pancreas.
Answer:
The side groups are what make each amino acid different from the others. Of the 20 side groups used to make proteins, there are two main groups: polar and non-polar. ... The polar and nonpolar chemical traits allow amino acids to point towards water (hydrophilic) or away from water (hydrophobic).
Explanation:
A) Divergent
Yeah... That should be the answer
<span>Surface tension! Hope this helps!</span>
Answer: 1- Central nervous system, thalamus.
2- Because the hypothalamus is part of an unit called Hypothalamus - adeno/neuro hypophysis, that unit synthesizes hormones.
3- Through different cores like supraoptic, paraventricular, etc.
4- Specific hormones (polypeptides, proteins, derived from amino acids, steroids). Those hormones travel in arterias or veins to the diana organs.
5- pituitary gland/ hypophysis
Explanation: -