<span>all of these; women over 35, those who already have a child with a genetic disorder, women who have had two or more miscarriages,
translates DNA instructions</span>
Answer:
The cell could not make ATP.
Explanation:
Glycolysis may be defined as the process in which a glucose molecule is broken down into the two molecules of the pyruvate. Pyruvate is used to produce energy through various pathways that depends upon the availability of the oxygen. However when the glycolysis in blocked and the pyruvate is not formed, then the cells would not be able to use either the fermentation or aerobic respiration or the perform citric acid cycle. So the cell does not make any ATP.
Explanation:
Diabetes mellitus results from a deficiency in the amount of insulin released from the pancreas in response to glucose (type I) or from a decrease in the ability of muscle and fat cells to respond to insulin (type II). In both types, the regulation of blood glucose is impaired, leading to persistent hyperglycemia and numerous other possible complications in untreated patients such as tissue damage, raises the risk of heart-attack, kidney disease and vision deterioration. Type I diabetes is caused by an autoimmune process that destroys the insulin-producing B cells in the pancreas. Also called insulin-dependent diabetes, this form of the disease is generally responsive to insulin therapy. Most Americans with diabetes mellitus have type II, but the underlying cause of this form of the disease is not well understood.
They can sting you if they feel harmed or they can give you honey
Answer:
E. Merkel cells.
Explanation:
Merkel cells are located in the deepest layer of the epidermis. These cells are in contact with the flattened process of a sensory neuron. These flat processes are called a tactile disc or Merkel disc. Merkel discs are slowly adapting touch receptors. These receptors are specifically abundant in fingertips, lips and external genitalia. Markel cells and their associated Merkel discs are involved in the detection of touch sensations. They respond to respond to continuous touch such as holding an object in hand for long and help in distinct detection of shapes and texture of various objects.
