Answer: i would think that the earth would naturally ware it down over time if there are no decomposers
Explanation:
Answer:
uncontrolled 1 diabetes mellitus.
Explanation:
Keto bodies elevation of the urine is due to:
1.non availability of glucose in the blood to be used by the cells for biochemical activities,
OR
GLUCOSE can not enter cells because of absence of INSULIN hormone which moderate GLUT TRANSPORTERS 1 and 4 for entry of glucose into cells in induvidual with Type 1 diabetes.
TYPE 1 diabetes is a condition where the pancreas beta cells refused to secret hormone insulin,therefore affecting the entry of glucose into cells. Leading to elevated blood glucose level,and loss in the urine (Hypoglycemia from polyuria(too much urination.)Because the primary function of insulin is to facilitate the uptake of glucose into cells.
In this induvidual the liver converted excess tryglycerides to glucose in a process called GLUCONEOGENESIS(. The prouction of glucose from non carbohydrate compounds.)
The metabolized lipids leads to build up of byproduct ketone bodies in the blood.This produce ketosis and later progress to Ketoacidosis or metabolic acidosis
Answer:
Bacteria helps digest food, make vitamins, and play other important roles
Answer:
Spinocerebellar tracts.
Explanation:
Spinocerebellar tracts are afferent neurons that transmit proprioceptive information from the peripheral nervous system ( muscles and joints propricetors) to the cerebellum. It originated from the spinal cord and end at the cerebellum. It carry unconscious proprioceptive sensory information from the muscles, organs to the cerebellum.
Answer:
nucleus.
The DNA unzips.
A strand of RNA is made.
The RNA moves to the cytoplasm.
A protein is produced.
The RNA leaves the ribosome.
Explanation:
The central dogma of molecular biology is an explanation of the flow of genetic information from DNA to protein within a biological system. It starts from replication in which DNA strands are duplicated. It goes toward transcription in which RNA strand is made from DNA in transcription. This mRNA moves toward the cytoplasm, outside the nucleus. T-RNA goes toward the ribosome and binds there to make protein from translation. After protein production, this rRNA leaves the ribosome.
