B- interphase
C- transcription
D- mitosis
Telophase is a stage of a cellular process that begins after the chromosomes have moved to opposite poles of the cell. The cellular process in which telophase occurs in mitosis. The correct option is D.
Mitosis is the process of cell division. Cell division occurs during mitosis. All eukaryotic cells go through the process. There are four stages to the process. The cell divides during the procedure. A daughter cell that is identical to the parent cell is created.
The final phase is known as the telophase. The nuclear membrane developed as the nucleus closed. Additionally, known as cytokinesis.
The fifth and final stage of mitosis, known as telophase, is when a parent cell's replicated genetic material is split into two identical daughter cells.
Therefore, the correct option is D. mitosis.
To learn more about telophase, refer to the link:
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2 Nature created the first cell.
3 The first cell originated spontaneously.
4 This postulate of cell theory is false.
Answer:
option 2 and 3 are seems to be correct.
Explanation:
according to our studies the options and 3 are seems to bee correct because the first cell was created by nature not by man or any other organism and the term spontaneously also look to be true. so my answer is that options 2 and 3 are correct.
A
displacement
B
distance
C
frame of reference
D
graph
Answer:
Correct answer is displacement. (A)
Explanation:
You can describe the motion of an object by its position, speed, direction, and acceleration. An object is moving if its position relative to a fixed point is changing. Even things that appear to be at rest move.
Answer:
50 Million
Explanation:
The olfactory area in humans is about 2.5 cm2 wide and contains a number of about 50 million receptor cells with 8–20 cilia down in a layer of mucus of about 60 microns thick, produced by Bowmann glands in the olfactory epithelium
Humans possess approximately 400 different types of olfactory receptors, expressed by olfactory sensory neurons in the nose. Each receptor binds to odorant molecules, triggering signals to the brain to recognize different odors. The exact number of olfactory receptor cells is in the millions.
Humans have approximately 400 different types of olfactory receptors. These receptors are expressed by certain genes and each one is capable of recognizing a different type of odorant molecule. Interestingly, although humans can detect about 10,000 different smells, it is suggested that there may be up to 1.72 trillion different recognizable smells in the world.
The receptors are located in the olfactory neurons in the olfactory epithelium within the nasal cavity. The neurons are specialized, with each olfactory sensory neuron carrying only one type of receptor. The receptors bind to the odorants and send signals to the olfactory bulb in the brain, and then to other locations such as the olfactory cortex.
The specific number of olfactory receptor cells in the human body may vary, but it is estimated to be in the millions. Each receptor cell has multiple hair-like cilia that contain the odorant-binding receptor proteins. When an odor molecule binds to a receptor, it causes a response in the sensory cell which then transmits the information to the brain for processing.
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