1 - Nucleus
2 - Lysosome
3 - Golgi body
4 - Endoplasmic reticulum
6 - Cytoplasm
7 - Cell plasma membrane
8 - Mitochondria
9 - Ribosomes
<u>Explanation:</u>
1) The Nucleus – the control station of the cell Entry to Animal Cell.
2) Lysosomes are tiny balls of phospholipids formed by the Golgi bodies and are effective for cracking down cellular debris and the matter is taken into the cell through the method of phagocytosis.
3) The Golgi body also contains the lipids and steroids made in the Smooth Endoplasmic Reticulum into blisters.
4)Endoplasmic Reticulum – The Cell’s Assembly Line SER is principally concerned in the synthesis of lipids (fatty fat fats) and steroids, both very essential elements of cell membranes.
8) Mitochondria All cells require the power to grow, duplicate, and function. Like the organisms they contain, cells must "eat" to get the power they require.
The statement " Each gene in the human genome codes for a single protein. "is just wrong, as according to the basic knowledge of human genome, o<span>nly about 2 percent of the genome codes for proteins. This answer does make difference and clearly explaines why the previous one is wrong. Hope you will find it helpful!</span>
In fracture patient, splinting is beneficial as it could prevent damage to the vascular and nerve tissue by immobilizing it. But splinting is also dangerous. To immobilize the extremity, splint needs to be put with enough force. This force often can cause damage as it could block the arteries that run in the extremity, causing ischemia.
It is important to do the assessment before and after splint to make sure the splint doesn't cause damage to the patient.
I think this is the answer not sure.
One of the benefits of sexual reproduction is the diversity it produces within a population. That variety is a direct product of meiosis. Every sex cell made from meiosis has a unique combination of chromosomes. This means that no two sperm or egg cells are genetically identical. Every fertilization event produces new combinations of traits. This is why siblings share DNA with parents and each other, but are not identical to one another.
