<span>Answer B, skin, is an example of epithelial tissue. All other answer are examples of different types of tissue; Bone being osseous tissue, fat being connective tissue and muscle being muscle tissue. Nervous tissue is one of the types that has cells that expand across the entire human body. Nerves can be both long and reach every corner of the body. The other type of tissue that can cross the entire body is epithelial. This type of tissue does not produce large cells that span great distances on/in the body. But, these cells do provide the lining throughout the body and are the tissue that makes up the protective layer called skin. Both connective tissue and muscle tissue form large amounts of tissue in the body but they do not expand to all reaches of it.</span>
Answer:
enzymes
Explanation:
Enzymes are a type of protein that speed up chemical reactions. They are known as "biological catalysts." For example, your stomach would not be able to break down food if it did not have special enzymes to speed up the rate of digestion.
The tertiary structure of a protein refers to the overall three-dimensional arrangement of its polypeptide chain in space. It is generally stabilized by outside polar hydrophilic hydrogen and ionic bond interactions, and internal hydrophobic interactions between nonpolar amino acid side chains
Answer:
Bond D
Explanation:
The molecule in the model attached to this question is ADENOSINE TRIPHOSPHATE, commonly known as ATP. ATP is a unique molecule that carries and transfers energy in the cells of living organisms. It is made up of three components namely: ADENINE (nitrogenous base), RIBOSE (pentose sugar), PHOSPHATE GROUP (three).
ATP is able to carry out its function of storing and transferring energy via one of it's phosphate bonds (the last). ATP stores energy when a phosphate group is added to ADP to form ATP while it releases/transfers energy for use when that last phosphate bond is broken. Hence, according to this question, ATP releases the most energy for cellular processes when BOND D (last phosphoanhydride bond) is broken.
Anabolism creates molecules the body needs for functionality and it uses energy in the process. Catabolism, on the other hand, breaks down complex molecules and releases energy which is available for the body to use