Answer:
e. serving as cofactors for enzymes
Explanation:
Proteins are substances formed by a set of amino acids linked together by peptide bonds. These substances perform the most diverse functions in the body, including participating in the composition of cells. There is no biological process in which a protein is not involved.
Proteins do not serve as enzyme cofactors, but their functions include maintaining blood viscosity and osmolarity, muscle contraction, catalytic enzyme reactions, and blood lipid transport. In addition, proteins can act as enzymes, participate in muscle contraction and hormone production, transport oxygen, produce antibodies, among other functions.
Answer:
Look at the explanation
Explanation:
Fiber is the laxative most doctors recommend for normal and slow-transit constipation. Abdominal cramping, bloating, or gas can occur when abruptly increasing or changing your dietary fiber intake. Fiber is naturally available in fruits, vegetables, and whole grains (especially wheat bran lol).
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Not true.
Animals have distinct ventral and dorsal portions, hence this is untrue. Animals' abdomens are referred to as ventral because they are on the bottom, while their backs are referred to as dorsal because they are on the top.
Humans are bipedal, thus everything farther back or close to our hind end is referred to as posterior, while anything higher in position or close to our head is referred to as anterior.
It is not always possible to use anterior/ventral and posterior/dorsal interchangeably. In contrast to ventral, which is more oriented toward the belly or abdomen, anterior denotes closer to the head or front end of the body.
While these terms can be used interchangeably when referring to human anatomy, it is incorrect to do so when discussing four-legged animals.
Here's another question with an answer similar to this about Anterior/ventral and posterior/dorsal: brainly.com/question/16987279
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Answer:
Scaffold of connective tissue is called ghost organs while bio printing is the utilization of 3D printing technologies to assemble multiple cell types or stem cells/growth factors along with other biomaterials in a layer-by-layer fashion to produce bioartificial organs that maximally imitate their natural counterparts.