The answer is all of the above. Hope this helps!
Answer:
(Hope this helps can I pls have brainlist (crown)
Explanation:
The chemical genesis of life refers to the circumstances that may have existed, allowing the earliest replicating living forms to emerge. It examines the physical and chemical processes that might have resulted in the formation of early replicator molecules.
Only four elements make up around 96 percent of the mass of the human body: oxygen, carbon, hydrogen, and nitrogen, with water accounting for the majority of this.
The chemical genesis of life refers to the circumstances that may have existed, allowing the earliest replicating living forms to emerge. It examines the physical and chemical processes that might have resulted in the formation of early replicator molecules.
Bladder, I believe. But they are saying that my answer must be 20 Characters long...
Answer:
mycelium, hyphae, coenocytic hope this helps out
Explanation:
Answer:
The answer is C. its sequence of amino acids.
The protein's shape is influenced by its sequence of amino acids or primary structure.
Explanation:
The primary structure of a protein molecule is dependent on the amino acid chain sequence it has. The amino acid chain's <u>linear</u> structure is composed of <u>covalently bonded</u> amino acids via peptide bonds. This serves as the <u>overall backbone </u>of the protein.
<h3>Additional notes: </h3>
Secondary structure of protein
It defines the 3-dimensional shape of the<u> locally folded polypeptide</u>. They come in two forms, the alpha helices and beta sheets. During the formation of the primary structure, acidic and basic amino residues may cause kinks and turns, re-configuring the 3-D shape of the local polypeptide.
Tertiary structure of protein
This determines the overall 3-dimensional structure of the protein. The structure is due to the <u>linking of the R groups</u> of the related amino acids, <u>hydrophobic bonds</u>, and <u>disulfide bonds</u>. These bonds are <u>highly stable</u> and are not easily changed or destroyed.
Quaternary structure of protein
It is a structure that consists of multiple folded polypeptide chains or subunits. This allows the protein to have m<u>ultiple functions</u>. <u>Non-covalent forces</u> keep these structures together, making it <u>prone to rapid conformational changes.</u>
