Answer:
Particles, such as silt, clay, and sand, that are carried in suspension are part of a stream's suspended load.
Protein folding is determined by a variety of factors, from the amino acid composition all the way through to primary, secondary and tertiary structures of the proteins. Proteins fold in water environments, and how they fold is determined by the hydrophobicity, hydrophilicity and charge of amino acids. Amino acids that are hydrophobic will face away from water environments, while hydrophilic amino acids will face towards water environments. This gives rise to primary and secondary structures such as alpha-helices and beta-sheets. Among these are a variety of structures that form the tertiary structures. The different types of amino acids play an essential role in this, as they are the building blocks of proteins and can affect the structures of proteins because of their charge and affinity for water.
The answer is insertion mutation.
Insertion mutation is a genetic mutation, which happens when one or more nucleotide base pairs are added into a DNA sequence. It is a type of mutation that would more or less cause the most dramatic change in the genetic makeup of an individual simply because by inserting an extra base pair you are disrupting the reading frame, thus affecting the primary structure of the polypeptide as it is being synthesized during translation.
The codons after the insert will all be different may or may not be coding for different amino acids.
Answer: Hypothalamus
Explanation:
The hypothalamus is a small portion of the brain that manages stress through the release of corticotrophin-releasing hormone CRH. It signals the pituitary gland to produce a hormone called adrenocorticotropic hormone (ACTH). ACTH triggers the production of cortisol, an important stress hormone.