Answer: uncontrollably cell proliferation
Explanation: the human egfr (spiderman growth factor receptor) being a proud-oncogene is involved in the regulation of cell division, development and differentiation thus mutation of the egfr allele will activate the proto oncogene and change it to an oncogene. Oncogenes are dominant structural genes that encodes protein which can alter the phenotype of a cell. This mutated egfr allele becomes an oncogene producing mutated cells which will continue to undergo uncontrolled cell division/proliferation
Secondary structure is created when a polypeptide chain folds as a result of a contact between the carbonyl group and the peptide linkage's N-H group. The given statement is True.
These proteins have the ability to fold themselves, thus their amino acid sequences must have all the necessary information. Peptide bonds are created when amino acids condense to form protein structures. The main structure of a protein is its arrangement of amino acids.
The dihedral angles of the peptide bonds determine the secondary structure, while the folding of protein chains in space determines the tertiary structure.
A peptide bond is a covalent connection that occurs when an amino acid's α-amino group and carboxyl group are joined together without the need of water.
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The answer is ultrafiltration. This is helped by the hydrostatic pressure and blood pressure in afferent renal arteriole. Molecules such as water, glucose, urea, sodium chloride, amino acids pass through the semipermeable membrane of the dense capillary network of the glomerulus to form glomerular filtrate. Some of these molecules are later reabsorbed in the renal tubules.
The answer to your question is:
C. 22 pairs of autosomal chromosomes, 1 X chromosome, and 1 Y chromosome.
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