Answer:
May alter the specificity for its substrate
Explanation:
The active site of an enzyme refers to the specific region of an enzyme that serves as the binding site for its one or more substrates. Binding of substrates to the active site of their enzymes is required for catalysis. Enzymes are highly specific for their substrates. Type of amino acids present in the active site of the enzymes and their interactions with substrates regulate the specificity of the enzyme. If a mutation substitutes the amino acid of the active site, it may increase or decrease the specificity of the enzyme for its substrate.
Diamonds<span> have a three dimensional network of strong covalent bonds,, but </span>Graphite<span> on the other hand has flat layers of carbon atoms held by weak van der Waal's forces. Diamonds are stronger than Graphite as well</span><span>
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I. Smooth muscle cells contain the contractile proteins actin (so-called "thin fibers") and myosin ("thick fibers") as components of their cytoplasmic structure. These function in concert ("sliding filament theory") to generate contraction in response to synaptic input from motor neurons.
II. Podocytes, which are cells within Bowman's capsule of the kidney that contain foot processes that interdigitate and wrap around glomerular capillaries creating slits through which filtrate passes. These slits are further covered by diaphragms containing various proteins that help ensure the passage of small molecules (e.g., urea) but the retention of large macromolecules (e.g., albumin or immune globins).
Answer:
Cells use a molecule called ATP to store and release energy like a battery. The energy is stored in chemical bonds between phosphate groups of the molecule, and the energy is released when the chemical bonds are broken.
Explanation:
ATP (adenosine triphosphate) can be though of as a battery. It is also sometimes desribed as the energy currency of the cell. DNA and RNA are nucleic acids - the genetic information of the cell, and does not store and release energy. CMP is a nucleotide.
The energy found in ATP is found stored between phosphate groups of the molecule. When a phosphate group is released, it forms ADP (adenosine diphosphate)
