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What determines the three dimensional shape of an enzyme?
The order of amino acids for each protein determines its final three-dimensional shape
What is the same about a prism and a pyramid?
The number of faces determines the bases' shape.
Could a protein have what is called a globular shape?
Tritiory proteins are globular proteins. Every enzyme is a globular proteins.
What is the purpose of shapes?
Purpose determines shape. An object or thing is shaped in a particluar way simply to fulfil the purpose or goal for which it intended.
What is a 3-dimensional geometric shape that has a total of 5 faces with 2 faces being triangles and the other 3 faces being rectangles?
That shape is called a triangular prism. A prism is made of rectangles arranged in a tube with any 2D shape at the ends. This shape determines what kind of prism it is, you can get pentagonal, hexagonal, and many other types of prism.
Does the shape of an enzyme protein determine specificity?
Shape of an enzyme specifically shape of its active site determines enzyme specificity .
What does enzymes functions depend on?
The function of an enzyme is dependent on the shape of the enzyme. The structure and shape determines what the enzyme can do.
What determines the three dimensional shape of an enzyme?
The order of amino acids for each protein determines its final three-dimensional shape
What does the shape of an enzyme have to do with how well the enzyme works?
The shape of an enzyme is crucial for its function because it determines the enzyme's specificity and ability to interact with its substrate. The specific shape allows the enzyme to bind to its substrate, facilitating the reaction. Any changes in the enzyme's shape can affect its ability to catalyze the reaction effectively.
How the genetic codes affects an enzyme function?
The gene sequence determines the codon, which in turn determines the aminoacid, which in turn determines the tridimensional shape on the protein, which in turn determines the shape of the active site, which in turn determines what it'll be catalysing.
Which feature of an enzyme determines the chemical process it aids?
The feature of an enzyme that determines its chemical process it aids is it's shape. This can be compared to a lock and key. Where an enzyme, as the key, must have a certain structure or multi-dimensional shape that matches a specific section of the substrate, the compound or substance that undergoes the change.
What determine enzymes' functions?
The shape and size of the enzyme determines it's function because they're extremely specific. An enzyme will only work with one type of substrate.
What determine an enzymes activity?
There are several things that determine an enzyme's activity. The main determinants include the structure of the enzyme, temperature, pH and so much more.
Is a shape a feature of an enzyme determines the chemical process it aids?
Yes, the shape of an enzyme is a key feature that determines the chemical reactions it can facilitate. Enzymes have specific shapes that allow them to bind to specific molecules, or substrates, and catalyze chemical reactions by lowering activation energy. This specificity in shape is often referred to as the "lock and key" model.
What determines the shape of an enzymes active site?
The shape of an enzyme's active site is determined by its amino acid sequence, which folds into a specific three-dimensional conformation. This unique shape allows the enzyme to interact selectively with its specific substrate, forming an enzyme-substrate complex for catalysis to occur. Any alterations to the active site's shape can affect the enzyme's function.
Why is the shape of an enzyme important?
The shape of an enzyme is important because enzymes are shape specific. Each enzyme can only react with one kind of substrate, and the enzyme's shape determines which substrate that is. They fit together like a "lock and key". If an enzyme is denatured (or its shape is altered from its active form), then it will not be able to bind to its substrate and the substrate's activation energy will not be lowered, usually resulting in the cessation of whatever reaction the substrate is undergoing.
What determines the form of enzyme?
DNA
