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A protein is a complex molecule made up of chains of amino acids folded into a specific shape. Its structure is defined by the sequence of amino acids and how they interact with each other through various bonds and interactions. This unique structure determines the protein's function in the body.
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What does a protein look like and how can its structure be described?
A protein is a complex molecule made up of chains of amino acids. Its structure can be described in terms of its primary structure (sequence of amino acids), secondary structure (folding patterns like alpha helices and beta sheets), tertiary structure (overall 3D shape), and quaternary structure (arrangement of multiple protein subunits). Proteins can have diverse shapes and functions based on their unique structures.
What does the laminin cell look like?
Laminin is a protein that helps cells stick together. It has a cross-like shape and is an important component of the extracellular matrix that surrounds cells. Its structure helps provide support and structure to tissues in the body.
What does a protein molecule look like?
A protein molecule is a long chain of amino acids folded into a complex three-dimensional structure. This structure can vary widely depending on the protein's specific function and can range from simple to highly complex shapes. Visualizing a protein structure can often involve using computer modeling or techniques like X-ray crystallography.
Why is it important for scientist to know the structure of DNA?
Because DNA can tell scientist who ur parents are and find out more about our body structure
What does the structure tRNA look like?
tRNA is a single-stranded RNA molecule that folds into a cloverleaf-like structure with several loops and stems. It contains three hairpin loops: the anticodon loop, the D loop, and the TΨC loop. The anticodon loop is key for recognizing and binding the complementary mRNA codon during protein synthesis.
What does a protein look like and how can its structure be described?
A protein is a complex molecule made up of chains of amino acids. Its structure can be described in terms of its primary structure (sequence of amino acids), secondary structure (folding patterns like alpha helices and beta sheets), tertiary structure (overall 3D shape), and quaternary structure (arrangement of multiple protein subunits). Proteins can have diverse shapes and functions based on their unique structures.
What does the laminin cell look like?
Laminin is a protein that helps cells stick together. It has a cross-like shape and is an important component of the extracellular matrix that surrounds cells. Its structure helps provide support and structure to tissues in the body.
What does a protein molecule look like?
A protein molecule is a long chain of amino acids folded into a complex three-dimensional structure. This structure can vary widely depending on the protein's specific function and can range from simple to highly complex shapes. Visualizing a protein structure can often involve using computer modeling or techniques like X-ray crystallography.
What does a filovirus look like?
a rod like structure
What do look like nuclear membrane do?
regulates the exchange of materials like protein
What does the the centrioles look like?
It's a circle with fluid in it that takes protein in and out.
What does the structure of a lymph vessel look like?
nothing
What does the structure of HDL look like?
its like endi stycuai its like endi stycuai
What does a hypercube look like?
That cannot be described as it is a 4D object. It can only be defined mathematically.
What does a cell look like when it is alive?
it looks like a jelly-like structure in a form of a circle
What Amoebas really look like?
amoeba do not have a particular structure they change their structure according to their grabbing of food.
What does functional protein look like?
Briefly, proteins (polypeptides) look like amino acids chained together; look at the link below for a detailed description of proteins' appearance. Proteins have a couple different levels of structure including the primary, secondary, tertiary, and quaternary. At the primary structure, proteins are just linked amino acids through peptide bonds. Amino acids have the same general structure with a variable R-group. At the secondary structure, the chemical properties of the amino acids form hydrogen bonds with each other and give shape to the protein. The two general shapes of proteins at the secondary structure: alpha helices and beta-pleated sheets. An alpha helix looks like a spiral while a beta-pleated sheet looks like stairs. See the related links below for images. The tertiary structure is characterized by further interactions by the R-groups on the amino acids. Various bonds can distort the alpha helix or beta-pleated sheet such as ionic bonds, disulfide bridges, covalent bonds, and hydrophobic interactions. The complete protein is seen at the quaternary structure, which is the arrangements of polypeptides into a single macromolecule.
