Enzymes have this structure. The way that they are folded determines their function.
YES AND NO. Firstly: A polyepeptide is a protein, constructed of many amino acids, coded for by the genetic code. (in triplets). A cell produces many polypeptides--in other words proteins.__ These proteins (polypeptides) each have a specific purpose/role in the cell.For example, hameoglobin is a polypeptide. Proteins are basically refererd to as polypeptides, as they consist of many amino acids bounded together. POLY= MANY. Of some of the polypeptides (proteins) some are enzymes. Enzymes catalyse reactions. Their poltpeptide shape--tertiary structure enables them to do this, as they have an active site which binds to the substrate. Each enzyme catalyses a specific substate. Anyway, i think that's all you need to know.
Actually, proteins themselves are macromolecules. They are made of multiple polypeptide chains linked together. Polypeptide chains are then the result of multiple amino acids linked by peptide bonds between the amino groups and acid groups.The development stages of proteins are divided into four stages:1) Primary - A simple polypeptide chain of amino acids2) Secondary - Polypeptide chains folded as a result of hydrogen bond influence. Commonly seen as either alpha helices (like the double helix of a DNA, but singular) or beta sheets(picture rectangles linked together to form a zigzagged, shingle-like form)3) Tertiary - A even more complex form of polypeptide chains with many/multiple folds. At this point the protein is gaining a real shape and its purpose more specified.4) Quaternary - Several tertiary forms combine into one more complex structure. The specific shape determines the proteins final purpose and tasks.Basically proteins are jumbles of polypeptide chains which are combinations of the 20 various amino acids which are made of an amino group, variable group, acid group, and a hydrogen. The elements used are always Carbon, Hydrogen, Oxygen, Nitrogen, and sometimes Sulfur.
The purpose of the cell membrane to pond organisms is to separate and protect contents in the pond cell from those outside the cell membrane.
locomotion
The purpose of a sargassum holdfast structure is to anchor the seaweed to a substrate, such as rocks or coral reefs, preventing it from drifting away. This anchoring allows the sargassum to grow and thrive in its environment.
All business organisations have the following characteristics:- - Purpose for existance -Organisation structure -Brand name
Organized.
Organized.
A memo really doesn't have much of a structure and the purpose is to inform or remind yourself or others of something.
The reproductive system's main purpose is to enable organisms to produce offspring through the fusion of sex cells (sperm and egg) in sexual reproduction. This system includes organs such as the testes, ovaries, and uterus that facilitate the production, storage, and transport of sex cells.
Her primary purpose is to entertain the reader.
mounika
Guaranteeing fair business practices for everyone best describes the purpose of the National Industrial Recovery Act.
YES AND NO. Firstly: A polyepeptide is a protein, constructed of many amino acids, coded for by the genetic code. (in triplets). A cell produces many polypeptides--in other words proteins.__ These proteins (polypeptides) each have a specific purpose/role in the cell.For example, hameoglobin is a polypeptide. Proteins are basically refererd to as polypeptides, as they consist of many amino acids bounded together. POLY= MANY. Of some of the polypeptides (proteins) some are enzymes. Enzymes catalyse reactions. Their poltpeptide shape--tertiary structure enables them to do this, as they have an active site which binds to the substrate. Each enzyme catalyses a specific substate. Anyway, i think that's all you need to know.
The term that describes a group of connected or related objects or materials is "collection." It represents a curated assembly of items with a shared purpose or theme.
Health
Actually, proteins themselves are macromolecules. They are made of multiple polypeptide chains linked together. Polypeptide chains are then the result of multiple amino acids linked by peptide bonds between the amino groups and acid groups.The development stages of proteins are divided into four stages:1) Primary - A simple polypeptide chain of amino acids2) Secondary - Polypeptide chains folded as a result of hydrogen bond influence. Commonly seen as either alpha helices (like the double helix of a DNA, but singular) or beta sheets(picture rectangles linked together to form a zigzagged, shingle-like form)3) Tertiary - A even more complex form of polypeptide chains with many/multiple folds. At this point the protein is gaining a real shape and its purpose more specified.4) Quaternary - Several tertiary forms combine into one more complex structure. The specific shape determines the proteins final purpose and tasks.Basically proteins are jumbles of polypeptide chains which are combinations of the 20 various amino acids which are made of an amino group, variable group, acid group, and a hydrogen. The elements used are always Carbon, Hydrogen, Oxygen, Nitrogen, and sometimes Sulfur.