protéine - definitie. Wat is protéine
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Wat (wie) is protéine - definitie

BIOMOLECULE CONSISTING OF CHAINS OF AMINO ACID RESIDUES
Proteins; Protein (biochemistry); Protein molecule; Protiens; Protien; Proteinaceous; Back bone (protein); Bacterial protein; Proteine; Protein action; Protein function; Cellular protein; Protein interactions; Structural protein; Structural proteins; Soluble protein
  • Constituent amino-acids can be analyzed to predict secondary, tertiary and quaternary protein structure, in this case hemoglobin containing [[heme]] units
  • The crystal structure of the [[chaperonin]], a huge protein complex. A single protein subunit is highlighted. Chaperonins assist protein folding.
  • encodes]] the amino acid sequence of a protein
  • ATP]] and [[glucose]].
  • [[John Kendrew]] with model of myoglobin in progress
  • Proteins in different [[cellular compartment]]s and structures tagged with [[green fluorescent protein]] (here, white)
  • [[Ribbon diagram]] of a mouse antibody against [[cholera]] that binds a [[carbohydrate]] antigen
  • α-helices]]. This protein was the first to have its structure solved by [[X-ray crystallography]]. Toward the right-center among the coils, a [[prosthetic group]] called a [[heme group]] (shown in gray) with a bound oxygen molecule (red).
  • Chemical structure of the peptide bond (bottom) and the three-dimensional structure of a peptide bond between an [[alanine]] and an adjacent amino acid (top/inset). The bond itself is made  of the [[CHON]] elements.
  • Resonance]] structures of the [[peptide bond]] that links individual amino acids to form a protein [[polymer]]
  • Molecular surface of several proteins showing their comparative sizes. From left to right are: [[immunoglobulin G]] (IgG, an [[antibody]]), [[hemoglobin]], [[insulin]] (a hormone), [[adenylate kinase]] (an enzyme), and [[glutamine synthetase]] (an enzyme).
  • Three possible representations of the three-dimensional structure of the protein [[triose phosphate isomerase]]. '''Left''': All-atom representation colored by atom type. '''Middle:'''  Simplified representation illustrating the backbone conformation, colored by secondary structure. '''Right''': Solvent-accessible surface representation colored by residue type (acidic residues red, basic residues blue, polar residues green, nonpolar residues white).
  • A ribosome produces a protein using mRNA as template

Protein         
·noun A body now known as alkali albumin, but originally considered to be the basis of all albuminous substances, whence its name.
II. Protein ·add. ·noun In chemical analysis, the total nitrogenous material in vegetable or animal substances, obtained by multiplying the total nitrogen found by a factor, usually 6.25, assuming most proteids to contain approximately 16 per cent of nitrogen.
Protein         
Proteins are large biomolecules and macromolecules that comprise one or more long chains of amino acid residues. Proteins perform a vast array of functions within organisms, including catalysing metabolic reactions, DNA replication, responding to stimuli, providing structure to cells and organisms, and transporting molecules from one location to another.
Proteinaceous         
·adj Of or related to protein; albuminous; proteid.

Wikipedia

Protein

Proteins are large biomolecules and macromolecules that comprise one or more long chains of amino acid residues. Proteins perform a vast array of functions within organisms, including catalysing metabolic reactions, DNA replication, responding to stimuli, providing structure to cells and organisms, and transporting molecules from one location to another. Proteins differ from one another primarily in their sequence of amino acids, which is dictated by the nucleotide sequence of their genes, and which usually results in protein folding into a specific 3D structure that determines its activity.

A linear chain of amino acid residues is called a polypeptide. A protein contains at least one long polypeptide. Short polypeptides, containing less than 20–30 residues, are rarely considered to be proteins and are commonly called peptides. The individual amino acid residues are bonded together by peptide bonds and adjacent amino acid residues. The sequence of amino acid residues in a protein is defined by the sequence of a gene, which is encoded in the genetic code. In general, the genetic code specifies 20 standard amino acids; but in certain organisms the genetic code can include selenocysteine and—in certain archaea—pyrrolysine. Shortly after or even during synthesis, the residues in a protein are often chemically modified by post-translational modification, which alters the physical and chemical properties, folding, stability, activity, and ultimately, the function of the proteins. Some proteins have non-peptide groups attached, which can be called prosthetic groups or cofactors. Proteins can also work together to achieve a particular function, and they often associate to form stable protein complexes.

Once formed, proteins only exist for a certain period and are then degraded and recycled by the cell's machinery through the process of protein turnover. A protein's lifespan is measured in terms of its half-life and covers a wide range. They can exist for minutes or years with an average lifespan of 1–2 days in mammalian cells. Abnormal or misfolded proteins are degraded more rapidly either due to being targeted for destruction or due to being unstable.

Like other biological macromolecules such as polysaccharides and nucleic acids, proteins are essential parts of organisms and participate in virtually every process within cells. Many proteins are enzymes that catalyse biochemical reactions and are vital to metabolism. Proteins also have structural or mechanical functions, such as actin and myosin in muscle and the proteins in the cytoskeleton, which form a system of scaffolding that maintains cell shape. Other proteins are important in cell signaling, immune responses, cell adhesion, and the cell cycle. In animals, proteins are needed in the diet to provide the essential amino acids that cannot be synthesized. Digestion breaks the proteins down for metabolic use.

Proteins may be purified from other cellular components using a variety of techniques such as ultracentrifugation, precipitation, electrophoresis, and chromatography; the advent of genetic engineering has made possible a number of methods to facilitate purification. Methods commonly used to study protein structure and function include immunohistochemistry, site-directed mutagenesis, X-ray crystallography, nuclear magnetic resonance and mass spectrometry.