Pirkle's alcohol is a colloquial term referring to a type of homemade or illicit alcohol, often associated with being low-quality or dangerous due to the manner in which it is produced. While the term may not be widely recognized in formal settings, it evokes images of improvised distillation methods and potentially hazardous ingredients. In general terms, it can refer to any alcohol that is produced outside of regulated environments, which can pose risks to health due to impurities or improper distillation processes.
Planar chirality refers to a type of spatial arrangement in certain molecules where the chirality arises from the planar structure of the molecule rather than from a chiral center (usually a carbon atom bonded to four different groups). In planar chirality, the different arrangements around a plane can lead to non-superimposable mirror images, typically as a result of the spatial arrangement of groups around a rigid planar structure, such as a cyclic compound or a flat molecular scaffold.
Prelog strain refers to a type of strain observed in certain polymers that exhibit a characteristic behavior under stress. Particularly, it is defined in the context of the mechanical properties of polymers, where it is related to their ability to deform elastically or plastically. The term is often used in relation to the study of polymer mechanics and the response of materials to external forces.
Prochirality is a concept in stereochemistry that refers to the relationship of certain molecules to their enantiomers—the non-superimposable mirror images that are characteristic of chiral molecules. A molecule is considered prochiral if it can become chiral through a single reaction or transformation, typically by the substitution of one of its identical substituents or functional groups.
Proline isomerization refers to the process by which the peptide bond involving the amino acid proline can exist in either a cis or trans configuration. This is particularly relevant in the context of protein structure and function, as the isomerization can influence protein folding, stability, and interactions. In epigenetics, proline isomerization can play a role in the regulation of chromatin structure and gene expression.
Protein primary structure refers to the unique sequence of amino acids that make up a protein. This sequence is determined by the genetic code and is crucial because it ultimately dictates how the protein will fold and function. Amino acids are linked together by peptide bonds to form a polypeptide chain, and the order of these amino acids is specified by the mRNA sequence during translation.
Protein quaternary structure refers to the highest level of structural organization in proteins, where two or more polypeptide chains, known as subunits, come together to form a larger, functional protein complex. Each subunit in a quaternary structure can consist of one or more polypeptide chains, and these subunits can be identical (homomeric) or different (heteromeric).
Protein secondary structure refers to the local folding and spatial arrangement of the polypeptide chain into specific structural motifs. It is one of the levels of protein structure, following the primary structure (the sequence of amino acids) and preceding the tertiary structure (the overall three-dimensional shape of a single polypeptide).
Pseudorotation is a term used in chemistry and molecular physics to describe a specific type of conformational change in certain cyclic compounds, particularly in the context of five-membered rings or certain larger rings. It involves the movement of atoms within the molecule that allows the structure to rotate around a particular axis, leading to a change in the arrangement of atoms or groups attached to the ring without breaking any bonds.
Pyramidal inversion is a phenomenon that occurs in certain molecules where the configuration of a chiral center can interconvert between two different arrangements. Specifically, this term is often used in the context of molecules that adopt a pyramidal geometry at a nitrogen or phosphorus atom. In a pyramidal structure, the central atom is bonded to three other atoms or groups in a manner that gives it a trigonal pyramidal shape, resembling a pyramid.
Racemic acid, also known as racemic tartaric acid, is a form of tartaric acid that consists of equal amounts of its two enantiomers: D-tartaric acid and L-tartaric acid. Tartaric acid is a naturally occurring organic acid that is commonly found in grapes and used in various food and beverage applications, particularly in winemaking.
A racemic mixture is a type of mixture that contains equal amounts of two enantiomers, which are molecules that are mirror images of each other but cannot be superimposed. Enantiomers have the same chemical formula and, in many cases, the same physical properties, but they can exhibit different biological activities. Since racemic mixtures contain both enantiomers in equal proportions, their optical activity is canceled out—the mixture does not rotate plane-polarized light.
Racemization is a chemical process in which a chiral compound is converted into a racemic mixture, consisting of equal amounts of its enantiomers. Enantiomers are pairs of molecules that are mirror images of each other and cannot be superimposed. Because chiral compounds have specific spatial arrangements, they often exhibit different properties, including biological activity.
Regioselectivity refers to the preference of a chemical reaction to occur at one specific location over another in a molecule that contains multiple reactive sites. This selectivity is particularly significant in organic chemistry, where a molecule may have several functional groups or double bonds that can potentially react. For example, in the case of electrophilic addition reactions or substitutions, a reagent might attack different positions on a substrate. Regioselectivity indicates which position the reagent preferentially reacts with, leading to a major product.
The term "serine octamer cluster" generally refers to a specific arrangement or grouping of serine amino acids, often in the context of protein structure or function. In biochemistry and molecular biology, serine is one of the 20 standard amino acids, characterized by its polar side chain, which contains a hydroxyl group (-OH). This property makes serine important in various biological processes, including enzyme catalysis and post-translational modifications (such as phosphorylation).
The Soai reaction is a notable organic chemical reaction that involves the asymmetric synthesis of prochiral β-amino alcohols via the addition of a chiral catalyst to a prochiral substrate. It was first reported by Japanese chemist Shohei Soai and his colleagues in 1995.
Specific rotation is a physical property of optically active substances that measures the degree to which a compound can rotate the plane of polarized light. It is particularly important in the study of chiral molecules, such as many organic compounds and certain biomolecules.
Spontaneous absolute asymmetric synthesis refers to a process in which an achiral compound spontaneously transforms into a chiral product without the influence of any external chiral environments or catalysts. In other words, it describes a scenario where an achiral precursor can lead to the formation of a chiral product in a way that does not require any external chiral sources or conditions.
The staggered conformation is a specific arrangement of atoms in a molecule, particularly relevant in the context of organic chemistry and the study of alkanes. In a staggered conformation, the substituents or groups attached to adjacent carbon atoms are positioned as far apart from each other as possible. This arrangement minimizes steric strain and torsional strain between the atoms or groups, leading to a more stable configuration.
A stereocenter (or stereogenic center) is an atom in a molecule that is bonded to four different groups or atoms in such a way that the spatial arrangement of these groups creates stereoisomerism. This means that the arrangement of the groups around the stereocenter can lead to at least two distinct three-dimensional configurations, known as enantiomers, which are non-superimposable mirror images of each other.