The Davis–Beirut reaction is ''N,N''-bond forming heterocyclization that creates numerous types of 2''H''-

indazoles Indazole, also called isoindazole, is a heterocyclic aromatic organic compound. This bicyclic compound consists of the fusion of benzene and pyrazole. Indazole is an amphoteric molecule which can be protonated to an indazolium cation or deproton ...

and indazolones in both acidic and basic conditions The Davis–Beirut reaction is named after Mark Kurth and Makhluf Haddadin's respective universities;

University of California, Davis The University of California, Davis (UC Davis, UCD, or Davis) is a public land-grant research university near Davis, California. Named a Public Ivy, it is the northernmost of the ten campuses of the University of California system. The inst ...

and American University of Beirut, and is appealing because it uses inexpensive starting materials and does not require toxic metals. : Davis-Beirut_reaction_general

Mechanism in base

The current proposed mechanism for the Davis–Beirut reaction in base was first published in 2005 by Kurth, Olmstead, and Haddadin. The reaction occurs when a ''N''-substituted 2-nitrobenzylamine is heated in the presence of base, such as NaOH and KOH, and an alcohol and includes the formation of a carbanion The reaction begins with the base removing a hydrogen (1) adjacent to the secondary amine-group, creating a carbanion. The carbanion then extracts an oxygen from the nitro-group (2), which is then subsequently protonated, most likely by water. The newly formed hydroxyl group (3), then extracts the

secondary amine In chemistry, amines (, ) are compounds and functional groups that contain a basic nitrogen atom with a lone pair. Amines are formally derivatives of ammonia (), wherein one or more hydrogen atoms have been replaced by a substituent such ...

s hydrogen, leaving a negative charge on nitrogen and creating a protonated hydroxyl group. The oxygen and its hydrogens then leave as a molecule of water (4), creating a double bond with the previously negatively charged nitrogen atom. The new pi bond makes the carbon adjacent to the nitrogen more susceptible for attack by a present alcohol (5), which in turn creates an oxygen-carbon bond, a bond between the two nitrogen atoms, and pushes electrons onto the oxygen molecule originally from the

amide In organic chemistry, an amide, also known as an organic amide or a carboxamide, is a compound with the general formula , where R, R', and R″ represent organic groups or hydrogen atoms. The amide group is called a peptide bond when it i ...

. This molecule is then protonated (6) to create an overall net neutral charge. The hydroxyl group is protonated similarly to step three (7), creating a good leaving group. Therefore, when the

alpha hydrogen In the nomenclature of organic chemistry, a locant is a term to indicate the position of a functional group or substituent within a molecule. Numeric locants The International Union of Pure and Applied Chemistry (IUPAC) recommends the use of ...

of the nitrogen atom and

ether group In organic chemistry, ethers are a class of compounds that contain an ether group—an oxygen atom connected to two alkyl or aryl groups. They have the general formula , where R and R′ represent the alkyl or aryl groups. Ethers can again be c ...

(8) is extracted by the base, the flow of electrons creates two new carbon-nitrogen bonds and causes the loss of the protonated hydroxyl group as a molecule of water. The final product produced by this mechanism is therefore a 3-oxy-substituted 2''H''-indazole. Slight variations of this mechanism exists depending on the starting materials and the conditions (acid or base) of the reaction. In instances of intramolecular oxygen attack (i.e. step 5 of the proposed mechanism is intramolecular) an ''o''-nitrobenzylidene

imine In organic chemistry, an imine ( or ) is a functional group or organic compound containing a carbon–nitrogen double bond (). The nitrogen atom can be attached to a hydrogen or an organic group (R). The carbon atom has two additional single bon ...

intermediate is formed compared to the secondary imine of the displayed mechanism. O-nitrosobenzylidine imine

Furthermore, Davis–Beirut reactions in acids form a carbocation as one of its transition states instead of the proposed carbanion one when the reaction occurs in base.

Other variants of the Davis–Beirut reaction

By manipulating the starting materials of the Davis–Beirut reaction, researchers can create a large number of 2''H-''indazoles derivatives, many of which can be utilized for further synthesis. In 2014, Thiazolo-, Thiazino-, and Thiazipino-2''H''-indazoles were synthesized utilizing ''o''-nitrobenzaldhydes or ''o''-nitrobenzyl bromides and ''S''-trityl-protected primary aminothiol alkanes with a base, such as KOH, in alcohol. Creating Thiazolo-, Thiazino-, and Thiazipino-2''H''-indazoles is beneficial since they are generally more stable than the oxo-2''H''-indazoles formed without the ''S''-trityl-protected group, and they can easily be oxidized to sulfones. Indazole example

Creating 2''H''-indazoles via the Davis–Beirut reaction can also help in producing 1''H''-indazoles, naturally occurring and synthetically made molecules with known pharmaceutical uses such as anti-inflammatories and anti-cancer drugs. By creating 2''H''-indazoles via the Davis–Beirut reaction, the product can subsequently be reacted with electrophiles, such as anhydrides, to create disubstituted 1''H''-indazoles that can be utilized for pharmaceutical and other industrial purposes.

Applications

Heterocycles, especially those containing nitrogen atoms, are highly prevalent in many pharmaceutical drugs currently on the market. Some, like those coming from 1''H''-indazoles, contain naturally occurring molecules, while others are purly synthetic. 2''H''-indazoles, though, are very rare in nature compared to 1''H''-indazole compounds, most likely due to the complex nature of a heterocycle including a nitrogen-nitrogen bond and an ether side chain. The discovery of the Davis–Beirut reaction therefore provides any easy and cost effective way to synthetically create 2''H''-indazoles. Breakthroughs, including the success of introducing

thioether moiety In organic chemistry, an organic sulfide (British English sulphide) or thioether is an organosulfur functional group with the connectivity as shown on right. Like many other sulfur-containing compounds, volatile sulfides have foul odors. A sul ...

at ''C3'' of the 2''H''-indazole structure, has aided in creating drug treatments for a variety of ailments, including cystic fibrosis, with the use of

myeloperoxidase inhibitors Myeloperoxidase (MPO) is a peroxidase enzyme that in humans is encoded by the ''MPO'' gene on chromosome 17. MPO is most abundantly expressed in neutrophil granulocytes (a subtype of white blood cells), and produces hypohalous acids to carry o ...

. Due to the recentness of the discovery of this reaction, though, most research is primarily headed by Haddadin, Kurth, or both, therefore causing a currently limited scope.

References

{{DEFAULTSORT:Davis-Beirut reaction Indazoles Nitrogen heterocycle forming reactions Name reactions