Differentiation of regioisomeric N-substituted meta-chlorophenylpiperazine derivatives

IF 2.6 3区 医学 Q2 CHEMISTRY, ANALYTICAL Forensic Chemistry Pub Date : 2024-04-28 DOI:10.1016/j.forc.2024.100582
C. Randall Clark , Mohammed Almaghrabi , Murali Dhanasakaran , Jack DeRuiter , Younis Abiedalla
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Abstract

A series of N,N-disubstituted piperazines were synthesized containing the structural elements of meta-chlorophenylpiperazine (mCPP) in combination with methoxybenzyl-, and dimethoxybenzyl substituents to yield nine N,N-disubstituted piperazine compounds. These nine potential designer-like drug analogs were prepared based on common designer trends and regioisomeric differentiation was based on gas chromatography-mass spectrometry (GC–MS) and gas chromatography-vapor phase infrared (GC–vpIR) studies. The compounds in this study have not been reported as drugs of abuse at this time. However, commercial availability of precursor chemicals including mCPP suggests the possibility of further designer exploration. Capillary GC separation showed the regioisomers to elute according to the position of aromatic ring substitution and/or the degree of substituent crowding on the aromatic ring. Numerous electron ionization (EI) mass spectral fragment ions occur via processes initiated by one of the two nitrogen atoms of the piperazine ring. The major EI-MS fragment ions observed in all nine spectra occur at m/z 195 from the loss of the substituted benzyl radical and the cation at m/z 56 (C3H6N)+ from the piperazine ring. Unique radical cations at m/z 136 and m/z 152 are characteristic of the 2,3- and 3,5-dimethoxybenzyl isomers, respectively. The vapor phase infrared spectra for all nine compounds show a strong absorption band in the 1591–1593 cm−1 region indicative of the chloroaniline moiety. Numerous bands in the 1600–650 cm−1 region provide data for the differentiation of the methoxy and dimethoxybenzyl ring substitution patterns. Thus, a combination of EI-MS and vapor phase IR allow for the differentiation and specific identification of each regioisomer in this study.

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区分 N-取代的偏氯苯基哌嗪衍生物的异构体
研究人员合成了一系列 N,N-二取代哌嗪,这些哌嗪含有甲氯苯基哌嗪(mCPP)的结构元素,并与甲氧基苄基和二甲氧基苄基取代基结合,生成了九种 N,N-二取代哌嗪化合物。根据常见的设计趋势制备了这九种潜在的设计类药物类似物,并根据气相色谱-质谱(GC-MS)和气相色谱-气相红外(GC-vpIR)研究对其进行了区域异构体区分。本研究中的化合物目前尚未被报告为滥用药物。不过,包括 mCPP 在内的前体化学品的商业化供应表明,有可能对设计者进行进一步的探索。毛细管气相色谱分离显示,根据芳香环取代的位置和/或芳香环上取代基的拥挤程度,可洗脱出不同的区域异构体。通过哌嗪环上两个氮原子之一的启动过程,产生了许多电子电离(EI)质谱碎片离子。在所有九个光谱中观察到的主要 EI-MS 碎片离子出现在 m/z 195 处,来自取代苄基自由基的损失,以及来自哌嗪环的阳离子 m/z 56 (C3H6N)+。m/z 136 和 m/z 152 处的独特自由基阳离子分别是 2,3- 和 3,5- 二甲氧基苄基异构体的特征。所有九种化合物的气相红外光谱都在 1591-1593 cm-1 区域显示了氯苯胺分子的强吸收带。1600-650 cm-1 区域的大量条带为区分甲氧基和二甲氧基苄基环取代模式提供了数据。因此,在本研究中,结合使用 EI-MS 和气相红外光谱,可以对每种区域异构体进行区分和具体鉴定。
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来源期刊
Forensic Chemistry
Forensic Chemistry CHEMISTRY, ANALYTICAL-
CiteScore
5.70
自引率
14.80%
发文量
65
审稿时长
46 days
期刊介绍: Forensic Chemistry publishes high quality manuscripts focusing on the theory, research and application of any chemical science to forensic analysis. The scope of the journal includes fundamental advancements that result in a better understanding of the evidentiary significance derived from the physical and chemical analysis of materials. The scope of Forensic Chemistry will also include the application and or development of any molecular and atomic spectrochemical technique, electrochemical techniques, sensors, surface characterization techniques, mass spectrometry, nuclear magnetic resonance, chemometrics and statistics, and separation sciences (e.g. chromatography) that provide insight into the forensic analysis of materials. Evidential topics of interest to the journal include, but are not limited to, fingerprint analysis, drug analysis, ignitable liquid residue analysis, explosives detection and analysis, the characterization and comparison of trace evidence (glass, fibers, paints and polymers, tapes, soils and other materials), ink and paper analysis, gunshot residue analysis, synthetic pathways for drugs, toxicology and the analysis and chemistry associated with the components of fingermarks. The journal is particularly interested in receiving manuscripts that report advances in the forensic interpretation of chemical evidence. Technology Readiness Level: When submitting an article to Forensic Chemistry, all authors will be asked to self-assign a Technology Readiness Level (TRL) to their article. The purpose of the TRL system is to help readers understand the level of maturity of an idea or method, to help track the evolution of readiness of a given technique or method, and to help filter published articles by the expected ease of implementation in an operation setting within a crime lab.
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