Identification of structurally diverse alkaloids in Talguenea quinquinervia (gill. Et hook) by liquid chromatography/electrospray ionisation tandem mass spectroscopy and insecticidal activity

Abstract: Introduction Talguenea quinquinervia has been used in folk medicine and to dye wool, and the main constituents are alkaloids and triterpenes. Identification of these type of compounds in this specie is a necessary step to understand the biological properties. Objective To evaluate the relationship between the chemical composition of root from T. quinquinervia and its insecticidal properties using liquid chromatography electrospray ionisation tandem mass spectrometry (LC‐ESI‐MS/MS). Methods Alkaloids were extra… Show more

“…albidum 6 . Coclaurine, N ‐methyl coclaurine, and armepavine showed similar fragmentation pattern described in previous works and are described here for the first time in the genus Sassafras 21,30,31 . Coclaurine and N‐ methyl coclaurine are important intermediates in the biosynthesis pathway of reticuline 33,34 .…”

“…Seven benzylisoquinoline alkaloids were observed in the root extract; they showed fragmentation patterns with key ions ( a – e ) generated in the MS 2 and MS 3 (Figure 4). These ions, previously described in literature, help to identify the substitutions in two essential parts of benzylisoquinoline alkaloids, the benzyl and isoquinoline moiety 30,31 . Similar to aporphine alkaloids with secondary and tertiary nitrogen, benzylisoquinolines display the loss of 17 and 31 Da representing the cleavage of the amino group as [M + H‐NH 3 ] + and [M + H‐NH 2 CH 3 ] + respectively, generating ion a 30,31 .…”

“…These ions, previously described in literature, help to identify the substitutions in two essential parts of benzylisoquinoline alkaloids, the benzyl and isoquinoline moiety 30,31 . Similar to aporphine alkaloids with secondary and tertiary nitrogen, benzylisoquinolines display the loss of 17 and 31 Da representing the cleavage of the amino group as [M + H‐NH 3 ] + and [M + H‐NH 2 CH 3 ] + respectively, generating ion a 30,31 . Compounds 1 (norcinnamolaurine), 2 (coclaurine), and 3 (cinnamolaurine) were characterized by the presence of secondary nitrogen, while Compounds 4 ( N ‐methylcoclaurine), 5 ( N ‐methylisococlaurine), and 11 (reticuline) were characterized with the presence of tertiary nitrogen.…”

“…DESI‐MS n analysis was performed in all alkaloids separated offline by HPTLC, and the structural characterization was investigated based on the fragmentation pattern of these compounds and comparison with literature data. Both isoquinoline and aporphine alkaloids have known fragmentation pathways that help to characterize its main substituents and its structure 29–32 . A total of 12 alkaloids were identified, five aporphine and seven benzylisoquinoline.…”

Identification of Sassafras albidum alkaloids by high‐performance thin‐layer chromatography tandem mass spectrometry and mapping by desorption electrospray ionization mass spectrometry imaging

“…albidum 6 . Coclaurine, N ‐methyl coclaurine, and armepavine showed similar fragmentation pattern described in previous works and are described here for the first time in the genus Sassafras 21,30,31 . Coclaurine and N‐ methyl coclaurine are important intermediates in the biosynthesis pathway of reticuline 33,34 .…”

“…Seven benzylisoquinoline alkaloids were observed in the root extract; they showed fragmentation patterns with key ions ( a – e ) generated in the MS 2 and MS 3 (Figure 4). These ions, previously described in literature, help to identify the substitutions in two essential parts of benzylisoquinoline alkaloids, the benzyl and isoquinoline moiety 30,31 . Similar to aporphine alkaloids with secondary and tertiary nitrogen, benzylisoquinolines display the loss of 17 and 31 Da representing the cleavage of the amino group as [M + H‐NH 3 ] + and [M + H‐NH 2 CH 3 ] + respectively, generating ion a 30,31 .…”

“…These ions, previously described in literature, help to identify the substitutions in two essential parts of benzylisoquinoline alkaloids, the benzyl and isoquinoline moiety 30,31 . Similar to aporphine alkaloids with secondary and tertiary nitrogen, benzylisoquinolines display the loss of 17 and 31 Da representing the cleavage of the amino group as [M + H‐NH 3 ] + and [M + H‐NH 2 CH 3 ] + respectively, generating ion a 30,31 . Compounds 1 (norcinnamolaurine), 2 (coclaurine), and 3 (cinnamolaurine) were characterized by the presence of secondary nitrogen, while Compounds 4 ( N ‐methylcoclaurine), 5 ( N ‐methylisococlaurine), and 11 (reticuline) were characterized with the presence of tertiary nitrogen.…”

“…DESI‐MS n analysis was performed in all alkaloids separated offline by HPTLC, and the structural characterization was investigated based on the fragmentation pattern of these compounds and comparison with literature data. Both isoquinoline and aporphine alkaloids have known fragmentation pathways that help to characterize its main substituents and its structure 29–32 . A total of 12 alkaloids were identified, five aporphine and seven benzylisoquinoline.…”

Identification of Sassafras albidum alkaloids by high‐performance thin‐layer chromatography tandem mass spectrometry and mapping by desorption electrospray ionization mass spectrometry imaging

“…The type‐ c ion is the key ion of MS 3 fragmentation of ion a , occurring as a rearrangement after the loss of the benzyl groups. Alkaloids 1 , 2 and 4 showed type c ion with m/z 175 suggesting the presence of vicinal OCH 3 and OH groups on the ring A 32 …”

Rapid structural characterisation of benzylisoquinoline and aporphine alkaloids from Ocotea spixiana acaricide extract by HPTLC‐DESI‐MSⁿ

Cyclopeptide Alkaloids from Discaria chacaye (Rhamnaceae) as Result of Symbiosis with Frankia (Actinomycetales)