Theoretical Study of the Dimerization of Chlorophyll (a) and Its Hydrates: Implication for Chlorophyll (a) Aggregation

Abstract: Dimeric structures chlorophyll (a) (Chla) and their mono‐ and dihydrated have been suggested to play an important role in the mechanism of photoreaction center chlorophyll special pairs PSI and PSII. Despite their functional importance, the molecular basis structures for interacting two Chla molecules and the structural stabilization role of H2O in the formation of hydrated Chla dimer complexes is poorly understood. In this article, the different coordination modes between two interacting Chla molecules and th… Show more

“…It has been reported that the Mg–N bond can be elongated to 0.02–0.04 Å by neutral ligands [ 45 ]. In this work, the resulting distance order for all complexes was N1 > N3 > N2 > N4, in agreement with previous reports [ 48 , 49 , 50 ]. The Mg 2+ –AFB 1 complex caused small but noticeable changes in the geometry of the porphyrin moiety of chl a 1 due to a change in the coordination number (4 to 5) of the Mg 2+ ion.…”

“…Moreover, in the higher-energy chl a 2 –AFB 1 complex, the Mg–N interatomic distances are longer than in uncoordinated chl a 2 ( Table 1 ) due to the saturated bond on the N1 ring, as previously reported (0.02 to 0.04 Å) [ 45 ]. In this work, the resulting distance order for all complexes was N1 > N3 > N2 > N4, in agreement with previous reports [ 48 , 49 , 50 ]. Additionally, the Mg 2+ –AFB 1 complex caused small but noticeable changes in the geometry of the porphyrin moiety of chl a 2 -α-D–AFB 1 , chl a 2 -α-E–AFB 1 , and chl a 2 -β-E–AFB 1 , which was due to a change in the coordination number (four to five) of the Mg 2+ ion.…”

“…In general, the Mg 2+ ion coordinated with the nitrogen atoms yielded a square-based pyramid geometry with the Mg 2+ located out-of-plane due to the coordination number (5), in agreement with literature data [ 35 , 47 , 48 , 49 , 50 , 51 , 52 , 53 , 54 , 55 , 56 ]. A displacement of the Mg 2+ ion toward the axial ligand was perceived from 0.57 to 0.68 Å; according to Heimdal et al [ 45 ] and Zucchelli et al, this displacement was 0.43–0.54 Å [ 52 ].…”

“…As in the case of chl a 1 , comparable changes in configuration for the substituents were perceived, and for chl a 2 -β-D–AFB 1 , a change was observed in the methyl substituent on N3. As previously shown for chl a 1 , the complexes also yielded a square-based pyramid geometry [ 35 , 47 , 48 , 49 , 50 , 51 , 52 , 53 , 54 , 55 , 56 ]. A displacement of the Mg 2+ ion toward the axial ligand was perceived from 0.57 to 0.68 Å [ 45 ]; according to Zucchelli et al, this displacement was 0.43–0.54 Å [ 52 ].…”

“…This is shown in Table 1 . Moreover, the previous order established for the distances of Mg–N, N1 > N3 > N2 > N4, is also maintained in these complexes [ 48 , 49 , 50 ]. Consequently, the Mg 2+ –2AFB 1 complex achieved small but noticeable changes in the configuration of the vinylic group on N2.…”

The Ability of Chlorophyll to Trap Carcinogen Aflatoxin B1: A Theoretical Approach

“…It has been reported that the Mg–N bond can be elongated to 0.02–0.04 Å by neutral ligands [ 45 ]. In this work, the resulting distance order for all complexes was N1 > N3 > N2 > N4, in agreement with previous reports [ 48 , 49 , 50 ]. The Mg 2+ –AFB 1 complex caused small but noticeable changes in the geometry of the porphyrin moiety of chl a 1 due to a change in the coordination number (4 to 5) of the Mg 2+ ion.…”

“…Moreover, in the higher-energy chl a 2 –AFB 1 complex, the Mg–N interatomic distances are longer than in uncoordinated chl a 2 ( Table 1 ) due to the saturated bond on the N1 ring, as previously reported (0.02 to 0.04 Å) [ 45 ]. In this work, the resulting distance order for all complexes was N1 > N3 > N2 > N4, in agreement with previous reports [ 48 , 49 , 50 ]. Additionally, the Mg 2+ –AFB 1 complex caused small but noticeable changes in the geometry of the porphyrin moiety of chl a 2 -α-D–AFB 1 , chl a 2 -α-E–AFB 1 , and chl a 2 -β-E–AFB 1 , which was due to a change in the coordination number (four to five) of the Mg 2+ ion.…”

“…In general, the Mg 2+ ion coordinated with the nitrogen atoms yielded a square-based pyramid geometry with the Mg 2+ located out-of-plane due to the coordination number (5), in agreement with literature data [ 35 , 47 , 48 , 49 , 50 , 51 , 52 , 53 , 54 , 55 , 56 ]. A displacement of the Mg 2+ ion toward the axial ligand was perceived from 0.57 to 0.68 Å; according to Heimdal et al [ 45 ] and Zucchelli et al, this displacement was 0.43–0.54 Å [ 52 ].…”

“…As in the case of chl a 1 , comparable changes in configuration for the substituents were perceived, and for chl a 2 -β-D–AFB 1 , a change was observed in the methyl substituent on N3. As previously shown for chl a 1 , the complexes also yielded a square-based pyramid geometry [ 35 , 47 , 48 , 49 , 50 , 51 , 52 , 53 , 54 , 55 , 56 ]. A displacement of the Mg 2+ ion toward the axial ligand was perceived from 0.57 to 0.68 Å [ 45 ]; according to Zucchelli et al, this displacement was 0.43–0.54 Å [ 52 ].…”

“…This is shown in Table 1 . Moreover, the previous order established for the distances of Mg–N, N1 > N3 > N2 > N4, is also maintained in these complexes [ 48 , 49 , 50 ]. Consequently, the Mg 2+ –2AFB 1 complex achieved small but noticeable changes in the configuration of the vinylic group on N2.…”

The Ability of Chlorophyll to Trap Carcinogen Aflatoxin B1: A Theoretical Approach

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Spectroscopic Methods for the Identification of Sesquiterpene Lactones