Oxorhenium(V) and Oxotechnetium(V) Complexes of Cysteine

Chatterjee, Mita; Achari, Basudeb; Das, Sandip; Banerjee, Rahul; Chakrabarti, Chandana; Dattagupta, J.K.; Banerjee, Sumanta

doi:10.1021/ic970577q

Cited by 38 publications

(35 citation statements)

References 23 publications

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“…[14][15][16][17][18] The Re-Cl(1) distance (2.351(3) Å) is slightly longer than Re-Cl(2) (2.334(2) Å), probably because Cl(1) participates in hydrogen bonding, but both distances are within the accepted range. 57 The Re-NH 2 bond is ∼0.05 Å longer than the Re-N(Im) bond, in agreement with the literature data for complexes with amino acids (mean Re V -N ) 2.188 Å, σ ) 0.032 Å, 20 data) 15,17,18,58 and imidazoles (mean Re V -N ) 2.124 Å, σ ) 0.016 Å, 35 data). [59][60][61][62][63][64] The angles listed in Table S-5 (Supporting Information) show that the octahedron is severely distorted.…”

Section: Oxorhenium(v) Complexesmentioning

confidence: 87%

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Oxorhenium(V) Complexes with the Non-Sulfur-Containing Amino Acid Histidine

2002

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Equivalent amounts of ReOX(3)(OPPh(3))(Me(2)S) (where X = Cl, Br) and L-histidine (L-hisH) in acetonitrile yield ReOX(2)(L-his), in which the amino acid monoanion is N,N,O-tridentate. X-ray diffraction work on both compounds shows that the three donors occupy a face in a distorted octahedron and the carboxylate oxygen is coordinated trans to the Re=O bond. The 2:1 complex [ReO(L-his)(2)]I is obtained by reacting 2 equiv of L-histidine with ReO(2)I(PPh(3))(2) in methanol in the presence of NaOCH(3). (1)H NMR spectroscopy indicates that these complexes contain one N,N,O-tridentate histidine anion coordinated as above and one N,N-bidentate histidine anion, whose carboxylate group is free. By refluxing ReOX(2)(L-his) in methanol, the carboxylic groups esterify and two octahedral units condense into an oxo-bridged dinuclear complex [ReOX(2)(L-hisMe)](2)O containing N,N-bidentate histidine methyl ester. The O=Re-O-Re=O backbone is approximately linear, and the two ReOX(2)(L-hisMe) units are related by a 2-fold axis through the central oxygen. Crystals of [ReOBr(2)(L-hisMe)](2)O consist of an ordered phase containing two of the possible diastereoisomers in a 1:1 ratio. (1)H NMR spectra of these crystals include two sets of signals, consistent with the presence of two isomers with C(2) symmetry, and the spectra of the nonrecrystallized material confirm that these are the only two isomers formed.

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Section: Oxorhenium(v) Complexesmentioning

confidence: 87%

“…Less is known about the higher oxidation states. 11,12 Oxorhenium(V)monomerswerepreparedwithcysteine,penicillamine, [13][14][15] and their methyl esters. [16][17][18] Besides the RedO moiety, these compounds contain two ligands, one tridentate-S,N,O and the other bidentate-S,N (Chart 1).…”

Section: Introductionmentioning

confidence: 99%

Oxorhenium(V) Complexes with the Non-Sulfur-Containing Amino Acid Histidine

2002

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“…10 99 Tc-chelate of VII exhibited UV -max at 425 nm and IR stretching bands at 942 cm À1 which were comparable to those of 99 Tc-l-cysteinate (lmax 426 nm and IR band 940 cm À1 ) reported earlier. 10 The reverse phase HPLC retention time of 99 Tc and 99m Tc-l-cysteinate prepared from l-cystine as starting ligands were 5.03 and 5.15 respectively, whereas the 99 Tc and 99m Tc chelates prepared from S-thiomethyl-l-cysteine (VII) exhibited retention times of 5.08 and 5.18, respectively on the same reverse phase HPLC system (Figure 2). Tc-lcysteine under comparable experimental conditions.…”

Section: Mmentioning

confidence: 97%

“…However, this problem could be avoided by using the corresponding disulphide (cystine) as monosulphide precursor; use of large excess of the former produced the above chelate in excellent yield. 10 Therefore it may be concluded that the protection of monosulphide by disulphide formation, which is a useful tool in peptide chemistry, may be successfully applied in thiolate chelation with technetium.…”

Section: à9mentioning

confidence: 99%

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Role of protecting groups in the preparation of thiolate complexes of technetium-99 m using cysteine as a model

Roy

Debnath

Sanyal

et al. 2006

J Label Compd Radiopharm

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SummaryAn attempt has been made to develop a suitable protecting group for the thiolate function for 99m Tc binding ligands having such function and which could be deprotected automatically during Tc-chelation without the use of any additional reagents. As a model ligand a simple molecule like l-cysteine was selected. Seven S-protected derivatives of this amino acid were synthesized, radiolabelled with technetium-99 m under a variety of experimental conditions and the yield of the desired chelate was compared to that of 99m Tc-l-cysteine, the authentic standard chelate, by HPLC. The corresponding 99 Tc chelate of cysteine from l-cystine and S-thiomethyl l-cysteine was also prepared. It was found that the 99 Tc chelates exhibited similar retention profiles to those of the corresponding 99m Tc chelates in reverse phase HPLC. The results of the biodistribution studies after 99m Tc chelation were likewise compared to those of 99m Tc-l-cysteine. The effect of probenecid on renal excretion was studied only on the 99m Tc chelate of S-thiomethyl-l-cysteine to determine whether tubular excretion was involved. The results suggest that the S-thiomethyl group could be used as an ideal protective group to mask the high reactivity of thiolate functions attached to different 99m Tc binding ligands.

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Applications in Coordination Chemistry

Nakamoto

2008

Infrared and Raman Spectra of Inorganic and Coordination Compounds

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Oxorhenium(V) and Oxotechnetium(V) Complexes of Cysteine

Cited by 38 publications

References 23 publications

Oxorhenium(V) Complexes with the Non-Sulfur-Containing Amino Acid Histidine

Oxorhenium(V) Complexes with the Non-Sulfur-Containing Amino Acid Histidine

Role of protecting groups in the preparation of thiolate complexes of technetium-99 m using cysteine as a model

Applications in Coordination Chemistry

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