Oxime formation for fluorine-18 labeling of peptides and proteins for positron emission tomography (PET) imaging: A review

“…A widely used and highly chemoselective reaction, which can be carried in aqueous media and is suitable for the radiolabelling of peptides, is oxime formation between a radiofluorinated prosthetic group functionalized with an aldehyde or a ketone, and an amine from the biomolecule (8). A series of [ 18 F]prosthetic groups have been developed for labelling peptides, each one with their strengths and weaknesses in terms of ease of synthesis and reactivity with the target peptide.…”

“…However, most strategies are based on prosthetic groups directed to the amino, thiol or carboxylic acid functional groups present in the peptides (4). A widely used and highly chemoselective reaction, which can be carried in aqueous media and is suitable for the radiolabelling of peptides, is oxime formation between a radiofluorinated prosthetic group functionalized with an aldehyde or a ketone, and an amine from the biomolecule (8).…”

Boron–¹⁸F containing positron emission tomography radiotracers: advances and opportunities

“…A widely used and highly chemoselective reaction, which can be carried in aqueous media and is suitable for the radiolabelling of peptides, is oxime formation between a radiofluorinated prosthetic group functionalized with an aldehyde or a ketone, and an amine from the biomolecule (8). A series of [ 18 F]prosthetic groups have been developed for labelling peptides, each one with their strengths and weaknesses in terms of ease of synthesis and reactivity with the target peptide.…”

“…However, most strategies are based on prosthetic groups directed to the amino, thiol or carboxylic acid functional groups present in the peptides (4). A widely used and highly chemoselective reaction, which can be carried in aqueous media and is suitable for the radiolabelling of peptides, is oxime formation between a radiofluorinated prosthetic group functionalized with an aldehyde or a ketone, and an amine from the biomolecule (8).…”

Boron–¹⁸F containing positron emission tomography radiotracers: advances and opportunities

“…) exploits the formation of an oxime, after proper modification of the amino groups of the nanoparticle amino‐dextrane coating. As a source of a radiolabelled aldehyde, we have used the open‐chain tautomer of 2‐[ 18 F]fluoro‐2‐deoxyglucose ( 18 F‐FDG), a commercially available radioactive tracer used in the clinical setting and readily available in any PET Centre.…”

Magnetically driven nanoparticles: ¹⁸FDG‐radiolabelling and positron emission tomography biodistribution study

“…Additionally, it has the highest potential resolution for PET imaging, a low tissue radiation dose and a half life of 109.8 min. This makes it possible for a more complex synthesis with sufficient quantities to be delivered to centres far from its production facility [3].…”

“…Furthermore, the final product usually needs to be purified by HPLC with a low yield. In addition, the reaction between peptide and fluorinated prosthetic group is not selective and a peptide precursor should be protected [7][8][9][10][11][12][13][14][15]. To avoid side reactions, chemoselective reactions, such as oxime and hydrazone bond formation, were introduced.…”

HYNIC a bifunctional prosthetic group for the labelling of peptides with 99mTc and 18FDG