Chelate Peptides (DOTA related peptides)

* Please kindly note that our products and services can only be used to support research purposes (Not for clinical use).

Online Inquiry

Cat. #Product nameCAS No.Price
M34140617HDOTA60239-18-1Inquiry
M34140618HDOTAEt137076-50-7Inquiry
M34140620HDOTA-Ubiquicidin (29-41) acetateN/AInquiry
M34140622HDOTATOC204318-14-9Inquiry
M34140623HGa-DOTA-TOC acetate293295-70-2Inquiry
M34140624HY-DOTA-TOC293295-66-6Inquiry
M34140625HLu-DOTA-TOC321835-55-6Inquiry
M34140626HDOTA-NOC acetate619300-53-7Inquiry
M34140628HDOTA-bombesin (1-14)593287-40-2Inquiry
M34140629HGa-DOTA-NOC1027785-95-0Inquiry
M34140643HDOTA-Lanreotide acetate213187-44-1Inquiry
M34140645HDOTA-NAPamide trifluoroacetate935886-72-9Inquiry
M34140646HDOTA-SargastrinN/AInquiry
M34140649HDOTA-cyclo(RGDfK) acetate909024-55-1Inquiry
R1831DOTA-(Tyr3)-Octreotate177943-89-4Inquiry

Peptide-based targeting vectors are becoming increasingly popular for diagnostic and therapeutic applications. They offer several advantages over antibodies including more favorable pharmacokinetics and better tumor penetration. Peptide sequences that are capable of binding to their target with affinities comparable to those of monoclonal antibodies can be generated by chemical or phage display libraries. Affinity selection of random phage display peptide libraries is a very powerful way of identifying novel targeting sequences for a receptor from billions of peptides.

Among many ligands, the macrocyclic 1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid (DOTA) stands out, as it forms complexes with Ln(III) ions with extraordinary thermodynamic stability and kinetic inertness. It should be emphasized that DOTA complexes are significantly more inert kinetically than chelates of DTPA, and although both DOTA and DTPA complexes have been used as imaging agents and radiopharmaceuticals, DTPA complexes have been shown to dissociate and release metal under physiological conditions. This may not be of concern in the case of an MRI exam with Gd-DTPA when clearance of the contrast agent is rapid, but for targeted radiopharmaceutical applications, when the clearance of the complex is slow, DOTA and not DTPA should be the ligand of choice.

The DOTATOC for scanningThe DOTATOC for scanning

DOTA is an organic compound and commonly used as a complexing agent, which has been widely used as contrast agent for cancer treatments. It can also be linked to molecules that have affinity to various structures (e.g. somatostatin receptors on neuroendocrine tumours). The generated compounds may combine with a number of radioisotopes to be used in cancer therapy and diagnosis. Complexes of DOTA peptides, depending on the metal ion, have found applications in three major areas: magnetic resonance imaging [GdIII), Eu(III)], nuclear imaging [111In(III), 68Ga(III), 64/67Cu(II)], and therapeutic radiopharmaceuticals [90Y(III), 177Lu(III)].

For example, DOTA could act as a chelator for a radionuclide. (Tyr3)-octreotate, a derivative of octreotide, can bind to somatostatin receptors that are found on the cell surfaces of a number of neuroendocrine tumours. Therefore, DOTA-(Tyr3)-Octreotate is able to direct the radioactivity into the tumour.

For customized DOTA peptides please visit our Peptides-Metal Chelates Conjugation page.

* Please kindly note that our products and services can only be used to support research purposes (Not for clinical use).
Customer Support & Price Inquiry

Creative Peptides has accumulated a huge library of peptide knowledge including frontier peptide articles, application of peptides, useful tools, and more!

  ProTx II, a 30-amino acid, disulfide-rich peptide toxin, isolated from the venom of the tarantula, Thrixopelma ...

 Leuprolide acetate, an acetate salt with similar structure to luteinizing hormone-releasing hormone (LHRH) secre ...

 Somatostatin is the main hemostatic drug in the clinic, and its derivative octreotide has been confirmed by many ...

 Studies on the binding affinities of darifenacin hydrobromide and human muscarinic receptor subtypes show strong ...

Insulin was discovered by Banting and Best in 1921. Soon afterwards manufacturing processes were developed to extract the ins ...

Quick Inquiry
×
Contact Us

USA

Address:

Tel: |

Email:

Germany

Address:

Copyright © 2024 Creative Peptides. All rights reserved.