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Stable Isotope Labeled Peptides
Crefu Peptides is committed to the highest quality of stable isotope labeled peptides manufacturing. Stable isotope labeled peptides is developed as a useful tools for quantitative peptide analysis or protein structure and dynamics determination by mass spectrometry (MS) or nuclear magnetic resonance (NMR) spectroscopy due to they have known molecular weight difference.
Crefu Peptides is committed to the highest quality of stable isotope labeled peptides manufacturing. Stable isotope labeled peptides is developed as a useful tools for quantitative peptide analysis or protein structure and dynamics determination by mass spectrometry (MS) or nuclear magnetic resonance (NMR) spectroscopy due to they have known molecular weight difference.
Label Options
2H (deuterium)
15N
13C
15N and 13C combinations
Below lists is the most common stable isotopically labeled amino acids that can be used for the synthesis of peptides with stable isotopes containing carbon 13 (13C), Nitrogen 15 (15N) and Deuterium (2H). Other labeled amino acids are available upon request.
2H (deuterium)
15N
13C
15N and 13C combinations
Below lists is the most common stable isotopically labeled amino acids that can be used for the synthesis of peptides with stable isotopes containing carbon 13 (13C), Nitrogen 15 (15N) and Deuterium (2H). Other labeled amino acids are available upon request.
| Amino Acid | Code | Isotope | Mass Difference | Isotopic enrichment |
| Alanine | Ala(A) | U- 13C3, U-15N | +4 Da | >99% |
| Arginine | Arg(R) | U- 13C6, U-15N4 | +10 Da | >99% |
| Isoleucine | Ile(I) | U- 13C6, U-15N | +7Da | >99% |
| Leucine |
Leu(L) |
U- 13C6, U-15N | +7 Da | >99% |
| Lysine | Lys(K) | U- 13C6, U-15N2 | +8 Da | >99% |
| Phenylalanine | Phe(F) | U- 13C9, U-15N | +10 Da | >99% |
|
Proline |
Pro(P) | U- 13C5, U-15N | +6 Da | >99% |
| Valine | Val(V) | U- 13C5, U-15N | +6 Da | >99% |
Characteristic Features
Design of your peptide with the expected mass difference by choosing the plural stable isotope-labeled amino acids
Easy and efficient quantification of the natural peptide by MSA
Isotope is not radioactive
Isotope is not radioactive
Possible assorted modifications such as disulfide bond formation
Direct analysis of samples from the living body without any prior treatments
Direct analysis of samples from the living body without any prior treatments
