Date published: 2025-10-31

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Fmoc-D-Asp(OtBu)-OH (CAS 112883-39-3)

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Alternate Names:
Fmoc-D-aspartic acid beta-tert-butyl ester; N-(fluorenylmethoxycarbonyl)-O4-tert-butyl-D-aspartic acid
CAS Number:
112883-39-3
Molecular Weight:
411.45
Molecular Formula:
C23H25NO6
Supplemental Information:
This is classified as a Dangerous Good for transport and may be subject to additional shipping charges.
For Research Use Only. Not Intended for Diagnostic or Therapeutic Use.
* Refer to Certificate of Analysis for lot specific data.

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The Kinesin family of proteins comprises a diverse group of molecular motor proteins responsible for intracellular transport along microtubules, essential for various cellular processes. Members of this family share structural and functional similarities, characterized by a conserved motor domain containing ATPase activity and a coiled-coil tail region that interacts with cargo molecules. Kinesins are found in eukaryotic cells, and their primary role is to move organelles, protein complexes, and other cargo to specific destinations within the cell. One of the defining features of kinesin family members is their ability to function as microtubule motors. Microtubules are dynamic cytoskeletal filaments made of tubulin subunits, and kinesins interact with them to transport cargo. Kinesins are typically homodimeric proteins, where two identical motor domains are coupled through their tail regions. These motor domains hydrolyze ATP to generate mechanical force, allowing kinesins to walk along microtubules by converting chemical energy into mechanical work. Members of the kinesin family are involved in a wide range of intracellular processes, including the transport of organelles such as mitochondria, endoplasmic reticulum, and vesicles carrying cargo like neurotransmitters or proteins. Kinesins often function as part of multisubunit complexes, which include accessory proteins or adaptors that link kinesins to specific cargoes. KIF (Kinesin family) Inhibitors typically function by disrupting ATPase activity of Kinesins, and may exhibit broader activity against multiple Kinesin family members. Researchers utilize Kinesin inhibitors to dissect the roles of Kinesin motors in processes such as cell division, axonal transport, and organelle trafficking, shedding light on the intricate mechanisms that underlie these vital cellular functions.


Fmoc-D-Asp(OtBu)-OH (CAS 112883-39-3) References

  1. Differentiating alpha- and beta-aspartic acids by electrospray ionization and low-energy tandem mass spectrometry.  |  González, LJ., et al. 2000. Rapid Commun Mass Spectrom. 14: 2092-102. PMID: 11114015
  2. Isoaspartate formation at position 23 of amyloid beta peptide enhanced fibril formation and deposited onto senile plaques and vascular amyloids in Alzheimer's disease.  |  Shimizu, T., et al. 2002. J Neurosci Res. 70: 451-61. PMID: 12391606
  3. Synthesis of various 3-substituted 1,2,4-oxadiazole-containing chiral beta 3- and alpha-amino acids from Fmoc-protected aspartic acid.  |  Hamzé, A., et al. 2003. J Org Chem. 68: 7316-21. PMID: 12968881
  4. Differentiation and semiquantitative analysis of an isoaspartic acid in human alpha-Crystallin by postsource decay in a curved field reflectron.  |  Yamazaki, Y., et al. 2010. Anal Chem. 82: 6384-94. PMID: 20669993
  5. The effect of surface charge on in vivo biodistribution of PEG-oligocholic acid based micellar nanoparticles.  |  Xiao, K., et al. 2011. Biomaterials. 32: 3435-46. PMID: 21295849
  6. Determination of rate constants for β-linkage isomerization of three specific aspartyl residues in recombinant human αA-crystallin protein by reversed-phase HPLC.  |  Sadakane, Y., et al. 2011. J Chromatogr B Analyt Technol Biomed Life Sci. 879: 3240-6. PMID: 21470922
  7. Simultaneous stereoinversion and isomerization at the Asp-4 residue in βB2-crystallin from the aged human eye lenses.  |  Fujii, N., et al. 2011. Biochemistry. 50: 8628-35. PMID: 21877723
  8. Kinetics of isomerization and inversion of aspartate 58 of αA-crystallin peptide mimics under physiological conditions.  |  Aki, K., et al. 2013. PLoS One. 8: e58515. PMID: 23505525
  9. Self-assembling nanoparticles containing dexamethasone as a novel therapy in allergic airways inflammation.  |  Kenyon, NJ., et al. 2013. PLoS One. 8: e77730. PMID: 24204939
  10. Total synthesis of Polydiscamides B, C, and D via a convergent native chemical ligation-oxidation strategy.  |  Santhakumar, G. and Payne, RJ. 2014. Org Lett. 16: 4500-3. PMID: 25105901
  11. Isomeric Replacement of a Single Aspartic Acid Induces a Marked Change in Protein Function: The Example of Ribonuclease A.  |  Sakaue, H., et al. 2017. ACS Omega. 2: 260-267. PMID: 31457226
  12. Synthetic Studies with Bacitracin A and Preparation of Analogues Containing Alternative Zinc Binding Groups.  |  Buijs, N., et al. 2022. Chembiochem. 23: e202200547. PMID: 36287040
  13. Racemization: its biological significance on neuropathogenesis of Alzheimer's disease.  |  Mori, H., et al. 1994. Tohoku J Exp Med. 174: 251-62. PMID: 7761990
  14. A Laboratory Preparation of Aspartame Analogs Using Simultaneous Multiple Parallel Synthesis Methodology  |  Nir Qvit, Yaniv Barda, Chaim Gilon, and Deborah E. Shalev. 2007. J. Chem. Educ. 74.

Ordering Information

Product NameCatalog #UNITPriceQtyFAVORITES

Fmoc-D-Asp(OtBu)-OH, 1 g

sc-300734
1 g
$70.00

Fmoc-D-Asp(OtBu)-OH, 5 g

sc-300734A
5 g
$250.00