Biotin-TAT (47-57)
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Biotin-TAT (47-57)

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Biotin-TAT (47-57) is a biotinylated cell penetrating cationic peptide derived from the N-terminus of the TAT (Transactivated-transcripiton) protein, which is a trans-activator of the transcription protein present in the human immunodeficiency virus (HIV). It has the ability to transduce peptides or proteins into various cells.

Category
Functional Peptides
Catalog number
BAT-013282
CAS number
1231898-25-1
Molecular Formula
C74H132N34O16S
Molecular Weight
1786.12
Synonyms
Biotin-Tyr-Gly-Arg-Lys-Lys-Arg-Arg-Gln-Arg-Arg-Arg-OH
Appearance
Lyophilized Solid
Purity
≥95%
Sequence
Biotin-YGRKKRRQRRR
Storage
Store at -20°C
Solubility
Soluble in Water
1. Deferasirox-TAT(47-57) peptide conjugate as a water soluble, bifunctional iron chelator with potential use in neuromedicine
Dibakar Goswami, Hector A Vitorino, Roxana Y P Alta, Daniel M Silvestre, Cassiana S Nomura, M Teresa Machini, Breno P Espósito Biometals. 2015 Oct;28(5):869-77. doi: 10.1007/s10534-015-9873-5. Epub 2015 Jul 12.
Deferasirox (DFX), an orally active and clinically approved iron chelator, is being used extensively for the treatment of iron overload. However, its water insolubility makes it cumbersome for practical use. In addition to this, the low efficacy of DFX to remove brain iron prompted us to synthesize and evaluate a DFX-TAT(47-57) peptide conjugate for its iron chelation properties and permeability across RBE4 cell line, an in vitro model of the blood-brain barrier. The water-soluble conjugate was able to remove labile iron from buffered solution as well as from iron overloaded sera, and the permeability of DFX-TAT(47-57) conjugate into RBE4 cells was not affected compared to parent deferasirox. The iron bound conjugate was also able to translocate through the cell membrane.
2. Fluorescent and Photosensitizing Conjugates of Cell-Penetrating Peptide TAT(47-57): Design, Microwave-Assisted Synthesis at 60 °C, and Properties
Nancy M Okuda-Shinagawa, Yulia E Moskalenko, Helena C Junqueira, Maurício S Baptista, Carlos M Marques, M Terêsa Machini ACS Omega. 2017 Nov 30;2(11):8156-8166. doi: 10.1021/acsomega.7b01127. Epub 2017 Nov 20.
Conjugates based on cell-penetrating peptides (CPPs) are scientifically relevant owing to their structural complexity; their ability to enter cells and deliver drugs, labels, antioxidants, bioactive compounds, or DNA fragments; and, consequently, their potential for application in research and biomedicine. In this study, carboxyamidated fluorescently labeled conjugates FAM-GG-TAT(47-57)-NH2 and FAM-PEG6-TAT(47-57)-NH2 and photosensitizer-labeled conjugate Chk-PEG6-TAT(47-57)-NH2 [where TAT(47-57) is the CPP, 5(6)-carboxyfluorescein is the (FAM) fluorophore, chlorin k (Chk) is the photosensitizer, and the dipeptide glycyl-glycine (GG) or hexaethylene glycol (PEG6) is the spacer] were originally designed, prepared, and fully characterized. Practically, all chemical reactions of the synthetic steps (peptide synthesis, spacer incorporation, and conjugation) were microwave-assisted at 60 °C using optimized protocols to give satisfying yields and high-quality products. Detailed analyses of the conjugates using spectrofluorimetry and singlet oxygen detection showed that they display photophysical properties typical of FAM or Chk. Anticandidal activity assays showed that not only this basic property of TAT(47-57) was preserved in the conjugates but also that the minimal inhibitory concentration was slightly reduced for cells incubated with PS-bearing conjugate Chk-PEG6-TAT(47-57)-NH2. Overall, these results indicated that the synthetic approach on-resin assisted by microwaves at 60 °C is simple, straightforward, selective, metal-free, sufficiently fast, cleaner, and more cost-effective than those previously used for preparing this type of macromolecule. Furthermore, such new data show that microwaves at 60 °C and/or conjugation did not harm the integrity of the conjugates' constituents. Therefore, FAM-GG-TAT(47-57)-NH2, FAM-PEG6-TAT(47-57)-NH2, and Chk-PEG6-TAT(47-57)-NH2 have high potential for practical applications in biochemistry, biophysics, and therapeutics.
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