Fmoc-Hyp(tBu)-OH

CAS# 122996-47-8

Fmoc-Hyp(tBu)-OH

2D Structure

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3D structure

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Fmoc-Hyp(tBu)-OH

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Chemical Properties of Fmoc-Hyp(tBu)-OH

Cas No. 122996-47-8 SDF Download SDF
PubChem ID 978347 Appearance Powder
Formula C24H27NO5 M.Wt 409.5
Type of Compound N/A Storage Desiccate at -20°C
Solubility Soluble in Chloroform,Dichloromethane,Ethyl Acetate,DMSO,Acetone,etc.
Chemical Name (2S,4R)-1-(9H-fluoren-9-ylmethoxycarbonyl)-4-[(2-methylpropan-2-yl)oxy]pyrrolidine-2-carboxylic acid
SMILES CC(C)(C)OC1CC(N(C1)C(=O)OCC2C3=CC=CC=C3C4=CC=CC=C24)C(=O)O
Standard InChIKey WPBXBYOKQUEIDW-VFNWGFHPSA-N
Standard InChI InChI=1S/C24H27NO5/c1-24(2,3)30-15-12-21(22(26)27)25(13-15)23(28)29-14-20-18-10-6-4-8-16(18)17-9-5-7-11-19(17)20/h4-11,15,20-21H,12-14H2,1-3H3,(H,26,27)/t15-,21+/m1/s1
General tips For obtaining a higher solubility , please warm the tube at 37 ℃ and shake it in the ultrasonic bath for a while.Stock solution can be stored below -20℃ for several months.
We recommend that you prepare and use the solution on the same day. However, if the test schedule requires, the stock solutions can be prepared in advance, and the stock solution must be sealed and stored below -20℃. In general, the stock solution can be kept for several months.
Before use, we recommend that you leave the vial at room temperature for at least an hour before opening it.
About Packaging 1. The packaging of the product may be reversed during transportation, cause the high purity compounds to adhere to the neck or cap of the vial.Take the vail out of its packaging and shake gently until the compounds fall to the bottom of the vial.
2. For liquid products, please centrifuge at 500xg to gather the liquid to the bottom of the vial.
3. Try to avoid loss or contamination during the experiment.
Shipping Condition Packaging according to customer requirements(5mg, 10mg, 20mg and more). Ship via FedEx, DHL, UPS, EMS or other couriers with RT, or blue ice upon request.

Fmoc-Hyp(tBu)-OH Dilution Calculator

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Preparing Stock Solutions of Fmoc-Hyp(tBu)-OH

1 mg 5 mg 10 mg 20 mg 25 mg
1 mM 2.442 mL 12.21 mL 24.42 mL 48.84 mL 61.0501 mL
5 mM 0.4884 mL 2.442 mL 4.884 mL 9.768 mL 12.21 mL
10 mM 0.2442 mL 1.221 mL 2.442 mL 4.884 mL 6.105 mL
50 mM 0.0488 mL 0.2442 mL 0.4884 mL 0.9768 mL 1.221 mL
100 mM 0.0244 mL 0.1221 mL 0.2442 mL 0.4884 mL 0.6105 mL
* Note: If you are in the process of experiment, it's necessary to make the dilution ratios of the samples. The dilution data above is only for reference. Normally, it's can get a better solubility within lower of Concentrations.

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References on Fmoc-Hyp(tBu)-OH

A 'conovenomic' analysis of the milked venom from the mollusk-hunting cone snail Conus textile--the pharmacological importance of post-translational modifications.[Pubmed:24055806]

Peptides. 2013 Nov;49:145-58.

Cone snail venoms provide a largely untapped source of novel peptide drug leads. To enhance the discovery phase, a detailed comparative proteomic analysis was undertaken on milked venom from the mollusk-hunting cone snail, Conus textile, from three different geographic locations (Hawai'i, American Samoa and Australia's Great Barrier Reef). A novel milked venom conopeptide rich in post-translational modifications was discovered, characterized and named alpha-conotoxin TxIC. We assign this conopeptide to the 4/7 alpha-conotoxin family based on the peptide's sequence homology and cDNA pre-propeptide alignment. Pharmacologically, alpha-conotoxin TxIC demonstrates minimal activity on human acetylcholine receptor models (100 muM, <5% inhibition), compared to its high paralytic potency in invertebrates, PD50 = 34.2 nMol kg(-1). The non-post-translationally modified form, [Pro](2,8)[Glu](16)alpha-conotoxin TxIC, demonstrates differential selectivity for the alpha3beta2 isoform of the nicotinic acetylcholine receptor with maximal inhibition of 96% and an observed IC50 of 5.4 +/- 0.5 muM. Interestingly its comparative PD50 (3.6 muMol kg(-1)) in invertebrates was ~100 fold more than that of the native peptide. Differentiating alpha-conotoxin TxIC from other alpha-conotoxins is the high degree of post-translational modification (44% of residues). This includes the incorporation of gamma-carboxyglutamic acid, two moieties of 4-trans hydroxyproline, two disulfide bond linkages, and C-terminal amidation. These findings expand upon the known chemical diversity of alpha-conotoxins and illustrate a potential driver of toxin phyla-selectivity within Conus.

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