Palmarumycin C3-58-quinone

Product Code: BVT-0066

Product Group: Natural Products and Extracts

Code	Size	Price

BVT-0066-M001

1 mg

£150.00

Quantity:

BVT-0066-M005

5 mg

£490.00

Quantity:

Prices exclude any Taxes / VAT

Overview

Regulatory Status: RUO

Shipping:

Ambient

Storage:

+4°C

Images

1 / 1

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Documents

Further Information

Appearance:

Purple solid.

EClass:

32160000

Form (Short):

solid

GHS Symbol:

GHS07

Hazards:

H302, H312, H319

InChi:

InChI=1S/C20H10O6/c21-10-7-8-11(22)16-15(10)17(23)18-19(24-18)20(16)25-12-5-1-3-9-4-2-6-13(26-20)14(9)12/h1-8,18-19H/t18-,19-/m1/s1

InChiKey:

OJAVNHSKBHEAOA-RTBURBONSA-N

Long Description:

Chemical. Formula: C20H10O6. MW: 346.3. Derivative from Palmarumycin C3 (Prod. No. BVT-0078 http://www.adipogen.com/bvt-0078/palmarumycin-c3.html ). Spirobisnaphthalene derivative (unpublished). Oxidation product of palmarumycin C3. This compound has not yet been thoroughly tested for its biological activity.

Molecular Formula:

C20H10O6

Molecular Weight:

346.3

Package Type:

Plastic Vial

Precautions:

P270, P280, P301, P312, P302, P352, P312

Product Description:

Spirobisnaphthalene derivative (unpublished). Oxidation product of palmarumycin C3. This compound has not yet been thoroughly tested for its biological activity.

Purity:

>96% (TLC; 1H-NMR)

Signal Word:

Warning

SMILES:

O=C1C=CC(=O)C2=C1C(=O)[C@H]1O[C@H]1C21OC2=CC=CC3=CC=CC(O1)=C23

Solubility Chemicals:

Soluble in DMSO, chloroform and dichlormethane. Decomposable with acid. Unstable against bases and acids in solution.

Source / Host:

Derivative from Palmarumycin C3.

Transportation:

Non-hazardous

UNSPSC Category:

Natural Products/Extracts

UNSPSC Number:

12352200

Use & Stability:

Stable for at least 1 year after receipt when stored at -20°C. After reconstitution protect from light at -20°C.

References

Natural products derived from naphthalenoid precursors by oxidative dimerization: K. Krohn; Prog. Chem. Org. Nat. Prod. 85, 1 (2003) (Review) | Neue Spirobisnaphthalene aus dem Pilz F24`707 durch Variation der Kultivierungsbedingungen: H.B. Bode; University of Göttingen (Germany), Diploma Thesis (1997)