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HEXESTROL, also known as Synoestrolum, is a brand name for a compound that has the ability to convert from anions to molecules. This unique property makes it versatile and potentially useful in various applications.

5635-50-7

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5635-50-7 Usage

Uses

Used in Bioactive Agent Applications:
HEXESTROL is used as a bioactive agent for its ability to convert from anions to molecules, which can be beneficial in various industries and applications.
Used in Pharmaceutical Industry:
HEXESTROL is used as a pharmaceutical agent for its potential role in the development of new drugs or therapies, thanks to its unique conversion properties.
Used in Chemical Research:
HEXESTROL is used as a research compound for studying the behavior of molecules and anions, which can contribute to the advancement of chemical knowledge and the development of new materials or processes.
Used in Environmental Applications:
HEXESTROL's ability to convert from anions to molecules may also find use in environmental applications, such as water treatment or soil remediation, where its unique properties can be harnessed to address specific challenges.

World Health Organization (WHO)

Hexestrol is a stilbene derivative. See WHO comment for diethylstilbestrol. (Reference: (WHODI) WHO Drug Information, 77.1, 16, 1977)

Purification Methods

Crystallise meso-Hexestero from *benzene or aqueous EtOH (m 185-188o). The meso-dibenzoyl derivative has m 236-237o. The 3RS,4RS(±)-racemate [5776-72-7] crystallises from pet ether, *C6H6/pet ether, Et2O/pet ether, or MeOH/H2O and has m 128-129o . The (±)-dibenzoyl derivative has m 123-124o . The 3R,4R(+)-isomer [26614-21-1] and 3S,4S(-)-isomer [26614-22-2] crystallise from Et2O/pet ether with m 80 -80.5o and have [] D (+) and (-) 17.7o (c 5, EtOH). Their dibenzoyl derivatives have m 116.5o .[Beilstein 6 III 5503, 6 IV 6761.] They have estrogenic activity where optically active forms are more potent and they have antineoplastic activity. [Aboul-Enein et al. Anal Profiles Drug Subst 11 347 1982, J Am Chem Soc 65 4911941.]

Check Digit Verification of cas no

The CAS Registry Mumber 5635-50-7 includes 7 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 4 digits, 5,6,3 and 5 respectively; the second part has 2 digits, 5 and 0 respectively.
Calculate Digit Verification of CAS Registry Number 5635-50:
(6*5)+(5*6)+(4*3)+(3*5)+(2*5)+(1*0)=97
97 % 10 = 7
So 5635-50-7 is a valid CAS Registry Number.
InChI:InChI=1/C18H22O2/c1-3-17(13-5-9-15(19)10-6-13)18(4-2)14-7-11-16(20)12-8-14/h5-12,17-20H,3-4H2,1-2H3/t17-,18+

5635-50-7SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) - Sixth revised edition

Version: 1.0

Creation Date: Aug 17, 2017

Revision Date: Aug 17, 2017

1.Identification

1.1 GHS Product identifier

Product name 4,4'-(1,2-Diethylethylene)Diphenol

1.2 Other means of identification

Product number -
Other names 4,4'-(1,2-Diethylethylene)diphenol

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only.
Uses advised against no data available

1.4 Supplier's details

1.5 Emergency phone number

Emergency phone number -
Service hours Monday to Friday, 9am-5pm (Standard time zone: UTC/GMT +8 hours).

More Details:5635-50-7 SDS

5635-50-7Relevant academic research and scientific papers

Tetrahydrofuran-mediated radical processes: Stereoselective synthesis of d,l-hexestrol

Melikyan, Gagik G.,Sepanian, Steve,Riahi, Bobby,Villena, Ferdinand,Jerome, John,Ahrens, Brian,McClain, Randolph,Matchett, John,Scanlon, Stephanie,Abrenica, Edwin,Paulsen, Kevin,Hardcastle, Kenneth I.

, p. 324 - 330 (2007/10/03)

The highly stereoselective synthesis of d,l-hexestrol (1), an inhibitor of microtubule assembly, is developed by using, as a key step, an intermolecular coupling of Co2(CO)6-complexed propargyl radicals. The latter are generated by novel complementary processes involving an interaction of tetrahydrofuran with Co2 (CO)6-complexed propargyl alcohols and cations. An isomerically pure d,l-μ-η2-[3,4-di(4-methoxyphenyl)-1, 5-hexadiyne]-bis-dicobalthexacarbonyl (d,l-6) is isolated in 69-91% yield with intermolecular coupling reactions exhibiting an excellent chemo-(0.5-7%) and d,l-diastereoselectivity (90-94%). The structure of d,l-6 is determined by X-ray diffraction. The subsequent steps include BBr3-induced demethylation of 4-methoxyaryl groups, demetalation with cerium(IV) ammonium nitrate, and hydrogenation of acetylenic termini affording d,l-hexestrol (1).

Estrogen receptor-β potency-selective ligands: Structure-activity relationship studies of diarylpropionitriles and their acetylene and polar analogues

Meyers,Sun,Carlson,Marriner,Katzenellenbogen,Katzenellenbogen

, p. 4230 - 4251 (2007/10/03)

Through an effort to develop novel ligands that have subtype selectivity for the estrogen receptors alpha (ERα) and beta (ERβ), we have found that 2,3-bis(hydroxyphenyl)propionitrile (DPN) acts as an agonist on both ER subtypes, but has a 70-fold higher relative binding affinity and 170-fold higher relative potency in transcription assays with ERβ than with ERα. To investigate the ERβ affinity- and potency-selective character of this DPN further, we prepared a series of DPN analogues in which both the ligand core and the aromatic rings were modified by the repositioning of phenolic hydroxy groups and by the addition of alkyl substituents and nitrile groups. We also prepared other series of DPN analogues in which the nitrile functionality was replaced with acetylene groups or polar functions, to mimic the linear geometry or polarity of the nitrile, respectively. To varying degrees, all of the analogues show preferential binding affinity for ERβ (i.e., they are ERβ affinity-selective), and many, but not all of them, are also more potent in activating transcription through ERβ than through ERα (i.e., they are ERβ potency-selective). meso-2,3-Bis(4-hydroxyphenyl)succinonitrile and dl-2,3-bis(4-hydroxyphenyl)succinonitrile are among the highest ERβ affinity-selective ligands, and they have an ERβ potency selectivity that is equivalent to that of DPN. The acetylene analogues have higher binding affinities but somewhat lower selectivities than their nitrile counterparts. The polar analogues have lower affinities, and only the fluorinated polar analogues have substantial affinity selectivities. This study suggests that, in this series of ligands, the nitrile functionality is critical to ERβ selectivity because it provides the optimal combination of linear geometry and polarity. Furthermore, the addition of a second nitrile group β to the nitrile in DPN or the addition of a methyl substitutent at an ortho position on the β-aromatic ring increases the affinity and selectivity of these compounds for ERβ. These ERβ-selective compounds may prove to be valuable tools in understanding the differences in structure and biological function of ERα and ERβ.

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