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5-Cyclohexene-1,2,3,4-tetrol,5-(hydroxymethyl)-, (1S,2S,3S,4R)- is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

111136-25-5

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111136-25-5 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 111136-25-5 includes 9 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 6 digits, 1,1,1,1,3 and 6 respectively; the second part has 2 digits, 2 and 5 respectively.
Calculate Digit Verification of CAS Registry Number 111136-25:
(8*1)+(7*1)+(6*1)+(5*1)+(4*3)+(3*6)+(2*2)+(1*5)=65
65 % 10 = 5
So 111136-25-5 is a valid CAS Registry Number.

111136-25-5SDS

SAFETY DATA SHEETS

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

Version: 1.0

Creation Date: Aug 18, 2017

Revision Date: Aug 18, 2017

1.Identification

1.1 GHS Product identifier

Product name (1S,2S,3S,4R)-5-(hydroxymethyl)cyclohex-5-ene-1,2,3,4-tetrol

1.2 Other means of identification

Product number -
Other names Valienol

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:111136-25-5 SDS

111136-25-5Relevant academic research and scientific papers

Total Syntheses of (+)-Gabosine P, (+)-Gabosine Q, (+)-Gabosine E, (-)-Gabosine G, (-)-Gabosine I, (-)-Gabosine K, (+)-Streptol, and (-)-Uvamalol A by a Diversity-Oriented Approach Featuring Tunable Deprotection Manipulation

Yuan, Po,Liu, Xiaojing,Yang, Xing,Zhang, Yanli,Chen, Xiaochuan

, p. 3692 - 3701 (2017)

A new diversity-oriented approach to C7-cyclitols, which possess a broad spectrum of biological activities, is developed. The key polyoxygenated intermediates with different O-protecting groups were accessed by an intramolecular aldol-cyclization of a diketone derived from δ-d-gluconolactone. The versatile intermediates can be easily transformed into structurally different carbasugars based on control of deprotection manipulation. The utility of the robust approach is illustrated by the first syntheses of (+)-gabosines P and Q, as well as the syntheses of several other gabosines and related analogues viz. (+)-gabosine E, (-)-gabosine G, (-)-gabosine I, (-)-gabosine K, (+)-streptol, and (-)-uvamalol A. In addition, the absolute configuration of (-)-uvamalol A is assigned by its total synthesis.

Synthesis and Biological Evaluation of the Novel Growth Inhibitor Streptol Glucoside, Isolated from an Obligate Plant Symbiont

Hsiao, Chien-Chi,Sieber, Simon,Georgiou, Antri,Bailly, Aurélien,Emmanouilidou, Despina,Carlier, Aurélien,Eberl, Leo,Gademann, Karl

, p. 1722 - 1726 (2019/01/14)

The plant Psychotria kirkii hosts an obligatory bacterial symbiont, Candidatus Burkholderia kirkii, in nodules on their leaves. Recently, a glucosylated derivative of (+)-streptol, (+)-streptol glucoside, was isolated from the nodulated leaves and was fou

Glycosyl Cations versus Allylic Cations in Spontaneous and Enzymatic Hydrolysis

Danby, Phillip M.,Withers, Stephen G.

, p. 10629 - 10632 (2017/08/15)

Enzymatic prenyl and glycosyl transfer are seemingly unrelated reactions that yield molecules and protein modifications with disparate biological functions. However, both reactions employ diphosphate-activated donors and each proceed via cationic species: allylic cations and oxocarbenium ions, respectively. In this study, we explore the relationship between these processes by preparing valienyl ethers to serve as glycoside mimics that are capable of allylic rather than oxocarbenium cation stabilization. Rate constants for spontaneous hydrolysis of aryl glycosides and their analogous valienyl ethers were found to be almost identical, as were the corresponding activation enthalpies and entropies. This close similarity extended to the associated secondary kinetic isotope effects (KIEs), indicating very similar transition state stabilities and structures. Screening a library of over 100 β-glucosidases identified a number of enzymes that catalyze hydrolysis of these valienyl ethers with kcat values up to 20 s-1. Detailed analysis of one such enzyme showed that ether hydrolysis occurs via the analogous mechanisms found for glycosides, and through a very similar transition state. This suggests that the generally lower rates of enzymatic cleavage of the cyclitol ethers reflects evolutionary specialization of these enzymes toward glycosides rather than inherent reactivity differences.

Vinylogy in orthoester hydrolysis: Total syntheses of cyclophellitol, valienamine, gabosine K, valienone, gabosine G, 1-epi-streptol, streptol, and uvamalol A

Mondal, Soumik,Prathap, Annamalai,Sureshan, Kana M.

, p. 7690 - 7700 (2013/09/02)

C7-cyclitols represent an important category of natural products possessing a broad spectrum of biological activities. As each member of these compounds is structurally unique, the usual practice is to synthesize them individually from appropriate polyhydroxylated chiral pools. We have observed an unusual vinylogy in acid mediated hydrolysis of enol ethers of myo-inositol 1,3,5-orthoesters giving a synthetically versatile polyhydroxylated cyclohexenal intermediate. We have exploited this unprecedented reaction for developing a general strategy for the rapid and efficient syntheses of several structurally diverse natural products of C7-cyclitol family. We have made an appropriately protected advanced intermediate 25 in five steps from the cheap and commercially available myo-inositol, and this common intermediate has been used to synthesize eight natural products in racemic form. We could synthesize (±)-cyclophellitol in seven steps, (±)-valienamine in five steps, (±)-gabosine I in five steps, (±)-gabosine G in six steps, (±)-gabosine K in three steps, (±)-streptol in six steps, (±)-1-epi-streptol in two steps, and (±)-uvamalol A in five steps from this intermediate.

Carbocyclization of d-glucose: Syntheses of gabosine i and streptol

Shing, Tony K.M.,Chen,Ng, Wai-Lung

, p. 6001 - 6005 (2011/09/19)

d-Glucose was differentially protected with a trans-diacetal at C-2,3, an ethoxymethyl ether at C-4, and a tert-butyldimethylsilyl ether at C-6, and then carbocyclized via a key Horner-Wadsworth-Emmons (HWE) olefination to give a versatile synthetic inter

Short and efficient syntheses of gabosine I, streptol, 7-O-acetylstreptol, 1-epi-streptol, gabosine K, and carba α-d-glucose from δ-d-gluconolactone

Shing, Tony K. M.,Chen,Ng

, p. 1318 - 1320 (2011/08/03)

δ-d-Gluconolactone was carbocyclized into an EOM-protected cyclohexenone in four steps involving perethoxymethylation, phosphonate anion addition, reduction, and oxidation with concomitant Horner-Wadsworth-Emmons alkenation. The stable key enone was effic

De novo synthesis and lectin binding studies of unsaturated carba-pyranoses

Leermann, Timo,Block, Oliver,Podeschwa, Michael A. L.,Pfueller, Uwe,Altenbach, Hans-Josef

experimental part, p. 3965 - 3974 (2010/09/17)

Starting from branched para-benzoquinones a practical and highly flexible route is described for the preparation of unsaturated carbapyranoses. The potential of the synthesized galactose analogues to act as competitive inhibitors in lectin-carbohydrate interactions is investigated by means of Surface Plasmon Resonance (SPR) Spectroscopy.

Sequential Baylis-Hillman/RCM protocol for the stereoselective synthesis of (+)-MK7607 and (+)-streptol

Krishna, Palakodety Radha,Kadiyala, Raghu Ram

scheme or table, p. 2586 - 2588 (2010/07/04)

Sequential Baylis-Hillman/ring-closing metathesis (RCM) approach toward the total synthesis of (+)-MK7607 and (+)-streptol starting from (R,R)-tartaric acid is reported.

Enantioselective total synthesis of polyoxygenated cyclohexanoids: (+)-streptol, ent-RKTS-33 and putative '(+)-parasitenone'. Identity of parasitenone with (+)-epoxydon

Mehta, Goverdhan,Pujar, Shashikant R.,Ramesh, Senaiar S.,Islam, Kabirul

, p. 3373 - 3376 (2007/10/03)

Short, simple and enantioselective syntheses of the natural product (+)-streptol, the non-peptide apoptosis inhibitor ent-RKTS-33 and the putative structure of 'parasitenone' have been accomplished from the readily available chiral building block. 'Parasi

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