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1,2,3,4,6-Penta(O-benzyl)-myo-inositol is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

30694-52-1

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30694-52-1 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 30694-52-1 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 3,0,6,9 and 4 respectively; the second part has 2 digits, 5 and 2 respectively.
Calculate Digit Verification of CAS Registry Number 30694-52:
(7*3)+(6*0)+(5*6)+(4*9)+(3*4)+(2*5)+(1*2)=111
111 % 10 = 1
So 30694-52-1 is a valid CAS Registry Number.

30694-52-1Relevant academic research and scientific papers

Total Synthesis of Phospholipomannan of Candida albicans

Ali, Asif,Gannedi, Veeranjaneyulu,Singh, Parvinder Pal,Vishwakarma, Ram A.

, p. 7757 - 7771 (2020/07/25)

First, total synthesis of the cell surface phospholipomannan anchor [β-Manp-(1 → 2)-β-Manp]n-(1 → 2)-β-Manp-(1 → 2)-α-Manp-1 → P-(O → 6)-α-Manp-(1 → 2)-Inositol-1-P-(O → 1)-phytoceramide of Candida albicans is reported. The target phospholipomannan (PLM) anchor poses synthetic challenges such as the unusual kinetically controlled (1 → 2)-β-oligomannan domain, anomeric phosphodiester, and unique phytoceramide lipid tail linked to the glycan through a phosphate group. The synthesis of PLM anchor was accomplished using a convergent block synthetic approach using three main appropriately protected building blocks: (1 → 2)-β-tetramannan repeats, pseudodisaccharide, and phytoceramide-1-H-phosphonate. The most challenging (1 → 2)-β-tetramannan domain was synthesized in one pot using the preactivation method. The phytoceramide-1-H-phosphonate was synthesized through an enantioselective A3 three-component coupling reaction. Finally, the phytoceramide-1-H-phosphonate moiety was coupled with pseudodisaccharide followed by deacetylation to produce the acceptor, which on subsequent coupling with tetramannosyl-H-phosphonate provided the fully protected PLM anchor. Final deprotection was successfully achieved by Pearlman's hydrogenation.

Inositol to aromatics –benzene free synthesis of poly oxygenated aromatics

Gurale, Bharat P.,Shashidhar, Mysore S.,Sardessai, Richa S.,Gonnade, Rajesh G.

, p. 38 - 44 (2018/03/26)

A method for the preparation of benzene derivatives from myo-inositol, an abundantly available phyto chemical is described. 1,3-Bridged acetals of inososes undergo step-wise elimination leading to the formation of polyoxygenated benzene derivatives. This aromatization reaction proceeds through the intermediacy of a β-alkoxyenone, which could be isolated. This sequence of reactions starting from myo-inositol, provides a novel route for the preparation of polyoxygenated benzene derivatives including polyoxygenated biphenyl. This scheme of synthesis demonstrates the potential of myo-inositol as a sustainable non-petrochemical resource for aromatic compounds.

Intramolecular α-glucosaminidation: Synthesis of mycothiol

Ajayi, Kehinde,Thakur, Vinay V.,Lapo, Robert C.,Knapp, Spencer

supporting information; experimental part, p. 2630 - 2633 (2010/08/22)

A protected cyclitol aglycon was tethered to an (N-arylsulfonyl)glucosamine donor by a methylene linker; the exclusively α-selective intramolecular glycosyation reaction was then initiated by electrophilic activation of the thioglycoside donor portion. Further transformations of the glycosylation product to give the M. tuberculosis detoxifier mycothiol and its oxidized congener, the disulfide mycothione, are detailed.

Relative reactivity of hydroxyl groups in inositol derivatives: role of metal ion chelation

Devaraj, Subramanian,Jagdhane, Rajendra C.,Shashidhar, Mysore S.

experimental part, p. 1159 - 1166 (2009/10/04)

O-Alkylation of myo-inositol derivatives containing more than one hydroxyl group via their alkali metal alkoxides (sodium or lithium) preferentially occurs at a hydroxyl group having a vicinal cis-oxygen atom. In general the observed selectivity is relatively higher for lithium alkoxides than for the corresponding sodium alkoxide. The observed regioselectivity is also dependent on other factors such as the solvent and reaction temperature. A perusal of the results presented in this article as well as those available in the literature suggests that chelation of metal ions by inositol derivatives plays a significant role in the observed regioselectivity. Steric factors associated with the axial or equatorial disposition of the reacting hydroxyl groups do not contribute much to the outcome of these O-alkylation reactions. These results could serve as guidelines in planning synthetic strategies involving other carbohydrates and their derivatives.

A synthesis of dioctanoyl phosphatidylinositol

Elliott, Thomas S.,Nemeth, Joseph,Swain, Simon A.,Conway, Stuart J.

experimental part, p. 2809 - 2813 (2010/03/30)

A synthesis of the naturally occurring enantiomer of phosphatidylinositol is reported. A resolution strategy, using camphor as a chiral auxiliary is employed to obtain the desired, enantiomerically pure, inositol derivative. Dioctanoyl lipid chains are appended to the molecule, which are shorter than the naturally occurring lipid chains, providing the molecule with enhanced water solubility.

Chemical synthesis of all phosphatidylinositol mannoside (PIM) glycans from Mycobacterium tuberculosis

Boonyarattanakalin, Siwarutt,Liu, Xinyu,Michieletti, Mario,Lepenies, Bernd,Seeberger, Peter H.

scheme or table, p. 16791 - 16799 (2009/04/14)

The emergence of multidrug-resistant tuberculosis (TB) and problems with the BCG tuberculosis vaccine to protect humans against TB have prompted investigations into alternative approaches to combat this disease by exploring novel bacterial drug targets and vaccines. Phosphatidylinositol mannosides (PIMs) are biologically important glycoconjugates and represent common essential precursors of more complex mycobacterial cell wall glycolipids including lipomannan (LM), lipoarabinomannan (LAM), and mannan capped lipoarabinomannan (ManLAM). Synthetic PIMs constitute important biochemical tools to elucidate the biosynthesis of this class of molecules, to reveal PIM interactions with host cells, and to investigate the function of PIMs as potential antigens and/or adjuvants for vaccine development. Here, we report the efficient synthesis of all PIMs including phosphatidylinositol (Pl) and phosphatidylinositol mono- to hexa-mannoside (PIM1 to PIM6). Robust synthetic protocols were developed for utilizing bicyclic and tricyclic orthoesters as well as mannosyl phosphates as glycosylating agents. Each synthetic PIM was equipped with a thiol-linker for immobilization on surfaces and carrier proteins for biological and immunological studies. The synthetic PIMs were immobilized on microarray slides to elucidate differences in binding to the dendritic cell specific intercellular adhesion molecule-grabbing nonintegrin (DC-SIGN) receptor. Synthetic PIMs served as immune stimulators during immunization experiments in C57BL/6 mice when coupled to the model antigen keyholelimpet hemocyanin (KLH).

New fluorescent probes reveal that flippase-mediated flip-flop of phosphatidylinositol across the endoplasmic reticulum membrane does not depend on the stereochemistry of the lipid

Vishwakarma, Ram A.,Vehring, Stefanie,Mehta, Anuradha,Sinha, Archana,Pomorski, Thomas,Hermann, Andreas,Menon, Anant K.

, p. 1275 - 1283 (2007/10/03)

Glycerophospholipid flip-flop across biogenic membranes such as the endoplasmic reticulum (ER) is a fundamental feature of membrane biogenesis. Flip-flop requires the activity of specific membrane proteins called flippases. These proteins have yet to be i

Synthesis of anti-tumour phosphatidylinositol analogues from glucose by the use of ring-closing olefin metathesis

Andresen, Thomas L.,Skytte, Dorthe M.,Madsen, Robert

, p. 2951 - 2957 (2007/10/03)

A divergent strategy is described for synthesis of the novel phosphatidylinositols 1-3. The synthetic approach commences from benzyl-protected methyl 6-iodo-6-deoxy-α-D-glucopyranoside, which undergoes zinc-mediated reductive fragmentation followed by vin

Synthesis of 2-deoxy-2-C-alkylglucosides of myo-inositol as possible inhibitors of a N-deacetylase enzyme in the biosynthesis of mycothiol

Gammon, David W.,Hunter, Roger,Steenkamp, Daniel J.,Mudzunga, Theophilus T.

, p. 2045 - 2049 (2007/10/03)

Two new analogues of 1-D-1-O-(2-acetamido-2-deoxy-α-D-glucopyranosyl)-myo-inositol, a biosynthetic intermediate in the production of mycothiol in the Mycobacteria have been synthesized. Both the 2-deoxy-2-C-(2′-hydroxypropyl)-D-glucoside 5, and the 2-deox

Syntheses of penta-O-benzyl-myo-inositols, O-β-L-arabinosyl-(1 → 2)sn-myo-inositol, O-α-D-galactosyl-(1 → 3)-sn-myo-inositol, and O-α-D-galactosyl-(1 → 6)-O-α-D-galactosyl-(1 → 3)-sn-myo-inositol

Koto,Hirooka,Yoshida,Takenaka,Nagamitsu,Sakurai,Zen,Yago,Tomonaga

, p. 2521 - 2529 (2007/10/03)

Two-step conversions of myo-inositol into (±)-2,3,4,5,6- and 1,3,4,5,6-penta-O-benzyl-myo-inositols are described. Starting from these monohydroxy derivatives of myo-inositol, O-β-L-arabinopyranosyl-(1→2)-sn-myo-inositol from Japanese green tea, Camellia sinensis, and O-α-D-galactopyranosyl-(1→3)-sn-myo-inositol (galactinol) as well as its homolog, O-α-D-galactopyranosyl-(1→6(II))-galactinol, were synthesized by way of the in situ activating glycosylation procedure.

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