Part I: Total Syntheses of Novel Oxidatively-truncated Phosphatidylserines Part II: A Nonenzymatic Route to Lysophosphatidylcholine: Spontaneous Deacylation of Oxidatively Damaged Phospholipids

Choi, Jaewoo

30 July 2010

No description available.

Chemistry

Phosphatidylserines

lysophosphatidylcholine

nonenzymatic spontaneous deacylation

Structural Analyses of Lipid A from Burkholderia pseudomallei and Burkholderia thailandensis by Mass Spectrometry

Alla, Ravi Chandran Reddy

January 2015

No description available.

Chemistry

Regioselective Synthesis of Cellulose Esters

Zheng, Xueyan

14 July 2014

Cellulose is an extraordinarily abundant polymer that can be harvested and purified from trees and other renewable sources. Cellulose derivatives have been widely used as coatings, optical films, fibers, molded objects, and matrices for controlled release. The properties of cellulose derivatives are not only affected by the degree of substitution, but also by the position of substitution. In order to establish the structure-property relationships of cellulose derivatives, it is of great importance to impart regioselectivity into functionalized cellulose. However, regioselective substitution of cellulose is extremely challenging, especially in the synthesis of regioselectively functionalized cellulose esters due to the unstable ester bond under aqueous alkaline or acid conditions. In this dissertation, the main objective is to search for new tools to synthesize regioselectively substituted cellulose esters, to understand how structural changes impact properties and performance, and thus to design cellulose derivatives delivering high performance. Several strategies for regioselective preparation of cellulose esters are discussed in detail. The obtained regioselective cellulose esters were fully characterized analytically. / Ph. D.

Cellulose

regioselectivity

protection

deprotection

deacylation

mechanism

Side chain removal from corticosteroids by unspecific peroxygenase

Ullrich, René, Hofrichter, Martin, Poraj-Kobielska, Marzena, Pecyna, Marek, Scheibner, Katrin, Scholze, Steffi, Sandvoss, Martin, Halbout, Claire

07 June 2018

Two unspecific peroxygenases (UPO, EC 1.11.2.1) from the basidiomycetous fungi Marasmius rotula and Marasmius wettsteinii oxidized steroids with hydroxyacetyl and hydroxyl functionalities at C17 - such as cortisone, Reichstein's substance S and prednisone - via stepwise oxygenation and final fission of the side chain. The sequential oxidation started with the hydroxylation of the terminal carbon (C21) leading to a stable geminal alcohol (e.g. cortisone 21-gem-diol) and proceeded via a second oxygenation resulting in the corresponding α-ketocarboxylic acid (e.g. cortisone 21-oic acid). The latter decomposed under formation of adrenosterone (4-androstene-3,11,17-trione) as well as formic acid and carbonic acid (that is in equilibrium with carbon dioxide); fission products comprising two carbon atoms such as glycolic acid or glyoxylic acid were not detected. Protein models based on the crystal structure data of MroUPO (Marasmius rotula unspecific peroxygenase) revealed that the bulky cortisone molecule suitably fits into the enzyme's access channel, which enables the heme iron to come in close contact to the carbons (C21, C20) of the steroidal side chain. ICP-MS analysis of purified MroUPO confirmed the presence of magnesium supposedly stabilizing the porphyrin ring system.

Peroxygenierung

Peroxide shunt

P450

Häm-Thiolat

Deacylierung

Geminaler Alkohol

Peroxygenation

Peroxide shunt

P450

Heme-thiolate

Deacylation

Geminal alcohol

ddc:540

ddc:570

rvk:VA 1120

rvk:VA 5310

Side chain removal from corticosteroids by unspecific peroxygenase

Ullrich, René, Hofrichter, Martin, Poraj-Kobielska, Marzena, Pecyna, Marek, Scheibner, Katrin, Scholze, Steffi, Sandvoss, Martin, Halbout, Claire

07 June 2018

Two unspecific peroxygenases (UPO, EC 1.11.2.1) from the basidiomycetous fungi Marasmius rotula and Marasmius wettsteinii oxidized steroids with hydroxyacetyl and hydroxyl functionalities at C17 - such as cortisone, Reichstein's substance S and prednisone - via stepwise oxygenation and final fission of the side chain. The sequential oxidation started with the hydroxylation of the terminal carbon (C21) leading to a stable geminal alcohol (e.g. cortisone 21-gem-diol) and proceeded via a second oxygenation resulting in the corresponding α-ketocarboxylic acid (e.g. cortisone 21-oic acid). The latter decomposed under formation of adrenosterone (4-androstene-3,11,17-trione) as well as formic acid and carbonic acid (that is in equilibrium with carbon dioxide); fission products comprising two carbon atoms such as glycolic acid or glyoxylic acid were not detected. Protein models based on the crystal structure data of MroUPO (Marasmius rotula unspecific peroxygenase) revealed that the bulky cortisone molecule suitably fits into the enzyme's access channel, which enables the heme iron to come in close contact to the carbons (C21, C20) of the steroidal side chain. ICP-MS analysis of purified MroUPO confirmed the presence of magnesium supposedly stabilizing the porphyrin ring system.

info:eu-repo/classification/ddc/540

ddc:540

info:eu-repo/classification/ddc/570

ddc:570