Project description:The title mol-ecule, C(12)H(8)N(2)O(4), lies on an inversion center. In the crystal structure, inter-molecular O-H⋯O hydrogen bonds connect mol-ecules into one-dimensional chains along [11].

Project description:In the title compound, C(16)H(12)Br(2)O(6)·C(2)H(5)OH, the two benzene rings are twisted by 80.64?(5)° and the carboxyl groups form dihedral angles of 72.48?(3) and 89.41?(2)° with the corresponding benzene rings. In the crystal structure, the biphenyl mol-ecules are connected by inter-molecular O-H?O and O-H?Br hydrogen bonds, resulting in a chain along the b axis.

Project description:Background2-Pyrone-4,6-dicarboxylic acid (PDC), a chemically stable pseudoaromatic dicarboxylic acid, represents a promising building block for the manufacture of biodegradable polyesters. Microbial production of PDC has been extensively investigated, but low titers and yields have limited industrial applications.ResultsIn this study, a multi-step biosynthesis strategy for the microbial production of PDC was demonstrated using engineered Escherichia coli whole-cell biocatalysts. The PDC biosynthetic pathway was first divided into three synthetic modules, namely the 3-dehydroshikimic acid (DHS) module, the protocatechuic acid (PCA) module and the PDC module. Several effective enzymes, including 3-dehydroshikimate dehydratase for the PCA module as well as protocatechuate 4,5-dioxygenase and 4-carboxy-2-hydroxymuconate-6-semialdehyde dehydrogenase for the PDC module were isolated and characterized. Then, the highly efficient whole-cell bioconversion systems for producing PCA and PDC were constructed and optimized, respectively. Finally, the efficient multi-step biosynthesis of PDC from glucose was achieved by smoothly integrating the above three biosynthetic modules, resulting in a final titer of 49.18 g/L with an overall 27.2% molar yield, which represented the highest titer for PDC production from glucose reported to date.ConclusionsThis study lays the foundation for the microbial production of PDC, including one-step de novo biosynthesis from glucose as well as the microbial transformation of monoaromatics.

Project description:Homogenized rat livers were extracted with organic solvents and the extracts converted into more readily volatile derivatives (trimethylsilylmethyl esters and permethyl esters). Combined g.l.c.-mass-spectrometric analysis identified the presence of tetraiodothyroformate. It is postulated that mitochondrial beta-oxidation of tetraiodothyropyruvate results in the formation of this apparently undescribed metabolite.

Project description:The mol-ecular structure of 5,5'-bis(-hydroxy-methyl)-3,3'-biisoxazole, C8H8N2O4 (1), is composed of two trans planar isoxazole rings [r.m.s deviation = 0.006 (1) Å], each connected with a methyl hydroxyl group. Similarly, the structure of 4,4',5,5'-tetrakis-(hydroxy-methyl)-3,3'-biisoxazole, C10H12N2O6 (2), is composed of two planar isoxazole rings [r.m.s. deviation = 0.002 (1) Å], but with four hydroxymethyl groups as substituents. Both mol-ecules sit on a center of inversion, thus Z' = 0.5. The crystal structures are stabilized by networks of O-H⋯N [for (1)] and O-H⋯O hydrogen-bonding inter-actions [for (2)], giving rise to corrugated supra-molecular planes. The isoxazole rings are packed in a slip-stacked fashion, with centroid-to-centroid distances of 4.0652 (1) Å for (1) (along the b-axis direction) and of 4.5379 (Å) for (2) (along the a-axis direction).

Project description:The title compound, C(12)H(6)N(4)O(8), is a biphenyl system that was synthesized as a building block for a new series of anti-malarial compounds. The aromatic rings are oriented at a dihedral angle of 45.5?(2)°, and inter-molecular short O?O contacts form a chain along the b axis. The strength of the inter-actions involved in this chain cause one of the rings to be slightly distorted, with the torsion angle between the nitro groups being 23.4?(2)°, whereas, in the other ring, both nitro systems are parallel, forming an angle of 9.6?(2)° with the plane of the aromatic ring to which they are bound. Furthermore, the three ring C atoms around the ring-ring linkage belong to a plane inclined by 4.5?(1)° in relation to the plane containing the other three C atoms, i.e. (NO(2)-)C-C-C(NO(2)). This distortion of the ring causes uncommonly short intermolecular O?O [3.038?(2)?Å] and O?C [3.000?(4) and 3.214?(1)?Å] contacts.

Project description: Not available

Project description:The title compound, C(8)H(2)Br(4)S(2), was prepared by bromination of 2,2'-bithio-phene with bromine. The mol-ecule is located on a crystallographic twofold rotation axis, thereby imposing equal geometry of the two thio-phene rings. Each five-membered ring is planar [maximum deviation 0.011 (9) Å] and the dihedral angle between the planes through the rings is 47.2 (4)°. The mol-ecules are arranged to minimize intramolecular contacts between the 3-3' and 5-5'-bromine atoms.

Project description:The preparation of renewable polyesters with good barrier properties is highly desirable for the packaging industry. Herein we report the synthesis of high molecular weight polyesters via an innovative use of an in situ drying agent approach and the barrier properties of the films formed from these polyesters. High number average molecular weight (Mn) semiaromatic polyesters (PEs) were synthesized via alternating ring-opening copolymerization (ROCOP) of phthalic anhydride (PA) and cyclohexene oxide (CHO) using a salen chromium(III) complex in the presence of 4-(dimethylamino)pyridine (DMAP) cocatalyst. The use of a calcium hydride (drying agent) was found to enhance the number Mn of the synthesized PEs, which reached up to 31.2 ku. To test the barrier properties, PE films were prepared by solvent casting approach and their barrier properties were tested in comparison poly(lactic acid) films. The PE films showed significantly improved water vapor and oxygen barrier properties compared to the commercial poly(lactic acid) (PLA) film that suggests the potential use of these PEs in in the food packaging industry.

Project description:In the title hydrated salt, 2NH(4) (+)·C(12)H(12)N(4)O(6) (2-)·H(2)O, the two hexa-hydro-pyrimidine rings in the dianion are inclined to one another at a dihedral angle of 62.76 (5)°. In the crystal structure, the anions and water mol-ecules are linked into sheets parallel to the bc plane by inter-molecular O-H⋯O hydrogen bonds and sustained by C-H⋯O contacts. The linking of the anions and water mol-ecules with the cations by N-H⋯O hydrogen bonds creates a three-dimensional extended network. The crystal structure is further stabilized by very weak C-H⋯π inter-actions.