To understand the pyrolysis mechanism of lignin with α-O-4 linkage, 4-(3-hydroxy-1-phenoxypropyl)-phenol was selected as an α-O-4 type lignin dimer model compound, and its pyrolysis process was studied by density functional theory with M06-2X method at 6-31+G (d,p) level. Equilibrium geometries of the reactant, intermediates, transition states and products were fully optimized. The activation energies in each pyrolysis pathway were calculated. The dimer decomposed mainly through the homolytic cleavage and concerted decomposition of the C(α)-O linkage. Pyrolytic products mainly included various phenolic compounds such as phenol, 4-methylphenol, 4-vinylphenol and p-coumaryl alcohol, as well as light compounds such as ethanol, methanol and formaldehyde. Pyrolytic depolymerization process has its potential in biomass-based fuels.
Biofuels ; Biomass ; Cresols ; chemistry ; Ethanol ; chemistry ; Formaldehyde ; chemistry ; Hot Temperature ; Lignin ; chemistry ; Methanol ; chemistry ; Phenols ; chemistry ; Propionates ; chemistry

It is of great significance to use biosynthesis to transform the inorganic substance formaldehyde into organic sugars. Most important in this process was to find a suitable catalyst combination to achieve the dimerization of formaldehyde. In a recent report, an engineered glycolaldehyde synthase was reported to catalyze this reaction. It could be combined with engineered D-fructose-6-phosphate aldolase, a "one-pot enzyme" method, to synthesize L-xylose using formaldehyde and the conversion rate could reach up to 64%. This process also provides a reference for the synthesis of other sugars. With the increasing consumption of non-renewable resources, it was of great significance to convert formaldehyde into sugar by biosynthesis.
Biocatalysis ; Formaldehyde ; chemistry ; Fructose-Bisphosphate Aldolase ; metabolism ; Xylose ; chemical synthesis

Sumac (Rhus chinensis Mill) is an abundant and widely distributed Chinese native plant. Sumac fruit contains low content of vegetable oil, as an atypical oil plants hardly being processed through traditional vegetable oil production technologies. Based on our own studies on the characteristics of sumac fruit and branches, we established a novel model of sumac biomass refinery, and constructed the sumac biomass refinery technology system and eco-industrial chain integration. Steam explosion was the key technology, and several components fractionation technologies were integrated in the sumac biomass refinery system. The fractionated components were converted into different products depending on their functional features. Eight products including sumac fruit oil, biodiesel, protein feed, flavonoids, unbleached facial tissue, phenolic resin, biomass briquette and biogas were produced in the refinery. The extracted sumac fruit oil by steam explosion pretreatment was applied for the new food resource of Ministry of Health, and the permit was approved. This research provides a new model for the development of atypical wild plant resources.
Biofuels ; Biomass ; Chemical Fractionation ; Flavonoids ; chemistry ; Formaldehyde ; chemistry ; Fruit ; chemistry ; Phenols ; chemistry ; Plant Extracts ; chemistry ; Plant Oils ; chemistry ; Polymers ; chemistry ; Rhus ; chemistry ; Steam

OBJECTIVETo find an inhibitor to reduce the volatilization of formalin.

METHODThe saturated solution of sodium hydrosulphite (SHS) was sprayed on the surface of the anatomy specimens, then the concentration of formaldehyde in the air was tested.

RESULTSThe concentration of formaldehyde in the air of SHS sprayed group [(3.10 +/- 1.22) mg/m3] was significantly lower than that of the control group [(8.36 +/- 4.11) mg/m3, P < 0.01].

CONCLUSIONSHS may be a volatilization inhibitor for formalin, which could reduce the concentration of formaldehyde in the air.

Air Pollution, Indoor ; prevention & control ; Anatomy ; Formaldehyde ; analysis ; chemistry ; Sulfites ; chemistry ; Volatilization

OBJECTIVETo detect the binding sites and characteristics of the adduct from the reaction of formaldehyde, acetaldehyde, acrolein with DNA.

METHODSFormaldehyde, acetaldehyde, acrolein were reacted with four kinds of deoxyribonucleoside monophosphate (dNMP) in buffered solutions with neutral pH. The reaction products were separated by high performance liquid chromatograph (HPLC) and characterized by UV spectroscopy.

RESULTSThe reaction of formaldehyde, acetaldehyde with dG was separated and detected by HPLC. The reaction of acrolein, formate, acetic acid, Mercapturic acid with dG was not separated and detected by HPLC, while the dominant dNMP binding with formaldehyde, acetaldehyde was also determined.

CONCLUSIONFormaldehyde, acetaldehyde could bind with dGMP to express genotoxic effects.

Acetaldehyde ; chemistry ; toxicity ; Acrolein ; chemistry ; toxicity ; Aldehydes ; chemistry ; toxicity ; Chromatography, High Pressure Liquid ; DNA ; chemistry ; DNA Damage ; drug effects ; Formaldehyde ; chemistry ; toxicity ; Guanosine Monophosphate ; chemistry

Occupational disease hazards in plywood manufacturing mainly include wood dust, formaldehyde, phenol, ammonia, noise, terpene, microorganisms, etc. The exposure is complex with multiple factors accompanied or coexisted. In the production process, these factors are exceeded, and mass occupational disease hazard events occurred among workers. Exposure to wood dust, formaldehyde, terpene, etc., put workers at increased risk of cancer. This article provides a review of this issue in order to provide a scientific basis for the prevention and control of occupational disease hazards in plywood manufacturing.
Humans ; Wood/chemistry* ; Occupational Diseases/chemically induced* ; Formaldehyde/adverse effects* ; Terpenes ; Dust ; Occupational Exposure/adverse effects*

AIMTo evaluate the correlation between the swelling equilibrium quantity (Seq), dissolution rate and amino group content which were used to estimate the degree of gelatin crosslinking, and the factors which influence the crosslinking, and to investigate the crosslinking mechanism of delayed dissolution of soft capsules.

METHODSThe swelling equilibrium quantity, dissolution rate and amino group content of formaldehyde-crosslinked capsule shells were determined. Gelatin structure was analyzed by means of DSC.

RESULTSA good lineal relativity was found between the swelling equilibrium quantity, dissolution rate and amino group content (r = 0.9953-0.9985). The Seq of capsule shells was influenced by high temperature, lighting and some additives. Glycine and sodium pyrosulfite might retard the decrease of Seq of capsule shells.

CONCLUSIONThe swelling equilibrium quantity, dissolution rate and amino group content exhibited the same rule in gelatin crosslinking extent. High temperature, lighting and some additives might induce gelatin crosslinking. Antioxidant such as glycine and sodium pyrosulfite might retard the crosslinking.

Amino Acids ; analysis ; Capsules ; Cross-Linking Reagents ; chemistry ; Drug Compounding ; methods ; Drug Stability ; Formaldehyde ; chemistry ; Gelatin ; chemistry ; Glycine ; Humidity ; Lighting ; Pharmaceutic Aids ; chemistry ; Solubility ; Temperature

OBJECTIVE: To establish a scientific foundation for cosmetic supervision and administration based on the analysis of the sanitary quality of cosmetics in Hunan Province during 2010. METHODS: According to Cosmetic Sanitary Standards (set by the Ministry of Health, People's Republic of China), 150 random samples of cosmetics in Hunan were assayed both for microbial items (including total plate count, fungus and yeast, fecal coliform, staphylococcus aureus, pseudomonas aeruginosa) and chemical items (including 17 kinds of prohibited substances and 14 kinds of restricted substances). RESULTS: The total rate of cosmetics failing to meet the standards was 22.0% of the 150 samples; specific rates for failing perfumes, skin care products (eye cream) and deodorant products were, relatively, 70.6%, 60.00%, and 44.4%. Four kinds of prohibited substances, including diethyl phthalate, acrylamide, asbestos and neodymium, as well as 2 kinds of restricted substances, including triclosan and formaldehyde, were found to exceed standards. None of microbial items exceeded standard levels. CONCLUSION The sanitary quality control of cosmetics is lax. Administrative departments should not only reinforce their post-production supervision with respect to cosmetics, but also consolidate their control over the process of cosmetic production in order to solve the problem of toxic residues or illegal and intentional adulterations.
China ; Cosmetics ; analysis ; chemistry ; standards ; Formaldehyde ; isolation & purification ; Humans ; Phthalic Acids ; isolation & purification ; Quality Control ; Staphylococcus aureus ; isolation & purification

The endophytic fungus Nigrospora sphaerica S5 derived from the semi-mangrove plant Myoporum bontioides was fermented. Its metabolites were purified by column chromatography. Nine compounds were obtained and identified as terezine P(1), 3-(1-hydroxyethyl)-4-methyl dihydrofuran-2(3H)-one(2), methylhydroheptelidate(3), hydroheptelidic acid(4), 5, 7-dimethoxy-4, 6-dimethylphthalide(5),(3R,4S)-(-)-4-hydroxymellein(6), pestalopyrone(7), indole-3-formaldehyde(8) and p-hydroxybenzaldehyde(9) by spectroscopic techniques. Terezine P(1) was a new alkaloid belonging to the terezine class with a pyrazine ring. Compounds 2-7 were lactones, of which 3 and 4 belonged to sesquiterpenes. Compounds 8 and 9 were indole alkaloids and phenols, respectively. Compounds 3-6 were purified from Nigrospora sp. for the first time. These compounds showed different degrees of antibacterial activity against Staphylococcus aureus, Escherichia coli of O6 serotype and E. coli of O78 serotype.
Alkaloids ; Anti-Bacterial Agents/pharmacology* ; Ascomycota/chemistry* ; Escherichia coli ; Formaldehyde ; Indoles/pharmacology* ; Lactones ; Molecular Structure ; Myoporum/microbiology* ; Phenols ; Pyrazines ; Sesquiterpenes

Owing to the DNA degradation induced by formalin and the obstruction of paraffin to DNA extraction, it is difficult to recover high-quality DNA from Formalin fixed and paraffin embedded tissue (FFPET). In recent years, a lot of researches indicate that the DNA extraction from FFPET can be developed by improving the pretreatment, optimizing the digestion condition of proteinase, simplizing the procedures of the DNA extraction, purifying the extracted DNA and so on, which may pave a way for popularizing FFPET in DNA analysis.
DNA/isolation & purification* ; Forensic Medicine/methods* ; Formaldehyde/chemistry* ; Humans ; Hydrogen-Ion Concentration ; Paraffin Embedding/methods* ; Polymerase Chain Reaction ; Specimen Handling/methods* ; Time Factors ; Tissue Fixation