Fatty Acid Compositions of Corynebacterium simplex Grown on 1-Alkenes

The utilization of 1-alkenes by Corynebacterium simplex ATCC 6946 was studied with respect to the characteristic fatty acid profiles resulting from the growth at the expense of these substrates.

It was indicated that the synthetic pathways of the cellular fatty acids in Corynebact. simplex grown on various n-alkanes or 1-alkenes changed markedly according to the chain lengths of the substrates. From shorter chain hydrocarbons (C₁₂, C₁₄) the fatty acids were found to be synthesized mainly via de novo synthesis pathway in a similar manner to those from glucose, while chain elongation and intact incorporation occurred to a very small extent. On the other hand, an intact incorporation mechanism was preferential in the cells grown on longer ones (C₁₆, C₁₈). When n-pentadecane or 1-pentadecene was used as the substrate, these three mechanisms seemed to operate simultaneously.     

Synthesis of Certain Disaccharides Containing a α-or β- Rhamnopyranosidic Group and the Substrate Specificity of α-l-Rhamnosidase from Aspergillus niger

To investigate the substrate specificity of α-l-rhamnosidase from Aspergillus niger, the following seven substrates were synthesized: methyl 3-O-α-l-rhamnopyranosyl-α-d-mannopyranoside (1), methyl 3-O-α-l-rhamnopyranosyl-α-l-xylopyranoside (2), methyl 3-0-α-l-rhamnopyranosyl-α-l-rhamnopyranoside (3), methyl 4-0-α-l-rhamnopyranosyl-α-d-galactopyranoside (4), methyl 4-O-α-l-rhamnopyranosyl-α-d-mannopyranoside (5), methyl 4-0-α-l-rhamnopyra-nosyl-α-d-xylopyranoside (6), and 6-0-β-l-rhamnopyranosyl-d-mannopyranose (7). Compounds 1~6 were well-hydrolyzed by the crude enzyme, but 7 was unaffected.     

Two Antioxidative Diterpenes from Rosemary (Rosmarinus officinalis L.) and a Revised Structure for Rosmanol†

Two new antioxidative compounds, named epirosmanol (4a) and isorosmanol (6a), were isolated from the leaves of rosemary (Rosmarinus officinalis L.). The structures have been determined to be 7β,11,12-trihydroxy-6,10-(epoxymethano)abieta-8,l 1,13-trien-20-one and 6α,ll,12-trihydroxy-7,10-(epoxymethano)abieta-8,ll,13-trien-20-one, respectively, on the basis of chemical and spectroscopic evidence. Both are isomers of rosmanol (1a), whose structure was revised to be 7α,ll,12-trihydroxy-6,10-(epoxymethano)abieta-8,ll,13-trien-20-one by the NOE experiment and X-ray analysis.

These two antioxidants showed high activity in both lard and linoleic acid and, particularly in lard, were about four times more active than such synthetic antioxidants, as BHA and BHT.     

Structure of a New Antioxidative Phenolic Diterpene Isolated from Rosemary (Rosmarinus officinalis L.)

A new antioxidant, phenolic diterpene, named rosmanol, was isolated from the leaves of rosemary (Rosmarinus officinalis L.). Its structure has been determined as 7β,11,12-trihydroxy-6,10-(epoxymethano)abieta-8,11,13-trien-20-one on the basis of chemical and spectroscopic evidence. In addition, all the protons of rosmanol (II) as well as carnosol (I), including the methylene protons of the A ring, were analyzed by 400 MHz ¹-NMR.     

Emulsifying Properties of a Complex between Apoprotein from Hen’s Egg Yolk Low Density Lipoprotein and Egg Yolk Lecithin

In the present work, an apoprotein solution was prepared from hen’s egg yolk low density lipoprotein (LDL) without using detergents; LDL was delipidated with chloroform-methanol (2:1) and solubilized by sonication with 80% ethylene glycol. An apoLDl-phospholipid complex was prepared by sonicating this apoprotein solution with an egg yolk lecithin suspension. Although high-molecular-weight polypeptides of apoLDL formed an insoluble complex with lecithin, its low- molecular-weight polypeptides formed a soluble complex. The soluble apoLDl-phospholipid complex gave only one peak on gel filtration on Sephacryl S-400.

Emulsifying properties of the soluble apoLDl-phospholipid complex were much better than those of either lecithin vesicles or lecithin suspensions with the same concentration of phospholipid, and almost the same as those of LDL. These results seem to show that the superior emulsifying properties of LDL depend on the characteristic structure of its lipid-protein complexes.     

The development of circadian rhythm of human body temperature

Abstract

Daily periodic changes of body temperature were examined in 138 subjects ranging in age between 5 days and 44 years. Whereas the circadian rhythm of human body temperature was not discerned in newborn babies, body temperatures were higher during daytime than during nighttime in infants over one month. Temperature rhythm similar to that of adults, with respect to phase, was observed in the age groups of ten to eleven months and over, earlier than previously reported. The amplitude in circadian oscillation was, however, significantly larger in children between 7 months and 7 years of age than in adults. Thus, it is concluded that the adult type of circadian rhythm of human body temperature is fully established with respect to phase and amplitude after 7 years of age.     

Mint3 is dispensable for pancreatic and kidney functions in mice

Munc-18 interacting protein 3 (Mint3) is an activator of hypoxia-inducible factor-1 in cancer cells, macrophages, and cancer-associated fibroblasts under pathological conditions. However, exactly which cells highly express Mint3 in vivo and whether Mint3 depletion affects their physiological functions remain unclear. Here, we surveyed mouse tissues for specific expression of Mint3 by comparing Mint3 expression in wild-type and Mint3-knockout mice. Interestingly, immunohistochemical analyses revealed that Mint3 was highly expressed in islet cells of the pancreas, distal tubular epithelia of the kidney, choroid plexus ependymal cells of the cerebrum, medullary cells of the adrenal gland, and epithelial cells of the seminal gland. We also studied whether Mint3 depletion affects the physiological functions of the islets and kidneys. Mint3-knockout mice did not show any abnormalities in glucose-tolerance and urine-biochemical tests, indicating that Mint3 depletion was compensated for in these organs. Thus, loss of Mint3 might be compensated in the islets and kidneys under physiological conditions in mice.     

Micro-Brillouin scattering measurements in mature and newly formed bone tissue surrounding an implant

The evolution of implant stability in bone tissue remains difficult to assess because remodeling phenomena at the bone-implant interface are still poorly understood. The characterization of the biomechanical properties of newly formed bone tissue in the vicinity of implants at the microscopic scale is of importance in order to better understand the osseointegration process. The objective of this study is to investigate the potentiality of micro-Brillouin scattering techniques to differentiate mature and newly formed bone elastic properties following a multimodality approach using histological analysis. Coin-shaped Ti-6Al-4V implants were placed in vivo at a distance of 200?μm from rabbit tibia leveled cortical bone surface, leading to an initially empty cavity of 200?μm×4.4?mm. After 7 weeks of implantation, the bone samples were removed, fixed, dehydrated, embedded in methyl methacrylate, and sliced into 190?μm thick sections. Ultrasonic velocity measurements were performed using a micro-Brillouin scattering device within regions of interest (ROIs) of 10?μm diameter. The ROIs were located in newly formed bone tissue (within the 200?μm gap) and in mature bone tissue (in the cortical layer of the bone sample). The same section was then stained for histological analysis of the mineral content of the bone sample. The mean values of the ultrasonic velocities were equal to 4.97×10(-3)?m/s in newly formed bone tissue and 5.31×10(-3)?m/s in mature bone. Analysis of variance (p=2.42×10(-4)) tests revealed significant differences between the two groups of measurements. The standard deviation of the velocities was significantly higher in newly formed bone than in mature bone. Histological observations allow to confirm the accurate locations of the velocity measurements and showed a lower degree of mineralization in newly formed bone than in the mature cortical bone. The higher ultrasonic velocity measured in newly formed bone tissue compared with mature bone might be explained by the higher mineral content in mature bone, which was confirmed by histology. The heterogeneity of biomechanical properties of newly formed bone at the micrometer scale may explain the higher standard deviation of velocity measurements in newly formed bone compared with mature bone. The results demonstrate the feasibility of micro-Brillouin scattering technique to investigate the elastic properties of newly formed bone tissue.     

Acoustic overstimulation activates 5'-AMP-activated protein kinase through a temporary decrease in ATP level in the cochlear spiral ligament prior to permanent hearing loss in mice

Inner ear disorders are known to be elicited by mitochondrial dysfunction, which decreases the ATP level in the inner ear. 5′-AMP-activated protein kinase (AMPK) is a serine/threonine kinase activated by metabolic stress and by an increase in the AMP/ATP ratio. To elucidate the involvement of AMPK-derived signals in noise-induced hearing loss, we investigated whether in vivo acoustic overstimulation would activate AMPK in the cochlea of mice. Std-ddY mice were exposed to 8 kHz octave band noise at a 90-, 110- or 120-dB sound pressure level (SPL) for 2 h. Exposure to the noise at 110 or 120 dB SPL produced outer hair cell death in the organ of Corti and permanent hearing loss. Exposure to the noise at 120-dB SPL elevated the level of the phospho-AMPK α-subunit (p-AMPKα), without affecting the protein level of this subunit, immediately and at 12-h post-exposure in the lateral wall structures including the spiral ligament and stria vascularis. In the hair cells and spiral ganglion cells, no marked change in the level of p-AMPKα was observed at any time post-exposure. The level of phospho-c-Jun N-terminal kinase (p-JNK) was increased in the lateral wall structures at 2- to 4-h post-exposure at 120 dB SPL. Noise exposure significantly, but temporarily, decreased the ATP level in the spiral ligament, in an SPL-dependent manner at 110 dB and above. Likewise, elevation of p-AMPKα and p-JNK levels was also observed in the lateral wall structures post-exposure to noise at an SPL of 110 dB and above. Taken together, our data suggest that AMPK and JNK were activated by ATP depletion in the cochlear spiral ligament prior to permanent hearing loss induced by in vivo acoustic overstimulation.