Structure of Bovine κ-Casein: Spectrophotometric Titration and Molecular Size Changes in Alkaline Solution

The ionization of tyrosyl groups in bovine κ-casein and S-carboxyamidomethyl-κ-casein (CAM-κ) was studied by spectrophotometric titration at 295 mµ. In the denaturing solvent 8 m urea, the titration curves are reversible and the pK_app values of eight tyrosyl groups both in κ-casein and in CMA-κ-casein are 10.7. In 0.2 m KCl solution, κ-casein has six tyrosyl groups with normal pK_app value of 10.5 and two groups with higher pK_app value of 11.4. CAM-κ-casein has eight tyrosyl groups with pK_app value of 10.6 in 0.2 m KCl solution. These observations suggest that -S-S- bondings in κ-casein are concerned with the ‘masking’ of the tyrosyl groups. The evidence of the rupture of intermolecular -S-S- bondings of κ-casein in alkaline solution was shown by the study of gel Chromatograph y on Sephadex G–150. One of the possible explanation is that the ionization of tyrosyl groups with higher pK_app value is associated with the destruction of hydrophobic regions, and this destruction is due to the rupture of intermolecular -S-S- bondings under alkaline conditions.     

Distribution of Nuclease O Inhibitor among Aspergillus Species

Leucine dehydrogenase was inhibited by p-chioromercuribenzoate and HgCl₂, but not by 5,5′-dithiobis(2-nitrobenzoic acid), 4,4′-dithiopyridine and N-ethylmaleimide. Modification of sulfhydryl groups of the enzyme with p-chloromercuribenzoate and HgCl₂ was accompanied with a loss of the enzyme activity. The 6 reactive sulfhydryl groups per enzyme molecule play an essential role for catalysis. Approximately 12 sulfhydryl groups were titrated per molecule in the presence of 8 m urea: the enzyme contains 2 sulfhydryl groups per subunit, and one of them participates in the catalytic action. Fluorometric and gel filtration studies on binding of NADH to the enzyme revealed that the enzyme contains 6 coenzyme binding sites per molecule.

These results are compatible with the hexameric structure of leucine dehydrogenase composed of identical subunits, showing that each subunit has one catalytic site and one indispensable sulfhydryl group.     

Binding of Polysaccharide to Peptidoglycan in Cell Wall of Streptomyces roseochromogenes

The polysaccharide-peptidoglycan complex, which was prepared with lysozyme from Streptomyces roseochromogenes IAM53 cell walls, was hydrolyzed with lytic enzyme of Flavo-bacterium to separate polysaccharide. The enzymatically prepared polysaccharide (100 mg) contained 500 μmoles of hexoses, 40 μmoles of hexosamines and 31 μmoles of phosphate. Hexoses consisted of mannose and galactose in a molar ratio of 5 to 1. Hexosamines consisted of equimolar glucosamine and muramic acid, a half of which was identified as muramic acid 6-phosphate. The reducing end of the polysaccharide was muramic acid. The polysaccharide extracted with trichloroacetic acid contained no muramic acid-phosphate. So the polysaccharide moiety of S. roseochromogenes cell walls must be linked covalently to 6-position of muramic acid in peptidoglycan through phosphate,     

Enzyme-Substrate Complex of p-Hydroxybenzoate Hydroxylase; One of the Activated Intermediates of the Overall Reaction

The transglucosidation reaction of brewer’s yeast α-glucosidase was examined under the co-existence of l-sorbose and phenyl-α-glucoside. As the transglucosidation products, three kinds of new disaccharide were chromatographically isolated. It was presumed that these disaccharides consisting of d-glucose and l-sorbose were 1-O-α-d-glucopyranosyl-l-sorbose ([α]_D+89.0), 3-O-α-d-glucopyranosyl-l-sorbose ([α]_D+69.1) and 4-O-α-d-glucopyranosyl-l-sorbose ([α]_D+81.0). The principal product formed in the enzyme reaction was 1-O-α-d-glucopyranosyl-l-sorbose.     

Occurrence of 4-tert-butylphenol (4-t-BP) biodegradation in an aquatic sample caused by the presence of Spirodela polyrrhiza and isolation of a 4-t-BP-utilizing bacterium

Although 4-tert-butylphenol (4-t-BP) is a serious aquatic pollutant, its biodegradation in aquatic environments has not been well documented. In this study, 4-t-BP was obviously and repeatedly removed from water from four different environments in the presence of Spirodela polyrrhiza, giant duckweed, but 4-t-BP persisted in the environmental waters in the absence of S. polyrrhiza. Also, 4-t-BP was not removed from autoclaved pond water with sterilized S. polyrrhiza. These results suggest that the 4-t-BP removal from the environmental waters was caused by biodegradation stimulated by the presence of S. polyrrhiza rather than by uptake by the plant. Moreover, Sphingobium fuliginis OMI capable of utilizing 4-t-BP as a sole carbon and energy source was isolated from the S. polyrrhiza rhizosphere. Strain OMI degraded 4-t-BP via a meta-cleavage pathway, and also degraded a broad range of alkylphenols with linear or branched alkyl side chains containing two to nine carbon atoms. Root exudates of S. polyrrhiza stimulated 4-t-BP degradation and cell growth of strain OMI. Thus, the stimulating effects of S. polyrrhiza root exudates on 4-t-BP-degrading bacteria might have contributed to 4-t-BP removal in the environmental waters with S. polyrrhiza. These results demonstrate that the S. polyrrhiza–bacteria association may be applicable to the removal of highly persistent 4-t-BP from wastewaters or polluted aquatic environments.     

Endothelin regulates neural crest deployment and fate to form great vessels through Dlx5/Dlx6-independent mechanisms

Endothelin-1 (Edn1), originally identified as a vasoconstrictor peptide, is involved in the development of cranial/cardiac neural crest-derived tissues and organs. In craniofacial development, Edn1 binds to Endothelin type-A receptor (Ednra) to induce homeobox genes Dlx5/Dlx6 and determines the mandibular identity in the first pharyngeal arch. However, it remains unsolved whether this pathway is also critical for pharyngeal arch artery development to form thoracic arteries. Here, we show that the Edn1/Ednra signaling is involved in pharyngeal artery development by controlling the fate of neural crest cells through a Dlx5/Dlx6-independent mechanism. Edn1 and Ednra knock-out mice demonstrate abnormalities in pharyngeal arch artery patterning, which include persistent first and second pharyngeal arteries, resulting in additional branches from common carotid arteries. Neural crest cell labeling with Wnt1-Cre transgene and immunostaining for smooth muscle cell markers revealed that neural crest cells abnormally differentiate into smooth muscle cells at the first and second pharyngeal arteries of Ednra knock-out embryos. By contrast, Dlx5/Dlx6 knockout little affect the development of pharyngeal arch arteries and coronary arteries, the latter of which is also contributed by neural crest cells through an Edn-dependent mechanism. These findings indicate that the Edn1/Ednra signaling regulates neural crest differentiation to ensure the proper patterning of pharyngeal arch arteries, which is independent of the regional identification of the pharyngeal arches along the dorsoventral axis mediated by Dlx5/Dlx6.     

Relationship between adult height and body weight and risk of carotid atherosclerosis assessed in terms of carotid intima-media thickness: The Nagasaki Islands study

Background

Previous studies have reported an inverse association between height and risk of cardiovascular disease. However, evidence is limited for the association between risk of atherosclerosis and height. Further, although the association between atherosclerosis and body mass index (BMI) is reportedly positive, there have been no reports of studies on associations between height and atherosclerosis in relation to BMI.

Methods

We conducted a cross-sectional study of Japanese men aged 30 to 89 years undergoing general health check-ups.

Results

Of the 1,337 men, 312 were diagnosed with carotid atherosclerosis (carotid intima-media thickness (CIMT) ≥ 1.1 mm), but no significant association was found between height and carotid atherosclerosis for the entire study group. Stratification by BMI status of those analytical findings disclosed a significant inverse association between height and carotid atherosclerosis among overweight (BMI ≥ 25 kg/m²) but not among non-overweight (BMI < 25 kg/m²) men. The classical cardiovascular risk factors-adjusted odds ratio (OR) and 95% confidence interval (CI) of carotid atherosclerosis for an increment of one SD (standard deviation) in height (6.70 cm) were 0.71 (0.54 to 0.94) for overweight (BMI ≥ 25 kg/m²) and 1.05 (0.87 to 1.27) for non-overweight (BMI < 25 kg/m²) men.

Conclusion

Independent from classical cardiovascular risk factors, height was found to be inversely associated with carotid atherosclerosis for overweight but not for non-overweight men.     

Possible molecular evolution of biomembranes: from single-chain to double-chain lipids

We have studied a possible evolution process permitting a 'primitive' membrane to evolve towards a membrane structure with an outer wall, similar to that of bacteria. We have investigated whether a polysaccharide bearing hydrophobic phytyl or cholesteryl chains coats giant vesicles made of single- or double-chain lipids. Phytyl-pullulan 5b was found to bind to the surface of vesicles made of either single- or double-chain lipids. In contrast, cholesteryl-pullulan 5a only coated the surface of vesicles made of double-chain lipids. These results indicate that there must be a close match between the size and shape of membrane constituents and the hydrophobic molecules to be inserted. This process could, thus, provide a selection mechanism of lipid-membrane constituents during the course of biomembrane evolution. The presence of the above 'hydrophobized' polysaccharides on the surface of different giant vesicles was identified by lectin binding. Both concanavalin A and annexin V were shown by fluorescence microscopy to bind spontaneously to vesicles made of double-chain lipids. Our experiments exemplify that self-organization of amphiphiles into closed vesicles in aqueous solution automatically leads to the coating of vesicles by 'hydrophobized' polysaccharides, which then permit lectin binding. This is a possible mechanism for the evolution of primitive membranes towards 'proto-cells'.     

Molecular Orbital Study of the Magnetic Properties of Pyrazine- and Pyrimidine-Bridged Copper(II) Complexes

Magnetic interactions in the three copper(II)-complex polymers, [Cu(PZ)(NO₃)₂]_n, [Cu(PM)(NO₃)₂(H₂O)₂]_n, and [Cu(PM)₂(NO₃)₂]_n are discussed on the basis of extended Hückel calculations inthe formulas PZ and PM stand for pyrazine and pyrimidine, respectively. Interactions between the Cu-3d orbitals and the lone-pair orbitals of pyrazine and pyrimidine are analyzed from the viewpoint of `through-space' and `through-bond' interactions using binuclear complexes to model the three copper(II) polymers. Three conclusions can be drawn from the orbital interaction analysis: (1) in the first polymer, a superexchange pathway is formed with the bond of Cu–-N and the through-bond interaction between the lone pairs of the nitrogen atoms of pyrazine will lead to an antiferromagnet state; (2) in the second polymer a superexchange pathway is formed with the bond of Cu–-N and the through-space interaction between the lone pairs of the nitrogen atoms of pyrimidine, and as a result an antiferromagnetic state will be preferred; and (3) in the third polymer., there is no effective pathway in respect of overlap interaction and the HOMO and the LUMO are actually degenerate, and thus a ferromagnetic state will arise. The band structures are analyzed to characterize the magnetic properties of the antiferromagnetic polymers, [Cu(PZ)(NO₃)₂]_n and [Cu(PM)(NO₃)₂(H₂O)₂], and the ferromagnetic polymer, [Cu(PM)₂(NO₃)₂]_n.