Comparison of the relative biological availability and stability of commercial sources of vitamin K activity

In a test designed to examine the stability and biological availability of different sources of menadione available to the feed industry, encapsulated menadione sodium bisulphite (Kastab) and menadione dimethylpyrimidinol bisulphite appeared to be relatively equal in both stability under steam pelleting and biological availability as measured by chick prothrombin times. Menadione sodium bisulphite complex did not appear to be as biologically available but possessed equal stability under pelleting. Particle size of all supplements was similar, suggesting no probable differences in distribution into the feed. The data from this study support the current National Research Council suggestion of 400 μg of menadione activity per kg of diet.     

Erythrocyte phosphoglucomutase: A family study of a PGM1 deficient allele

Summary We have observed a large Mexican American family segregating for a low activity allele at the phosphoglucomutase-1 locus. The deficient allele is detectable by starch gel electrophoresis and by direct activity determination. The presence of the deficient allele in either the homozygous or heterozygous condition is not associated with any other phenotypic finding.     

Filament formation in Clostridium acidiurici under conditions of elevated temperatures

Terry, David R. (Brigham Young University, Provo, Utah), Abdul Gaffar, and Richard D. Sagers. Filament formation in Clostridium acidiurici under conditions of elevated temperatures. J. Bacteriol. 91:1625-1634. 1966.-Vegetative cells of Clostridium acidiurici, when grown at temperatures up to 42 C, are straight rods varying from 2.5 to 4 mu in length. When grown at 43 C, the cells show a definite tendency to elongate, and, when grown at 44 C, filaments are formed, often exceeding 500 mu in length. Only an occasional cross wall is apparent in the heat-induced long forms, but as the temperature is lowered they readily form cross walls and fragment into short, single cells. Chromatin material is distributed in evenly spaced clusters throughout the length of the filaments. The filaments grown at 44 C are gram-negative, whereas cells grown at 37 C are gram-positive. However, filament formation and gram-negativity apparently are not due to magnesium deficiency, since the gram-negative filaments are formed in concentrations of magnesium ranging from 10(-6) to 10(-2)m. The rapid transition from filaments to single cells upon lowering the temperature from 44 to 37 C suggests that the temperature-related repression of the cross wall-forming system is a phenotypic response rather than the selection of specific mutants which produce the observed phenomena.     

Hormone regulation of development in plant cells

Summary Hormonal stimulation of dedifferentiation and redifferentiation can be studied in explanted, cultured plant tissues. Some of the questions about development which one would like to answer with such a system revolve around the role of quiescence in the stabilization of the differentiated state, the role of replication in the stimulation of redifferentiation and the means by which cells are brought out of the quiescent state. Such a system also offers the potential for revealing the level(s) at which plant hormones operate in the stimulation of replication and differentiation since the responses to hormones can be achieved in vitro. The pea-root cortical parenchyma system has been utilized as a model system in the study of cytokinin plus auxin stimulation of redevelopment of mature, quiescent root cells. The first detected response of the root parenchyma to excision and culture with both of these hormones is an enhanced rate of RNA synthesis between 9 and 12 hr after the initiation of culture. DNA synthesis is stimulated 36 to 39 hr after RNA synthesis (after 48 hr in culture). During this 48-hr period various cytological changes have been observed which are compatible with renewed nucleic acid synthesis, but cytological changes have not been observed prior to the onset of hormone-stimulated RNA synthesis. The first mitoses and cytokineses occur after 60 and 72 hr, respectively. Terminally differentiated tracheary elements are first formed in these cultures after 120 to 168 hr when both the cytokinin and auxin are present at adequate levels. Studies employing inhibitors suggest that tracheary element differentiation is dependent upon the DNA replication that normally accompanies cell replication. Temperature probes of the period between the initiation of cultures and the appearance of the terminally differentiated tracheary elements have been initiated and, in conjunction with previous studies employing inhibitors and analogues, may allow one to distinguish between a variety of potential models of hormone-stimulated redifferentiation. Presented in the Opening Symposium on Nutritional Factors and Differentiation at the 28th Annual Meeting of the Tissue Culture Association, New Orleans, Louisiana, June 6–9, 1977. Supported in part by grants from the National Science Foundation (GB 36948) and the Public Health Service (RR 07092).     

DNA base modifications induced in isolated human chromatin by NADH dehydrogenase-catalyzed reduction of doxorubicin.

The antineoplastic benzanthroquinone drug doxorubicin can undergo flavoenzyme-catalyzed one-electron reduction which, in an aerobic environment, leads to the generation of oxygen-derived species. We therefore sought to determine whether doxorubicin in the presence of NADH dehydrogenase and the transition metal ions Fe(III) or Cu(II) induces DNA base modifications in isolated human chromatin. NADH dehydrogenase-catalyzed reduction of doxorubicin (25-100 microM) caused hydroxyl radical production detected as methane generated from dimethyl sulfoxide; addition of isolated human chromatin to the system produced a concentration-dependent quenching of detectable hydroxyl radical formation. Doxorubicin (5-50 microM)-stimulated enzyme-catalyzed oxidation of NADH was also diminished, but still detectable, in the presence of chromatin. Doxorubicin-induced DNA base modifications in chromatin were measured by gas chromatography/mass spectrometry with selected-ion monitoring. Production of modified bases required the addition of transition metal ion and was enhanced by the addition of active flavoenzyme. The non-redox cycling analogue 5-iminodaunorubicin induced significantly less base modification than did doxorubicin. In the presence of Fe(III), NADH dehydrogenase-catalyzed reduction of doxorubicin caused enhancement in the content of all modified bases over control levels. Substitution of Cu(II) for Fe(III) altered both the degree and the pattern of doxorubicin/NADH dehydrogenase-induced base modifications. The scavengers of hydroxyl radical mannitol and dimethyl sulfoxide or catalase did not significantly affect doxorubicin/NADH/NADH dehydrogenase/transition metal ion-induced base modifications. Superoxide dismutase further enhanced production of all base modifications. The data demonstrate that flavoenzyme-catalyzed redox cycling of doxorubicin generates typical hydroxyl radical-induced base modifications in the DNA of isolated human chromatin, suggesting a possible mechanism for the mutagenicity of doxorubicin in vivo.     

Prediction of a novel internal rearrangement of the insulin receptor

The insulin receptor (IR) plays critical roles in metabolism and growth, directed by the binding of insulin. Decades of research to understand the mechanism of insulin binding and activation of the IR have identified a region of the receptor, the C-terminal (CT) peptide, to be crucial for insulin binding. In particular, a truncated IR consisting of the first three domains fused to the CT peptide was found to bind insulin with nanomolar affinity, with undetectable binding in the absence of fused or soluble CT peptide. Problematically, all current crystal structures of the IR indicate the fusion point of the CT peptide to the three domains is located far from the position of the CT peptide as resolved in such structures. We have attempted to address this problem using molecular modelling and dynamics simulations. The results led to the identification of a potential inter-domain interaction between the L2 domain and the CT peptide that is not observed in any of the crystal structures of the IR. Investigations into this new interaction found a conformational change that could potentially be in response to insulin binding. Additionally, further simulation work with the new conformation demonstrated its compatibility with the position and orientation of insulin from the latest insulin-bound IR crystal structure.     

Morphological indices and otolith microstructure of Atlantic croaker,Micropogonias undulatus,as indicators of habitat quality along an estuarine pollution gradient

Synopsis Atlantic croaker, Micropogonias undulatus, sampled from a transect along a pollution gradient show a trend of declining growth and physical condition. This trend is apparent in the mean size of 0-group croaker, in their recent growth rate measured by marginal otolith increment widths, in longer term growth rate as indicated by relative otolith weights, and in general physical condition as measured by an index of condition of the caudal fin. We suggest that these measures are indicators of stress associated with environmental conditions. Because croaker from different positions along the pollution gradient were distinguishable, it appears that they remain for extended periods within areas of degraded environmental quality.