The structure of nicotine blue from Arthrobacter oxidans

Summary Nicotine blue was separated into two major components. Their chromophores are anions of the diazadiphenoquinones (1) (nicotine blue I) and (2) (nicotine blue II). The dihydrate of the potassium salt of (1) is the major component of the extracellular crystals which are excreted on a solid medium. The acid-labile nicotine blue II is water-soluble and the main coloring agent of the agar and culture broth respectively.     

Functional morphology of Tethya species (Porifera): 2. Three-dimensional morphometrics on spicules and skeleton superstructures of T. minuta

The biomechanics of body contraction in Porifera is almost unknown, although sponge contraction has been observed already in ancient times. Some members of the genus Tethya represent the most contractile poriferan species. All of them show a highly ordered skeleton layout. Based on three main spicule types, functional units are assembled, termed skeleton superstructures here. Using synchrotron radiation based x-ray microtomography and quantitative image analysis with specially developed particle and structure recognition algorithms allowed us to perform spatial allocation and 3D-morphometric characterizations of single spicules and skeleton superstructures in T. minuta. We found and analyzed three skeleton superstructures in the investigated specimen: (1) 85 megasclere bundles, (2) a megaster sphere, composed by 16,646 oxyasters and (3) a pinacoderm–tylaster layer composed by micrasters. All three skeleton superstructures represent composite materials of siliceous spicules and extracellular matrix. From structure recognition we developed an abstracted mathematical model of the bundles and the sphere. In addition, we analyzed the megaster network interrelation topology and found a baso-apical linear symmetry axis for the megaster density inside the sphere. Based on our results, we propose a hypothetical biomechanical contraction model for T. minuta and T. wilhelma, in which the skeleton superstructures restrain physical stress generated by contraction in the tissue. While skeletal structures within the genus Tethya have been explained using R. Buckminster Fullers principle of tensegrity by other authors, we prefer material science based biomechanical approaches, to understand skeletal superstructures by referring to their composite material properties.Electronic Supplementary Material Supplementary material is available to authorised users in the online version of this article at .     

Effects of subfornical organ stimulation on respiration in the anesthetized rat

The studies reported here have demonstrated that electrical stimulation in the subfornical organ of the urethane-anesthetized rat elicits augmented breaths in over 90% of animals tested. Similar stimulation in immediately adjacent anatomical regions such as the hippocampal commissure was without effect. Detailed analysis of respiratory timing revealed no other significant respiratory effects of such subfornical stimulation.     

Transformative Network Modeling of Multi-omics Data Reveals Detailed Circuits,Key Regulators,and Potential Therapeutics for Alzheimer’s Disease

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