Effect of microtubule-associated proteins on the protofilament number of microtubules assembled in vitro

In order to demonstrate the effect of microtubule-associated proteins on the protofilament number of microtubules, we used different systems of microtubule formation in vitro in which these proteins are either functionally eliminated (by DNA or glycerol) or absent (purified tubulin). The results obtained by electron microscopy of ultrathin-sectioned material indicate that under standard conditions in the presence of microtubule-associated proteins microtubules are formed consisting predominantly of 14 protofilaments. In cases of deficiency of microtubule-associated proteins, the mean value of the protofilament number is lower, and the protofilament number within the microtubule population varies remarkably. On the other hand, the action of microtubule-associated proteins is enhanced by histones resulting in increased protofilament numbers. A model is proposed illustrating that the quality and the quantity of microtubule-associated proteins bound to microtubules determine the curvature between the protofilaments and restrict the variety of their binding angles. In this way the microtubule-associated proteins may be regarded as an important factor in determining the structural fidelity of microtubules.     

Monoclonal anti-mouse macrophage antibodies recognize the globular portions of C1q, a subcomponent of the first component of complement

One of seven monoclonal antibodies generated against mouse macrophages (M phi) was found to recognize isolated heterologous C1q. This antibody was shown to be cytotoxic and to react in a strain-independent way with mouse M phi derived from bone marrow cells as well as with M phi from the peritoneal cavity; it did not react, however, with mouse granulocytes, thymocytes, or T and B lymphocytes. The hemolytic activity of fluid phase C1q was inhibited to 50% at a 2 X 10(-4) dilution of hybridoma supernatant, whereas a 100-fold higher concentration was required to inhibit C1q bound to immune complexes ( EAC1q ) to the same extent. It was demonstrated that this antibody recognizes the isolated globular, Fc-binding portions of the C1q molecule and reacts with the A and B chains. Because M phi have been shown to synthesize C1q, the Fc-recognizing subcomponent of the first component of complement, evidence was provided that endogeneous C1q can serve as an Fc receptor on M phi during secretion. This fact was demonstrated by a dose-dependent inhibition of Fc-receptor activity for EIgG by the F(ab')2 fragment of this monoclonal antibody. These experiments further support the concept that C1q produced by M phi functions on the surface as an Fc-recognizing molecule before it is released and incorporated into the macromolecular complex of serum C1.     

Comparison of the structures of the native form of rat liver 5S rRNA and yeast tRNAphe: small-angle and wide-angle X-ray scattering study

The small-angle and wide-angle X-ray scattering of tRNA^phe (yeast) and ribosomal 5S RNA (rat liver) in solution have been analysed and compared. tRNA^phe in solution is folded into a compact L-shaped structure similar to its structure in crystals. The geometry of the secondary structure of the double helical regions is also equivalent to the A-form in the crystalline state. Despite differences between the molar mosses of 5S rRNA (40 000 g mol^?1) and tRNA^phe (25 000 g mol^?1), and the fact that the 5S rRNA molecule is more anisometric than the tRNA^phe molecule, there are many structural similarities. The geometrical parameters of the secondary structure of double helical regions in both RNA molecules are almost identical; the mean rise per base pair is about 0.253–0.28 nm and the mean turn angle is about 32.5–33.5. Identical cross-sectional radii of gyration, R_sq,1 ≈ 1.16 nm and R_sq,2 = 0.92 nm, identical molar mass per unit length, , and a mean thickness of the molecules D ≈ 1.65 nm suggest a similar, nearly coplanar organization of isolated, double helical arms. Furthermore, there are compact regions in the central parts of both molecules, which are the sites of tertiary interactions in the tRNA^phe molecule and are a potential site of tertiary interactions in the SS rRNA molecule for stabilization of the complicated L-shape of the two molecules. Both molecules have a pseudo-twofold axis,w hich may play a role in recognition for binding of specific proteins.     

Über die Färbbarkeit des Schilddrüsenkolloids

Ohne Zusammenfassung     

Die Funktion waagerecht liegender Augenteile des Rückenschwimmers und ihr ganzheitliches Verhalten nach Teillackierung

Ohne ZusammenfassungDissertation der Philosophischen Fakultät der Universität Königsberg-Pr.