Chromatin structure visualization by immunoelectron microscopy

Antibodies elicited in rabbits by chromatin and by purified histone H2B have been used to study the structure of chromatin by immunoelectron microscopy. Chromatin spread on grids reveals a structure of closely packed spherical particles with an average diameter of 104 Å, arranged either in clusters or in linear arrays of beads, some of which have a supercoil-like arrangement. No DNA strings connecting the beads could be observed. Upon antibody binding, the diameter of the particles increases up to 300 Å. This size is compatible with a model where one layer of gamma globulin molecules 110 Å long encircles a sphere of chromatin 100 Å in diameter. The presence of rabbit gamma globulins on the enlarged beads has been verified by the addition of ferritin-labeled goat anti-rabbit gamma globulins. Anti-chromatin sera which react with nonhistone proteins but not with free histones or DNA react with more than 95% of the beads; this suggests that most of the beads contain nonhistone proteins. Since the number of nonhistone proteins is large, it is improbable that each sphere contains a full complement of these proteins. We therefore suggest that the various chromatin spheres contain different types of nonhistone proteins. About 90% of the chromatin spheres reacted with antibodies to histone H2B, suggesting that most of the chromatin beads contain this type of histone.     

The immune response of allophenic mice to the synthetic polymer GLΦ

The immune response of allophenic mice of type C57BL/6(A × SJL) F₁ to GL administered in complete Freund's adjuvant was tested. Control mice of the three strains C57BL/6, A, and SJL are all nonresponders to this antigen. However, the F₁ generations of C57BL/6 × A, C57BL/6 × SJL, and A × SJL were all responders to the antigen, so that the complementarity of at least two genes is confirmed. The allophenic mice showed no further complementation beyond the F₁ generation, a result which may argue against the possibility that more than two genes control the response to GL in these mouse strains. Characterization of the allophenic mice over several months showed that they exhibit chimeric drift, both in their coat color and in peripheral white blood cell population. There is no apparent correlation of coat color to the lymphocyte composition of the mice at any one time. The mice are true chimeras, since killing of the two populations of white blood cells with two different anti-H-2 sera produced a 100 percent killing. The immune response of individual allophenic mice to GL showed a good correlation to the number of A × SJL lympho-cytes in the animal.Abbreviations used in this paper are GL an amino acid polymer of 57 %l-glutamic acid, 38%l-lysine, and 5%l-phenylalanine - GLT¹⁵ an amino acid polymer ofl-glutamic acid,l-lysine, and 15 %l-tyrosine - (T,G)-A-L an amino acid polymer having a polylysine backbone with side chains of polyd-l-alanine, terminating in short sequences of tyrosine and glutamic acid - GAT₁₀ an amino acid polymer of 60%l-glutamic acid, 30%l-alanine, and 10%l-tyrosine - GLA₅ an amino acid polymer of 57%l-glutamic acid, 38%l-lysine, and 5%l-alanine - DNP 2,4 dinitrophenyl - BGG bovine gamma globulin - FCS fetal calf serum - PWBC peripheral white blood cell - SWBC spleen white blood cell - T cell thymus-derived lymphocyte - B cell bone marrow-derived lymphocyte     

Lymphoma induced by herpesvirus: Resistance associated with a major histocompatibility gene

Studies with crosses of inbred chicken lines demonstrate that resistance to Marek's disease, a herpesvirus-induced lymphoma of chickens, is associated with an allele (B ²¹) of the major histocompatibility locus (theB locus). TheB ²¹ allele is thus the first genetic marker for resistance to herpesvirus-induced neoplastic disease, and our studies suggest the means whereby similar associations might be found in man.     

Electrophoretic analyses of proteins,peroxidases, and phosphatases of single and mated cultures of Arthroderma benhamiae

Zusammenfassung Extrakte 26 Tage alter Kulturen der (+)- und (–),Stämme vonArthroderma benhamiae (UAMH 2822, 2823) und ihre befruchtete Kreuzung (2822 x 2823) wurden mittels der Polyacrylamide-Gel Elektrophorese Methode auf ihre Proteine, Phosphatasen und Peroxidasen untersucht. Sowohl die (+)- wie auch die (–)-Stämme zeigten 8 Proteinbande, aber die mit Gymnothecien gekreuzten Kulturen zeigten nur 6 Bande. Wenn jedoch die Proteinprofile dieser zwei entgegengesetzten Paarungstypen und befruchteten Gymnothecien miteinander verglichen wurden, wurden Unterschiede in der Lage und Färbungsintensität einiger Bande beobachtet. Die säurehaltigen und alkalischen Phosphatasemuster der (+)- und (–)-Stämme waren ziemlich ähnlich, aber unterschieden sich von den Mustern gekreuzter, befruchteter Gymnothecienkulturen. Peroxidase Isozyme wurden in keinen der beiden Paarungstypen oder in den gekreuzten Gymnothecienkulturen entdeckt.     

Immobilization of lymphocytes at surfaces by lectins

Phytohemagglutinin (PHA) and Concanavalin A (ConA) cause normal chicken lymphocytes to adhere to glass and plastic surfaces. Pokeweed mitogen (PWM) does not cause adherence. The effect of ConA was studied in detail. The reaction begins within 15 min at 25 °C and proceeds to completion by 2 h. It is independent of pH and resembles in this respect the spontaneous adherence which can occur in protein-depleted suspensions of chicken lymphocytes. It is distinguished from spontaneous adherence by conducting the reaction in 1% or more serum protein; high concentrations exert a slight restraint, which can be overcome by increasing the concentration of ConA. The reaction is slightly greater at high cell concentrations, is inhibited by 3 mM sodium cyanide, and is effectively blocked by 3 mM iodoacetamide and the α-methyl- -glycosides of glucose and mannose. The reaction is not affected by 2-deoxy- -glucose or N-acetyl glucosamine. Adherent lymphocytes detach when the lectin solution is replaced with lectin-free saline; they readhere when reexposed to ConA or to alloantibody directed against lymphocyte surface antigen. At low concentrations of ConA the large lymphocytes of the bursa of Fabricius adhere more rapidly than the small lymphocytes of the blood and thymus. Mouse lymph node lymphocytes adhere in the same manner as small chicken lymphocytes.     

SEEDS AND EMBRYOS OF ARAUCARIA MIRABILIS

Seeds and embryos contained within the silicified ovuliferous cone Araucaria mirabilis from the Cerro Cuadrado petrified forest are described. One wingless seed, 0.8–1.3 cm in length and 0.2–0.6 cm in width, is embedded in each ovuliferous scale. Seeds show a three-layered integument and a prominent wavy nucellus which is attached basally to the endotesta. The megagametophyte contains cellular inclusions that may represent starch grains. Ovule vascularization is complex and appears most similar to that of Araucaria bidwillii. Embryos 2 mm long and 0.25 mm wide appear to be in a telo-stage period of development. Shoot apex, cotyledons, root meristem, and calyptroperiblem are present in the embryos in which vascular tissues and secretory elements were beginning to differentiate at the time of fossilization. Embryo ontogeny is considered in light of stages encountered in extant gynmosperm taxa. The absence of the microgametophyte phase in the Cerro Cuadrado collection is discussed.     

The breakthrough paradox: How focusing on one form of innovation jeopardizes the advancement of science

Research needs a balance of risk‐taking in “breakthrough projects” and gradual progress. For building a sustainable knowledge base, it is indispensable to provide support for both. Subject Categories: Careers, Economics, Law & Politics, Science Policy & Publishing

Science is about venturing into the unknown to find unexpected insights and establish new knowledge. Increasingly, academic institutions and funding agencies such as the European Research Council (ERC) explicitly encourage and support scientists to foster risky and hopefully ground‐breaking research. Such incentives are important and have been greatly appreciated by the scientific community. However, the success of the ERC has had its downsides, as other actors in the funding ecosystem have adopted the ERC’s focus on “breakthrough science” and respective notions of scientific excellence. We argue that these tendencies are concerning since disruptive breakthrough innovation is not the only form of innovation in research. While continuous, gradual innovation is often taken for granted, it could become endangered in a research and funding ecosystem that places ever higher value on breakthrough science. This is problematic since, paradoxically, breakthrough potential in science builds on gradual innovation. If the value of gradual innovation is not better recognized, the potential for breakthrough innovation may well be stifled.

While continuous, gradual innovation is often taken for granted, it could become endangered in a research and funding ecosystem that places ever higher value on breakthrough science.

Concerns that the hypercompetitive dynamics of the current scientific system may impede rather than spur innovative research have been voiced for many years (Alberts et al, 2014). As performance indicators continue to play a central role for promotions and grants, researchers are under pressure to publish extensively, quickly, and preferably in high‐ranking journals (Burrows, 2012). These dynamics increase the risk of mental health issues among scientists (Jaremka et al, 2020), dis‐incentivise relevant and important work (Benedictus et al, 2016), decrease the quality of scientific papers (Sarewitz, 2016) and induce conservative and short‐term thinking rather than risk‐taking and original thinking required for scientific innovation (Alberts et al, 2014; Fochler et al, 2016). Against this background, strong incentives for fostering innovative and daring research are indispensable.