Studies on the Anomalous Viscosity and Flow-Birefringence of Protein Solutions

Dainty, Mary; Kleinzeller, A.; Lawrence, A. S. C.; Miall, Margaret; Needham, Joseph; Needham, Dorothy M.; Shen, Shih‐Chang

doi:10.1085/jgp.27.4.355

Cited by 108 publications

(8 citation statements)

References 7 publications

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“…This limitation in the behavior of Engelhardt's fiber may be due to the operations required to extract myosin and form it into threads. Our assumption is, furthermore, in direct contradiction to the view of the Needham group's work (Dainty et al, 1944), which led to the inference that contracting myosin is represented by the M,-ATP combination. This work, however, was performed on myosin rnicellae in solution, and, as the Needham paper states, "It must be remembered that, in vitro, the contraction of the myosin particles does no work, and the conditions are therefore very different from those in vi'uo.''…”

Section: A Theory Of Mechano-chemical Couplingcontrasting

confidence: 83%

Latency Relaxation and a Theory of Muscular Mechano‐chemical Coupling

Sandow

1947

Annals of the New York Academy of Sciences

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The purpose of this paper, broadly speaking, is two-fold. First, there will be discussed certain aspects of the latency relaxation (LR), the minute pre-contractile elongation of a stimulated muscle that occurs in the latter half of the latent period, a phenomenon first observed by Rauh (1922). Evidence will be presented to show that the latency relaxation is a real lengthening of the muscle's contractile material that intervenes between the instant of stimulation and the usual shortening or tension development in a contraction. Further, certain studies of the LR will be considered that suggest it is an indication of a process by which myosin is activated for contraction. The second part of this paper will be concerned with a kinetic theory of mechano-chemical coupling which, in part, is based on the particular significance assigned to the LR.The LR was discovered by Rauh in the course of some experiments designed to settle the then almost 70-year-old question as to whether the latent period exists at all. To forestall criticism that the demonstration of a mechanical latency merely represented an inertial delay in the response of the registering device, Rauh used an extremely sensitive mechano-optical isometric lever system and photographically recorded the mechanical change during only the first few milliseconds of the twitch response of initially tensed frog sartorii and gastrocnemii. To his astonishment, his records not only exhibited a true delay in the onset of tension development, but they also included a transient negative tension change (the LR) during the latter half of the latent period. METHODModern electronic methods permit us to achieve vast improvement over Rauh's method. In the work to be reported here, use is made of the piezo-electric cathode-ray oscillographic technique described fully elsewhere (Sandow, 1944). An outline of the method will be given here. A muscle, generally the frog sartorius, is supported inside a moist chamber and, under a few grams resting tension, is connected to the stylus of the piezo-electric pickup, which is a common type of (895)

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Section: A Theory Of Mechano-chemical Couplingcontrasting

confidence: 83%

Latency Relaxation and a Theory of Muscular Mechano‐chemical Coupling

Sandow

1947

Annals of the New York Academy of Sciences

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“…In the 1930s, studies of myosin revealed its elongated shape [] and ATPase activity []. Importantly, the conformation of myosin, measured by its viscosity, was shown to reversibly change upon addition of ATP, which suggested “ for the first time ” that myosin was a “ contractible enzyme ” []. In the following years, it became apparent that one of the previously described forms of myosin, “Myosin B”, was likely a complex of actin and myosin, which physically interact to yield actomyosin [] (Fig.…”

Section: Interactions Give Structure and Regulate Enzymesmentioning

confidence: 99%

History of protein–protein interactions: From egg‐white to complex networks

2012

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Today, it is widely appreciated that protein-protein interactions play a fundamental role in biological processes. This was not always the case. The study of protein interactions started slowly and evolved considerably, together with conceptual and technological progress in different areas of research through the late 19th and the 20th centuries. In this review, we present some of the key experiments that have introduced major conceptual advances in biochemistry and molecular biology, and review technological breakthroughs that have paved the way for today's systems-wide approaches to protein-protein interaction analysis.

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“…C The physical properties of myosin threads (Engelhardt, Lyubimova & Meitina, 1941) and of myosin in solution (Needham, Shen, Needham & Lawrence, 1941;Dainty et al 1944) are drastically altered when ATP is present. D KUhne's 'myosin' can be separated into two proteins, 'actin', and what is now known as myosin (F. B. Straub, 1943).…”

Section: The Mechanism Of Contractionmentioning

confidence: 99%