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Ancient protein offers clues to killer condition
May 13, 2008More than 600 million years of evolution has taken two unlikely distant cousins - turkeys and scallops - down very different physical paths from a common ancestor. But University of Leeds researchers have found that a motor protein, myosin 2, remains structurally identical in both creatures.
The discovery suggests that the tiny motor protein is much more important than previously thought - and for humans it may even hold a key to understanding potentially fatal conditions such as aneurisms.
Says Professor Knight of the University's Faculty of Biological Sciences: "This is an astonishing discovery. Myosin 2's function is to make the smooth muscle in internal organs tense and relax involuntarily. These creatures have completely different regulatory mechanisms: the myosin in a turkey's gizzards allows it to 'chew' food in the absence of teeth, while that in a scallop enables it to swim. Yet they have exactly the same structure."
Myosin molecules generate tension in smooth muscle by adhering to form a filament, which grabs hold of a neighbouring filament, and relaxes by letting go. When the muscle is in a relaxed state, myosin molecule folds itself up into a compact structure.
This folded structure allows the smooth muscles to adjust to being different lengths so they can operate over a large distance, such as the bladder or the uterus expanding and contracting. In contrast, skeletal muscles operate over a narrow range, defined by how much joints can move.
Professor Knight says: "We were puzzled to find that the scallop's myosin 2 had retained its ability to fold and unfold, as they don't need to accommodate a large range of movement. After all, the scallop only moves its shell a little when it swims.
"In evolution, if something is not essential to the survival of an organism, it is not conserved. The fact that the scallop has retained all the functions of its myosin 2 over hundreds of millions of years tells us that this folding is of fundamental functional importance in muscle and that we don't know as much about it as we need to know."
In humans, any changes in the composition of myosin within the muscles can be fatal. For example, a swelling in the walls of an artery can cause a brain aneurism, while an enlarged heart can lead to cardiac arrest in a young, fit person.
Says Professor Knight: "Because these malfunctions occur in our internal organs, we are often unaware of what is going wrong until it's too late. Learning how to control myosin, how to move it around without disturbing the delicate balance between filaments and individual molecules, is an emerging area and one we are only just beginning to tackle."
University of Leeds
Myosin molecules generate tension in smooth muscle by adhering to form a filament, which grabs hold of a neighbouring filament, and relaxes by letting go. When the muscle is in a relaxed state, myosin molecule folds itself up into a compact structure.
This folded structure allows the smooth muscles to adjust to being different lengths so they can operate over a large distance, such as the bladder or the uterus expanding and contracting. In contrast, skeletal muscles operate over a narrow range, defined by how much joints can move.
Professor Knight says: "We were puzzled to find that the scallop's myosin 2 had retained its ability to fold and unfold, as they don't need to accommodate a large range of movement. After all, the scallop only moves its shell a little when it swims.
"In evolution, if something is not essential to the survival of an organism, it is not conserved. The fact that the scallop has retained all the functions of its myosin 2 over hundreds of millions of years tells us that this folding is of fundamental functional importance in muscle and that we don't know as much about it as we need to know."
In humans, any changes in the composition of myosin within the muscles can be fatal. For example, a swelling in the walls of an artery can cause a brain aneurism, while an enlarged heart can lead to cardiac arrest in a young, fit person.
Says Professor Knight: "Because these malfunctions occur in our internal organs, we are often unaware of what is going wrong until it's too late. Learning how to control myosin, how to move it around without disturbing the delicate balance between filaments and individual molecules, is an emerging area and one we are only just beginning to tackle."
University of Leeds
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Myosins: A Superfamily of Molecular Motors (Proteins and Cell Regulation) by Lynne M. Coluccio (Author), Lynne M. Coluccio (Editor) This volume highlights the remarkable superfamily of molecular motors called myosins, which are involved in such diverse cellular functions as muscle contraction, intracellular transport, cell migration and cell division. In a timely compilation of chapters written by some of the leading research groups in the world that have made key discoveries in the field, the current understanding of the molecular mechanisms and biological functions of these intriguing proteins is explored. The different myosin classes are compared and contrasted in the introductory chapter, as well as chapters on myosin structure; and biochemical and kinetic properties of myosins. Subsequent chapters are devoted to single classes of myosins and provide keen insight based on studies using in vitro and in... |
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My Oh Myosin Lisa Jones Bromfield (Primary Contributor) |
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Myosin Protein - LoCarb Synergistic Protein Complex, Chocolate by MetabolicDiet Myosin Protein contains a variety of the highest quality protein powder to make use of the special characteristics of each and thus enhancing their overall effect while at the same time eliminating their relative disadvantages. Because of the gentle processes used to isolate the various proteins, the formula maintains the beneficial immune, hormonal and other effects of the undenatured whey, casein, milk (containing colostrum), egg and soy proteins. The combination of whey, casein, milk, egg and soy proteins provides an optimal amino acid array that maximizes the anabolic effects of dietary proteins. For example, while whey protein increases protein synthesis better than casein, it is not as good at preventing muscle catabolism. There is also a synergistic effect from the types and... |
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Myosins (Protein Profile) by James R. Sellers (Author) Myosin are a diverse superfamily of molecular motors for translocating actin filaments or translocating vesicles or other cargo on fixed actin filaments. There are currently fifteen distinct classes in the superfamily, and this new editions provides a complete survey. It incorporates much of the latest research, including links between mutations in myosin and human diseases. |
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Suppression of basal and cytokine induced expression of MHC, ICAM 1 and B7 markers on mouse lung epithelial cells exposed to diesel exhaust particles.(myosin ... Journal of Biochemistry and Biotechnology by Rajiv K. Saxena (Author), Wanda Williams (Author), M. Ian Gilmour (Author) This digital document is an article from American Journal of Biochemistry and Biotechnology, published by Thomson Gale on September 22, 2007. The length of the article is 3644 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser. Citation Details Title: Suppression of basal and cytokine induced expression of MHC, ICAM 1 and B7 markers on mouse lung epithelial cells exposed to diesel exhaust particles.(myosin heavy chain; intracellular adhesion molecule)(Clinical report) Author: Rajiv K. Saxena Publication: American Journal of Biochemistry and Biotechnology (Magazine/Journal) Date: September 22,... | |
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ROCK- and Myosin-Dependent Matrix Deformation Enables Protease-Independent Tumor-Cell Invasion In Vivo [A short communication from: Current Biology by J.B. Wyckoff (Author), S.E. Pinner (Author), S. Gschmeissner (Author), Condee (Author) This digital document is a journal article from Current Biology, published by Elsevier in 2006. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser. Abstract: Tumor cells invading three-dimensional matrices need to remodel the extracellular matrix (ECM) in their path. Many studies have focused on the role of extracellular proteases [1, 2]; however, cells with amoeboid or rounded morphologies are able to invade even when these enzymes are inhibited [3, 4]. Here, we describe the mechanism by which cells move through a dense ECM without proteolysis. Amoeboid tumor cells generate sufficient actomyosin force to deform collagen fibers and are able to push through the ECM. Force... |
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The interaction of actin and myosin as the basic reaction in muscular contraction (Fortschritte der Zoologie) by Peter Dancker (Author) | |
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Molecular Interactions of Actin: Actin-Myosin Interaction and Actin-Based Regulation (Results and Problems in Cell Differentiation) by D.D. Thomas (Editor), C.G. dos Remedios (Editor) Volume two of a two-part text based on the Fourth Pentennial Actin Conference held at the new Sheraton Maui in Hawaii in 1997. Companion text, Volume one (Molecular Interactions of Actin: Actin Structure and Actin-Binding Proteins) was published in December 2000. |
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