Literature DB >> 8755609

The whistle and the rattle: the design of sound producing muscles.

L C Rome1, D A Syme, S Hollingworth, S L Lindstedt, S M Baylor.   

Abstract

Vertebrate sound producing muscles often operate at frequencies exceeding 100 Hz, making them the fastest vertebrate muscles. Like other vertebrate muscle, these sonic muscles are "synchronous," necessitating that calcium be released and resequestered by the sarcoplasmic reticulum during each contraction cycle. Thus to operate at such high frequencies, vertebrate sonic muscles require extreme adaptations. We have found that to generate the "boatwhistle" mating call (approximately 200 Hz), the swimbladder muscle fibers of toadfish have evolved (i) a large and very fast calcium transient, (ii) a fast crossbridge detachment rate, and (iii) probably a fast kinetic off-rate of Ca2+ from troponin. The fibers of the shaker muscle of rattlesnakes have independently evolved similar traits, permitting tail rattling at approximately 90 Hz.

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Year:  1996        PMID: 8755609      PMCID: PMC38881          DOI: 10.1073/pnas.93.15.8095

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  27 in total

1.  Editorial.

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Journal:  Biophys J       Date:  1993-07       Impact factor: 4.033

2.  Myosin alkali light chain and heavy chain variations correlate with altered shortening velocity of isolated skeletal muscle fibers.

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Journal:  J Biol Chem       Date:  1988-06-25       Impact factor: 5.157

3.  How fish power swimming.

Authors:  L C Rome; D Swank; D Corda
Journal:  Science       Date:  1993-07-16       Impact factor: 47.728

4.  100 Hz is not the upper limit of synchronous muscle contraction.

Authors:  D Young; R K Josephson
Journal:  Nature       Date:  1984 May 17-23       Impact factor: 49.962

Review 5.  Thermogenesis in muscle.

Authors:  B A Block
Journal:  Annu Rev Physiol       Date:  1994       Impact factor: 19.318

6.  Dendritic morphology of visual callosal neurons in the golden hamster.

Authors:  Y C Diao; K F So
Journal:  Brain Behav Evol       Date:  1991       Impact factor: 1.808

7.  The influence of free calcium on the maximum speed of shortening in skinned frog muscle fibres.

Authors:  F J Julian; L C Rome; D G Stephenson; S Striz
Journal:  J Physiol       Date:  1986-11       Impact factor: 5.182

8.  Modulation of Ca2+ exchange with the Ca(2+)-specific regulatory sites of troponin C.

Authors:  J D Johnson; R J Nakkula; C Vasulka; L B Smillie
Journal:  J Biol Chem       Date:  1994-03-25       Impact factor: 5.157

9.  The mechanical properties of fast and slow skeletal muscles of the mouse in relation to their locomotory function.

Authors:  R S James; J D Altringham; D F Goldspink
Journal:  J Exp Biol       Date:  1995-02       Impact factor: 3.312

10.  Thermal dependence of contractile properties of skeletal muscle from the lizard Sceloporus occidentalis with comments on methods for fitting and comparing force-velocity curves.

Authors:  R L Marsh; A F Bennett
Journal:  J Exp Biol       Date:  1986-11       Impact factor: 3.312
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  67 in total

1.  Shape, size, and distribution of Ca(2+) release units and couplons in skeletal and cardiac muscles.

Authors:  C Franzini-Armstrong; F Protasi; V Ramesh
Journal:  Biophys J       Date:  1999-09       Impact factor: 4.033

2.  Alternative splicing, muscle calcium sensitivity, and the modulation of dragonfly flight performance.

Authors:  J H Marden; G H Fitzhugh; M R Wolf; K D Arnold; B Rowan
Journal:  Proc Natl Acad Sci U S A       Date:  1999-12-21       Impact factor: 11.205

3.  Superfast contractions without superfast energetics: ATP usage by SR-Ca2+ pumps and crossbridges in toadfish swimbladder muscle.

Authors:  L C Rome; A A Klimov
Journal:  J Physiol       Date:  2000-07-15       Impact factor: 5.182

4.  Intracellular Ca(2+) release as irreversible Markov process.

Authors:  Juliana Rengifo; Rafael Rosales; Adom González; Heping Cheng; Michael D Stern; Eduardo Ríos
Journal:  Biophys J       Date:  2002-11       Impact factor: 4.033

5.  How to make rapid eye movements "rapid": the role of growth factors for muscle contractile properties.

Authors:  Tian Li; Cheng-Yuan Feng; Christopher S von Bartheld
Journal:  Pflugers Arch       Date:  2011-01-29       Impact factor: 3.657

6.  Sarcoplasmic reticulum calcium release compared in slow-twitch and fast-twitch fibres of mouse muscle.

Authors:  S M Baylor; S Hollingworth
Journal:  J Physiol       Date:  2003-06-17       Impact factor: 5.182

7.  Neuromuscular control of wingbeat kinematics in Anna's hummingbirds (Calypte anna).

Authors:  Douglas L Altshuler; Kenneth C Welch; Brian H Cho; Danny B Welch; Amy F Lin; William B Dickson; Michael H Dickinson
Journal:  J Exp Biol       Date:  2010-07-15       Impact factor: 3.312

8.  Subglottal pressure, tracheal airflow, and intrinsic laryngeal muscle activity during rat ultrasound vocalization.

Authors:  Tobias Riede
Journal:  J Neurophysiol       Date:  2011-08-10       Impact factor: 2.714

9.  Comparative physiology of vocal musculature in two odontocetes, the bottlenose dolphin (Tursiops truncatus) and the harbor porpoise (Phocoena phocoena).

Authors:  Nicole M Thometz; Jennifer L Dearolf; Robin C Dunkin; Dawn P Noren; Marla M Holt; Olivia C Sims; Brandon C Cathey; Terrie M Williams
Journal:  J Comp Physiol B       Date:  2017-05-31       Impact factor: 2.200

10.  Decrease in muscle contraction time complements neural maturation in the development of dynamic manipulation.

Authors:  Sudarshan Dayanidhi; Jason J Kutch; Francisco J Valero-Cuevas
Journal:  J Neurosci       Date:  2013-09-18       Impact factor: 6.167
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