Evolution of Myosin Filament Arrangements in Vertebrate Skeletal Muscle
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A survey of skeletal muscles throughout craniates shows basic kinds of myosin filament arrangement, simple-lattice and superlattice, within the A-band of each sarcomere. Distribution of simple- and superlattice arrangements across a phylogeny of craniates suggests that the superlattice arrangement is primitive and that Amia and teleosts are derived in showing simple-lattice arrangements. Two taxa examined (Scyliorhinus and Acipenser) show both lattice types within the same organism implying that there is not a simple evolutionary transformation of one to the other fiber arrangement. We discuss the possible functional significance of the different lattice types. We believe that the crossbridges may have greater competition for actin binding sites in simple-lattice muscles compared to the superlattice types.
Design Principles and Benefits of Spatially Explicit Models of Myofilament Function.
Tanner B Methods Mol Biol. 2023; 2735:43-62.
PMID: 38038843 DOI: 10.1007/978-1-0716-3527-8_4.
The vertebrate muscle superlattice: discovery, consequences, and link to geometric frustration.
Millane R, Luther P J Muscle Res Cell Motil. 2023; 44(3):153-163.
PMID: 37173591 PMC: 10541841. DOI: 10.1007/s10974-023-09642-8.
West T, Curtin N, Woledge R J Muscle Res Cell Motil. 2022; 44(3):193-199.
PMID: 36422773 PMC: 10542727. DOI: 10.1007/s10974-022-09637-x.
Geometric frustration in the myosin superlattice of vertebrate muscle.
Millane R, Wojtas D, Yoon C, Blakeley N, Bones P, Goyal A J R Soc Interface. 2021; 18(185):20210585.
PMID: 34905966 PMC: 8672065. DOI: 10.1098/rsif.2021.0585.
Mammalian muscle fibers may be simple as well as slow.
Squire J, Luther P J Gen Physiol. 2019; 151(12):1334-1338.
PMID: 31704885 PMC: 6888758. DOI: 10.1085/jgp.201912478.