Roles of Polymerization Dynamics, Opposed Motors, and a Tensile Element in Governing the Length of Xenopus Extract Meiotic Spindles | Zendy

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Roles of Polymerization Dynamics, Opposed Motors, and a Tensile Element in Governing the Length of Xenopus Extract Meiotic Spindles

Author(s) -

Tim Mitchison,

Paul S. Maddox,

J. Gaetz,

A. Groen,

M. Shirasu,

A. Desai,

E. D. Salmon,

T. M. Kapoor

Publication year - 2005

Publication title -

carolina digital repository (university of north carolina at chapel hill)

Language(s) - English

DOI - 10.17615/6rac-2143

Subject(s) - xenopus , element (criminal law) , meiosis , dynamics (music) , polymerization , finite element method , ultimate tensile strength , materials science , chemistry , physics , composite material , engineering , structural engineering , political science , polymer , law , acoustics , biochemistry , gene

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