RT @oeskildjensen: Curvature-sensitive kinesin binding can explain microtubule ring formation and reveals chaotic dynamics in a mathematica…
RT @oeskildjensen: Curvature-sensitive kinesin binding can explain microtubule ring formation and reveals chaotic dynamics in a mathematica…
RT @oeskildjensen: Curvature-sensitive kinesin binding can explain microtubule ring formation and reveals chaotic dynamics in a mathematica…
RT @oeskildjensen: Curvature-sensitive kinesin binding can explain microtubule ring formation and reveals chaotic dynamics in a mathematica…
RT @oeskildjensen: Curvature-sensitive kinesin binding can explain microtubule ring formation and reveals chaotic dynamics in a mathematica…
RT @oeskildjensen: Curvature-sensitive kinesin binding can explain microtubule ring formation and reveals chaotic dynamics in a mathematica…
Curvature-sensitive kinesin binding can explain microtubule ring formation and reveals chaotic dynamics in a mathematical model: in Bull. Math. Bio. at https://t.co/Ya0A8Muxyq @Poppi62 https://t.co/3Yz5SXIjJy