Membrane-bound organelles move bidirectionally along microtubules in the freshwater ameba, Reticulomyxa. We have examined the nucleotide requirements for transport in a lysed cell model and compared them with kinesin and dynein-driven motility in other systems. Both anterograde and retrograde transport in Reticulomyxa show features characteristic of dynein but not of kinesin-powered movements: organelle transport is reactivated only by ATP and no other nucleoside triphosphates; the Km and Vmax of the ATP-driven movements are similar to values obtained for dynein rather than kinesin-driven movement; and of 15 ATP analogues tested for their ability to promote organelle transport, only 4 of them did. This narrow specificity resembles that of d...
ii We have reconstituted a simple in vitro system using only mammalian dynein and mammalian kinesin ...
Eukaryotic flagella and cilia are long rod-like extensions of cells, which play a fundamental role i...
The molecular motors kinesin and dynein drive bidirectional motility along microtubules (MTs) in mos...
Abstract. Membrane-bound organelles move bidirec-tionally along rnicrotubules in the freshwater ameb...
The substrate specificities of dynein, kinesin, and myosin substrate turnover activity and cytoskele...
Abstract. The substrate specificities of dynein, kine-sin, and myosin substrate turnover activity an...
ABSTRACT: Conventional kinesin is capable of long-range, processive movement along microtubules, a p...
Microtubules are involved in several forms of intracellular motility, including mitosis and organell...
The transport of vesicular organelles along microtubules has been well docu-mented in a variety of s...
Permeating throughout a eukaryotic cell is a lattice of filamentous tracks called microtubules, upon...
Tetrahymena cilia contain a three-headed 22S (outer arm) dynein and a single-headed 14S dynein. In t...
Kinesins are molecular motors that convert chemical energy, stored in the bonds of ATP, into product...
Kinesin and dynein are motor proteins that move in opposite directions along microtubules. In this s...
The majority of active transport in the cell is driven by three classes of molecular motors: the kin...
AbstractThere is a wealth of data suggesting that microtubules and associated motor proteins play im...
ii We have reconstituted a simple in vitro system using only mammalian dynein and mammalian kinesin ...
Eukaryotic flagella and cilia are long rod-like extensions of cells, which play a fundamental role i...
The molecular motors kinesin and dynein drive bidirectional motility along microtubules (MTs) in mos...
Abstract. Membrane-bound organelles move bidirec-tionally along rnicrotubules in the freshwater ameb...
The substrate specificities of dynein, kinesin, and myosin substrate turnover activity and cytoskele...
Abstract. The substrate specificities of dynein, kine-sin, and myosin substrate turnover activity an...
ABSTRACT: Conventional kinesin is capable of long-range, processive movement along microtubules, a p...
Microtubules are involved in several forms of intracellular motility, including mitosis and organell...
The transport of vesicular organelles along microtubules has been well docu-mented in a variety of s...
Permeating throughout a eukaryotic cell is a lattice of filamentous tracks called microtubules, upon...
Tetrahymena cilia contain a three-headed 22S (outer arm) dynein and a single-headed 14S dynein. In t...
Kinesins are molecular motors that convert chemical energy, stored in the bonds of ATP, into product...
Kinesin and dynein are motor proteins that move in opposite directions along microtubules. In this s...
The majority of active transport in the cell is driven by three classes of molecular motors: the kin...
AbstractThere is a wealth of data suggesting that microtubules and associated motor proteins play im...
ii We have reconstituted a simple in vitro system using only mammalian dynein and mammalian kinesin ...
Eukaryotic flagella and cilia are long rod-like extensions of cells, which play a fundamental role i...
The molecular motors kinesin and dynein drive bidirectional motility along microtubules (MTs) in mos...