3.6.4.B1: kinesin K16

This is an abbreviated version!
For detailed information about kinesin K16, go to the full flat file.

Word Map on EC 3.6.4.B1

3.6.4.B1

microtubule

cargo

testis-specific

crem

microtubule-dependent

plant-specific

kinesin-related

phragmoplast

phosphorylation-independent

male-specific

analysis

medicine

Reaction

Synonyms

AtPAKRP1, AtPAKRP1L, GhKCH1, K16MD, KCBP, KIF 14, KIF18A, KIF4, KIF5, KIF5B, KIF5C, KIFC5A, kinesin K-16, kinesin K16, kinesin K16MD, kinesin KIF17b, kinesin kif5c, kinesin superfamily protein 5B, kinesin-1 motor protein, kinesin-like calmodulin-binding protein, KLP-6 kinesin, MS-KIF18A

ECTree

3 Hydrolases

3.6 Acting on acid anhydrides

3.6.4 Acting on acid anhydrides to facilitate cellular and subcellular movement

3.6.4.B1 kinesin K16

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Results	in table
5	Activating Compound
2	Application
9	Cloned(Commentary)
3	Crystallization (Commentary)
5	Disease/ Diagnostics
2	Inhibitors
18	Localization
2	Molecular Weight [Da]
11	Natural Substrates/ Products (Substrates)
25	Organism
2	pH Optimum
4	Protein Variants
2	Purification (Commentary)
1	Reaction
25	Reference
14	Source Tissue
2	Specific Activity [micromol/min/mg]
18	Substrates and Products (Substrate)
10	Subunits
23	Synonyms
1	Temperature Optimum [°C]

Crystallization

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Crystallization on EC 3.6.4.B1 - kinesin K16

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K16MD, the rice kinesin motor domain complexed with Mg-ADP is crystallized by the sitting drop vapor diffusion method at 19.85°C, resulting in a 2.4 A resolution. The ADP-free form of the novel rice-plant-specific kinesin K16 is very stable, whereas the ADP-free form of conventional kinesins is labile. The overall structure of K16MD is similar to that of conventional kinesin motors domains, as expected from the high amino acid sequence similarity of 43.2%. The position and length of the L5, L11m and L12 loops, which are key functional regions, are different from those observed in conventional kinesins. Moreover, the neck-lonker region of the ADP-bound K16MD shows an ordered confirmation at a position quite different from that of conventional kinesins

Oryza sativa

711116

crystallized at 4°C using sitting drop vapor diffusion method and 20% polyethylene glycol 3350 in 0.2 M disodium hydrogen phosphate, 2.3 A resolution

Solanum tuberosum

669229

four structures of the fragment encoding the potato KCBP from amino acids 884-1252, which include the motor core and the C-terminal extension containing the calmodulin-binding motif. The kinesin motor is in the ATP-like conformation, but loop 11 exhibits different conformational states, both ordered and disordered. When structured, loop 11 adds three additional helical turns to the N-terminal part of the following helix alpha4. Positioning of the calmodulin binding helix is not decided by crystal packing forces but is determined by the conformational state of the motor

Solanum tuberosum

688699