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Query: EC:3.6.4.4 (
kinesin
)
5,033
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Previous studies with monoclonal antibodies indicate that sea urchin
kinesin
contains two heavy chains arranged in parallel such that their N-terminal ends fold into globular mechanochemical heads attached to a thin stalk ending in a bipartite tail [Scholey et al., 1989]. In the present, complementary study, we have used the monoclonal antikinesin, SUK4, to probe the quaternary structure of sea urchin (
Strongylocentrotus purpuratus
)
kinesin
. Kinesin prepared from sea urchin cytosol sedimented at 9.6 S on sucrose density gradients and consisted of 130-kd heavy chains plus an 84-kd/78 kd doublet (1 mol heavy chain: 1 mol doublet determined by gel densitometry). Low levels of 110-kd and 90-kd polypeptides were sometimes present as well. The 84-kd/78 kd polypeptides are thought to be light chains because they were precipitated from the
kinesin
preparation at a stoichiometry of one mol doublet per 1 mol heavy chain using SUK4-Sepharose immunoaffinity resins. The 110-kd and 90-kd peptides, by contrast, were removed using this immunoadsorption method. SUK4-Sepharose immunoaffinity chromatography was also used to purify the 130-kd heavy chain and 84-kd/78-kd doublet (1 mol heavy chain: 1 mol doublet) directly from sea urchin egg cytosolic extracts, and from a MAP (microtubule-associated protein) fraction eluted by ATP from microtubules prepared in the presence of AMPPNP but not from microtubules prepared in ATP. The finding that sea urchin
kinesin
contains equimolar quantities of heavy and light chains, together with the aforementioned data on
kinesin
morphology, suggests that native sea urchin
kinesin
is a tetramer assembled from two light chains and two heavy chains.
...
PMID:Light chains of sea urchin kinesin identified by immunoadsorption. 214 20
We have developed a biochemical screen for the identification of
kinesin
-related proteins (KRPs) in their natural host cells and the subsequent purification of these KRPs as native, functional multimeric complexes. The screen involves immunoblotting with pan-
kinesin
peptide antibodies that recognize several presumptive KRPs in cytosolic extracts; the antibodies have been used so far to monitor the purification of two bona fide kinesin-related motor protein complexes. These two KRPs were purified via AMPPNP-induced microtubule affinity binding, ATP-induced elution from AMPPNP microtubules, gel filtration fractionation, and sucrose density gradient centrifugation. KRP(85/95) from sea urchin (
Strongylocentrotus purpuratus
) eggs behaves as a heterotrimeric complex of 85-, 95-, and 115-kDa subunits that moves toward the plus ends of microtubule tracks at approximately 0.4 micron/s. KRP(130) from fruitfly (Drosophila melanogaster) embryos behaves as a homotetrameric complex of four 130-kDa subunits that moves toward the plus ends of microtubule tracks at approximately 0.04 micron/s. To our knowledge, KRP(85/95) and KRP(130) are the only KRPs to have been purified from native tissue as functional multimeric motor complexes.
...
PMID:Purification of kinesin-related protein complexes from eggs and embryos. 778 59
We have deduced the amino acid sequences of four sea urchin (
Strongylocentrotus purpuratus
; SP) kinesin light chain (KLC) isoforms (SPKLC 1-4) and compared them to rat brain light chain sequences. Examination of the SPKLC open reading frames (SPKLC1, 649; SPKLC2, 677; SPKLC3, 686; and SPKLC4, 451 amino acid residues) reveals that the first 500 or so residues of the KLCs are highly conserved but the C-terminal ends of rat and sea urchin light chains are divergent; SPKLCs 1, 2 and 3 share a highly basic, 86 residue C-terminal segment that is missing from the shorter rat light chains and SPKLC4. The insertion of 28 and 37 residue segments at residue 563 of SPKLCs 2 and 3, respectively, gives rise to sequence heterogeneity at the C-terminal ends of the sea urchin KLCs. C-terminal sequence differences between light chains may provide inter- and intraspecies differences in the functional properties of the presumptive cargo attachment elements of
kinesin
.
...
PMID:Sequences of sea urchin kinesin light chain isoforms. 849 62
The heterotrimeric
kinesin
-II holoenzyme purified from sea urchin (
Strongylocentrotus purpuratus
) eggs is assembled from two heterodimerized
kinesin
-related motor subunits of known sequence, together with a third, previously uncharacterized 115-kD subunit, SpKAP115. Using monospecific anti-SpKAP115 antibodies we have accomplished the molecular cloning and sequencing of the SpKAP115 subunit. The deduced sequence predicts a globular 95-kD non-motor "accessory" polypeptide rich in alpha-helical segments that are generally not predicted to form coiled coils. Electron microscopy of individual rotary shadowed
kinesin
-II holoenzymes also suggests that SpKAP115 is globular, with a somewhat asymmetric morphology. Moreover, the SpKAP115 subunit lies at one end of the 51-nm-long
kinesin
-II complex, being separated from the two presumptive motor domains by a approximately 26-nm-long rod, in a manner similar to the light chains (KLCs) of
kinesin
itself. This indicates that SpKAP115 and the KLCs may have analogous functions, yet SpKAP115 does not display significant sequence similarity with the KLCs. The results show that
kinesin
and
kinesin
-II are assembled from highly divergent accessory polypeptides together with
kinesin
related motor subunits (KRPs) containing conserved motor domains linked to divergent tails. Despite the lack of sequence conservation outside the motor domains, there is striking conservation of the ultrastructure of the
kinesin
and
kinesin
-II holoenzymes.
...
PMID:Sequence and submolecular localization of the 115-kD accessory subunit of the heterotrimeric kinesin-II (KRP85/95) complex. 863 15
Kinesin-like calmodulin-binding protein (KCBP), a member of the Kinesin-14 family, is a C-terminal microtubule motor with three unique domains including a myosin tail homology region 4 (MyTH4), a talin-like domain, and a calmodulin-binding domain (CBD). The MyTH4 and talin-like domains (found in some myosins) are not found in other reported kinesins. A calmodulin-binding
kinesin
called
kinesin
-C (SpKinC) isolated from sea urchin (
Strongylocentrotus purpuratus
) is the only reported
kinesin
with a CBD. Analysis of the completed genomes of Homo sapiens, Saccharomyces cerevisiae, Caenorhabditis elegans, Drosophila melanogaster, and a red alga (Cyanidioschyzon merolae 10D) did not reveal the presence of a KCBP. This prompted us to look at the origin of KCBP and its relationship to SpKinC. To address this, we isolated KCBP from a gymnosperm, Picea abies, and a green alga, Stichococcus bacillaris. In addition, database searches resulted in identification of KCBP in another green alga, Chlamydomonas reinhardtii, and several flowering plants. Gene tree analysis revealed that the motor domain of KCBPs belongs to a clade within the Kinesin-14 (C-terminal motors) family. Only land plants and green algae have a
kinesin
with the MyTH4 and talin-like domains of KCBP. Further, our analysis indicates that KCBP is highly conserved in green algae and land plants. SpKinC from sea urchin, which has the motor domain similar to KCBP and contains a CBD, lacks the MyTH4 and talin-like regions. Our analysis indicates that the KCBPs, SpKinC, and a subset of the
kinesin
-like proteins are all more closely related to one another than they are to any other kinesins, but that either KCBP gained the MyTH4 and talin-like domains or SpKinC lost them.
...
PMID:Origin and evolution of Kinesin-like calmodulin-binding protein. 1595 83
