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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)
Kinesins are tetrameric motor molecules, consisting of two
kinesin
heavy chains (KHCs) and two
kinesin
light chains (KLCs) that are involved in transport of cargo along microtubules. The function of the light chain may be in cargo binding and regulation of
kinesin
activity. In the mouse, two KLC genes, KLC1 and KLC2, had been identified. KLC1 plays a role in neuronal transport, and KLC2 appears to be more widely expressed. We report the cloning from a testicular cDNA expression library of a mammalian light chain,
KLC3
. The
KLC3
gene is located in close proximity to the ERCC2 gene.
KLC3
can be classified as a genuine light chain: it interacts in vitro with the KHC, the interaction is mediated by a conserved heptad repeat sequence, and it associates in vitro with microtubules. In mouse and rat testis,
KLC3 protein
expression is restricted to round and elongating spermatids, and
KLC3
is present in sperm tails. In contrast, KLC1 and KLC2 can only be detected before meiosis in testis. Interestingly, the expression profiles of the three known KHCs and
KLC3
differ significantly: Kif5a and Kif5b are not expressed after meiosis, and Kif5c is expressed at an extremely low level in spermatids but is not detectable in sperm tails. Our characterization of the
KLC3
gene suggests that it carries out a unique and specialized role in spermatids.
...
PMID:Kinesin light-chain KLC3 expression in testis is restricted to spermatids. 1131 35
Conventional
kinesin
I motor molecules are heterotetramers consisting of two
kinesin
light chains (KLCs) and two
kinesin
heavy chains. The interaction between the heavy and light chains is mediated by the KLC heptad repeat (HR), a leucine zipper-like motif. Kinesins bind to microtubules and are involved in various cellular functions, including transport and cell division. We recently isolated a novel KLC gene, klc3. klc3 is the only known KLC expressed in post-meiotic male germ cells. A monoclonal anti-
KLC3
antibody was developed that, in immunoelectron microscopy, detects
KLC3 protein
associated with outer dense fibers (ODFs), unique structural components of sperm tails. No significant binding of
KLC3
with microtubules was observed with this monoclonal antibody. In vitro experiments showed that
KLC3
-ODF binding occurred in the absence of
kinesin
heavy chains or microtubules and required the
KLC3
HR. ODF1, a major ODF protein, was identified as the
KLC3
binding partner. The ODF1 leucine zipper and the
KLC3
HR mediated the interaction. These results identify and characterize a novel interaction between a KLC and a non-microtubule macromolecular structure and suggest that
KLC3
could play a microtubule-independent role during formation of sperm tails.
...
PMID:Association of kinesin light chain with outer dense fibers in a microtubule-independent fashion. 1259 6
Conventional
kinesin
is a motor protein complex including two heavy chains and two light chains (KLC). Junco et al. (Junco, A., Bhullar, B., Tarnasky, H.A. and van der Hoorn, F.A., 2001. Kinesin light-chain
KLC3
expression in testis is restricted to spermatids. Biol. Reprod. 64, 1320-1330). recently reported the isolation of a novel KLC gene, klc3. In the present report, immunohistochemistry has been used to characterize the expression of
KLC3
in the cerebella of normal and scrambler (scm) mutant mice. In cryostat sections through the cerebellum of the normal adult mouse immunoperoxidase stained for
KLC3
, reaction product is deposited in the nuclei and somata of deep cerebellar nuclear neurons. No other structures are stained in the cerebellum. Strong and specific
KLC3
expression is observed in the adult cerebellum in all three major cerebellar nuclei--medial, interposed, and lateral. Double immunofluorescence studies reveal that
KLC3
immunoreactivity is colocalized with both endosomes and GW bodies.
KLC3
immunohistochemistry has been exploited to study the organization of the cerebellar nuclei in scrambler mice, in which disruption of the mdab1 gene results in severe foliation defects due to Purkinje cell ectopia, with most Purkinje cells clumped in centrally located clusters. Despite the severe failure of Purkinje cell migration, the cerebellar nuclei appear normal in scrambler mutant mice, suggesting that their topography is dependent neither on normal Purkinje cell positioning nor the Reelin signaling pathway.
...
PMID:The anatomy of the cerebellar nuclei in the normal and scrambler mouse as revealed by the expression of the microtubule-associated protein kinesin light chain 3. 1744 64
Kinesins are essential for the proper function of many types of polar cells, including epithelial cells, neurons, and sperm. Spermatogenesis is closely associated with many different kinesins. These kinesins participate in several fundamental processes, including mitotic and meiotic division, essential organelle transport, and the biogenesis of peculiar structures for the formation of mature sperm. Kinesin-13,
kinesin
-8, and the chromokinesin families cooperate to ensure normal sister chromatid congression and segregation. The
kinesin
-8 family motor KIF18A,
kinesin
-12 motors PAKRP/kinesin12A and PAKRP1L/kinesin12B, and other
kinesin
-like motors are essential in the process of homologous chromosome pairing and in the separation to create haploid gametes. During spermiogenesis, the responsibility of a handful of
kinesin
members lies in the maturation of spermatids into mature, motile, and intact spermatozoa. Such roles are completed upon the release of viable and functional sperm into the lumen of seminiferous tubules. In this process, KIFC1, KIF5C, KRP3A, and KRP3B may be involved in acrosome biogenesis; KIFC1, KIFC5, CHO2, KIF17b, and KIF3A probably contribute to nuclear shaping; KIF17b, KIF3A, and
KLC3
are implicated in the tail formation process; and KIF20 and KRP3 likely participate in sperm translocation. KIF17b also exhibited postmeiosis transcriptional activities that are critical for the dramatic alterations observed in nuclear and cytoplasmic structures. This review summarizes the roles of kinesins during mitosis, meiosis, and spermiogenesis, and proposes several important issues for further investigation.
...
PMID:Kinesins in spermatogenesis. 2820 33
