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Query: EC:3.4.11.18 (
MAP
)
7,412
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
cDNAs encoding human and mouse
microtubule-associated protein 4
(MAP 4) were isolated. MAP 4 is encoded by a single gene. Multiple MAP 4 mRNAs are transcribed that are differentially expressed among mouse tissues. Open reading frames for the human and mouse MAP 4 clones indicate three distinct regions consisting of related sequences with different motifs. Approximately 30% of the protein is tandem related repeats of approximately 14 amino acids. Another region contains clusters of serine and proline. Four 18-mer repeats characteristic of the microtubule-binding domains of MAP 2 and tau are located at the carboxyl-terminal portion of MAP 4. Amino acid sequence analysis revealed that human and mouse MAP 4 are homologs of the bovine 190-kDa
MAP
/
MAP
U (Aizawa, H., Emori, Y., Murofushi, H., Kawasakai, H., Sakai, H., and Suzuki, K. (1990) J. Biol. Chem. 265, 13849-13855). Mouse and human MAP 4 and the bovine 190-kDa
MAP
are approximately 75% similar, indicating that these proteins are all members of the same class. Domains with extremely high conservation (greater than or equal to 88%) are: 1) the extreme amino terminus; 2) a proline-rich region between the KDM and S,P domains; 3) the microtubule-binding domain; and 4) the extreme carboxyl terminus.
...
PMID:A model for microtubule-associated protein 4 structure. Domains defined by comparisons of human, mouse, and bovine sequences. 171 85
We have examined the phosphorylation of bovine
microtubule-associated protein 4
(
MAP4
), formerly named
MAP
-U, by protein kinase C (PKC). When
MAP4
was incubated with PKC, about 1 mol of phosphate was incorporated/mol of
MAP4
. Phosphorylation of
MAP4
caused a remarkable decrease in the ability of the
MAP
to stimulate microtubule assembly.
MAP4
consists of an amino-terminal projection domain and a carboxyl-terminal microtubule-binding domain. The carboxyl-terminal domain is subdivided into a Pro-rich region and an assembly-promoting (AP) sequence region containing four tandem repeats of AP sequence that is conserved in
MAP4
, MAP2, and tau [Aizawa et al. (1990) J. Biol. Chem. 265, 13849-13855]. In order to identify the site of
MAP4
phosphorylated by PKC, a series of expressed
MAP4
fragments was prepared and treated with the kinase. A fragment corresponding to the Pro-rich region (P fragment) was phosphorylated, while fragments corresponding to the projection domain and the AP sequence region were not. In addition, chymotryptic digestion of an authentic
MAP4
prephosphorylated by PKC revealed that phosphate was incorporated almost exclusively into a 27-kDa fragment containing the carboxyl-terminal half of the Pro-rich region. We investigated the phosphorylation site in
MAP4
using the P fragment and found that Ser815 was phosphorylated almost exclusively. We conclude that the phosphorylation of a single Ser residue in the Pro-rich region negatively regulates the assembly-promoting activity of
MAP4
.
...
PMID:Site-specific phosphorylation by protein kinase C inhibits assembly-promoting activity of microtubule-associated protein 4. 189 37
Microtubule-associated protein 4
(
MAP4
) promotes MT assembly in vitro and is localized along MTs in vivo. These results and the fact that
MAP4
is the major
MAP
in nonneuronal cells suggest that
MAP4
's normal functions may include the stabilization of MTs in situ. To understand
MAP4
function in vivo, we produced a blocking antibody (Ab) to prevent
MAP4
binding to MTs. The COOH-terminal MT binding domain of
MAP4
was expressed in Escherichia coli as a glutathione transferase fusion protein and was injected into rabbits to produce an antiserum that was then affinity purified and shown to be monospecific for
MAP4
. This Ab blocked > 95% of
MAP4
binding to MTs in an in vitro assay. Microinjection of the affinity purified Ab into human fibroblasts and monkey epithelial cells abolished
MAP4
binding to MTs as assayed with a rat polyclonal antibody against the NH2-terminal projection domain of
MAP4
. The removal of
MAP4
from MTs was accompanied by its sequestration into visible
MAP4
-Ab immunocomplexes. However, the MT network appeared normal. Tubulin photoactivation and nocodazole sensitivity assays indicated that MT dynamics were not altered detectably by the removal of
MAP4
from the MTs. Cells progressed to mitosis with morphologically normal spindles in the absence of
MAP4
binding to MTs. Depleting
MAP4
from MTs also did not affect the state of posttranslational modifications of tubulin subunits. Further, no perturbations of MT-dependent organelle distribution were detected. We conclude that the association of
MAP4
with MTs is not essential for MT assembly or for the MT-based functions in cultured cells that we could assay. A significant role for
MAP4
is not excluded by these results, however, as
MAP4
may be a component of a functionally redundant system.
...
PMID:Removal of MAP4 from microtubules in vivo produces no observable phenotype at the cellular level. 863 13
Chicken gizzard smooth muscle has often been used as a source of proteins of the contractile and cytoskeletal apparatus. In the present study, we isolated a hitherto unknown doublet of proteins, with apparent molecular weights of 200 kDa, from embryonic chicken gizzard and showed its association with the microtubules (MTs) and by immunofluorescence staining of cultured cells. Immunoblot analysis also revealed the ubiquitous expression of this protein in all embryonic chicken tissues examined. Molecular cloning techniques allowed its identification as the chicken homologue of the
microtubule-associated protein 4
(
MAP4
), known from mammalian species, and revealed approximately 90% of its amino acid sequence.
MAP4
is the major
MAP
of non-neuronal tissues and cross-species comparisons clearly demonstrated its highly conserved overall structure, consisting of a basic C-terminal MT-binding region and an acidic N-terminal projection domain of unknown function. Despite these conserved features, overall sequence homologies to its mammalian counterparts are rather low and focused to distinct regions of the molecule. Among these are a conserved 18-amino acid motif, which is known to mediate binding to MTs and a part of the MT-binding domain known as the proline-rich region, which is thought to be the regulatory domain of
MAP4
. The N-terminal 59 amino acids are a conserved and unique feature of the
MAP4
sequence and might be an indication that
MAP4
performs other functions besides the enhancement of MT assembly.
...
PMID:Chicken microtubule-associated protein 4 (MAP4): a novel member of the MAP4 family. 889 75
Microtubule-associated protein 4
(
MAP4
), a major
MAP
expressed in proliferating non-neuronal cells, consists of an N-terminal projection (PJ) domain and a C-terminal microtubule-binding (MTB) domain. The PJ domain of
MAP4
is divided into three regions; the N-terminal acidic region (the Na-region), the multiple KDM-repeated sequence region (the KDM-region), and the b-region followed by the MTB domain. To investigate roles of the PJ domain, we prepared three truncated forms of human
MAP4
with different PJ domain lengths; PJ1, PJ2 and MTB with deletion of about one-third, two-third and all of the PJ domain, respectively, and examined their effects on bundle formation of microtubules (MTs). MTs polymerized by full length
MAP4
were singly distributed as observed by both negative staining electron microscopy and dark field microscopy. MTs with PJ1 were also separated in solution but became pairs when pelleted by centrifugation. PJ2 formed planar two-dimensional bundles consisting of several MTs (the 2D-bundle). MTB induced large bundles of many MTs, tightly packed without space in between (termed the 3D-bundle). To study how the PJ domain decreases the bundle-forming activity of the MTB domain of
MAP4
, we made three additional deletion-mutants of
MAP4
, called Na-MTB, KDM-MTB and Na-PJ2. Na-MTB and KDM-MTB, in which the KDM/b-region and both of Na- and b-regions were deleted respectively, were prepared by fusing the Na-region or KDM-region to MTB. Both of Na-MTB and KDM-MTB suppressed the 3D-bundle formation as effectively as PJ2. MTs polymerized with Na-PJ2, the KDM-deletion mutant made by adding the Na-region to PJ2, were singular and did not become bundles. These results indicated that the PJ domain kept individual MTs separated by suppressing the bundle-forming ability of the MTB domain. The suppressive activity of the PJ domain was correlated with the length, but not the amino acid sequence, of the PJ.
...
PMID:The projection domain of MAP4 suppresses the microtubule-bundling activity of the microtubule-binding domain. 1207 37
