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0MYLK_HUMAN*   SwissProt (?) | Description Local Annotation Link Reference
General Information
NameMYLK
DescriptionMyosin light chain kinase, smooth muscle and non-muscle isozymes (ec 2.7.1.117) (mlck) .
SpeciesHomo sapiens (NCBI taxonomy ID: 9606)
GO0004687 myosin light chain kinase activity (TAS)
0006468 protein amino acid phosphorylation (TAS)

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schematic display of those terms with internal associations, click the node and browse the corresponding GO term
Domain Architecture (Details)
InterPro domains unassigned to SynO:
Eukaryotic protein kinases are enzymesthat belong to a very extensive family of proteins which share a conserved catalytic core common withboth serine/threonine and tyrosine protein kinases. There are a number of conserved regions in thecatalytic domain of protein kinases. In the N-terminal extremity of the catalytic domain there is aglycine-rich stretch of residues in the vicinity of a lysine residue.hich has been shown to be involvedin ATP binding. In the central part of the catalytic domain there is a conserved aspartic acid residuewhich is important for the catalytic activity of the enzyme . CAUTION: Despite SMART having created two different HMMs for Serine/Threonine protein kinase and for Tyrosine protein kinase.arge number of proteins match both signatures.s SMART considers it to be natural for these two closely related families.
  IPR002290:Serine/threonine protein kinase
The basic structure of immunoglobulin (Ig) molecules is a tetramer of two light chains and two heavy chains linked by disulfide bonds. There are two types of light chains: kappa and lambda.ach composed of a constant domain (CL) and a variable domain (VL). There are five types of heavy chains: alpha.elta.psilon.amma and mu.ll consisting of a variable domain (VH) and three (in alpha.elta and gamma) or four (in epsilon and mu) constant domains (CH1 to CH4). Ig molecules are highly modular proteins.n which the variable and constant domains have clear.onserved sequence patterns. The domains in Ig and Ig-like molecules are grouped into four types: V-set (variable; ).1-set (constant-1; ).2-set (constant-2; ) and I-set (intermediate; ) . Structural studies have shown that these domains share a common core Greek-key beta-sandwich structure.ith the types differing in the number of strands in the beta-sheets as well as in their sequence patterns .Immunoglobulin-like domains that are related in both sequence and structure can be found in several diverse protein families. Ig-like domains are involved in a variety of functions.ncluding cell-cell recognition.ell-surface receptors.uscle structure and the immune system . This entry represents I-set domains.hich are found in several cell adhesion molecules.ncluding vascular (VCAM).ntercellular (ICAM).eural (NCAM) and mucosal addressin (MADCAM) cell adhesion molecules.s well as junction adhesion molecules (JAM). I-set domains are also present in several other diverse protein families.ncluding several tyrosine-protein kinase receptors.he hemolymph protein hemolin.he muscle proteins titin.elokin.nd twitchin.he neuronal adhesion molecule axonin-1 .nd the signalling molecule semaphorin 4D that is involved in axonal guidance.mmune function and angiogenesis .
  IPR013098:Immunoglobulin I-set
This entry represents domains with an immunoglobulin-like (Ig-like) fold.hich consists of a beta-sandwich of seven or more strands in two sheets with a Greek-key topology. Ig-like domains are one of the most common protein modules found in animals.ccurring in a variety of different proteins. These domains are often involved in interactions.ommonly with other Ig-like domains via their beta-sheets . Domains within this fold-family share the same structure.ut can diverge with respect to their sequence. Based on sequence.g-like domains can be classified as V-set domains (antibody variable domain-like).1-set domains (antibody constant domain-like).2-set domains.nd I-set domains (antibody intermediate domain-like). Proteins can contain more than one of these types of Ig-like domains. For example.n the human T-cell receptor antigen CD2.omain 1 (D1) is a V-set domain.hile domain 2 (D2) is a C2-set domain.oth domains having the same Ig-like fold .Domains with an Ig-like fold can be found in many.iverse proteins in addition to immunoglobulin molecules. For example.g-like domains occur in several different types of receptors (such as various T-cell antigen receptors).everal cell adhesion molecules.HC class I and II antigens.s well as the hemolymph protein hemolin.nd the muscle proteins titin.elokin and twitchin.
  IPR013783:Immunoglobulin-like fold
Fibronectins are multi-domain glycoproteins found in a soluble form in plasma.nd in an insoluble form in loose connective tissue and basement membranes . They contain multiple copies of 3 repeat regions (types I.I and III).hich bind to a variety of substances including heparin.ollagen.NA.ctin.ibrin and fibronectin receptors on cell surfaces. The wide variety of these substances means that fibronectins are involved in a number of important functions: e.g..ound healing; cell adhesion; blood coagulation; cell differentiation and migration; maintenance of the cellular cytoskeleton; and tumour metastasis . The role of fibronectin in cell differentiation is demonstrated by the marked reduction in the expression of its gene when neoplastic transformation occurs. Cell attachment has been found to be mediated by the binding of the tetrapeptide RGDS to integrins on the cell surface .lthough related sequences can also display cell adhesion activity.Plasma fibronectin occurs as a dimer of 2 different subunits.inked together by 2 disulphide bonds near the C-terminus. The difference in the 2 chains occurs in the type III repeat region and is caused by alternative splicing of the mRNA from one gene . The observation that.n a given protein.n individual repeat of one of the 3 types (e.g..he first FnIII repeat) shows much less similarity to its subsequent tandem repeats within that protein than to its equivalent repeat between fibronectins from other species.as suggested that the repeating structure of fibronectin arose at an early stage of evolution. It also seems to suggest that the structure is subject to high selective pressure .The fibronectin type III repeat region is an approximately 100 amino acid domain.ifferent tandem repeats of which contain binding sites for DNA.eparin and the cell surface . The superfamily of sequences believed to contain FnIII repeats represents 45 different families.he majority of which are involved in cell surface binding in some manner.r are receptor protein tyrosine kinases.r cytokine receptors.
  IPR003961:Fibronectin, type III
The basic structure of immunoglobulin (Ig) molecules is a tetramer of two light chains and two heavy chains linked by disulfide bonds. There are two types of light chains: kappa and lambda.ach composed of a constant domain (CL) and a variable domain (VL). There are five types of heavy chains: alpha.elta.psilon.amma and mu.ll consisting of a variable domain (VH) and three (in alpha.elta and gamma) or four (in epsilon and mu) constant domains (CH1 to CH4). Ig molecules are highly modular proteins.n which the variable and constant domains have clear.onserved sequence patterns. The domains in Ig and Ig-like molecules are grouped into four types: V-set (variable; ).1-set (constant-1; ).2-set (constant-2; ) and I-set (intermediate; ) . Structural studies have shown that these domains share a common core Greek-key beta-sandwich structure.ith the types differing in the number of strands in the beta-sheets as well as in their sequence patterns .Immunoglobulin-like domains that are related in both sequence and structure can be found in several diverse protein families. Ig-like domains are involved in a variety of functions.ncluding cell-cell recognition.ell-surface receptors.uscle structure and the immune system . This entry represents a subtype of the immunoglobulin domain.nd is found in a diverse range of protein families that includes glycoproteins.ibroblast growth factor receptors.ascular endothelial growth factor receptors.nterleukin-6 receptor.nd neural cell adhesion molecules. It also includes proteins that are classified as unassigned proteinase inhibitors belonging to MEROPS inhibitor families I2.17 and I43 .
  IPR003598:Immunoglobulin subtype 2
The basic structure of immunoglobulin (Ig) molecules is a tetramer of two light chains and two heavy chains linked by disulfide bonds. There are two types of light chains: kappa and lambda.ach composed of a constant domain (CL) and a variable domain (VL). There are five types of heavy chains: alpha.elta.psilon.amma and mu.ll consisting of a variable domain (VH) and three (in alpha.elta and gamma) or four (in epsilon and mu) constant domains (CH1 to CH4). Ig molecules are highly modular proteins.n which the variable and constant domains have clear.onserved sequence patterns. The domains in Ig and Ig-like molecules are grouped into four types: V-set (variable; ).1-set (constant-1; ).2-set (constant-2; ) and I-set (intermediate; ) . Structural studies have shown that these domains share a common core Greek-key beta-sandwich structure.ith the types differing in the number of strands in the beta-sheets as well as in their sequence patterns .Immunoglobulin-like domains that are related in both sequence and structure can be found in several diverse protein families. Ig-like domains are involved in a variety of functions.ncluding cell-cell recognition.ell-surface receptors.uscle structure and the immune system . This subfamily includes:Cell surface receptors containing an immunoglobin domain.Killer cell inhibitory receptors.Oprin a snake venom metalloproteinase inhibitor from Didelphis marsupialis (Southern opossum) .hich belongs to MEROPS inhibitor family I43.lan I- .Oprin homologues.
  IPR003599:Immunoglobulin subtype
Eukaryotic protein kinases are enzymesthat belong to a very extensive family of proteins which share a conserved catalytic core common withboth serine/threonine and tyrosine protein kinases. There are a number of conserved regions in thecatalytic domain of protein kinases. In the N-terminal extremity of the catalytic domain there is aglycine-rich stretch of residues in the vicinity of a lysine residue.hich has been shown to be involvedin ATP binding. In the central part of the catalytic domain there is a conserved aspartic acid residuewhich is important for the catalytic activity of the enzyme . This entry includes protein kinases from eukaryotes and viruses and may include some bacterial hits too.
  IPR000719:Protein kinase
Fibronectins are multi-domain glycoproteins found in a soluble form in plasma.nd in an insoluble form in loose connective tissue and basement membranes . They contain multiple copies of 3 repeat regions (types I.I and III).hich bind to a variety of substances including heparin.ollagen.NA.ctin.ibrin and fibronectin receptors on cell surfaces. The wide variety of these substances means that fibronectins are involved in a number of important functions: e.g..ound healing; cell adhesion; blood coagulation; cell differentiation and migration; maintenance of the cellular cytoskeleton; and tumour metastasis . The role of fibronectin in cell differentiation is demonstrated by the marked reduction in the expression of its gene when neoplastic transformation occurs. Cell attachment has been found to be mediated by the binding of the tetrapeptide RGDS to integrins on the cell surface .lthough related sequences can also display cell adhesion activity.Plasma fibronectin occurs as a dimer of 2 different subunits.inked together by 2 disulphide bonds near the C-terminus. The difference in the 2 chains occurs in the type III repeat region and is caused by alternative splicing of the mRNA from one gene . The observation that.n a given protein.n individual repeat of one of the 3 types (e.g..he first FnIII repeat) shows much less similarity to its subsequent tandem repeats within that protein than to its equivalent repeat between fibronectins from other species.as suggested that the repeating structure of fibronectin arose at an early stage of evolution. It also seems to suggest that the structure is subject to high selective pressure .The fibronectin type III repeat region is an approximately 100 amino acid domain.ifferent tandem repeats of which contain binding sites for DNA.eparin and the cell surface . The superfamily of sequences believed to contain FnIII repeats represents 45 different families.he majority of which are involved in cell surface binding in some manner.r are receptor protein tyrosine kinases.r cytokine receptors.
  IPR003962:Fibronectin, type III subdomain
This domain was first thought to represent apidaecins.ut has now been found in a variety of cell surface proteins. It is found in PAC protein. cell surface antigen implicated in dental caries; cell surface antigens SpaA and SpaP; IGA FC receptor.lso known as beta antigen; and agglutinin receptor.
  IPR004829:Cell surface antigen
Fibronectin is composed of three repeating structural motifs.f which one is the FnIII module. The three modules form a linear sequence of multiple tandem copies connected by short linker peptides. The secondary structure of the FnIII10 module.hich is the only fibronectin module to possess an integrin binding RGD motif.onsists of two beta-sheets containing the antiparallel beta-strands ABE and DCFG.espectively.hich fold up to form a beta-sandwich. The RGD sequence is located in the loop connecting the beta-strands .The SSF signature in this entry is currently under review. Please be aware that some of the protein hits may be false positives.
  IPR008957:Fibronectin, type III-like fold
Protein kinases () catalyze the phosphotransfer reaction fundamental to most signalling and regulatory processes in the eukaryotic cell . The catalytic subunit contains a core that is common to both serine/threonine and tyrosine protein kinases. The catalytic domain contains the nucleotide-binding site and the catalytic apparatus in an inter-lobe cleft. Structurally it shares functional and structural similarities with the ATP-grasp fold.hich is found in enzymes that catalyse the formation of an amide bond.nd with PIPK (phosphoinositol phosphate kinase). The three-dimensional fold of the protein kinase catalytic domain is similar to domains found in several other proteins. These include the catalytic domain of actin-fragmin kinase.n atypical protein kinase that regulates the F-actin capping activity in plasmodia ; the catalytic domain of phosphoinositide-3-kinase (PI3K).hich phosphorylates phosphoinositides and as such is involved in a number of fundamental cellular processes such as apoptosis.roliferation.otility and adhesion ; the catalytic domain of the MHCK/EF2 kinase.n atypical protein kinase that includes the TRP (transient channel potential) calcium-channel kinase involved in the modulation of calcium channels in eukaryotic cells in response to external signals ; choline kinase.hich catalyses the ATP-dependent phosphorylation of choline during the biosynthesis of phosphatidylcholine ; and 3.-aminoglycoside phosphotransferase type IIIa. bacterial enzyme that confers resistance to a range of aminoglycoside antibiotics .
  IPR011009:Protein kinase-like
IPR000719:Pkinase 
Evalue:-102.619789123535 
Location:1464-1719IPR013098:I-set 
Evalue:-46.5528411865234 
Location:1809-1899IPR013098:I-set 
Evalue:-33.1938209533691 
Location:161-250IPR013098:I-set 
Evalue:-32.0177268981934 
Location:623-712IPR013098:I-set 
Evalue:-31.6382713317871 
Location:33-123IPR013098:I-set 
Evalue:-27.4685211181641 
Location:414-504IPR013098:I-set 
Evalue:-25.2218494415283 
Location:514-600IPR013098:I-set 
Evalue:-24.3372421264648 
Location:1098-1187IPR003961:fn3 
Evalue:-21.6382713317871 
Location:1331-1416IPR013098:I-set 
Evalue:-19.0861854553223 
Location:1238-1327IPR013098:I-set 
Evalue:-18.4814853668213 
Location:721-811IPR004829:Csurface_antigen 
Evalue:0 
Location:1006-1060
SequencesProtein: MYLK_HUMAN (1914 aa)
mRNA: NM_053025
Local Annotation
Synapse Ontology
transport of vesicles in the presynaptic neuron
sdb:0017 Mobilization: synapsins, CAM kinase I  (Evidence:keywords)
?
sdb:0223 transmitter release  (Evidence:keywords)
?
sdb:0328 transmitters release and endocytosis  (Evidence:keywords)
KO assignmentK00907
  Level 3 annotation:
    myosin-light-chain kinase
  Level 2 annotation:
    Calcium signaling pathway
    Regulation of actin cytoskeleton
    Focal adhesion
Loci Structure (Details)Loci index, Chromosomal location, Length, Possible relational loci clusterExon1: 685 residues, 124813834-124815886Exon2: 46 residues, 124820175-124820307Exon3: 45 residues, 124821743-124821873Exon4: 43 residues, 124828354-124828478Exon5: 53 residues, 124831010-124831163Exon6: 43 residues, 124839607-124839731Exon7: 74 residues, 124841823-124842041Exon8: 70 residues, 124848760-124848964Exon9: 33 residues, 124850507-124850601Exon10: 13 residues, 124850698-124850731Exon11: 103 residues, 124858662-124858965Exon12: 53 residues, 124865641-124865795Exon13: 44 residues, 124867755-124867883Exon14: 19 residues, 124868673-124868724Exon15: 31 residues, 124883760-124883847Exon16: 41 residues, 124894271-124894388Exon17: 330 residues, 124901556-124902542Exon18: 26 residues, 124902974-124903046Exon19: 85 residues, 124909290-124909540Exon20: 68 residues, 124910234-124910432Exon21: 48 residues, 124911292-124911430Exon22: 53 residues, 124923664-124923817Exon23: 47 residues, 124927480-124927615Exon24: 71 residues, 124934432-124934639Exon25: 180 residues, 124935223-124935759Exon26: 8 residues, 124936934-124936953Exon27: 57 residues, 124938914-124939080Exon28: 57 residues, 124940433-124940599Exon29: 18 residues, 124941489-124941538Exon30: 71 residues, 124953867-124954075Exon31: 58 residues, 124995213-124995381Exon32: 43 residues, 125033084-125033207Exon33: 21 residues, 125078095-125078154Exon34: 34 residues, 125085742-125085839Exon35: 2 residues, -Jump to MYLK_HUMAN  
Tune and view alternative isoforms
Loci Cluster (Details)Loci: 4631 125170570-125192889 ~-22K 26350(-)Loci: 4630 124813834-125085839 ~-272K 26341(MYLK)(-)Link out to UCSC