KEGG   Homo sapiens (human): 58
Entry
58                CDS       T01001                                 
Symbol
ACTA1, ACTA, ASMA, CFTD, CFTD1, CFTDM, CMYP2A, CMYP2B, CMYP2C, MPFD, NEM1, NEM2, NEM3, SHPM
Name
(RefSeq) actin alpha 1, skeletal muscle
  KO
K10354  actin, alpha skeletal muscle
Organism
hsa  Homo sapiens (human)
Pathway
hsa04814  Motor proteins
hsa04820  Cytoskeleton in muscle cells
Network
nt06539  Cytoskeleton in muscle cells
  Element
N01818  Actin thin filament, muscle contraction
N01819  Actin thin filament, length regulation
N01820  Sarcomere, Z-disc
Disease
H00698  Nemaline myopathy
H00701  Congenital fiber type disproportion
H00702  Cap myopathy
H01810  Congenital myopathy
H02721  Scapulohumeroperoneal myopathy
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09140 Cellular Processes
  09142 Cell motility
   04814 Motor proteins
    58 (ACTA1)
   04820 Cytoskeleton in muscle cells
    58 (ACTA1)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    58 (ACTA1)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actins
    Actins
     58 (ACTA1)
SSDB
Motif
Pfam: Actin
Other DBs
NCBI-GeneID: 58
NCBI-ProteinID: NP_001091
OMIM: 102610
HGNC: 129
Ensembl: ENSG00000143632
UniProt: P68133
Structure
LinkDB
Position
1:complement(229431245..229434094)
AA seq 377 aa
MCDEDETTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGMGQKDSYVGDEA
QSKRGILTLKYPIEHGIITNWDDMEKIWHHTFYNELRVAPEEHPTLLTEAPLNPKANREK
MTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNVPIYEGYALPHAIMRL
DLAGRDLTDYLMKILTERGYSFVTTAEREIVRDIKEKLCYVALDFENEMATAASSSSLEK
SYELPDGQVITIGNERFRCPETLFQPSFIGMESAGIHETTYNSIMKCDIDIRKDLYANNV
MSGGTTMYPGIADRMQKEITALAPSTMKIKIIAPPERKYSVWIGGSILASLSTFQQMWIT
KQEYDEAGPSIVHRKCF
NT seq 1134 nt   +upstreamnt  +downstreamnt
atgtgcgacgaagacgagaccaccgccctcgtgtgcgacaatggctccggcctggtgaaa
gccggcttcgccggggatgacgcccctagggccgtgttcccgtccatcgtgggccgcccc
cgacaccagggcgtcatggtcggtatgggtcagaaagattcctacgtgggcgacgaggct
cagagcaagagaggtatcctgaccctgaagtaccctatcgagcacggcatcatcaccaac
tgggatgacatggagaagatctggcaccacaccttctacaacgagcttcgcgtggctccc
gaggagcaccccaccctgctcaccgaggcccccctcaatcccaaggccaaccgcgagaag
atgacccagatcatgtttgagaccttcaacgtgcccgccatgtacgtggccatccaggcc
gtgctgtccctctacgcctccggcaggaccaccggcatcgtgctggactccggcgacggc
gtcacccacaacgtgcccatttatgagggctacgcgctgccgcacgccatcatgcgcctg
gacctggcgggccgcgatctcaccgactacctgatgaagatcctcactgagcgtggctac
tccttcgtgaccacagctgagcgcgagatcgtgcgcgacatcaaggagaagctgtgctac
gtggccctggacttcgagaacgagatggcgacggccgcctcctcctcctccctggaaaag
agctacgagctgccagacgggcaggtcatcaccatcggcaacgagcgcttccgctgcccg
gagacgctcttccagccctccttcatcggtatggagtcggcgggcattcacgagaccacc
tacaacagcatcatgaagtgtgacatcgacatcaggaaggacctgtatgccaacaacgtc
atgtcggggggcaccacgatgtaccctgggatcgctgaccgcatgcagaaagagatcacc
gcgctggcacccagcaccatgaagatcaagatcatcgccccgccggagcgcaaatactcg
gtgtggatcggcggctccatcctggcctcgctgtccaccttccagcagatgtggatcacc
aagcaggagtacgacgaggccggcccttccatcgtccaccgcaaatgcttctag

KEGG   Homo sapiens (human): 70
Entry
70                CDS       T01001                                 
Symbol
ACTC1, ACTC, ASD5, CMD1R, CMH11, LVNC4
Name
(RefSeq) actin alpha cardiac muscle 1
  KO
K12314  actin, alpha cardiac muscle
Organism
hsa  Homo sapiens (human)
Pathway
hsa04260  Cardiac muscle contraction
hsa04261  Adrenergic signaling in cardiomyocytes
hsa04814  Motor proteins
hsa04820  Cytoskeleton in muscle cells
hsa05410  Hypertrophic cardiomyopathy
hsa05414  Dilated cardiomyopathy
Network
nt06539  Cytoskeleton in muscle cells
  Element
N01818  Actin thin filament, muscle contraction
N01819  Actin thin filament, length regulation
N01820  Sarcomere, Z-disc
Disease
H00292  Hypertrophic cardiomyopathy
H00294  Dilated cardiomyopathy
H00546  Atrial septal defect
H01216  Left ventricular noncompaction
H01219  Restrictive cardiomyopathy
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09140 Cellular Processes
  09142 Cell motility
   04814 Motor proteins
    70 (ACTC1)
   04820 Cytoskeleton in muscle cells
    70 (ACTC1)
 09150 Organismal Systems
  09153 Circulatory system
   04260 Cardiac muscle contraction
    70 (ACTC1)
   04261 Adrenergic signaling in cardiomyocytes
    70 (ACTC1)
 09160 Human Diseases
  09166 Cardiovascular disease
   05410 Hypertrophic cardiomyopathy
    70 (ACTC1)
   05414 Dilated cardiomyopathy
    70 (ACTC1)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    70 (ACTC1)
   04147 Exosome [BR:hsa04147]
    70 (ACTC1)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actins
    Actins
     70 (ACTC1)
Exosome [BR:hsa04147]
 Exosomal proteins
  Exosomal proteins of colorectal cancer cells
   70 (ACTC1)
  Exosomal proteins of bladder cancer cells
   70 (ACTC1)
SSDB
Motif
Pfam: Actin
Other DBs
NCBI-GeneID: 70
NCBI-ProteinID: NP_005150
OMIM: 102540
HGNC: 143
Ensembl: ENSG00000159251
UniProt: P68032 B3KPP5
Structure
LinkDB
Position
15:complement(34790230..34795549)
AA seq 377 aa
MCDDEETTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGMGQKDSYVGDEA
QSKRGILTLKYPIEHGIITNWDDMEKIWHHTFYNELRVAPEEHPTLLTEAPLNPKANREK
MTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNVPIYEGYALPHAIMRL
DLAGRDLTDYLMKILTERGYSFVTTAEREIVRDIKEKLCYVALDFENEMATAASSSSLEK
SYELPDGQVITIGNERFRCPETLFQPSFIGMESAGIHETTYNSIMKCDIDIRKDLYANNV
LSGGTTMYPGIADRMQKEITALAPSTMKIKIIAPPERKYSVWIGGSILASLSTFQQMWIS
KQEYDEAGPSIVHRKCF
NT seq 1134 nt   +upstreamnt  +downstreamnt
atgtgtgacgacgaggagaccaccgccctggtgtgcgacaacggctctgggctggtgaag
gccggctttgcgggcgatgacgcgccccgcgctgtcttcccgtccatcgtgggccgcccg
cggcaccagggagttatggtgggtatgggtcagaaggactcctacgtaggtgatgaagcc
cagagcaagagaggcatcctgaccctgaagtatcccatcgagcatggtatcatcaccaac
tgggacgacatggagaagatctggcaccacaccttctacaatgagctccgtgtggctccc
gaggagcaccccaccctgctcacagaggccccgctgaaccccaaggccaaccgggagaag
atgactcagatcatgtttgagaccttcaatgtccctgccatgtacgtggccatccaggca
gtgctatccctgtatgcttctggccgtaccacaggcattgttctggactctggggatggt
gtaactcacaatgtccccatctatgagggctacgctttgccccatgccatcatgcgtctg
gatctggctggtcgggacctcactgactacctcatgaagatcctcactgagcgtggctac
tcctttgtcaccactgctgaacgtgaaattgtccgtgacattaaagagaagctgtgctat
gtcgccctggattttgagaatgagatggccacagctgcctcttcctcctccctggagaag
agctatgaactgcctgatggccaagtcatcactattggcaatgagcgcttccgctgtcct
gagacactcttccagccctccttcattggtatggaatctgctggcatccatgaaacaact
tacaatagcatcatgaagtgtgacattgatatccgcaaggacctgtatgccaacaatgtc
ttatctggaggcaccactatgtaccctggtattgctgatcgtatgcagaaggaaatcact
gctctggctcctagcaccatgaagattaagattattgctccccctgagcgtaaatactct
gtctggattgggggctccatcctggcctctctgtccaccttccagcaaatgtggattagc
aagcaagagtacgatgaggcaggcccatccattgtccaccgcaaatgcttctaa

KEGG   Homo sapiens (human): 7168
Entry
7168              CDS       T01001                                 
Symbol
TPM1, C15orf13, CMD1Y, CMH3, HEL-S-265, HTM-alpha, LVNC9, TMSA
Name
(RefSeq) tropomyosin 1
  KO
K10373  tropomyosin 1
Organism
hsa  Homo sapiens (human)
Pathway
hsa04260  Cardiac muscle contraction
hsa04261  Adrenergic signaling in cardiomyocytes
hsa04814  Motor proteins
hsa04820  Cytoskeleton in muscle cells
hsa05206  MicroRNAs in cancer
hsa05410  Hypertrophic cardiomyopathy
hsa05414  Dilated cardiomyopathy
Network
nt06539  Cytoskeleton in muscle cells
  Element
N01818  Actin thin filament, muscle contraction
N01819  Actin thin filament, length regulation
Disease
H00292  Hypertrophic cardiomyopathy
H00294  Dilated cardiomyopathy
H01216  Left ventricular noncompaction
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09140 Cellular Processes
  09142 Cell motility
   04814 Motor proteins
    7168 (TPM1)
   04820 Cytoskeleton in muscle cells
    7168 (TPM1)
 09150 Organismal Systems
  09153 Circulatory system
   04260 Cardiac muscle contraction
    7168 (TPM1)
   04261 Adrenergic signaling in cardiomyocytes
    7168 (TPM1)
 09160 Human Diseases
  09161 Cancer: overview
   05206 MicroRNAs in cancer
    7168 (TPM1)
  09166 Cardiovascular disease
   05410 Hypertrophic cardiomyopathy
    7168 (TPM1)
   05414 Dilated cardiomyopathy
    7168 (TPM1)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    7168 (TPM1)
   04147 Exosome [BR:hsa04147]
    7168 (TPM1)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actin-binding proteins
    Tropomyosins
     7168 (TPM1)
Exosome [BR:hsa04147]
 Exosomal proteins
  Exosomal proteins of microglial cells
   7168 (TPM1)
SSDB
Motif
Pfam: Tropomyosin CLZ Laminin_II TMF_DNA_bd ERM_helical NBP1 ATG16 CENP-F_leu_zip DUF745 XhlA Laminin_I Crescentin
Other DBs
NCBI-GeneID: 7168
NCBI-ProteinID: NP_000357
OMIM: 191010
HGNC: 12010
Ensembl: ENSG00000140416
UniProt: P09493 A0A0K0K1I0
Structure
LinkDB
Position
15:63042747..63071915
AA seq 284 aa
MDAIKKKMQMLKLDKENALDRAEQAEADKKAAEDRSKQLEDELVSLQKKLKGTEDELDKY
SEALKDAQEKLELAEKKATDAEADVASLNRRIQLVEEELDRAQERLATALQKLEEAEKAA
DESERGMKVIESRAQKDEEKMEIQEIQLKEAKHIAEDADRKYEEVARKLVIIESDLERAE
ERAELSEGQVRQLEEQLRIMDQTLKALMAAEDKYSQKEDRYEEEIKVLSDKLKEAETRAE
FAERSVTKLEKSIDDLEDELYAQKLKYKAISEELDHALNDMTSM
NT seq 855 nt   +upstreamnt  +downstreamnt
atggacgccatcaagaagaagatgcagatgctgaagctcgacaaggagaacgccttggat
cgagctgagcaggcggaggccgacaagaaggcggcggaagacaggagcaagcagctggaa
gatgagctggtgtcactgcaaaagaaactcaagggcaccgaagatgaactggacaaatac
tctgaggctctcaaagatgcccaggagaagctggagctggcagagaaaaaggccaccgat
gctgaagccgacgtagcttctctgaacagacgcatccagctggttgaggaagagttggat
cgtgcccaggagcgtctggcaacagctttgcagaagctggaggaagctgagaaggcagca
gatgagagtgagagaggcatgaaagtcattgagagtcgagcccaaaaagatgaagaaaaa
atggaaattcaggagatccaactgaaagaggccaagcacattgctgaagatgccgaccgc
aaatatgaagaggtggcccgtaagctggtcatcattgagagcgacctggaacgtgcagag
gagcgggctgagctctcagaaggccaagtccgacagctggaagaacaattaagaataatg
gatcagaccttgaaagcattaatggctgcagaggataagtactcgcagaaggaagacaga
tatgaggaagagatcaaggtcctttccgacaagctgaaggaggctgagactcgggctgag
tttgcggagaggtcagtaactaaattggagaaaagcattgatgacttagaagacgagctg
tacgctcagaaactgaagtacaaagccatcagcgaggagctggaccacgctctcaacgat
atgacttccatgtaa

KEGG   Homo sapiens (human): 7169
Entry
7169              CDS       T01001                                 
Symbol
TPM2, AMCD1, CMYP23, DA1, DA2B, DA2B4, HEL-S-273, NEM4, TMSB
Name
(RefSeq) tropomyosin 2
  KO
K10374  tropomyosin 2
Organism
hsa  Homo sapiens (human)
Pathway
hsa04260  Cardiac muscle contraction
hsa04261  Adrenergic signaling in cardiomyocytes
hsa04814  Motor proteins
hsa04820  Cytoskeleton in muscle cells
hsa05410  Hypertrophic cardiomyopathy
hsa05414  Dilated cardiomyopathy
Network
nt06539  Cytoskeleton in muscle cells
  Element
N01818  Actin thin filament, muscle contraction
N01819  Actin thin filament, length regulation
Disease
H00698  Nemaline myopathy
H00702  Cap myopathy
H00811  Distal arthrogryposis
H01810  Congenital myopathy
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09140 Cellular Processes
  09142 Cell motility
   04814 Motor proteins
    7169 (TPM2)
   04820 Cytoskeleton in muscle cells
    7169 (TPM2)
 09150 Organismal Systems
  09153 Circulatory system
   04260 Cardiac muscle contraction
    7169 (TPM2)
   04261 Adrenergic signaling in cardiomyocytes
    7169 (TPM2)
 09160 Human Diseases
  09166 Cardiovascular disease
   05410 Hypertrophic cardiomyopathy
    7169 (TPM2)
   05414 Dilated cardiomyopathy
    7169 (TPM2)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    7169 (TPM2)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actin-binding proteins
    Tropomyosins
     7169 (TPM2)
SSDB
Motif
Pfam: Tropomyosin CLZ Laminin_II ERM_helical CENP-F_leu_zip TMF_DNA_bd Snapin_Pallidin Crescentin YscO Lebercilin SlyX MscS_porin ATG16 Suppressor_APC DUF16 CCDC93_CC DUF1664 Fez1
Other DBs
NCBI-GeneID: 7169
NCBI-ProteinID: NP_003280
OMIM: 190990
HGNC: 12011
Ensembl: ENSG00000198467
UniProt: P07951
LinkDB
Position
9:complement(35681993..35690056)
AA seq 284 aa
MDAIKKKMQMLKLDKENAIDRAEQAEADKKQAEDRCKQLEEEQQALQKKLKGTEDEVEKY
SESVKEAQEKLEQAEKKATDAEADVASLNRRIQLVEEELDRAQERLATALQKLEEAEKAA
DESERGMKVIENRAMKDEEKMELQEMQLKEAKHIAEDSDRKYEEVARKLVILEGELERSE
ERAEVAESKCGDLEEELKIVTNNLKSLEAQADKYSTKEDKYEEEIKLLEEKLKEAETRAE
FAERSVAKLEKTIDDLEDEVYAQKMKYKAISEELDNALNDITSL
NT seq 855 nt   +upstreamnt  +downstreamnt
atggacgccatcaagaagaagatgcagatgctgaagctggacaaggagaacgccatcgac
cgcgccgagcaggccgaagccgacaagaagcaagctgaggaccgctgcaagcagctggag
gaggagcagcaggccctccagaagaagctgaaggggacagaggatgaggtggaaaagtat
tctgaatccgtgaaggaggcccaggagaaactggagcaggccgagaagaaggccactgat
gctgaggcagatgtggcctccctgaaccgccgcattcagctggttgaggaggagctggac
cgggcccaggagcgcctggctacagccctgcagaagctggaggaggccgagaaggcggct
gatgagagcgagagaggaatgaaggtcatcgaaaaccgggccatgaaggatgaggagaag
atggaactgcaggagatgcagctgaaggaggccaagcacatcgctgaggattcagaccgc
aaatatgaagaggtggccaggaagctggtgatcctggaaggagagctggagcgctcggag
gagagggctgaggtggccgagagtaaatgtggggacctagaggaggagctgaaaattgtt
accaacaacttgaaatccctggaggcccaggcggacaagtattccaccaaagaagataaa
tatgaagaggagatcaaactgttggaggagaagctgaaggaggctgagacccgagcagag
tttgccgagaggtctgtggcaaagttggagaaaaccatcgatgacctagaagatgaagtc
tatgcccagaagatgaagtacaaggccattagcgaggaactggacaacgcactcaatgac
atcacctccctctga

KEGG   Homo sapiens (human): 7170
Entry
7170              CDS       T01001                                 
Symbol
TPM3, CAPM1, CFTD, CMYP4A, CMYP4B, HEL-189, HEL-S-82p, NEM1, OK/SW-cl.5, TM-5, TM3, TM30, TM30nm, TM5, TPM3nu, TPMsk3, TRK, hscp30
Name
(RefSeq) tropomyosin 3
  KO
K09290  tropomyosin 3
Organism
hsa  Homo sapiens (human)
Pathway
hsa04260  Cardiac muscle contraction
hsa04261  Adrenergic signaling in cardiomyocytes
hsa04814  Motor proteins
hsa04820  Cytoskeleton in muscle cells
hsa05200  Pathways in cancer
hsa05216  Thyroid cancer
hsa05410  Hypertrophic cardiomyopathy
hsa05414  Dilated cardiomyopathy
Network
nt06539  Cytoskeleton in muscle cells
  Element
N01818  Actin thin filament, muscle contraction
N01819  Actin thin filament, length regulation
Disease
H00032  Thyroid cancer
H00698  Nemaline myopathy
H00701  Congenital fiber type disproportion
H00702  Cap myopathy
H01810  Congenital myopathy
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09140 Cellular Processes
  09142 Cell motility
   04814 Motor proteins
    7170 (TPM3)
   04820 Cytoskeleton in muscle cells
    7170 (TPM3)
 09150 Organismal Systems
  09153 Circulatory system
   04260 Cardiac muscle contraction
    7170 (TPM3)
   04261 Adrenergic signaling in cardiomyocytes
    7170 (TPM3)
 09160 Human Diseases
  09161 Cancer: overview
   05200 Pathways in cancer
    7170 (TPM3)
  09162 Cancer: specific types
   05216 Thyroid cancer
    7170 (TPM3)
  09166 Cardiovascular disease
   05410 Hypertrophic cardiomyopathy
    7170 (TPM3)
   05414 Dilated cardiomyopathy
    7170 (TPM3)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    7170 (TPM3)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actin-binding proteins
    Tropomyosins
     7170 (TPM3)
SSDB
Motif
Pfam: Tropomyosin Laminin_II CLZ Crescentin TMF_DNA_bd DUF745 Lebercilin ATG16 DUF3450 XhlA CENP-F_leu_zip Nuf2_DHR10-like DUF1664 SlyX Laminin_I
Other DBs
NCBI-GeneID: 7170
NCBI-ProteinID: NP_689476
OMIM: 191030
HGNC: 12012
Ensembl: ENSG00000143549
UniProt: P06753
Structure
LinkDB
Position
1:complement(154155308..154192100)
AA seq 285 aa
MMEAIKKKMQMLKLDKENALDRAEQAEAEQKQAEERSKQLEDELAAMQKKLKGTEDELDK
YSEALKDAQEKLELAEKKAADAEAEVASLNRRIQLVEEELDRAQERLATALQKLEEAEKA
ADESERGMKVIENRALKDEEKMELQEIQLKEAKHIAEEADRKYEEVARKLVIIEGDLERT
EERAELAESKCSELEEELKNVTNNLKSLEAQAEKYSQKEDKYEEEIKILTDKLKEAETRA
EFAERSVAKLEKTIDDLEDELYAQKLKYKAISEELDHALNDMTSI
NT seq 858 nt   +upstreamnt  +downstreamnt
atgatggaggccatcaagaaaaagatgcagatgctgaagttagacaaggagaatgctctg
gatcgggcagagcaagctgaagctgagcagaagcaggcagaagaaagaagtaaacagctg
gaggatgagctggcagccatgcagaagaagctgaaagggacagaggatgagctggacaag
tattctgaagctttgaaggatgcccaggagaagctggaactggcagagaagaaggctgct
gatgctgaggctgaggtggcctccttgaaccgtaggatccagctggttgaagaagagctg
gaccgtgctcaggagcgcctggccactgccctgcaaaagctggaagaagctgaaaaagct
gctgatgagagtgagagaggtatgaaggttattgaaaaccgggccttaaaagatgaagaa
aagatggaactccaggaaatccaactcaaagaagctaagcacattgcagaagaggcagat
aggaagtatgaagaggtggctcgtaagttggtgatcattgaaggagacttggaacgcaca
gaggaacgagctgagctggcagagtctaagtgttctgagctggaggaggagctgaagaat
gtcaccaacaacctcaagtctcttgaggctcaggcggagaagtactctcaaaaagaagat
aaatatgaggaagaaatcaagattcttactgataaactcaaggaggcagagacccgtgct
gagtttgctgagagatcggtagccaagctggaaaagacaattgatgacctggaagatgag
ctctatgcccagaaactgaagtacaaggccattagcgaggagctggaccacgccctcaat
gacatgacctctatataa

KEGG   Homo sapiens (human): 4703
Entry
4703              CDS       T01001                                 
Symbol
NEB, AMC6, NEB177D, NEM2
Name
(RefSeq) nebulin
  KO
K18267  nebulin
Organism
hsa  Homo sapiens (human)
Pathway
hsa04820  Cytoskeleton in muscle cells
Network
nt06539  Cytoskeleton in muscle cells
  Element
N01819  Actin thin filament, length regulation
Disease
H00698  Nemaline myopathy
H02299  Arthrogryposis multiplex congenita
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09140 Cellular Processes
  09142 Cell motility
   04820 Cytoskeleton in muscle cells
    4703 (NEB)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04147 Exosome [BR:hsa04147]
    4703 (NEB)
Exosome [BR:hsa04147]
 Exosomal proteins
  Exosomal proteins of other body fluids (saliva and urine)
   4703 (NEB)
SSDB
Motif
Pfam: Nebulin Peptidase_M24 SH3_9 SH3_1 SH3_2
Other DBs
NCBI-GeneID: 4703
NCBI-ProteinID: NP_004534
OMIM: 161650
HGNC: 7720
Ensembl: ENSG00000183091
UniProt: P20929 Q96MF8 Q05C45
Structure
LinkDB
Position
2:complement(151485339..151734476)
AA seq 6669 aa
MADDEDYEEVVEYYTEEVVYEEVPGETITKIYETTTTRTSDYEQSETSKPALAQPALAQP
ASAKPVERRKVIRKKVDPSKFMTPYIAHSQKMQDLFSPNKYKEKFEKTKGQPYASTTDTP
ELRRIKKVQDQLSEVKYRMDGDVAKTICHVDEKAKDIEHAKKVSQQVSKVLYKQNWEDTK
DKYLLPPDAPELVQAVKNTAMFSKKLYTEDWEADKSLFYPYNDSPELRRVAQAQKALSDV
AYKKGLAEQQAQFTPLADPPDIEFAKKVTNQVSKQKYKEDYENKIKGKWSETPCFEVANA
RMNADNISTRKYQEDFENMKDQIYFMQTETPEYKMNKKAGVAASKVKYKEDYEKNKGKAD
YNVLPASENPQLRQLKAAGDALSDKLYKENYEKTKAKSINYCETPKFKLDTVLQNFSSDK
KYKDSYLKDILGHYVGSFEDPYHSHCMKVTAQNSDKNYKAEYEEDRGKGFFPQTITQEYE
AIKKLDQCKDHTYKVHPDKTKFTQVTDSPVLLQAQVNSKQLSDLNYKAKHESEKFKCHIP
PDTPAFIQHKVNAYNLSDNLYKQDWEKSKAKKFDIKVDAIPLLAAKANTKNTSDVMYKKD
YEKNKGKMIGVLSINDDPKMLHSLKVAKNQSDRLYKENYEKTKAKSMNYCETPKYQLDTQ
LKNFSEARYKDLYVKDVLGHYVGSMEDPYHTHCMKVAAQNSDKSYKAEYEEDKGKCYFPQ
TITQEYEAIKKLDQCKDHTYKVHPDKTKFTAVTDSPVLLQAQLNTKQLSDLNYKAKHEGE
KFKCHIPADAPQFIQHRVNAYNLSDNVYKQDWEKSKAKKFDIKVDAIPLLAAKANTKNTS
DVMYKKDYEKSKGKMIGALSINDDPKMLHSLKTAKNQSDREYRKDYEKSKTIYTAPLDML
QVTQAKKSQAIASDVDYKHILHSYSYPPDSINVDLAKKAYALQSDVEYKADYNSWMKGCG
WVPFGSLEMEKAKRASDILNEKKYRQHPDTLKFTSIEDAPITVQSKINQAQRSDIAYKAK
GEEIIHKYNLPPDLPQFIQAKVNAYNISENMYKADLKDLSKKGYDLRTDAIPIRAAKAAR
QAASDVQYKKDYEKAKGKMVGFQSLQDDPKLVHYMNVAKIQSDREYKKDYEKTKSKYNTP
HDMFNVVAAKKAQDVVSNVNYKHSLHHYTYLPDAMDLELSKNMMQIQSDNVYKEDYNNWM
KGIGWIPIGSLDVEKVKKAGDALNEKKYRQHPDTLKFTSIVDSPVMVQAKQNTKQVSDIL
YKAKGEDVKHKYTMSPDLPQFLQAKCNAYNISDVCYKRDWYDLIAKGNNVLGDAIPITAA
KASRNIASDYKYKEAYEKSKGKHVGFRSLQDDPKLVHYMNVAKLQSDREYKKNYENTKTS
YHTPGDMVSITAAKMAQDVATNVNYKQPLHHYTYLPDAMSLEHTRNVNQIQSDNVYKDEY
NSFLKGIGWIPIGSLEVEKVKKAGDALNERKYRQHPDTVKFTSVPDSMGMVLAQHNTKQL
SDLNYKVEGEKLKHKYTIDPELPQFIQAKVNALNMSDAHYKADWKKTIAKGYDLRPDAIP
IVAAKSSRNIASDCKYKEAYEKAKGKQVGFLSLQDDPKLVHYMNVAKIQSDREYKKGYEA
SKTKYHTPLDMVSVTAAKKSQEVATNANYRQSYHHYTLLPDALNVEHSRNAMQIQSDNLY
KSDFTNWMKGIGWVPIESLEVEKAKKAGEILSEKKYRQHPEKLKFTYAMDTMEQALNKSN
KLNMDKRLYTEKWNKDKTTIHVMPDTPDILLSRVNQITMSDKLYKAGWEEEKKKGYDLRP
DAIAIKAARASRDIASDYKYKKAYEQAKGKHIGFRSLEDDPKLVHFMQVAKMQSDREYKK
GYEKSKTSFHTPVDMLSVVAAKKSQEVATNANYRNVIHTYNMLPDAMSFELAKNMMQIQS
DNQYKADYADFMKGIGWLPLGSLEAEKNKKAMEIISEKKYRQHPDTLKYSTLMDSMNMVL
AQNNAKIMNEHLYKQAWEADKTKVHIMPDIPQIILAKANAINMSDKLYKLSLEESKKKGY
DLRPDAIPIKAAKASRDIASDYKYKYNYEKGKGKMVGFRSLEDDPKLVHSMQVAKMQSDR
EYKKNYENTKTSYHTPADMLSVTAAKDAQANITNTNYKHLIHKYILLPDAMNIELTRNMN
RIQSDNEYKQDYNEWYKGLGWSPAGSLEVEKAKKATEYASDQKYRQHPSNFQFKKLTDSM
DMVLAKQNAHTMNKHLYTIDWNKDKTKIHVMPDTPDILQAKQNQTLYSQKLYKLGWEEAL
KKGYDLPVDAISVQLAKASRDIASDYKYKQGYRKQLGHHVGFRSLQDDPKLVLSMNVAKM
QSEREYKKDFEKWKTKFSSPVDMLGVVLAKKCQELVSDVDYKNYLHQWTCLPDQNDVVQA
KKVYELQSENLYKSDLEWLRGIGWSPLGSLEAEKNKRASEIISEKKYRQPPDRNKFTSIP
DAMDIVLAKTNAKNRSDRLYREAWDKDKTQIHIMPDTPDIVLAKANLINTSDKLYRMGYE
ELKRKGYDLPVDAIPIKAAKASREIASEYKYKEGFRKQLGHHIGARNIEDDPKMMWSMHV
AKIQSDREYKKDFEKWKTKFSSPVDMLGVVLAKKCQTLVSDVDYKNYLHQWTCLPDQSDV
IHARQAYDLQSDNLYKSDLQWLKGIGWMTSGSLEDEKNKRATQILSDHVYRQHPDQFKFS
SLMDSIPMVLAKNNAITMNHRLYTEAWDKDKTTVHIMPDTPEVLLAKQNKVNYSEKLYKL
GLEEAKRKGYDMRVDAIPIKAAKASRDIASEFKYKEGYRKQLGHHIGARAIRDDPKMMWS
MHVAKIQSDREYKKDFEKWKTKFSSPVDMLGVVLAKKCQTLVSDVDYKNYLHQWTCLPDQ
SDVIHARQAYDLQSDNMYKSDLQWMRGIGWVSIGSLDVEKCKRATEILSDKIYRQPPDRF
KFTSVTDSLEQVLAKNNALNMNKRLYTEAWDKDKTQIHIMPDTPEIMLARQNKINYSETL
YKLANEEAKKKGYDLRSDAIPIVAAKASRDVISDYKYKDGYRKQLGHHIGARNIEDDPKM
MWSMHVAKIQSDREYKKDFEKWKTKFSSPVDMLGVVLAKKCQTLVSDVDYKNYLHEWTCL
PDQNDVIHARQAYDLQSDNIYKSDLQWLRGIGWVPIGSMDVVKCKRAAEILSDNIYRQPP
DKLKFTSVTDSLEQVLAKNNALNMNKRLYTEAWDKDKTQVHIMPDTPEIMLARQNKINYS
ESLYRQAMEEAKKEGYDLRSDAIPIVAAKASRDIASDYKYKEAYRKQLGHHIGARAVHDD
PKIMWSLHIAKVQSDREYKKDFEKYKTRYSSPVDMLGIVLAKKCQTLVSDVDYKHPLHEW
ICLPDQNDIIHARKAYDLQSDNLYKSDLEWMKGIGWVPIDSLEVVRAKRAGELLSDTIYR
QRPETLKFTSITDTPEQVLAKNNALNMNKRLYTEAWDNDKKTIHVMPDTPEIMLAKLNRI
NYSDKLYKLALEESKKEGYDLRLDAIPIQAAKASRDIASDYKYKEGYRKQLGHHIGARNI
KDDPKMMWSIHVAKIQSDREYKKEFEKWKTKFSSPVDMLGVVLAKKCQILVSDIDYKHPL
HEWTCLPDQNDVIQARKAYDLQSDAIYKSDLEWLRGIGWVPIGSVEVEKVKRAGEILSDR
KYRQPADQLKFTCITDTPEIVLAKNNALTMSKHLYTEAWDADKTSIHVMPDTPDILLAKS
NSANISQKLYTKGWDESKMKDYDLRADAISIKSAKASRDIASDYKYKEAYEKQKGHHIGA
QSIEDDPKIMCAIHAGKIQSEREYKKEFQKWKTKFSSPVDMLSILLAKKCQTLVTDIDYR
NYLHEWTCMPDQNDIIQAKKAYDLQSDALYKADLEWLRGIGWMPQGSPEVLRVKNAQNIF
CDSVYRTPVVNLKYTSIVDTPEVVLAKSNAENISIPKYREVWDKDKTSIHIMPDTPEINL
ARANALNVSNKLYREGWDEMKAGCDVRLDAIPIQAAKASREIASDYKYKLDHEKQKGHYV
GTLTARDDNKIRWALIADKLQNEREYRLDWAKWKAKIQSPVDMLSILHSKNSQALVSDMD
YRNYLHQWTCMPDQNDVIQAKKAYELQSDNVYKADLEWLRGIGWMPNDSVSVNHAKHAAD
IFSEKKYRTKIETLNFTPVDDRVDYVTAKQSGEILDDIKYRKDWNATKSKYTLTETPLLH
TAQEAARILDQYLYKEGWERQKATGYILPPDAVPFVHAHHCNDVQSELKYKAEHVKQKGH
YVGVPTMRDDPKLVWFEHAGQIQNERLYKEDYHKTKAKINIPADMVSVLAAKQGQTLVSD
IDYRNYLHQWMCHPDQNDVIQARKAYDLQSDNVYRADLEWLRGIGWIPLDSVDHVRVTKN
QEMMSQIKYKKNALENYPNFRSVVDPPEIVLAKINSVNQSDVKYKETFNKAKGKYTFSPD
TPHISHSKDMGKLYSTILYKGAWEGTKAYGYTLDERYIPIVGAKHADLVNSELKYKETYE
KQKGHYLAGKVIGEFPGVVHCLDFQKMRSALNYRKHYEDTKANVHIPNDMMNHVLAKRCQ
YILSDLEYRHYFHQWTSLLEEPNVIRVRNAQEILSDNVYKDDLNWLKGIGCYVWDTPQIL
HAKKSYDLQSQLQYTAAGKENLQNYNLVTDTPLYVTAVQSGINASEVKYKENYHQIKDKY
TTVLETVDYDRTRNLKNLYSSNLYKEAWDRVKATSYILPSSTLSLTHAKNQKHLASHIKY
REEYEKFKALYTLPRSVDDDPNTARCLRVGKLNIDRLYRSVYEKNKMKIHIVPDMVEMVT
AKDSQKKVSEIDYRLRLHEWICHPDLQVNDHVRKVTDQISDIVYKDDLNWLKGIGCYVWD
TPEILHAKHAYDLRDDIKYKAHMLKTRNDYKLVTDTPVYVQAVKSGKQLSDAVYHYDYVH
SVRGKVAPTTKTVDLDRALHAYKLQSSNLYKTSLRTLPTGYRLPGDTPHFKHIKDTRYMS
SYFKYKEAYEHTKAYGYTLGPKDVPFVHVRRVNNVTSERLYRELYHKLKDKIHTTPDTPE
IRQVKKTQEAVSELIYKSDFFKMQGHMISLPYTPQVIHCRYVGDITSDIKYKEDLQVLKG
FGCFLYDTPDMVRSRHLRKLWSNYLYTDKARKMRDKYKVVLDTPEYRKVQELKTHLSELV
YRAAGKKQKSIFTSVPDTPDLLRAKRGQKLQSQYLYVELATKERPHHHAGNQTTALKHAK
DVKDMVSEKKYKIQYEKMKDKYTPVPDTPILIRAKRAYWNASDLRYKETFQKTKGKYHTV
KDALDIVYHRKVTDDISKIKYKENYMSQLGIWRSIPDRPEHFHHRAVTDTVSDVKYKEDL
TWLKGIGCYAYDTPDFTLAEKNKTLYSKYKYKEVFERTKSDFKYVADSPINRHFKYATQL
MNEKKYRADYEQRKDKYHLVVDEPRHLLAKTAGDQISQIKYRKNYEKSKDKFTSIVDTPE
HLRTTKVNKQISDILYKLEYNKAKPRGYTTIHDTPMLLHVRKVKDEVSDLKYKEVYQRNK
SNCTIEPDAVHIKAAKDAYKVNTNLDYKKQYEANKAHWKWTPDRPDFLQAAKSSLQQSDF
EYKLDREFLKGCKLSVTDDKNTVLALRNTLIESDLKYKEKHVKERGTCHAVPDTPQILLA
KTVSNLVSENKYKDHVKKHLAQGSYTTLPETRDTVHVKEVTKHVSDTNYKKKFVKEKGKS
NYSIMLEPPEVKHAMEVAKKQSDVAYRKDAKENLHYTTVADRPDIKKATQAAKQASEVEY
RAKHRKEGSHGLSMLGRPDIEMAKKAAKLSSQVKYRENFDKEKGKTPKYNPKDSQLYKVM
KDANNLASEVKYKADLKKLHKPVTDMKESLIMNHVLNTSQLASSYQYKKKYEKSKGHYHT
IPDNLEQLHLKEATELQSIVKYKEKYEKERGKPMLDFETPTYITAKESQQMQSGKEYRKD
YEESIKGRNLTGLEVTPALLHVKYATKIASEKEYRKDLEESIRGKGLTEMEDTPDMLRAK
NATQILNEKEYKRDLELEVKGRGLNAMANETPDFMRARNATDIASQIKYKQSAEMEKANF
TSVVDTPEIIHAQQVKNLSSQKKYKEDAEKSMSYYETVLDTPEIQRVRENQKNFSLLQYQ
CDLKNSKGKITVVQDTPEILRVKENQKNFSSVLYKEDVSPGTAIGKTPEMMRVKQTQDHI
SSVKYKEAIGQGTPIPDLPEVKRVKETQKHISSVMYKENLGTGIPTTVTPEIERVKRNQE
NFSSVLYKENLGKGIPTPITPEMERVKRNQENFSSVLYKENMGKGTPLAVTPEMERVKHN
QENISSVLYKENVGKATATPVTPEMQRVKRNQENISSVLYKENLGKATPTPFTPEMERVK
RNQENFSSVLYKENMRKATPTPVTPEMERAKRNQENISSVLYSDSFRKQIQGKAAYVLDT
PEMRRVRETQRHISTVKYHEDFEKHKGCFTPVVTDPITERVKKNMQDFSDINYRGIQRKV
VEMEQKRNDQDQETITGLRVWRTNPGSVFDYDPAEDNIQSRSLHMINVQAQRRSREQSRS
ASALSISGGEEKSEHSEAPDHHLSTYSDGGVFAVSTAYKHAKTTELPQQRSSSVATQQTT
VSSIPSHPSTAGKIFRAMYDYMAADADEVSFKDGDAIINVQAIDEGWMYGTVQRTGRTGM
LPANYVEAI
NT seq 20010 nt   +upstreamnt  +downstreamnt
atggcagatgacgaagactatgaggaggtggtggagtactacacagaagaagtggtttac
gaagaggtgccgggagagacaataacaaaaatttatgagactacgacaacaaggacatct
gactatgagcaatcagaaacttccaaaccagctctggcacagccagcactggcacagcca
gcatcagcaaagccggtggagaggaggaaggtcatccggaagaaagtggatccttcaaag
ttcatgaccccctacattgcacacagtcagaaaatgcaggatctttttagcccaaataaa
tacaaggagaagtttgagaaaacaaaaggacagccatacgccagcacaacagatactcca
gaacttcgcagaatcaaaaaagtacaagatcaactcagtgaggttaagtatcgaatggat
ggtgatgttgctaagactatatgtcacgtagatgaaaaagcaaaggatattgaacatgca
aagaaagtgtcgcagcaagtcagtaaggttttatacaagcagaactgggaagacaccaag
gataagtacctgcttcctcctgatgcccctgaacttgtccaggccgttaagaacaccgcc
atgttcagcaagaaactgtacactgaagactgggaagcagacaaaagtttgttttacccc
tataatgatagcccggaactgaggagagttgcccaggcccagaaagctctcagtgatgtt
gcctacaaaaaaggtctcgctgaacagcaagctcaattcacgcctctggctgatcctcca
gatatagaatttgccaagaaagtaaccaatcaagtgagcaagcaaaaatacaaagaagac
tatgaaaataaaatcaaaggcaaatggagtgagacaccttgctttgaagttgcaaatgcc
agaatgaatgctgataacattagcacaaggaaataccaggaagattttgaaaacatgaaa
gaccagatctacttcatgcagaccgaaacaccagagtataaaatgaataaaaaagctggt
gtggcagctagcaaggtaaaatacaaagaagactatgaaaagaataaaggaaaagcagat
tataatgtgcttcctgcttcagagaacccacagcttaggcagctgaaggcagcaggagat
gccctaagtgacaaactatacaaggaaaactatgaaaagacaaaagcaaagagcataaat
tactgcgagacccccaaattcaagctcgatactgttctgcagaacttcagtagtgataaa
aaatataaagattcctacttaaaagatattttgggacattatgtaggcagcttcgaggat
ccataccattcacactgcatgaaagtcacagctcaaaacagtgataaaaactacaaagca
gaatacgaagaagacagaggcaaaggcttcttccctcagaccataactcaagaatatgaa
gcaattaagaaactagatcagtgtaaagaccacacctacaaagtccatccagataagaca
aaattcacccaagttacagactctcctgttctgctacaagcccaagtcaattccaaacaa
ctgagtgacttaaattacaaagcaaaacatgaaagtgaaaagttcaagtgccatatcccc
cctgatactcctgcttttatccagcacaaagtcaatgcctataacttgagtgataatctt
tataagcaagactgggagaagagcaaagccaaaaagtttgacattaaagtggatgccatt
cccctgctggcagccaaagccaacaccaagaacaccagcgatgtgatgtacaagaaagac
tatgaaaaaaacaaagggaaaatgattggagtcctcagcattaatgacgatcccaagatg
ctgcactccttgaaggtggccaaaaaccagagtgatagattatacaaggaaaactatgag
aagacaaaggcaaagagtatgaattactgtgagaccccaaaatatcaacttgatactcag
ctgaagaacttcagtgaggctagatataaagacttatatgtaaaggatgttttgggacat
tatgtaggcagcatggaggacccatatcacacacactgcatgaaagttgcagctcaaaac
agtgataaaagttacaaagcagaatatgaagaagataaaggaaaatgctatttccctcag
acaataacacaagaatatgaagcaatcaagaagctggaccagtgtaaagatcatacctac
aaagttcatccagataagaccaaattcacggcagtcactgattctcctgtactgttgcaa
gcccagctcaacacgaaacagcttagtgatctgaattacaaagcaaaacatgaaggtgag
aagttcaagtgccatataccagcagatgctccacagtttatccaacacagagtcaatgcc
tataatctgagtgataatgtttataagcaagactgggagaagagcaaagccaagaagttt
gacattaaagtggacgccattcccctgttggcagccaaagccaacaccaagaacaccagc
gatgtgatgtacaagaaagactatgaaaagagcaaagggaaaatgattggagccctcagc
attaatgacgatccaaagatgctgcactccttgaagacagccaaaaaccagagtgatcgc
gaatatcgaaaagattatgaaaagtcaaaaactatctacacggcacctcttgatatgctc
caagtcactcaagctaagaaatctcaggcaattgccagcgacgttgattataagcacatc
ttacacagttacagctacccccctgatagcatcaatgtggaccttgccaagaaggcatat
gcgctgcagagcgatgttgaatacaaagctgactacaatagctggatgaaaggttgtggc
tgggtgccttttgggtccttagaaatggaaaaggcaaagcgagcttcagacatcctcaat
gagaaaaaatatcgccaacatccagacaccctcaagtttacctcgattgaagatgctcca
attacagtacagtctaaaattaaccaggcccagaggagtgatatcgcttacaaagccaaa
ggagaggaaattattcacaaatacaacctgccaccagacctgccccagttcatccaggct
aaagttaatgcctacaatatcagtgagaatatgtacaaagcagacttgaaagacttgagc
aagaagggatatgacctgagaactgatgcgattcccatcagagctgccaaagctgccagg
caggcggcgagtgacgttcagtacaaaaaagactatgaaaaggctaaagggaaaatggtt
ggcttccaaagtcttcaagatgaccctaaactggttcattatatgaacgtggccaagata
caatcagatcgggagtataaaaaagactatgagaagacaaagtccaaatacaacacgccc
catgatatgttcaatgtcgtggcggctaagaaagcccaggatgtggtcagcaatgtcaac
tataagcattctctccatcattacacctacttgcctgacgccatggacctggagctgtct
aagaacatgatgcagatacagagtgataacgtctacaaggaagactacaacaactggatg
aaaggcattggctggattcctattggcagtctcgacgtcgaaaaagttaaaaaggccggt
gatgctctgaatgaaaagaagtacaggcaacatccagacaccctcaaatttaccagcatt
gtggactccccagttatggtccaggcaaaacagaacacgaagcaagtcagtgatatctta
tacaaggctaaaggagaagatgtgaaacataaatacaccatgagtcctgatcttcctcag
tttctccaggccaagtgcaatgcttacaatataagtgacgtctgttataaacgggattgg
tatgacttaatagccaagggcaacaatgtgctgggcgatgctattcccatcactgcagcc
aaggcatcgagaaacattgccagtgattataaatacaaggaagcttatgagaagtcaaag
ggaaagcatgtgggtttcagaagcctccaggatgatcccaagctggtccactatatgaat
gtggcaaagctgcagtctgatcgtgaatacaagaagaactatgagaacaccaaaaccagc
taccatacccctggggacatggttagcatcacagctgcaaagatggcccaggatgtcgct
accaatgtcaactacaaacagccattgcatcattacacatacctacctgacgccatgagt
cttgagcatacgaggaatgtcaatcaaattcagagtgataatgtgtataaagacgagtat
aacagcttcttgaagggcatcggatggatccctattggttccctggaggtggagaaggtc
aagaaagcaggcgatgcattaaatgagaggaagtatcgacagcacccagataccgtcaag
ttcacaagtgtgcctgattccatgggcatggtgttggctcagcataacacaaagcagcta
agtgatttgaactacaaggtagagggagagaaactgaagcacaagtatactattgaccct
gaattgcctcagtttattcaagccaaagtcaacgccctcaacatgagtgatgctcattat
aaagcagattggaagaaaaccattgccaagggctatgatttgagaccagatgccatccca
attgttgctgcaaaaagttcaaggaatattgctagtgattgcaaatataaggaggcctac
gagaaagccaaaggcaagcaagttggatttctcagtcttcaggatgatcctaaactggtt
cactacatgaatgtggccaaaatccagtctgatcgtgagtacaaaaagggctatgaagcc
agcaagaccaagtaccacacacctctggatatggtcagtgtgacagctgcaaagaaatct
caggaggttgccaccaacgccaactacagacagtcataccaccactacactctcctgccc
gatgccttgaatgtggagcactccaggaatgccatgcagattcagagtgataatctgtac
aaatctgacttcaccaattggatgaaagggatcggctgggtgcccatagagtccctggag
gtggagaaggcaaagaaagcaggagagattcttagtgagaagaagtatcgccagcacccc
gagaagctgaagttcacttacgccatggacacaatggaacaggcacttaacaagagtaac
aaactgaacatggacaagaggctctacactgaaaaatggaacaaggacaagaccaccatt
catgtcatgcctgacacaccggatattttactctccagagtaaaccaaatcaccatgagt
gataaactgtacaaagctggctgggaagaggaaaagaagaaaggatatgacctgaggcct
gatgccattgcaataaaggctgcaagagcctctagagacattgccagtgattacaaatac
aagaaagcctatgaacaagccaaagggaaacacattggcttccggagcctggaagatgac
cccaagctggtgcacttcatgcaagtggccaagatgcagtcagaccgggaatacaagaag
ggatatgagaaatccaagacctccttccacaccccggtggacatgctcagtgtggtggca
gccaagaagtctcaggaagtggccaccaatgccaactacaggaacgtgatccatacctac
aacatgcttcctgatgccatgagctttgaattggccaaaaatatgatgcagattcaaagt
gataatcagtacaaggctgactatgctgacttcatgaagggcattggatggctccctctg
ggctccctggaagcagagaaaaacaagaaagccatggagattattagtgaaaagaagtac
cgccagcacccagacactttgaagtattccacactcatggactcgatgaacatggttttg
gcccagaataatgcaaaaattatgaacgaacatctctacaaacaagcatgggaggctgac
aaaaccaaagtccacatcatgcctgatatcccccagattattttggcaaaggcaaatgca
attaatatgagtgataaactctacaaactttccttggaagagtctaaaaagaaaggctat
gatctcagacctgatgcaattcctatcaaagctgccaaggcttccagagatattgcaagt
gattataaatacaagtacaattatgaaaaagggaaggggaaaatggttggtttccgcagt
ctcgaggatgatcccaaattagtccattccatgcaagtggctaagatgcaatctgatcgg
gagtacaagaaaaactatgagaacacaaagaccagctaccacacccctgccgacatgctc
agtgtcacggctgcaaaggatgcccaagccaacatcaccaacactaactacaagcacctg
attcacaagtacatcctccttccagatgcaatgaacattgagctgaccaggaatatgaat
cgcatacagagtgataatgaatataagcaagattacaatgaatggtacaaagggcttggc
tggagtccagcaggttctctggaagtggagaaggccaagaaagcaactgaatatgccagt
gatcagaaataccgccagcacccgagcaacttccagtttaagaagctgactgattccatg
gacatggtgcttgccaagcagaatgcacataccatgaacaagcatttatacaccattgat
tggaataaagataagaccaagattcatgtgatgcctgatacaccagatattttacaagcc
aagcagaatcaaacactgtatagtcagaaactctataaacttggatgggaagaagctttg
aagaaaggctatgatctcccagttgatgcaatttctgtacagctagctaaagcttcaaga
gacattgctagtgattataaatacaaacaaggctaccgaaagcaacttggccaccatgtt
ggattccggagtctgcaagatgacccaaaacttgtgttgtccatgaatgtagccaaaatg
cagagtgaaagagaatacaagaaggactttgagaagtggaaaactaagttctccagccca
gtggacatgttgggagtggtactggccaagaagtgtcaggagttggttagtgacgtggac
tacaagaactacctgcatcagtggacatgtctgcctgatcagaacgatgttgtgcaagct
aagaaagtttatgaactgcaaagtgagaatctatataaatctgaccttgagtggctgaga
ggcataggatggagtcccttgggttctttagaggcagaaaagaacaagcgggcttcggaa
atcatcagtgagaagaaatatcgtcagcctccagacagaaacaagttcaccagcattcct
gatgccatggatatagttctggcaaagacaaatgccaaaaataggagtgatagactttat
agagaagcttgggacaaagacaagactcagatccacatcatgcctgatacacctgacatt
gttctggctaaagcaaacttaatcaacacaagtgataaactctaccgaatgggttatgag
gagctgaagagaaaaggttacgatcttcctgttgatgccataccaatcaaagcagcaaaa
gcctcccgggaaattgccagtgaatacaagtacaaggaaggctttcgcaagcagctcggc
caccacattggtgcccggaacattgaagatgaccccaagatgatgtggtccatgcatgtg
gccaagatccagagtgacagggagtacaagaaggactttgagaagtggaagaccaagttc
agcagcccagtggacatgctgggggtggtgttggccaagaagtgccagaccttagtcagc
gacgtggactacaagaactacctgcaccagtggacatgcctgcccgaccagagcgatgtc
atccatgctcggcaggcctatgacctccagagcgataatttgtacaagtcagaccttcag
tggctaaaaggcattggctggatgactagtggttctctcgaggatgagaaaaataaacga
gccacccagattttgagtgaccatgtttaccgtcagcacccagatcaatttaagttttcc
agccttatggattccataccaatggttttggcaaaaaacaatgctattaccatgaatcat
cgcctctatacagaagcttgggataaagataaaaccactgtccacattatgccagatacc
cctgaagttttattagctaaacaaaacaaagtaaattacagtgagaaattgtataagctt
ggcctagaagaagccaagaggaaaggttatgacatgcgggtagatgccattcctatcaag
gcagccaaggcctccagagatattgcaagtgaattcaagtacaaagaaggctatcgtaag
cagctcggccaccacattggtgcccgagctatacgtgatgaccccaagatgatgtggtcc
atgcacgtggccaagatccagagtgacagggagtacaagaaggactttgagaagtggaag
accaagttcagcagcccagtggacatgctgggggtggtgctggccaagaagtgccagacc
ttagtcagcgatgtggactacaagaactacctgcaccagtggacatgcctgcccgaccag
agcgacgtcatccatgctcggcaggcctatgacctccagagcgataatatgtacaagtct
gatctccagtggatgagaggcattggctgggtgtccattggctctttggatgtggaaaaa
tgcaaaagggcaactgaaattttgagtgataaaatctatcgccagcctccagacagattc
aaatttaccagtgtgactgactctctggaacaagtgctggccaagaacaatgctctcaac
atgaataagcgtttatacacagaggcctgggacaaagacaagactcaaattcacataatg
cctgatacaccagagattatgttggcaaggcagaacaaaatcaactacagtgagactcta
tacaaacttgccaatgaagaagcaaaaaagaaaggctacgacttgcgaagtgacgccatc
cccatcgtggctgccaaggcctccagggacgttatcagtgattacaaatacaaagatggt
taccgcaagcagctcggccaccacattggagcccggaacattgaagatgaccccaagatg
atgtggtccatgcatgtggccaagatccagagtgacagggagtataagaaggactttgag
aagtggaagaccaagttcagcagcccagtggacatgctgggagtggtgttagccaagaag
tgccagaccttagtcagcgatgtggactacaagaactacctgcacgagtggacgtgcctg
cccgaccagaatgatgtcatccatgctcggcaggcctatgacctccagagcgataacatt
tacaaatctgatctccagtggctgagaggcattggctgggtccccattgggtctatggat
gtggtcaagtgcaagagagctgctgaaatactgagtgataacatctaccgccagcctccg
gacaagctgaaatttaccagtgtgactgactctctagagcaggtgctggccaagaacaat
gctctcaatatgaacaagcgcttatacacagaagcctgggacaaagacaagacccaagtc
catattatgcctgatacacctgaaatcatgttggcaagacaaaataaaataaattatagt
gagagcctctatcgtcaggccatggaagaagccaagaaagaaggctatgacttgagaagt
gatgccattcccattgtggctgccaaggcctctcgggatattgccagtgattacaaatac
aaagaagcatatcgtaaacagttgggtcaccacattggcgcccgagcagtacacgatgac
cccaagataatgtggtccctccacattgccaaagtgcagagtgaccgtgagtacaagaaa
gattttgagaaatacaagacaaggtacagcagcccagtggacatgcttggtatcgttttg
gccaagaagtgtcagaccttggtcagcgatgtggactataaacatcctctgcatgaatgg
atctgcctgcccgaccagaatgacatcattcatgcacggaaagcctatgacctccagagt
gacaatttgtataagtcagaccttgaatggatgaaaggcattggctgggttccgattgat
tccttggaagttgttagggccaagagagctggagaattacttagtgatactatctaccgt
cagcgtccagaaacgctgaaatttaccagtataacggacactccggagcaggtgctggca
aaaaacaatgctttaaacatgaataagcgcttatatactgaagcctgggacaatgacaag
aaaactattcatgtcatgcctgatacaccagaaatcatgttagccaaactcaaccgaata
aactacagtgataaactctataaacttgctttggaagagtccaagaaggaaggctatgac
ttgcgtctggatgccattccaatccaagcagccaaggcttcaagagatattgctagtgat
tacaagtacaaggaaggctaccgcaaacagcttggccaccatattggggcccggaacatt
aaggatgacccgaagatgatgtggtccatccatgtggccaagatccagagtgacagggag
tacaagaaggagtttgagaagtggaagaccaagttcagcagcccagtggacatgctgggg
gtggtgctggccaagaagtgtcagatccttgtaagcgacatagactacaagcatcccctg
catgaatggacctgcctgcctgatcagaatgacgtcattcaggctcggaaggcctatgac
ctgcagagtgatgctatttacaaatctgatcttgagtggctgagaggcataggatgggtt
cccattggctctgtagaggtcgagaaagtgaagagagctggagaaatcctgagtgacagg
aagtatcgccagcctgcagaccagctcaaattcacatgcattaccgacactccggaaatt
gtcctagcaaagaataatgccctgacaatgagcaagcatttatacacagaagcttgggat
gctgacaaaacctccatccacgtgatgccagacaccccagatatcctgctggccaagagt
aattctgccaatatcagccaaaaactttacaccaagggatgggatgaatcaaagatgaag
gactatgatctgagagcagatgctatttccatcaaaagtgccaaggcctccagggacatc
gccagtgactacaaatacaaggaagcctatgagaaacagaaaggccaccacattggagcc
cagagcattgaagatgatcccaagattatgtgtgccatacatgcaggaaaaattcaaagt
gaaagggagtacaagaaggaattccaaaagtggaaaaccaagttctctagcccagtggac
atgttaagcatcttgctggccaagaaatgtcagactttggtcactgacattgattatcgc
aattacctgcatgaatggacatgcatgccggatcaaaacgacattatccaagcaaaaaag
gcctatgacctgcagagtgatgccctctacaaggctgacttggagtggttgcgtggcatt
ggctggatgccccaagggtctcctgaagtgttgagagtcaaaaacgcccagaatatcttt
tgtgacagtgtctatcggacgcctgtggtgaaccttaagtacacaagcattgttgacaca
cctgaagtggtccttgctaaatcaaatgctgaaaatattagtattccaaagtacagagag
gtttgggacaaggataaaacttcaatacacataatgccagatactccagaaattaatctc
gctagagcaaatgctcttaatgtgagcaataaactttaccgtgagggctgggatgaaatg
aaggcgggctgtgatgtccggctggatgccatccccatccaggctgccaaggcctccagg
gagattgccagtgactataaatataagcttgaccatgagaagcagaagggacactacgtg
ggcaccctcacagccagggatgacaacaagatccgctgggccctcatagctgacaagctc
cagaatgaacgagagtaccggctggactgggccaaatggaaggccaagatccagagccct
gtggacatgctttccatcctgcactctaaaaattcccaggctctggtcagtgacatggat
taccgcaattacctgcaccagtggacctgcatgcccgaccagaacgatgtgattcaggcc
aagaaggcctacgaactgcagagcgataatgtttacaaggctgacttggaatggttgcgt
ggaattgggtggatgccaaatgactccgtgtccgtcaatcatgccaaacatgccgcggac
atcttcagtgagaaaaaatatcgcacaaaaatagaaactctcaactttacgcctgtggat
gacagagttgattatgtgacagcgaaacaaagtggcgagatcctcgatgatattaaatac
cggaaagactggaatgccaccaaatcaaagtacaccctcacagaaacccccctgctgcac
actgcccaggaggctgctaggatactggaccagtatctctacaaggaaggctgggagaga
caaaaagccacaggttacattttgcctccagatgctgtgccatttgttcatgcccatcac
tgcaatgacgttcagagtgagctgaaatacaaagctgaacatgtgaagcaaaaaggtcat
tatgttggtgtcccgacgatgagagatgatcctaagctggtttggtttgagcatgcaggc
cagattcagaatgagagactatacaaagaggactatcacaaaacaaaggccaaaatcaat
atacctgctgatatggtgtcagtcttggccgccaagcaggggcagacccttgtcagtgat
attgattatcgtaattacttgcaccaatggatgtgtcatcctgaccagaacgatgttatt
caggcaagaaaggcctatgacctacagagtgataatgtctacagagctgacctggagtgg
ctccgaggcattggctggatcccactggattctgtggaccatgtaagggttactaagaac
caggaaatgatgagtcagatcaaatataagaaaaatgcccttgaaaactatcctaacttt
agaagtgtggtggatcctccagagattgttttagccaagattaattctgtcaatcaaagt
gatgtaaaatataaagaaacatttaataaagcaaagggcaaatatacgttttcaccagat
acaccacatatctcccactccaaagacatgggaaaactctacagtactatactgtataaa
ggggcgtgggagggcaccaaggcctatggctacaccctggatgagcgctacattcccatt
gttggagccaagcatgctgatctggtgaacagtgagcttaaatacaaagagacatatgag
aagcagaaaggtcactacctggctggaaaagtgatcggtgaattccctggtgtggttcac
tgtctggatttccaaaagatgaggagtgcgttgaactacagaaaacattatgaggatacc
aaagcaaatgttcatatccccaatgacatgatgaatcacgtgctggctaaaaggtgccag
tacatcctcagtgacctggagtatcgacactatttccaccagtggacgtctcttctggaa
gaacccaatgttatacgcgtccgaaacgcccaggagatcttgagtgataatgtgtataaa
gatgacctgaattggttgaaaggcattggttgctacgtttgggatacaccccaaatcctc
catgccaagaaatcatacgaccttcagagtcagctacaatatacagcagcaggtaaagaa
aatctacaaaactataatctggtcacagacacgcccctctatgtgactgctgttcagagt
ggcattaatgccagtgaggtaaaatataaagaaaattatcatcagattaaggacaaatac
acaacagttctagaaacagtggattatgacagaaccagaaacctgaagaatctttacagc
agtaacctgtacaaggaggcctgggatagagtgaaagccaccagctacatcctgccttcc
agcaccttgtccctgacacacgccaagaaccagaagcatctggccagccatatcaaatat
cgggaagaatatgaaaagttcaaagctctttatacgttaccaagaagtgttgacgatgat
ccgaacacagcacggtgcctccgagttggcaagcttaacatcgatcgcctgtacagatca
gtttatgaaaagaacaagatgaaaatccacatcgtgcccgacatggtagagatggttact
gccaaggattcccagaagaaagtcagtgagattgattaccgcctgcgcctccacgaatgg
atttgccaccccgacttgcaagtcaatgatcacgtcaggaaagtcacagatcagatcagc
gatattgtatacaaggatgacctcaactggctgaaaggcattggttgctacgtctgggac
actcctgaaatcctccatgccaagcatgcttatgatctacgtgatgatatcaagtataaa
gctcacatgttgaaaacaaggaatgactacaagcttgtcacagatacaccagtctacgtg
caggctgtcaaaagtgggaaacagctaagtgacgctgtctaccactatgactatgtgcac
agtgtcagaggcaaagtggctccaactaccaaaaccgtggatctggaccgggcccttcat
gcatacaagctccagagttcgaatctatacaaaaccagcctgcgcaccctgcccactgga
tatagacttccaggtgacactcctcacttcaaacacatcaaggacacccgttacatgagc
agttatttcaagtacaaagaagcctatgaacacaccaaggcatatgggtatacacttggc
cccaaagatgttccatttgtccacgtccggagagtcaacaatgttaccagcgagagactg
tatcgggaattgtaccacaaactgaaagacaagatccatacaactcccgatacccctgag
atccgccaagtcaagaagacacaagaggctgtcagtgagttgatctacaaatcagacttc
ttcaagatgcagggccacatgatctctctgccatacacaccccaagtgatccattgccgc
tatgtgggagacatcaccagtgatattaaatacaaagaggacttgcaggtcctgaaggga
tttggctgcttcctgtatgacactcctgacatggtccgctcccggcacctgcggaagctc
tggtctaattacctatacactgataaggcaaggaagatgcgagacaaatacaaagtggtg
cttgacactccagaatacagaaaagtgcaagaactgaagacacatctgagtgagctggtc
tacagagctgcaggcaagaagcagaagtcaatctttacttcagttcctgatactcctgat
cttttaagagccaagcgagggcagaagcttcagagtcagtatctgtatgttgaacttgcc
accaaagagagaccccatcatcacgctggaaaccagaccacagccttgaagcatgctaaa
gacgtgaaggacatggtcagtgagaaaaagtacaagattcaatatgaaaagatgaaagac
aagtacactccggttccagatacgccaatcctcatcagagccaagagggcttactggaat
gccagtgatctacgctacaaagaaacatttcaaaagaccaaagggaaataccacacggtg
aaagatgccctagacattgtctatcatcgcaaagtcacagatgacatcagtaaaataaaa
tacaaggagaactacatgagccagttgggtatctggaggtccattcctgatcgtccagag
catttccaccaccgagcagtcactgacacagtcagtgatgtaaaatataaagaagacttg
acttggcttaaaggcattggttgctatgcctatgatacccctgatttcactctggctgaa
aagaacaagactctctacagcaagtataagtataaagaagtatttgaaaggacaaagtca
gatttcaagtatgttgccgactctccgatcaataggcatttcaagtatgcaactcaattg
atgaatgagaaaaaatacagagctgattatgagcagcggaaagataaataccacctggta
gtcgatgagcctagacatctgctggctaagaccgcaggcgaccagatcagtcagatcaaa
tacaggaaaaactatgaaaaatcaaaggacaaatttacctcaattgtggatactccagaa
cacctgcgtactacaaaagtcaacaaacaaatcagcgatatcctttataaattggaatac
aacaaggccaaacccagaggctacaccacaatccacgacacacccatgttgctgcatgtc
cgcaaggttaaagatgaagtcagtgatctgaaatacaaagaagtataccaaagaaataaa
tccaactgcaccattgagccagatgctgttcatatcaaagcagccaaggacgcctacaaa
gtcaacaccaatctggactataagaaacagtacgaagccaacaaagcccactggaagtgg
actcctgaccgaccggacttcctccaggctgccaagtcatccctgcagcaaagcgatttt
gaatataagctggaccgggagttcctcaagggttgcaagctttctgtcactgatgacaaa
aacacggtgctcgccctcaggaatactttaatagaaagtgatctgaaatacaaagagaaa
catgtcaaggaaagaggaacctgccatgccgtacctgacacgcctcagatcctgctggcg
aagactgtcagcaacctggtgtctgagaacaagtacaaggaccatgtcaagaagcacttg
gcacagggctcatacacaacactaccagagacccgggacactgttcacgtcaaggaagtg
accaagcatgtcagtgatacaaattacaaaaagaagtttgtcaaggagaaaggaaaatcc
aactactccatcatgctggagccaccagaggtgaaacatgctatggaagtggccaagaag
caaagtgatgtcgcttacagaaaagatgccaaagagaacctgcattacaccacagtggct
gatcgaccagacatcaagaaggccacacaggcagccaaacaggccagtgaggtggagtac
agagccaagcaccgcaaggaaggcagccatggcttaagcatgctcggtcgcccagacata
gaaatggccaagaaggcagccaagctgagcagccaggttaaataccgagaaaatttcgat
aaagaaaagggcaagacaccaaaatacaatccaaaagacagccagctctacaaagtcatg
aaagatgctaataatcttgcaagtgaggttaaatacaaggctgacctgaagaaacttcac
aaacccgtgactgacatgaaggagtctctgatcatgaatcatgtcctgaatacaagccaa
cttgccagttcttaccagtacaagaagaagtatgagaagagtaaaggccactaccacacc
atacccgataatctggagcagcttcacctaaaagaggccacagaattacagagtatagtg
aaatacaaagaaaagtatgaaaaggaacgaggaaaacccatgctggactttgaaacacca
acgtacatcactgccaaagagtctcagcagatgcagagtgggaaagaatataggaaagat
tatgaagagtccattaaaggcagaaacctgactggcctggaggtcacgccagctttgtta
catgtcaaatatgcaactaaaatagcaagcgagaaagagtacaggaaagatctagaggaa
agcatccgtgggaagggcctcactgaaatggaagatacacctgacatgctaagagcaaag
aatgccactcaaatcctcaatgagaaagaatataagcgagacctggaactggaagtcaaa
ggaagaggcctgaatgccatggccaatgaaactccggattttatgagggccaggaatgct
actgatattgccagtcagattaagtataagcaatcagcagaaatggagaaagccaatttc
acttctgtggttgatactccagagatcattcatgcccaacaagtcaagaatctttcaagc
cagaaaaagtacaaggaagatgctgagaagtccatgtcgtattatgagactgttttggac
accccagagatacagagagtccgggagaaccaaaagaacttcagccttctccaataccag
tgtgaccttaaaaacagtaaaggaaaaattacagttgttcaagacacgccagaaatactg
cgtgtaaaagaaaatcagaagaatttcagctcggttttatataaagaggatgtctcacca
ggaacggctatcggaaagacacctgagatgatgagagtgaaacaaacacaggaccacatt
agctcggtgaagtataaggaagcaataggacaaggaactccaatccctgacctgcctgaa
gtgaaacgtgtgaaggagacgcagaagcacattagctcggttatgtacaaagaaaacttg
ggaacaggcattccaaccactgtgactccagagattgagagagtcaaacgcaatcaagag
aactttagctcggttttgtacaaagaaaatttggggaaaggaatcccaacacctatcact
ccagagatggagagagtcaaacgcaatcaagagaactttagctcggtgttatacaaagaa
aacatgggcaagggaactcctttagctgtcactcccgagatggagcgagtcaaacacaat
caagaaaatattagctcggttttgtacaaagaaaatgtggggaaagccaccgcaacccct
gtcactcctgagatgcagagagtcaaacgcaatcaagaaaacattagctcggtgttatac
aaagagaacctggggaaagcaacccccacaccctttactcctgagatggaaagagtgaaa
cgcaatcaagaaaactttagctcggtattgtacaaagagaacatgagaaaagcaactccg
acacctgttactccagagatggagagagctaagcgcaaccaagaaaacattagctcggtt
ctttattctgatagtttccggaaacaaatacaaggcaaagctgcctatgtattggatacc
cccgagatgagacgggtgagggagacccaacggcacatctcaacggtgaaatatcatgaa
gactttgagaaacacaagggttgcttcacaccagtggtgacagatcctatcactgaacga
gtaaagaagaacatgcaggacttcagtgacattaactaccgaggtattcagaggaaagtg
gtagaaatggaacaaaaacggaatgaccaagatcaggagactattacaggtttacgtgtc
tggcgtactaatcctggttcggtttttgactatgatccagcagaagacaacatccagtcc
cgaagcttacacatgattaatgtccaagctcagcgccggagccgggagcagtcacgatct
gccagtgcactaagcatcagtgggggtgaggagaagtctgagcattcagaagcaccagac
caccacctttcgacttacagcgacgggggtgtctttgcagtctcaacagcttacaaacat
gcaaaaaccacagagctcccacaacaacgatcatcttcagttgctacccaacagacaacg
gtatcttccatcccatctcatccatctactgctggaaaaatcttccgtgccatgtatgac
tatatggctgctgatgcagatgaggtgtccttcaaggatggagatgccatcataaatgtt
caagcaattgatgaaggctggatgtatggcactgtgcagaggactggcaggaccggaatg
ctcccagccaactacgttgaagctatttag

KEGG   Homo sapiens (human): 10529
Entry
10529             CDS       T01001                                 
Symbol
NEBL, C10orf113, LASP2, LNEBL, bA165O3.1
Name
(RefSeq) nebulette
  KO
K25865  nebulette
Organism
hsa  Homo sapiens (human)
Pathway
hsa04820  Cytoskeleton in muscle cells
Network
nt06539  Cytoskeleton in muscle cells
  Element
N01819  Actin thin filament, length regulation
Brite
KEGG Orthology (KO) [BR:hsa00001]
 09140 Cellular Processes
  09142 Cell motility
   04820 Cytoskeleton in muscle cells
    10529 (NEBL)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:hsa04812]
    10529 (NEBL)
Cytoskeleton proteins [BR:hsa04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actin-binding proteins
    Others
     10529 (NEBL)
SSDB
Motif
Pfam: Nebulin SH3_9 SH3_1 SH3_2
Other DBs
NCBI-GeneID: 10529
NCBI-ProteinID: NP_006384
OMIM: 605491
HGNC: 16932
Ensembl: ENSG00000078114
UniProt: O76041 Q59FZ8
Structure
LinkDB
Position
10:complement(20779973..21293050)
AA seq 1014 aa
MRVPVFEDIKDETEEEKIGEEENEEDQVFYKPVIEDLSMELARKCTELISDIRYKEEFKK
SKDKCTFVTDSPMLNHVKNIGAFISEAKYKGTIKADLSNSLYKRMPATIDSVFAGEVTQL
QSEVAYKQKHDAAKGFSDYAHMKEPPEVKHAMEVNKHQSNISYRKDVQDTHTYSAELDRP
DIKMATQISKIISNAEYKKGQGIMNKEPAVIGRPDFEHAVEASKLSSQIKYKEKFDNEMK
DKKHHYNPLESASFRQNQLAATLASNVKYKKDIQNMHDPVSDLPNLLFLDHVLKASKMLS
GREYKKLFEENKGMYHFDADAVEHLHHKGNAVLQSQVKYKEEYEKNKGKPMLEFVETPSY
QASKEAQKMQSEKVYKEDFEKEIKGRSSLDLDKTPEFLHVKYITNLLREKEYKKDLENEI
KGKGMELNSEVLDIQRAKRASEMASEKEYKKDLESIIKGKGMQAGTDTLEMQHAKKAAEI
ASEKDYKRDLETEIKGKGMQVSTDTLDVQRAKKASEMASQKQYKKDLENEIKGKGMQVSM
DIPDILRAKRTSEIYSQRKYKDEAEKMLSNYSTIADTPEIQRIKTTQQNISAVFYKKEVG
AGTAVKDSPEIERVKKNQQNISSVKYKEEIKHATAISDPPELKRVKENQKNISNLQYKEQ
NYKATPVSMTPEIERVRRNQEQLSAVKYKGELQRGTAISDPPELKRAKENQKNISNVYYR
GQLGRATTLSVTPEMERVKKNQENISSVKYTQDHKQMKGRPSLILDTPAMRHVKEAQNHI
SMVKYHEDFEKTKGRGFTPVVDDPVTERVRKNTQVVSDAAYKGVHPHIVEMDRRPGIIVD
LKVWRTDPGSIFDLDPLEDNIQSRSLHMLSEKASHYRRHWSRSHSSSTFGTGLGDDRSEI
SEIYPSFSCCSEVTRPSDEGAPVLPGAYQQSHSQGYGYMHQTSVSSMRSMQHSPNLRTYR
AMYDYSAQDEDEVSFRDGDYIVNVQPIDDGWMYGTVQRTGRTGMLPANYIEFVN
NT seq 3045 nt   +upstreamnt  +downstreamnt
atgagggtccctgtatttgaggatataaaagatgaaactgaagaagaaaagataggggaa
gaagaaaatgaagaagaccaggtcttctataagcctgttattgaagacttaagcatggaa
ttggccagaaaatgcacggaactcattagcgatatccgttataaagaagagtttaaaaag
tccaaggataagtgtacatttgtgactgacagtcctatgctaaaccatgtaaaaaatatc
ggtgcttttatttctgaggcaaaatacaaaggcaccattaaagctgacctttctaattct
ctttataagcggatgccagccacaattgacagtgtttttgcaggagaagttacacagctc
cagagtgaggtggcctacaagcagaaacatgatgctgccaaaggattctcagattatgcc
cacatgaaggagccccctgaggttaaacatgccatggaggtcaataaacaccagagtaat
atttcttataggaaagacgtgcaggacacccacacgtacagtgcagaacttgaccgacca
gacatcaagatggcaacccagatctctaagatcataagcaatgcagaatacaagaaagga
caaggaataatgaataaagagcccgctgtaattggaagaccagattttgaacatgccgtg
gaagcttctaaactttctagtcaaattaaatacaaagaaaaatttgataatgaaatgaag
gataagaaacatcattacaatcctcttgaaagtgcttcttttaggcagaatcagcttgct
gctacactggcgagcaatgtgaagtacaagaaagacattcaaaatatgcatgatccagtt
tcagatctcccaaatttgttgtttttagaccatgttttgaaagccagcaaaatgctcagc
ggccgagaatataaaaagctctttgaggaaaacaaaggaatgtatcattttgatgcagat
gctgtggaacatctgcaccataaaggcaatgccgtcctccaaagtcaggtgaaatataaa
gaagaatatgagaaaaataagggaaagccaatgcttgaatttgttgagacaccatcatat
caagcttcaaaggaggctcaaaagatgcaaagtgaaaaagtttacaaagaggattttgag
aaggagattaaaggaaggtcatcactggatttagacaagactccagaatttttacatgta
aagtacatcaccaaccttctgagggagaaagaatataaaaaagatttggaaaatgagata
aaagggaaaggaatggaacttaattcagaagttcttgatatccaaagagcaaagcgagcc
tctgaaatggcaagtgagaaagaatacaagaaagacctggagtcaataattaaagggaaa
ggaatgcaagctggcactgacacccttgaaatgcagcatgccaagaaggctgcagagata
gcgagtgagaaagactataaaagagatctggagactgaaattaaagggaaagggatgcag
gtgagcacagacactcttgatgtccagagagctaagaaagcatccgagatggccagccag
aaacaatacaagaaggacttagaaaatgaaattaaagggaaaggaatgcaagtgagcatg
gatatcccagatatccttcgagccaagaggacatctgaaatctatagccagagaaagtat
aaagatgaagcagagaagatgctttctaactattctaccatagcagatactcctgaaatt
cagagaattaagacaactcaacaaaacattagtgcggtattttataagaaagaagtggga
gctggcactgcagtgaaagatagcccagagatcgaacgagtgaagaaaaatcagcagaat
attagttcagtgaaatacaaagaagagattaaacatgcaacagccatttctgatcctcca
gaactaaagagagttaaagaaaaccagaagaacatcagcaatctccagtataaagagcaa
aactacaaggccactccggtaagcatgaccccggagatagagagagtgaggcgaaaccag
gagcagctgagtgcggtaaaatataagggagaacttcaacggggaactgcaatttctgat
ccaccagagctgaagagggcaaaagaaaaccagaaaaacatcagcaatgtttattacaga
ggtcagctgggaagagctaccactttaagtgtaactcctgaaatggaaagagtgaagaag
aatcaagaaaatattagctcggtaaaatatacccaggaccataaacagatgaaaggtaga
ccaagtctgattttagatacacctgctatgagacatgttaaagaagcacaaaatcatatt
tcaatggtaaaataccatgaagattttgaaaaaacaaaggggagaggctttactcccgtc
gtggacgatcctgtgacagagagagtgaggaagaacacccaggtggtcagcgatgctgcc
tataaaggggtccaccctcacatcgtggagatggacaggagacctggaatcattgttgac
ctcaaagtttggcgcacagatcctggctccatcttcgaccttgatcccctggaagacaat
attcagtctagaagtctccatatgctctctgaaaaggcgagtcactataggcgacactgg
tctcgatcccattccagcagtactttcggtacaggtctcggagacgacaggtcagaaatc
tccgagatttaccctagcttttcatgctgcagtgaggtaacaagaccgtctgatgaagga
gcacctgttcttcccggagcctatcagcaaagccattcccaaggctatggctacatgcac
cagaccagtgtgtcatccatgagatcaatgcagcattcaccaaatctaaggacctaccga
gccatgtacgattacagtgcccaggatgaagacgaggtctcctttagagacggcgactac
atcgtcaacgtgcagcctattgacgatggctggatgtacggcacagtgcagagaacaggg
agaacaggaatgctcccagcgaattacattgagtttgttaattaa

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