Entry |
|
Symbol |
ACTN1, BDPLT15
|
Name |
|
KO |
|
Organism |
|
Pathway |
hsa04670 | Leukocyte transendothelial migration |
hsa04810 | Regulation of actin cytoskeleton |
|
Network |
|
Element |
N01080 | ITGA/B-TALIN/VINCULIN signaling pathway |
N01082 | Shigella IpaA to ITGA/B-TALIN/VINCULIN signaling pathway |
|
Disease |
H01235 | Bleeding disorder platelet-type |
|
Brite |
KEGG Orthology (KO) [BR:hsa00001]
09140 Cellular Processes
09144 Cellular community - eukaryotes
04510 Focal adhesion
87 (ACTN1)
04520 Adherens junction
87 (ACTN1)
04530 Tight junction
87 (ACTN1)
09142 Cell motility
04810 Regulation of actin cytoskeleton
87 (ACTN1)
09150 Organismal Systems
09151 Immune system
04670 Leukocyte transendothelial migration
87 (ACTN1)
09160 Human Diseases
09161 Cancer: overview
05203 Viral carcinogenesis
87 (ACTN1)
09171 Infectious disease: bacterial
05131 Shigellosis
87 (ACTN1)
09174 Infectious disease: parasitic
05146 Amoebiasis
87 (ACTN1)
09163 Immune disease
05322 Systemic lupus erythematosus
87 (ACTN1)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
04131 Membrane trafficking [BR:hsa04131]
87 (ACTN1)
09183 Protein families: signaling and cellular processes
04812 Cytoskeleton proteins [BR:hsa04812]
87 (ACTN1)
04147 Exosome [BR:hsa04147]
87 (ACTN1)
Membrane trafficking [BR:hsa04131]
Exocytosis
Small GTPases and associated proteins
Rab associated proteins
87 (ACTN1)
Cytoskeleton proteins [BR:hsa04812]
Eukaryotic cytoskeleton proteins
Actin filaments / Microfilaments
Actin-binding proteins
Cross-linking proteins
87 (ACTN1)
Exosome [BR:hsa04147]
Exosomal proteins
Exosomal proteins of other body fluids (saliva and urine)
87 (ACTN1)
Exosomal proteins of colorectal cancer cells
87 (ACTN1)
Exosomal proteins of bladder cancer cells
87 (ACTN1)
|
SSDB |
|
Motif |
|
Other DBs |
|
Structure |
|
LinkDB |
|
Position |
14:complement(68874128..68979302)
|
AA seq |
892 aa
MDHYDSQQTNDYMQPEEDWDRDLLLDPAWEKQQRKTFTAWCNSHLRKAGTQIENIEEDFR
DGLKLMLLLEVISGERLAKPERGKMRVHKISNVNKALDFIASKGVKLVSIGAEEIVDGNV
KMTLGMIWTIILRFAIQDISVEETSAKEGLLLWCQRKTAPYKNVNIQNFHISWKDGLGFC
ALIHRHRPELIDYGKLRKDDPLTNLNTAFDVAEKYLDIPKMLDAEDIVGTARPDEKAIMT
YVSSFYHAFSGAQKAETAANRICKVLAVNQENEQLMEDYEKLASDLLEWIRRTIPWLENR
VPENTMHAMQQKLEDFRDYRRLHKPPKVQEKCQLEINFNTLQTKLRLSNRPAFMPSEGRM
VSDINNAWGCLEQVEKGYEEWLLNEIRRLERLDHLAEKFRQKASIHEAWTDGKEAMLRQK
DYETATLSEIKALLKKHEAFESDLAAHQDRVEQIAAIAQELNELDYYDSPSVNARCQKIC
DQWDNLGALTQKRREALERTEKLLETIDQLYLEYAKRAAPFNNWMEGAMEDLQDTFIVHT
IEEIQGLTTAHEQFKATLPDADKERLAILGIHNEVSKIVQTYHVNMAGTNPYTTITPQEI
NGKWDHVRQLVPRRDQALTEEHARQQHNERLRKQFGAQANVIGPWIQTKMEEIGRISIEM
HGTLEDQLSHLRQYEKSIVNYKPKIDQLEGDHQLIQEALIFDNKHTNYTMEHIRVGWEQL
LTTIARTINEVENQILTRDAKGISQEQMNEFRASFNHFDRDHSGTLGPEEFKACLISLGY
DIGNDPQGEAEFARIMSIVDPNRLGVVTFQAFIDFMSRETADTDTADQVMASFKILAGDK
NYITMDELRRELPPDQAEYCIARMAPYTGPDSVPGALDYMSFSTALYGESDL |
NT seq |
2679 nt +upstreamnt +downstreamnt
atggaccattatgattctcagcaaaccaacgattacatgcagccagaagaggactgggac
cgggacctgctcctggacccggcctgggagaagcagcagagaaagacattcacggcatgg
tgtaactcccacctccggaaggcggggacacagatcgagaacatcgaagaggacttccgg
gatggcctgaagctcatgctgctgctggaggtcatctcaggtgaacgcttggccaagcca
gagcgaggcaagatgagagtgcacaagatctccaacgtcaacaaggccctggatttcata
gccagcaaaggcgtcaaactggtgtccatcggagccgaagaaatcgtggatgggaatgtg
aagatgaccctgggcatgatctggaccatcatcctgcgctttgccatccaggacatctcc
gtggaagagacttcagccaaggaagggctgctcctgtggtgtcagagaaagacagcccct
tacaaaaatgtcaacatccagaacttccacataagctggaaggatggcctcggcttctgt
gctttgatccaccgacaccggcccgagctgattgactacgggaagctgcggaaggatgat
ccactcacaaatctgaatacggcttttgacgtggcagagaagtacctggacatccccaag
atgctggatgccgaagacatcgttggaactgcccgaccggatgagaaagccatcatgact
tacgtgtctagcttctaccacgccttctctggagcccagaaggcggagacagcagccaat
cgcatctgcaaggtgttggccgtcaaccaggagaacgagcagcttatggaagactacgag
aagctggccagtgatctgttggagtggatccgccgcacaatcccgtggctggagaaccgg
gtgcccgagaacaccatgcatgccatgcaacagaagctggaggacttccgggactaccgg
cgcctgcacaagccgcccaaggtgcaggagaagtgccagctggagatcaacttcaacacg
ctgcagaccaagctgcggctcagcaaccggcctgccttcatgccctctgagggcaggatg
gtctcggacatcaacaatgcctggggctgcctggagcaggtggagaagggctatgaggag
tggttgctgaatgagatccggaggctggagcgactggaccacctggcagagaagttccgg
cagaaggcctccatccacgaggcctggactgacggcaaagaggccatgctgcgacagaag
gactatgagaccgccaccctctcggagatcaaggccctgctcaagaagcatgaggccttc
gagagtgacctggctgcccaccaggaccgtgtggagcagattgccgccatcgcacaggag
ctcaatgagctggactattatgactcacccagtgtcaacgcccgttgccaaaagatctgt
gaccagtgggacaatctgggggccctaactcagaagcgaagggaagctctggagcggacc
gagaaactgctggagaccattgaccagctgtacttggagtatgccaagcgggctgcaccc
ttcaacaactggatggagggggccatggaggacctgcaggacaccttcattgtgcacacc
attgaggagatccagggactgaccacagcccatgagcagttcaaggccaccctccctgat
gccgacaaggagcgcctggccatcctgggcatccacaatgaggtgtccaagattgtccag
acctaccacgtcaatatggcgggcaccaacccctacacaaccatcacgcctcaggagatc
aatggcaaatgggaccacgtgcggcagctggtgcctcggagggaccaagctctgacggag
gagcatgcccgacagcagcacaatgagaggctacgcaagcagtttggagcccaggccaat
gtcatcgggccctggatccagaccaagatggaggagatcgggaggatctccattgagatg
catgggaccctggaggaccagctcagccacctgcggcagtatgagaagagcatcgtcaac
tacaagccaaagattgatcagctggagggcgaccaccagctcatccaggaggcgctcatc
ttcgacaacaagcacaccaactacaccatggagcacatccgtgtgggctgggagcagctg
ctcaccaccatcgccaggaccatcaatgaggtagagaaccagatcctgacccgggatgcc
aagggcatcagccaggagcagatgaatgagttccgggcctccttcaaccactttgaccgg
gatcactccggcacactgggtcccgaggagttcaaagcctgcctcatcagcttgggttat
gatattggcaacgacccccagggagaagcagaatttgcccgcatcatgagcattgtggac
cccaaccgcctgggggtagtgacattccaggccttcattgacttcatgtcccgcgagaca
gccgacacagatacagcagaccaagtcatggcttccttcaagatcctggctggggacaag
aactacattaccatggacgagctgcgccgcgagctgccacccgaccaggctgagtactgc
atcgcgcggatggccccctacaccggccccgactccgtgccaggtgctctggactacatg
tccttctccacggcgctgtacggcgagagtgacctctaa |