Entry |
|
Symbol |
IQGAP1
|
Name |
(RefSeq) ras GTPase-activating-like protein IQGAP1
|
KO |
K16848 | Ras GTPase-activating-like protein IQGAP1 |
|
Organism |
lav Loxodonta africana (African savanna elephant)
|
Pathway |
lav04810 | Regulation of actin cytoskeleton |
|
Brite |
KEGG Orthology (KO) [BR:lav00001]
09140 Cellular Processes
09144 Cellular community - eukaryotes
04520 Adherens junction
100660209 (IQGAP1)
09142 Cell motility
04810 Regulation of actin cytoskeleton
100660209 (IQGAP1)
09160 Human Diseases
09161 Cancer: overview
05205 Proteoglycans in cancer
100660209 (IQGAP1)
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04812 Cytoskeleton proteins [BR:lav04812]
100660209 (IQGAP1)
04147 Exosome [BR:lav04147]
100660209 (IQGAP1)
Cytoskeleton proteins [BR:lav04812]
Eukaryotic cytoskeleton proteins
Actin filaments / Microfilaments
Actin-binding proteins
Others
100660209 (IQGAP1)
Exosome [BR:lav04147]
Exosomal proteins
Exosomal proteins of haemopoietic cells (B-cell, T-cell, DC-cell, reticulocyte, and mast cell)
100660209 (IQGAP1)
Exosomal proteins of breast milk
100660209 (IQGAP1)
Exosomal proteins of other body fluids (saliva and urine)
100660209 (IQGAP1)
Exosomal proteins of colorectal cancer cells
100660209 (IQGAP1)
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SSDB |
|
Motif |
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Other DBs |
|
LinkDB |
|
Position |
Unknown
|
AA seq |
1658 aa
MSATDEVDGLGVARPHYGSVLDNERLTAEEMDERRRQNVAYEYLCHLEEAKRWMEACLGE
DLPPTTELEEGLRNGVYLAKLGNFFSPKVVSLKKIYDREQTRYKATGLHFRHTDNVIQWL
NAMGEIGLPKIFYPETTDIYDRKNMPRCIYCIHALSLYLFKLGLAPQIQDLYGKVDFTEE
EINNMKIELEKYGIQMPAFSKIGGILANELSVDEAALHAAVIAINEAIDHRIPADTFTAL
KNPNAMLVNLEEPLASTYQDILYQAKQDKMTNAKNRTENSERERDVYEELLTQAEIQGNI
NKVNAYSALANIDLALEQGDALVLFKALQSPALGLRGLQQQNSDWYLKQLLSDKQQKRQS
GQVGPLQKEELQSGVDDANNAAQQYQRRLAAVAAINAAIQNGVAEKTVLELMNPEAQLPQ
VYPFAADLYQKELATLQQQSPEHSLTHPELSVAVEMLSSVALINRALESGDMNTVWKQLS
SSVTGLTNIEEENCQRYLDELMKLKAQARAENNEFITWNDIQACVDHVNLVVQEEHERIL
AIGLINEALDEGDAQKTLQALQIPAAKLEGVRAEVAQHYQDTLIRAKREKAQVSSIRIVS
FSSENKDSCGDVSLESLNECVLGIPRFRALEGYRGMRHRCHFPKSSCYFTRLILFIRQVN
VGTMALGFFYLSFIFFFLLGDNNSKWVKHWVKGGYHYYHNLETQEGGWDEPPDFVQNSTH
LSREEIQSSISGVTAAYNREQLWLANEGLITKLQACCRGYLVRQEFRSRMNFLKKQIPAI
TCIQSQWRGYKQKKAYQDRLAYLRSHKDEVVKIQSLARMHQARKRYRDRLQYFRDHINDI
IKIQAFIRANKARDDYKTLINAEDPPMIVVRKFVHLLDQSDQDFQEELDLMKMREEVITL
IRSNQQLENDLNLMDIKIGLLVKNKITLQDVVSHSKKLTKKNKEQLSDMMMLNKQKGGLK
ALSKEKREKLEAYQHLFYLLQTNPTYLAKLIFQMPQNKSTKFMDSVIFTLYNYASNQREE
YLLLRLFKTALQEEIKSKVDQIQEIVTGNPTVIKMVVSFNRGARGQNALRQILAPVVKEI
MDDKSLNIKTDPVDIYKSWVNQMESQTGEASKLPYDVTPEQALAHEEVRTRLDTSIRNMR
AVTDKFLSAIISSVDKIPYGMRFIAKVLKDSLHEKFPDAGEDELLKIIGNLLYYRYMNPA
IVAPDAFDIIDLSAGGQLTTDQRRNLGSIAKMLQHAASNKMFLGDNAHLSIINEYLSQSY
QKFRRFFQTACDVPELQDKFNVDEYSDLVTLTKPVIYISIGEIINTHTLLLDHQDAIAPE
HNDPIHELLDDLGEVPTIESLIGESSGNINDPNKEALAKTEVSLTLTNKFDVPGDENAEM
DARTILLNTKRLIVDVIRFQPGETLTEILETPATSEQEAEHQRAMQRRAIRDAKTPDKMK
KSQFVKEDSNLTLQEKKEKIQSGLKKLTELGTVDPKNRYQELINDIARDIRNQRRYRQRR
KAELVKLQQTYAALNSKATFYGEQVDYYKSYIKTCLDNLASKGKVSKKPREMKGKKSKKI
SLKYTAARLHEKGVLLEIEDLQENQFKNVIFEISPTEEVGDFEVKAKFMGVQMETFMLHY
QDLLQLQYEGVAVMKLFDRAKVNVNLLIFLLNKKFYGK |
NT seq |
4977 nt +upstreamnt +downstreamnt
atgtccgccacggacgaagttgacgggctgggcgtggcccggccgcactatggctctgtc
ctggataatgagagacttactgcagaggagatggatgaaaggcgacgccagaatgtggct
tatgagtacctttgtcatttggaagaagcaaagaggtggatggaagcgtgcctaggggaa
gacctgcctcccaccacagaactggaggaggggcttaggaatggggtctaccttgccaaa
ctaggaaacttcttttctcccaaagtggtgtccctgaaaaaaatctacgaccgagagcag
accagatacaaggcaactggcctccactttagacacactgataacgtgattcagtggctg
aatgccatgggtgagattggattgccgaagattttttatccagaaactacagatatttat
gatcgaaagaacatgccaagatgtatctactgtatccatgcactcagtttgtacctgttc
aaactaggcctggctcctcagatccaagacctatatggaaaggttgacttcacagaagaa
gaaattaacaacatgaagattgagctggagaagtatgggatccagatgcctgccttcagc
aagattggaggcattctggctaacgaactgtcagtggatgaagctgcattacatgctgcc
gttattgctattaatgaagctattgaccatagaattccagcggacacctttacagctttg
aagaaccccaatgccatgcttgtaaatcttgaagaacccttggcttccacttaccaggat
atactttaccaggccaagcaggacaaaatgacaaatgccaaaaacaggacggagaactca
gagagagaaagggatgtttatgaggagttgctcactcaggctgaaattcaaggcaatata
aacaaagtcaatgcatattctgcattagcaaatatcgacctggctttagagcagggagac
gcactggtgttgttcaaggctctgcagtcaccagctctggggcttcgaggactgcagcaa
cagaacagtgactggtacttaaagcagctcctgagtgataaacagcagaagagacagagt
ggccaggttggtcccctgcagaaggaggagctacagtctggagtggacgatgcaaacaat
gctgcccagcaatatcagagaagattggcagcagtggctgcgattaatgctgccatccaa
aacggtgttgctgagaagactgttttggagctaatgaatcctgaagcccagctgccccag
gtgtatccctttgctgccgatctttatcagaaagaactggctaccctgcagcaacagagt
cctgaacatagcctcacccatcctgagctctctgttgcagtggagatgttgtcatcggtg
gccctaatcaatagggcgttggaatccggagacatgaatacagtgtggaaacagttgagc
agttcagtcacaggccttaccaacatcgaggaagaaaactgtcagaggtatctcgatgaa
ttgatgaaactgaaagctcaggcccgtgcagagaataacgaattcattacatggaatgac
atccaggcttgcgtggaccatgtgaatctggtggtgcaagaggagcatgagaggatttta
gccattggtttaattaatgaagccctagatgaaggtgatgcccagaagaccctgcaggcc
ttacagattcctgcagccaaacttgagggtgtccgtgcagaagtggcccaacactaccaa
gacacattgatcagagcaaagagagaaaaggcccaggtgagcagcatcagaattgtttct
ttctcttcagagaacaaagatagttgtggggatgtctctcttgagtcactcaatgagtgt
gtcctgggcatccctagattcagagcactggagggatacagaggtatgagacatagatgc
cactttccaaagagctcatgctattttacacgtttgattctttttattagacaggtaaat
gtggggactatggctctgggtttcttttatctttcctttattttcttttttttactagga
gataataacagcaagtgggtgaagcactgggtgaaaggtggctatcactattaccacaat
ctggagacccaggaaggaggatgggatgaacccccagacttcgtgcaaaattccacgcat
ctttctcgggaggagatccagagttctatctctggagtgactgctgcatataaccgtgaa
cagctttggctggccaacgaaggtttgatcaccaagctgcaggcttgctgccgtggatac
ttagttcgacaggaattccgatccaggatgaatttcctgaagaagcaaatccctgccatc
acctgcattcagtctcaatggaggggatacaagcagaagaaggcatatcaagatcgttta
gcttacctgcgctcccataaagatgaagttgtaaagattcagtcactggccaggatgcat
caagctagaaagcgctacagagatcgtctacagtatttccgagatcatataaatgacatt
atcaaaatccaggctttcattcgggcaaacaaagctcgtgatgactacaagactctcatc
aatgctgaggatcctcctatgattgtggtgcgaaaatttgtccacctgctggatcaaagt
gaccaggattttcaagaggaacttgaccttatgaagatgcgggaagaggttatcaccctc
attcgttctaaccagcagctggagaatgacctcaatctcatggatatcaaaattggactg
ctagtgaaaaataagattacactgcaggatgtggtttcccacagtaaaaaacttaccaag
aaaaataaggaacagttgtctgacatgatgatgctaaataaacagaagggaggtctcaag
gctttgagcaaggagaagagagagaaattggaagcttatcagcatctgttttatttattg
cagaccaaccccacctatctggccaagctgatttttcagatgccccagaacaagtccacc
aagttcatggactctgtcatcttcacactttacaactatgcgtccaaccagcgagaggag
tacctgctcctacggctctttaagacagcgctccaggaggaaattaagtcaaaagtagat
cagattcaagaaattgtgacaggaaatcctacagttattaagatggttgtaagtttcaac
cgtggtgcccggggccagaatgccctgagacagatcttggccccggtcgtgaaggagatt
atggatgacaagtctctcaacatcaaaactgatcctgtggatatttacaaatcttgggtt
aatcagatggaatctcagacaggagaggcaagcaaactgccctatgatgtgactcctgag
caggctctggctcatgaggaggtcaggacacggctagacacctccatcaggaatatgcgg
gccgtgaccgacaagttcctctccgccatcatcagctctgtggacaaaatcccttatggg
atgcgtttcattgccaaagtgctgaaggactcattacatgaaaaattccctgatgctggt
gaggatgagctgctgaagattattggtaacttgctttactatcgatacatgaatccagcc
attgttgcccctgatgcctttgacatcattgacctgtcagctggaggccagcttaccaca
gaccaacgccgaaatcttggctccattgcaaagatgctccagcatgcagcttccaataag
atgtttctgggagataatgctcacttaagcatcattaatgagtatctttcccagtcctac
cagaaattcagacgatttttccaaactgcttgtgatgtcccagagcttcaggataaattt
aatgtggatgagtactctgatttagtgaccctcaccaaaccagttatctacatttccatt
ggtgaaatcattaacacccacactctcctgctagatcaccaggacgccattgctccagag
cacaatgatccgatccatgagctgctggatgaccttggggaggtgcccaccattgagtcc
ttgataggggaaagctctggcaatataaatgacccaaataaggaggcactggctaagacc
gaagtctctctcacactgaccaacaagtttgatgtgcctggagatgagaatgcagaaatg
gatgctcggaccatcttgctgaacacaaaacgtttaattgtggatgtcatccggttccag
ccgggagagaccttgactgaaatcctagaaacaccagccaccagtgaacaggaagcagaa
catcagagggcaatgcagagacgtgctattcgtgatgccaagactccagacaagatgaaa
aagtcacaatttgtaaaagaagacagcaacctcactcttcaggagaagaaggagaagatc
cagtcaggcttaaagaagctaacagagcttgggaccgtggacccaaagaacagataccag
gaactgatcaatgacattgccagggatattcggaatcagcggagataccgacagaggaga
aaggctgaactggtgaaattgcaacaaacttatgctgccttgaactccaaggccaccttc
tatggggagcaggtggattactataagagctatatcaaaacctgcctggataacttagcc
agcaagggcaaggtttccaaaaagccaagggaaatgaaaggaaagaaaagcaaaaagatt
tccctgaaatatacagcagcaagactccatgaaaagggagttcttctggaaattgaggac
ctgcaagagaatcagtttaaaaatgttatctttgaaatcagtccaacagaagaagttgga
gactttgaagtaaaagccaaattcatgggagttcaaatggagacttttatgttacattat
caggacctgctgcagctacaatatgaaggagtcgcagtcatgaaattattcgatagagct
aaagtaaatgtcaacctcctgatcttccttctcaacaaaaagttctacgggaagtaa |