KEGG   Salmo trutta (river trout): 115203385
Entry
115203385         CDS       T08542                                 
Name
(RefSeq) ras GTPase-activating-like protein IQGAP1
  KO
K16848  Ras GTPase-activating-like protein IQGAP1
Organism
stru  Salmo trutta (river trout)
Pathway
stru04517  IgSF CAM signaling
stru04520  Adherens junction
stru04810  Regulation of actin cytoskeleton
Brite
KEGG Orthology (KO) [BR:stru00001]
 09130 Environmental Information Processing
  09133 Signaling molecules and interaction
   04517 IgSF CAM signaling
    115203385
 09140 Cellular Processes
  09144 Cellular community - eukaryotes
   04520 Adherens junction
    115203385
  09142 Cell motility
   04810 Regulation of actin cytoskeleton
    115203385
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04812 Cytoskeleton proteins [BR:stru04812]
    115203385
   04147 Exosome [BR:stru04147]
    115203385
Cytoskeleton proteins [BR:stru04812]
 Eukaryotic cytoskeleton proteins
  Actin filaments / Microfilaments
   Actin-binding proteins
    Others
     115203385
Exosome [BR:stru04147]
 Exosomal proteins
  Exosomal proteins of haemopoietic cells  (B-cell, T-cell, DC-cell, reticulocyte, and mast cell)
   115203385
  Exosomal proteins of breast milk
   115203385
  Exosomal proteins of other body fluids (saliva and urine)
   115203385
  Exosomal proteins of colorectal cancer cells
   115203385
SSDB
Motif
Pfam: RasGAP IQGAP_helical IQ IQGAP_C WW
Other DBs
NCBI-GeneID: 115203385
NCBI-ProteinID: XP_029623905
LinkDB
Position
12:33360211..33399881
AA seq 1536 aa
MTEKGLPKIFYPETTDIYDRKNMPRCIYCIHALSLYLFKLGLAPQIQDLYGKVDFTEEEI
NNMKSELEKYGIQMPAFSKIGGILANELSVDEAALHAAVIAINEAIDQGVPEGTMAAMQN
PNAMLLQMNTSSAQHYQDMLHSAKAEKVANSRKRLGENSDAERDVYEELLTQAEIQGNVN
KVNLTSSLSAAEQALLSGEEDRLYEALRSQALGLHRLQAQNKGWYLKQLMAAREDKEQNS
PGEALTKDELQTGVDAANGIAAGYQKMLQAVERINAAVRAGVPENTAAELMNPDAQLPEV
YPSAADLYQRELTSLQQQSPDGSLSHPELLVAVEMLSSVVLINRALDVGDRNSMWRQLAS
AVTGLSNVEDEYAQRYMDELMRLKAVAREEGSDYLTWNDIQACVDQVNLTIQEEHERIVA
IGQINEALDGGDPQNTLEALQHSAAKLTDVDPSVAQHYYDKLLEARREKAHETQDPSAVL
WLDEIQNAILMSNKDTQEALQFSQAIQAINRAVDSGEAPKTLAALRSPGAGLYGVTPECA
QNYQDDLAKIKQDKTQDGDNGSNWMKHWVKGGHHYYYNLKTGEGSWTEPADFLQNNTQLN
KEDIQSVVSGVTTTYNREQLWLANESLIAKLQAGCRGYLVRKGLKERKDFLKSQDPAITT
IQAHFRGYKQRKVYIKRKEYLNDHSEDAVKIQSMVRMHQARKKYRDRLKHFKDHINDVVK
IQAFIRANKARDDYKTLINADDPPMAVVRKFVHLLDHSDQDFQEELDLMRLREEVITNIR
SNQQLENDLNLMDIKIGLLVKNKITLQEVVSHSNKLTKKNKGELSNLMMMNKQRGGLKAL
SKEKRLKLEAYQYLFYLLQTNPTYLAKLIFQMPQNKSTKFMDSVIFTLYNYASNQREEYL
LLKLFKTALQEEIKSKVDQIQEIVTGNPTVIKMVVSFNRGARGQNALRQILAPVVKEIMD
DKTLNIKTDPVDIYKSWVNQMETQTGEASKLPYEVTPEQAMSHEEVRTRLEASIKNMRMV
TDKFLSAIIVSVDKIPYGMRFTSKVLKDTLHEKFPDATEDELLKIVGNLLYYRYMNPAIV
APDAFDIIDLSAGGQLTTDQRRNLGSIAKMLQHAASNKMFLGDNAHLNPINEYLSSSYQK
FRRFFLAACDVPSLEDKFNVDQYSDLVTLQKPVIYISIGEVINTHTLLLDHQDAIASEHN
DPIHELLEDLGEVPTIESLIGENPLPPGDPNRETMGKTEVSLTLANKFDVPGEANAEMDA
RTLLLNTKRLIVDVIRFQPGETLTEILEGAASPEQEVEYQRAMQRRAIRDAKTPEKMKQA
KPVVDDSLTLQGKKDKIRSNLQRLAELGKVHPENRYQDLINDIAKDIRNQRRYRQRRKAE
LVKLQQTNTALNSKTAFYNVQIDYYNQYIKTCMDNLASNKGKLSKKPGDTKAKKSKQVSQ
KYTAARLHEKGVLIEIEDLQTNQFKNVIFEISPSEAVGVFDVKAKFMGVHLETLQLEYQD
LLQLQYEGVAVMKLFDRATINVNLLIFLLNKKFYGK
NT seq 4611 nt   +upstreamnt  +downstreamnt
atgacagagaagggcctgccaaagatcttctatccagagactacagacatctatgatagg
aagaacatgccgcgctgcatctactgcatacatgctctcagtttgtacctgttcaagctg
ggtctagcccctcagatccaggacctgtatggcaaggtggacttcacagaggaggagatt
aacaacatgaagagtgaactggagaagtacggaatccagatgcccgccttcagcaagatt
ggtggcatcctggccaatgagctgtcagtggatgaggctgcattgcatgcagcagtgata
gccatcaatgaggccatagaccagggggttcccgagggcacaatggctgctatgcagaac
cccaacgccatgctgcttcagatgaacaccagctctgcccagcactaccaggacatgctg
cacagtgccaaggctgagaaggtggccaactcacgcaaacggctgggggagaactccgac
gcagagagagatgtctatgaagagctcctcacacaggctgagatccagggcaacgtcaac
aaggtcaacttgaccagttccctgagtgcagccgagcaggccctgctgagtggtgaggaa
gaccggctgtatgaagcacttcgctcccaggctttgggcctacaccgcctgcaggcccag
aacaagggctggtacctcaaacagctgatggctgcccgcgaggacaaagaacagaattct
ccaggggaggcgctgactaaagatgagttgcaaactggagtagatgcagccaatgggatt
gcagcaggctaccagaaaatgttgcaggcggtggagaggataaatgcggctgtcagagcg
ggtgtgcccgagaacacggcagcagagctgatgaaccctgatgcccagctacccgaggtc
taccccagcgctgctgacctctatcagagagagctgaccagcctgcagcagcagagccca
gatggttctctgtcccatccggagctactggttgccgtggagatgctgtcgtcggtggtg
ttgataaatagggcgttggacgtgggcgaccggaattccatgtggagacaactggccagc
gccgttactggactcagtaacgtagaggacgaatacgcacagaggtatatggatgaattg
atgaggctgaaggcagtggccagggaggaaggcagtgactatctgacctggaacgacatc
caggcctgtgttgaccaggtcaacttgaccatacaggaggagcacgaacgtattgtggcc
atcggtcagatcaacgaagctctggatgggggagacccacagaacaccctagaagccctc
cagcactctgcagccaagctaacagacgtagacccctccgtcgcccagcactactacgac
aaactgcttgaggcccgcagggagaaggcacatgagacccaggacccctccgctgtgctc
tggttggatgagatccagaacgccatactgatgtccaataaggatacccaggaggccttg
cagttctcccaggccatccaggccatcaacagagcggtggacagtggcgaggcgcctaag
accctggctgcgctgcgctcccctggggccggcctctacggagtcacccctgagtgtgcc
cagaactaccaggacgacctggccaagatcaaacaggacaagacccaggatggtgacaat
ggcagtaactggatgaagcactgggtgaagggaggacaccactactactacaacctgaag
acaggagagggctcctggactgaacctgcagacttcctccagaacaacacccagctcaac
aaggaggacatccagtctgtggtttccggggtgaccaccacctacaaccgggagcagctg
tggctggccaatgagagcttgattgccaagctgcaggccggatgccgtggctacctggtg
aggaaaggcctgaaggagagaaaagacttcctgaaatcccaggacccagccattaccacc
atacaggctcattttagaggctacaagcagaggaaggtctatataaagaggaaggagtac
ctgaatgaccacagcgaggatgctgtaaagatccagtcgatggtgaggatgcaccaagct
cgcaagaagtacagagaccgcctgaagcacttcaaggaccatatcaatgatgtggtgaag
atccaggcgttcatcagagccaacaaagccagagatgactacaagacactcatcaacgct
gacgaccctcccatggcggtggtgcgcaagttcgtccacctcctggaccacagcgaccag
gacttccaggaagagctggacttgatgaggctccgggaggaggtgatcaccaacatccgc
tccaaccagcagctggagaatgacctgaacctgatggacatcaagatcggcctgctggtc
aagaacaagatcaccctgcaggaggtggtgtcccacagcaacaagctgaccaagaagaac
aagggcgagttgtccaacctgatgatgatgaacaaacagagaggaggcctgaaggctctg
agcaaggagaagaggctcaagctggaggcctatcagtatctcttctacctgctgcagacc
aaccccacctacctggccaagctgatcttccagatgccccagaataagtccactaagttc
atggactctgtgatcttcaccctgtataactacgcctccaaccagagagaggagtacctg
ctgctcaaactcttcaagaccgccctgcaggaggagatcaaatccaaagtggaccagatc
caggagatcgtcacgggcaaccccacggtcatcaagatggtggtgagcttcaaccgcggc
gcccgaggccagaatgcactgcgtcagatcctggcacctgtcgtcaaggaaatcatggac
gacaagacgctgaacatcaagactgacccggtggacatctacaagagctgggtcaaccag
atggagacacaaactggagaggccagtaaactaccctatgaggtaacaccagagcaggct
atgagtcacgaggaggtgcgcactcgtctggaagcgtccatcaagaacatgaggatggtc
acagacaagttcctgtccgccatcattgtctctgtggacaaaatcccgtatgggatgcgt
ttcacctccaaggtgctgaaggacacactccatgagaagttccctgacgctacagaggat
gagcttctaaagatcgtgggtaacctgctgtactaccgctacatgaatccggccatcgtg
gcgcccgacgccttcgacatcatcgacctgtcggccggaggtcagctgaccacagaccaa
cggcggaacctgggctccattgccaagatgctgcagcacgccgcgtccaataagatgttc
ttgggggacaacgcccacctcaaccccatcaacgagtacctcagcagctcctaccagaag
ttcaggcgtttcttcttggcggcgtgtgacgtcccgtcattggaggacaagttcaacgtg
gatcagtactctgacctggtcacacttcagaaacctgtcatctacatctctataggggag
gtcatcaacacgcacacgctgctgttggaccaccaggatgccatcgcctcggagcacaac
gaccccatccacgagctgctggaggacctgggagaggtgcccaccatagagtcccttatc
ggtgagaaccccctccccccaggggaccccaacagggagacgatggggaagacagaggtg
tccctcaccctcgccaacaagtttgacgtccccggagaggccaatgccgagatggatgcc
aggactctactgcttaacaccaagcggctgatcgtggacgtgatccggttccaacctgga
gaaacactcactgagattctggagggtgctgccagtcctgaacaggaagtggagtaccag
cgtgctatgcagcggcgggccatccgtgatgccaaaaccccggagaagatgaagcaggcc
aagccagtggtggatgacagcctgacgctgcagggcaagaaggacaagatcaggagcaac
ctgcagcgcctggcagagctgggcaaggtgcaccctgagaaccgctaccaggacctcatc
aacgacatcgccaaggacatccgaaaccagcggcggtatcggcagcggaggaaggcagag
ctggtgaagctccaacagaccaacaccgccctcaactccaagaccgccttctacaacgtc
cagattgactactacaatcagtacatcaagacctgcatggacaacctggccagcaacaag
ggaaagctgtcaaagaagccaggtgacaccaaggccaagaagagtaaacaggtgtctcag
aagtacaccgccgctcgcctccatgagaagggtgtgctgatcgagattgaagacctgcag
acaaaccagtttaagaacgttatcttcgagatctctccgtcggaggcggttggagtgttc
gatgtgaaggccaagttcatgggagtgcacttggagacgttacagttggaataccaggac
ctcctgcagctgcagtacgagggtgtggctgtgatgaagctcttcgacagggccaccatc
aatgtcaacctgctcatcttcctgctcaacaagaagttttacggaaaatag

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