Ailuropoda melanoleuca (giant panda): 100465929
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Entry
100465929 CDS
T01329
Symbol
CAMSAP1
Name
(RefSeq) calmodulin-regulated spectrin-associated protein 1 isoform X1
KO
K17493
calmodulin-regulated spectrin-associated protein
Organism
aml
Ailuropoda melanoleuca (giant panda)
Brite
KEGG Orthology (KO) [BR:
aml00001
]
09180 Brite Hierarchies
09181 Protein families: metabolism
01009 Protein phosphatases and associated proteins [BR:
aml01009
]
100465929 (CAMSAP1)
09183 Protein families: signaling and cellular processes
04812 Cytoskeleton proteins [BR:
aml04812
]
100465929 (CAMSAP1)
Protein phosphatases and associated proteins [BR:
aml01009
]
Protein serine/threonine phosphatases
Phosphoprotein phosphatases (PPPs)
Protein phosphatase-1
PP1-interacting proteins (PIPs)
100465929 (CAMSAP1)
Cytoskeleton proteins [BR:
aml04812
]
Eukaryotic cytoskeleton proteins
Actin filaments / Microfilaments
Actin-binding proteins
Cross-linking proteins
100465929 (CAMSAP1)
Intermediate filaments
Intermediate filament-binding proteins
100465929 (CAMSAP1)
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
CAMSAP_CKK
CAMSAP_CH
CAMSAP_CC1
TLN1-like_RS
Motif
Other DBs
NCBI-GeneID:
100465929
NCBI-ProteinID:
XP_034520695
Ensembl:
ENSAMEG00000003475
LinkDB
All DBs
Position
7:complement(59092207..59134079)
Genome browser
AA seq
1559 aa
AA seq
DB search
MDVSRSRGDLFLGSDNIPEDLRDPFYIDQYEQEHIKPPVIKLLLSSELYCRVCSLILKGD
QVAALQGHQSVIQALSRKGIYVMESDDTPVTDPDLSHAPIKMSAHMAMVDALMMAYTVEM
ISIEKVVASVKRFSTFSASKELPYDLEDAMVFWVNKVNLKMREITEKEVKLKQQLLESPA
HQKSPSKWYWKLVPVRYRREHPSARQPPYFPVLEDLMRDGSDGAALLAVVHYYCPEQMKL
DDICLKEVTSMADSLYNIRLLREFSNEYLNKCFYLTLEDMLYAPLVLKPNVMVFIAELFW
WFENVKPDFVQPRDVQELKDAKTVSHHKSGRPPVPISNATKRSFLGSPAAASPADTQPPA
QPPAEGSHRHRLHDEPEHLGKGASAFSPSHPLLPLRQRQQKAVQGEGPPDQRHRSSSLTR
VDAQPRGAAVAWPEKKNRPVSQPAPFALHHASSCDMDPGSGDSVSLARSISKDSLASNII
NLTPQNQPQPTALKTDGKSLLNNVDIEDEDEELVAVIRTDVAPHGGDRGLPTNARSPQRL
ADTLESKPDSFFLEPLMPAVLRPAKEKQAIAKEEECGEGRPRSFTSKRPSEGHQPLVRKR
APSSHSGRDLSRTFTPISCPELPAGVDPGPTEPGLQAAGDARGGLPASSGFDLLPQGQSA
DCFFLHIARADEDTEGRLCVSCARSPGARDAEPWAVLRQDSDSDVADLEEAEQDFVGEDH
PVVMARYVGEEESAKLQEDMKVKEHEDKDDASGRSSPCLSTVSQVSSVSMASGSVKMTSF
AERKLQRLSSCETKSSTSSSQKTTPDASESCPAPLTTWKQRREQSPSRQSREHASLLASE
LVQLHMQLEEKRRAIEAQKKKMEALSARQRLKLGKAAFLHVVKKGKADGAPQPRKPDHLA
GDYAQHNGEDLEGGGCRTEELLLKEEGREGVLPSPDADAEGPVLLQRHRAKAPALHELEK
SRALSAALLEDAGEAVDVSECDLSIEKLNETISTLQQAILRVSQQQEQLLMKPPAAPAPG
MKQNAQDHKVRAAIHFVEPLSPPGTTGHRRPARLGQGRNARSGRPADLKVPKDRQQASSR
SKTPTPSVETLPHLRAFPPRTPSDPGWDGVAEPGNDPRDKCLFESYRLHDESNQRTFVLS
SSKDANILSEQMSLKEVLESSVKEAGLGSPAISGKEIVPADEPPRSKASLIEVDLSDLKA
PDEDGETEGPQSSVDLTSEGDQKPGVGFFFKDEQKAEDELAKKRAAFLLKQQRKAEEARV
RKQQLEAEVELKRDEARRKAEEDRIRKEEEKARRELIKQEYLRRKQQRVLEEQGLGKPKA
KPKKPRPKSVHREESCSDSGTKCSSAPDHLSRAQSGSSLSLASAATTEPESVHSGGTPSQ
RVESLEALPTLSRNPSRSTDRDWETASAASSLASVAEYTGPKLFKEPSSKSNKPIIHNAI
SHCCLAGKVNEPHKNSILEELEKCDANHYIILFRDAGCQFRALYCYYPDTEEIYKLTGTG
PKSITKKMIDKLYKYSSDRKQFNLIPAKTMSVSVDALTIHNHLWQPKRPAVPKKTQTRK
NT seq
4680 nt
NT seq
+upstream
nt +downstream
nt
atggacgtgtcacgctcacgtggtgatctcttccttggctcagataacatccccgaggac
ctcagggaccccttttacattgaccagtatgagcaggagcacatcaaacctcctgtcatc
aagctcctgctgtccagcgagctgtactgccgtgtgtgcagcctcatcctgaagggggac
caggtggccgccttacagggacaccagtctgtcatccaggctctgtcccggaaagggatt
tacgtgatggagagcgacgacacccctgtgacggatcccgacctcagccacgcgcccata
aagatgagcgcccacatggcgatggtggacgctctcatgatggcctacaccgtggagatg
atcagcatcgagaaggtggtggccagcgtcaagcgcttctccacgttcagtgcctcgaaa
gagcttccgtacgaccttgaggacgccatggtgttctgggtgaacaaggtaaatcttaaa
atgagagagataacagagaaagaagttaagttaaaacagcagttattggaaagtccagct
catcaaaagtccccctccaagtggtactggaagttagtgcccgtacgctaccgccgagag
cacccgtccgcgaggcagccaccctacttcccggtgttggaggacctgatgcgggatggc
agtgacggggccgcactcttggccgtggtccactactactgcccagagcagatgaagctg
gacgatatatgcttgaaggaggtgacatcgatggctgacagcctgtacaacatccggctt
ctgagagagttctcaaacgagtatctgaacaagtgcttttatctcaccttagaagacatg
ctctatgctcccttagtgttgaagccgaacgttatggtctttatcgccgagctcttctgg
tggttcgagaacgttaagccagatttcgttcagcccagggacgttcaggaactgaaagat
gctaaaacagtgtcacatcacaagagcggtcggcctcccgtccctatctccaacgccacc
aagcgcagcttcctgggcagccccgcggcggcgagcccggctgacacgcagccccccgca
cagccgccagccgagggcagccataggcaccgtctgcacgatgagcccgagcatctgggg
aaaggggcctctgcctttagcccgtcacatcccttactgcctctgagacagagacagcag
aaggccgtgcagggggagggccctcccgatcagagacaccggtccagttctctcacccgg
gttgatgctcagccacgaggcgcagcagtcgcgtggccggaaaagaagaacaggcctgta
tctcagccggcacccttcgctctccatcatgcatccagctgtgacatggaccccggctcc
ggcgacagcgtcagcctggctcgctccatcagcaaggatagtttggcctccaatatcatt
aacctgactccgcagaaccagccacagcccacggcgctaaagactgatgggaaaagcctt
ctgaacaatgttgatatcgaggacgaggatgaagagcttgtggctgtcattaggacggat
gtggctccccatggtggtgaccggggcctgccgacaaatgccaggtctccccagagactg
gcagacaccctggaaagtaagcctgacagtttcttcttggagccattgatgccggctgtg
cttaggccagccaaggagaagcaggcgattgccaaggaggaagagtgcggagaggggcgg
ccacggagcttcacgtccaagaggcccagtgagggtcaccagcccctggtgcgcaagagg
gcgcccagcagtcacagtggtcgtgacttgagtaggactttcaccccgatctcctgtcca
gaacttcccgcgggcgtggatcccgggcccacggagccggggctgcaggcggcaggggac
gcccgcggtgggcttccggccagcagtggcttcgatctgttacctcagggacagtctgcc
gattgcttcttccttcacatagccagagctgatgaggacaccgagggaaggctctgcgtc
agctgtgccaggagccccggcgcccgtgacgcagagccgtgggctgtcctgaggcaggac
tcggactcggacgttgcagacctggaggaagccgagcaggatttcgtgggcgaggaccac
cccgtggtgatggccaggtatgttggcgaggaagagtcagccaagctgcaggaggacatg
aaggtgaaggagcatgaggacaaggacgacgccagcggccgctcgagcccgtgtctgagc
acggtgtctcaggtcagcagcgtgtccatggccagcggcagcgtaaagatgaccagcttc
gccgagcggaagctgcagagactcagcagctgcgagaccaagtccagcaccagcagctcg
cagaagaccacgcccgacgcctcggagagctgcccggccccgctgacgacctggaagcag
aggcgggagcagagcccgagccggcagagcagggagcacgccagcctgctggcctccgag
ctcgtgcagctgcacatgcagctggaggagaagcgcagggccatcgaggcgcagaagaag
aagatggaggccctctcggcccggcagcgactgaagctgggcaaggctgccttcctgcac
gtggtcaagaaggggaaggccgacggcgccccccagccgcggaagccggaccacttggcg
ggagactacgctcagcacaacggggaggacttggagggtgggggttgcagaacggaggag
cttctcctgaaggaagaggggcgggaaggcgtcctgccgtctccagacgcagacgcagag
ggcccggtgctcctgcagcggcacagggcgaaagcccccgccctgcacgagctggagaag
agcagagcgctttccgccgccctgctggaggacgcaggcgaggcggtggacgtgagcgag
tgtgacctgtccatcgagaagctgaacgagaccatcagcacgctgcagcaggccatcctg
agggtctcgcagcagcaggagcagctgctcatgaaaccccccgcggccccggccccgggc
atgaagcagaacgcccaggaccacaaggtcagggcggccatccactttgtggagccgctc
tctccccccgggacgacggggcaccgcagacctgctcgcctcgggcagggtcggaatgcc
cgctcggggagaccggctgacctgaaggtgcccaaagacagacagcaggcttcctcccga
agcaagaccccgacgcccagtgtggagaccctccctcacttacgggccttcccccctcgg
accccctccgacccgggctgggacggtgttgcggagcctggaaacgaccctcgtgacaag
tgcttgttcgagagctacaggctccatgatgaaagcaaccagcggacatttgtcttgtcc
tcttccaaagatgcaaacatcctgtcagagcaaatgagcctcaaagaagttctggagagc
agtgtgaaggaggcggggctcggctccccagcgatctcagggaaggagatcgtccctgcg
gatgagcccccaaggagcaaggccagtctcatcgaggtggacctctcggacctgaaggcc
cctgacgaggatggagagacggagggcccccagagctcggtggatctcaccagcgaaggc
gatcagaagccgggggtcggcttcttcttcaaggatgagcagaaggcggaggacgagctg
gccaagaagcgggcggccttcctcctgaagcagcaacgcaaggccgaggaggcgcgcgtg
cggaagcagcagctggaggcggaggtggagctcaagagagacgaggcccggcggaaggcc
gaggaggaccggatccggaaggaggaggagaaggcgcggcgggagctcatcaagcaggag
tacctgcgcaggaagcagcagcgggttctagaggagcaggggctggggaagccgaaagcc
aagccgaagaagccgcggcccaagtccgtccatcgcgaagagtcctgcagcgactcaggc
accaagtgctcctcggccccggatcacctgagccgggcccagtcgggctccagcctgtcc
ctggcctccgcggcgaccaccgagcccgagagtgtgcactcagggggcacgccttcccag
cgagttgagtcactggaagccttgcccacgctgagccgcaaccccagcaggagtacggac
agagactgggaaaccgcgtccgcagcgtcctcgctcgcctctgtggccgagtacacaggt
cccaagctctttaaggagcccagtagcaaatcaaacaaaccgattattcacaatgctatt
tctcactgctgtctggctggaaaagtgaatgagcctcacaagaattcaatattagaggag
ctggagaagtgtgacgccaatcactacatcatactgttccgggacgccggctgccagttc
agagcactttactgctactatcccgacacggaggaaatctacaaactaacgggcacgggg
ccaaagagcatcaccaagaaaatgattgacaagctgtataaatacagctcagaccgaaaa
cagtttaacctgatcccagccaaaaccatgtccgtcagtgtggacgcgctcaccattcac
aaccacttgtggcagcccaagcggcccgcggtgccaaagaagacccagactcgtaaatga
DBGET
integrated database retrieval system
