Entry |
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Name |
(RefSeq) receptor-type tyrosine-protein phosphatase mu isoform X4
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KO |
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Organism |
ocu Oryctolagus cuniculus (rabbit)
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Pathway |
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Brite |
KEGG Orthology (KO) [BR:ocu00001]
09130 Environmental Information Processing
09133 Signaling molecules and interaction
04514 Cell adhesion molecules
100356969
09140 Cellular Processes
09144 Cellular community - eukaryotes
04520 Adherens junction
100356969
09180 Brite Hierarchies
09181 Protein families: metabolism
01009 Protein phosphatases and associated proteins [BR:ocu01009]
100356969
09183 Protein families: signaling and cellular processes
04515 Cell adhesion molecules [BR:ocu04515]
100356969
Enzymes [BR:ocu01000]
3. Hydrolases
3.1 Acting on ester bonds
3.1.3 Phosphoric-monoester hydrolases
3.1.3.48 protein-tyrosine-phosphatase
100356969
Protein phosphatases and associated proteins [BR:ocu01009]
Protein tyrosine phosphatases (PTPs)
Class I PTPs (Classical)
Receptor PTPs
100356969
Cell adhesion molecules [BR:ocu04515]
Immunoglobulin superfamily
Type II RPTP family
100356969
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SSDB |
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Motif |
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Other DBs |
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LinkDB |
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Position |
9:61823696..62698914
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AA seq |
1485 aa
MRLGTCLATLAGLLLTAAGDTFSGGCLFDEPYSTCGYSQAEDDDFNWEQVNTLTKPTSDP
WMPSGSFMLVNTSGRPEQQTAHLLLPQLKENDTHCIDFHYFVSSKSNSAPGLLNVYVRVN
NGPLGNPIWNISGDPTRTWNRAELAISTFWPNFYQVIFEVVTSGHQGYLAIDEVKVLGHP
CTRTPHFLRIQNVEVNAGQFATFQCSAIGRTVAGDRLWLQGIDVRDAPLKEIKVTSSRRF
IASFNVVNTTKRDAGKYRCMIRTEGGVGISNYAELVVKEPPVPIAPPQLASVGATYLWIQ
LNANSINGDGPIVAREVEYCTASGSWNDRQPVDSTSYKIGHLDPDTEYEISVLLTRPGEG
GTGSPGPALRTRTKCADPMRGPRKLEVVEVKSRQITIRWEPFGYNVTRCHSYNLTVHYCY
QVGGQEQVREEVSWDPDNSHPQHTITNLSPYTNVSVKLILMNPEGRKESQALVVQTDEDL
PGAVPTESIQGSTFEEKIFLQWREPTQTYGVITLYEITYKAVSSFDPEIDLSNQSGRVSK
LGNETHFLFFGLYPGTTYSFTIRASTAKGFGPPATNQFTTKISAPSMPAYELETPLNQTD
NTVTVMLKPAQSRGAPVSVYQIVVEEERPRRTKKTTEVLKCYPVPIHFQNASILNSQYYF
AAEFPADSLQAAQPFTVGDNKTYSGYWNTPLLPHKSYRIYFQAASRANGETKIDCVRVAT
KAAIIVTQLTTPYIRIVPAAGDGQLTGAATPKPVPEPEKQTDHTVKIAGVIAGILLFVII
FLGVVLVMKKRKLAKKRKETMSSTRQEMTVMVNSMDKSYAEQGTNCDEAFSFMDTHNLNG
RSVSSPSSFTMKTNTLSTSVPNSYYPDPFVPTAILDETHTMASDTSSLVQSHTYKKREQT
DVPYQTGQLHPAIRVADLLQHITQMKCAEGYGFKEEYESFFEGQSAPWDSAKKDENRMKN
RYGNIIAYDHSRVRLQTIEGDTNSDYINGNYIDGYHRPNHYIATQGPMQETIYDFWRMVW
HENTASIIMVTNLVEVGRVKCCKYWPDDTEIYKDIKVTLIETELLAEYVIRTFAVEKRGV
HEIREIRQFHFTGWPDHGVPYHATGLLGFVRQVKSKSPPNAGPLVVHCSAGAGRTGCFIV
IDIMLDMAEREGVVDIYNCVRELRSRRVNMVQTEEQYVFIHDAILEACLCGDTSVPASQV
RSLYYDMNKLDPQTNSSQIKEEFRTLNMVTPTLRVEDCSIALLPRNHEKNRCMDILPPDR
CLPFLITIDGESSNYINAALMDSYKQPSAFIVTQHPLPNTVKDFWRLALDYHCTSVVMLN
DVDPAQLCPQYWPENGVHRHGPIQVEFVSADLEEDIISRIFRIYNAARPQDGYRMVQQFQ
FLGWPMYRDTPVSKRSFLKLIRQVDKWQEEYNGGEGRTVVHCLNGGGRSGTFCAISIVCE
MLRHQRSVDVFHAVKTLRNNKPNMVDLLDQYKFCYEVALEYLNSG |
NT seq |
4458 nt +upstreamnt +downstreamnt
atgagacttgggacttgcctggcgactttggccggacttttgctaactgcagcgggggac
acgttttcaggtggttgcctctttgatgagccgtacagcacctgtggatacagtcaagct
gaagatgatgacttcaactgggagcaggtgaacaccttgaccaaaccaacttctgatccg
tggatgccatcaggttctttcatgctggtgaacacatctgggagacccgagcagcagaca
gcccacctgctcttacctcagcttaaagaaaatgacacccactgcatcgattttcactat
tttgtgtccagcaagagtaattctgcacccggactactcaatgtctatgtgagggtcaat
aatgggcccttgggaaatcccatttggaatatatctggagacccgacgcgcacgtggaac
agggcagaactagccattagcactttctggcctaacttttatcaggtgatttttgaagtg
gtaacctctggacatcaaggctacctcgctattgatgaagtgaaggtgttaggacatccg
tgcaccagaactccccacttcctgcggattcagaacgtggaagtgaacgccggccagttt
gccaccttccagtgcagcgccatcggcaggaccgtggccggcgacagactgtggctacag
ggcatcgatgtgcgcgacgctcccctgaaggaaataaaggtgactagttcccgaagattc
atagcttcatttaatgtggtgaatacaacaaaacgggatgctgggaagtaccgctgcatg
attcgcaccgaaggaggtgttgggatatccaactatgcggaattggtagttaaagagcca
cctgttcccattgccccaccccagctggcctctgtgggagcaacctacctgtggattcag
ctcaacgccaactccatcaacggagacgggcccatcgtggcccgcgaggtggagtactgc
acagccagtgggagctggaacgaccggcagcctgtggattccaccagttataaaattggg
caccttgacccagacacagaatatgagattagtgtgctcctcaccaggccaggggaaggt
ggcaccgggtctcctgggccagctctcaggacaagaaccaagtgtgctgatcccatgcgt
ggcccaagaaaactagaagtggtagaggtgaaatctcgacagatcactatccgctgggag
ccgtttgggtacaatgtaactcgctgtcatagttacaatctcaccgtccactactgttac
caagttggaggccaggaacaggtgcgagaagaagtaagctgggacccagacaattcccac
ccgcagcacacgatcacaaacctgtcgccgtacaccaacgtcagcgtgaaactcatcctc
atgaaccccgagggacgcaaggagagtcaggcgctcgtcgtccagacggatgaagacctc
ccaggtgctgtccccactgaatccatccaaggaagtacctttgaagagaagatatttctt
cagtggagagaacccacccaaacatatggtgtaatcactttatacgagatcacctacaaa
gcagtcagttcttttgacccagaaatagacttatccaatcaaagtggaagagtctcaaaa
ttgggaaatgaaactcacttcctgttttttggactgtatcctgggaccacgtactccttc
accatccgagccagcacagctaagggctttgggcctccagcaacaaaccagttcacaacc
aagatatcagcaccctcgatgccagcttatgaacttgagacacctttgaatcaaactgac
aacacagtgacagtcatgctgaaacctgcgcagagcagaggagcacctgtcagtgtatat
caaattgttgtggaggaagaacgcccccgaagaacgaagaagacaacagaagtcctgaag
tgctacccggtgcccattcacttccagaacgcttccatactgaactctcagtactacttc
gcagcagagtttccagcggacagcctgcaagcagctcagcctttcactgttggggataac
aagacctacagcggatactggaacactcctctgctcccccacaaaagctacagaatttat
ttccaagctgctagtcgagccaatggggaaaccaaaatagactgtgttcgagtggccaca
aaagctgcgataatcgtgactcagcttacaacaccttacattcgcatcgtccctgctgca
ggcgacggccaactaacaggagctgccactccaaaaccagtcccagaacccgagaaacaa
acagaccacacggttaaaatcgctggagtcattgccggcatcttgctgttcgtcattata
tttctcggagttgtattggtaatgaagaaaaggaaactggccaagaagcggaaggagacg
atgagcagcacccggcaggagatgactgtgatggtgaactccatggacaagagctatgct
gagcaaggcaccaactgcgacgaggccttctcattcatggacacgcacaatctgaatggg
aggtctgtgtcctcaccatcgtcctttacgatgaaaaccaacacactgagcacgtcggtg
cctaattcctattacccagatccatttgtgccaactgcaattctagatgagacccacaca
atggccagcgataccagcagcctggtgcagtcccacacttacaagaagcgcgagcagaca
gacgtgccctaccagaccgggcagcttcaccccgccatccgggtggcggatctcctgcaa
cacatcacacagatgaagtgtgccgagggctacggcttcaaggaggaatacgagagcttc
tttgaagggcagtcagcaccgtgggactccgcgaagaaagatgagaacagaatgaagaac
agatacgggaatatcattgcatatgaccattcccgggtgaggctgcagacaatagaagga
gacaccaactcagactacatcaatggcaattacatcgatggctatcatcgacccaatcat
tatattgctactcaagggccaatgcaggagaccatctatgacttctggaggatggtgtgg
catgaaaacactgcaagcataatcatggtgaccaacctcgtggaggtgggaagggtcaaa
tgctgcaaatattggccagatgacacagagatatataaagacattaaagttaccttaata
gaaacagaactcctggcagaatatgtgataagaacatttgctgttgaaaagagaggcgtt
cacgaaatccgcgagatcagacagtttcacttcaccggatggcccgatcacggggtcccc
taccatgccaccggcctgctgggatttgtccggcaggtcaaatccaagagcccacccaat
gccggccctctggtggtgcactgcagcgctggtgcggggaggactggctgcttcatcgtc
atcgacatcatgctggacatggctgagagggaaggcgtggtggacatctacaactgcgtg
cgggagctgcggtcgcggagagtgaacatggtgcaaacagaggagcagtacgtgtttatc
cacgatgccatcctggaagcctgtctttgtggagacacctctgtccctgcctcccaagtc
aggtctctgtactatgacatgaacaaactggatccacagacaaactcaagccagattaaa
gaggaattccggaccctaaacatggtgacaccaacactgcgtgtggaagactgcagcatc
gcacttttgccgcggaaccatgaaaagaaccggtgcatggacatcctgccccccgaccga
tgcctgcccttcctcatcaccatcgatggggagagcagcaactacatcaatgccgccctc
atggatagctacaaacagccttcggcttttatagtcacccagcatcctttgccaaacaca
gtcaaagacttctggagactggccctggattatcactgcacgtcagttgttatgctaaat
gatgtggatcctgcccagctgtgtccgcagtactggccagaaaacggagtgcacaggcat
ggccccatccaagtggagtttgtgtctgctgatctcgaagaggacatcatcagcaggata
ttccgtatttataatgcagccagaccccaagacggatatcggatggtgcagcagttccag
ttcctgggctggccgatgtacagggacacaccggtgtccaagcgctccttcctgaagctc
attcgccaagtggacaagtggcaggaggagtacaacggtggtgaaggccgcacagtcgtg
cactgcctgaacggcggcggccgcagtggcacgttttgtgccatcagcatcgtctgcgag
atgctccggcaccagagaagcgtggatgtcttccacgcggtgaagacgctgaggaacaac
aaacccaacatggtggatctcctggatcagtacaagttctgctacgaggtggccctggag
tacttgaattccggctga |