- Transcript 'Boschl.CG.Botznik201...' >
- Transcript 'Harore.CG.MTP2014.S4...' >
- Transcript 'KH2012:KH.C12.156.v2...' >
- Transcript 'KH2012:KH.L170.59.v1...' >
- Transcript 'KH2012:KH.C3.257.v2....'
Transcript Model
Transcript Id
KH2012:KH.C3.257.v2.A.SL4-2
Possible name(s)
SPTB; SPTBN1; SPTBN2
Gene model
Location
KhC3 [5,163,531 / 5,189,463]
Amino acid sequence
Length: 2,368
>KH.C3.257.v2.A.SL4-2
RIIMSRRDSSIRSISSSGDDDSAPTSPRRSSFSNPTRPRSGSHVFVDPGTATYNYAAADG
RIKQLKDEREAVQKKTFTKWVNSHLVRVSCRIQDLYMDLRDGRSLIKLLEILSGERLPKP
TRGKMRIHCLENTGKALQFLKSKKVHLENMGSHDIVDGNHRLILGLIWTIILRFQIQDIS
VETEDNRETRSAKDALLLWCQMKTAGYANVNVHNFNTSWRDGLAFNAIIHKHRYALYIMC
KFVSEMCTVPDLIDYDSLKKSNAMHNLQNAFNVAEQQLGLTKLLDPEDIVVERPDEKSII
TYVVTYYHYFSKMKAIAVEGKRIGKVQHLNSYYTCVLDSALESNKMVEKYDTLASDLLEW
IEQTIEILNDRTFSNSLTGVSAQLTAFNNYRTAEKPQKFEEKGNLEVLLFTLQSKMRANN
QKPYMPKEGKLVSDINKAWEKLEKAEHGRELAIRNELIRQERLEHLASRFDRKAAMRETW
LSENQKLVTQDNFGGDLPAVEAATKKHEAIETDVKAYEERVQAVVDVASELQREDYHDIK
RVNERKDNVLQLWEYLLELLQGRRSRLELNVRLQQMFEEMMSLLDWMDDMKGQLANEDLG
QHLMGVEDILQKHMLLEQDITVHGDRVKAIENQSQEFLQPTDEYSACEPSAVEDKVTGVR
TAYDELCKQAADRGAKLDESRRMHHFFATMAEEVAWVKEKEQLLNSDDLGRDLTSVHSLL
TKQKALEDEMKGRKAMLANTISVGEDLIKEDHFASEDIQKHISDINEQWENLEQLADGRN
ELLKEANKLYQFYADADDVDTWLVDTLRIVSTDDCGRDEPSVQSLLKKHAQVNIADGLNE
KDRESVEVQERLRNVDTQYKELLDFAKLRKEKLIDARALYKFYGEADAVLAWIGEKEQVL
QNMLIPDNIEDMELVQHRFEGYENEVNKLAPQVAVVNHMGRGLVQTQHPNADDVAEKQNE
MNVRWNALRALLEERREVLSSAKGLHGFKLECEETEGWIKDKARVLAAGAEDQLTDRDLA
GVVALQRKLSSMERDLAAIQAKLDNLRDEAERLSNEHPEEADEIRSKFEQMEKVWQELRD
MLRKREDSLGEAGNLQKFLRDLDRFQAWLSTTQTTIASEDMPQSLPEAEKLLQQHQAIKL
EIDNYEADYEEIKKTGAQVTAGREDESQYMFLGQRLQALDQGWDELQKMWENRNHFLKEA
KEYQAFIRDCKQAEQILTNQEYALETARRSSAAATTPDSAEEVLKKHEAFVATMASGDER
IESVLRDAEKLSDEETSHHAADRIKERAEKIAERRAKNKEEAEEVSAMLRENLAMQKFVA
DCDELSEWVNEKMLTAKDATYDDARNLHSKWQKHQAFAAELSANKDRLERLEEEGSSLTE
SKPEWGEQIETRLDDLRKHWLALESCTKTKEKTLFEAHKAELFSQTCEDLEKFASQMEEQ
LNSDDVGKDLASVNVLLKDHLAHQDEIEVRKQEVQELESQADVLKSEGDEDVDTMNEERA
KIKRRIQDLDEPLEKRKNALDNSKQLHQFYRDVQDEKLWIDEKIPQATSNELGSSLQEVQ
ALQKKHQALRGELTAHEPLVVAVCDRGVAMATEDNPNVDKINEKCHELQEKWDRLLEDAD
ERKGKLTEAENAQQYFFDADEAVAWMEEQELYMMSEEKAKDSQGATKMLKKHQAQEQSID
DYADTIQQLSKTCRDLCDQEHPESEQLSVRQQQVDRTYAGLKDLAEERRMKLRERCDLFR
LSRDIDDLEQWIAQRETVAASQEQGQDFDHVSMLQDQFNDFRRDTIKTGEERVADAIRMS
DELIDAGHTDAPEIANWKDTISEAWADLLELIDTRVEMLAAAYALHKFHYDGAEILARIQ
EKRQEVPDELGRDHDAVENFQREHDIFAQDIKAIGLQVEVITAAGNELQEGYAGDDLHEI
EKKIEAVQSAWNNLLTLVKKRAALLSDALNKFRFMNLCRDLMDWMETTVRQIDLQEKPRD
VSGVETAMSVHQGTKAEIDARNSSFEECTELGHHLLNTGHYASDEIQVKLNELSAKRNHV
VDRWQEKWDLLNLLMEVYQFAHDANACDAWVQQQNALIRDMPVDSCRSADDADQLLRRLD
GFEKAAVPWEERFAALEKLTEMEIRDEAARKLAKEEMERKRKEEEEEQERRRIEEEEAQK
IREEAEKEAARVQAIVDAETPTIQIVNPEGHEASLVNGMNGETSGDGAGDAEDRRTPEVQ
SHEGPLQRKQERDIDGKRASNRSWNSVFCVLQDKHLTFYKDPKAASQRASFHGEQALSLE
NATVEIASDYKKRKNVLRLKLSSGMEYLLQAKDEEEVQLWLNRIQAQNLNASISSGVSTP
SRVSTLVSEASPKSKKRRSFLKSGKKNK
Nucleotide sequence
Length: 7,701
>KH2012:KH.C3.257.v2.A.SL4-2
CTTTCCCGTAAGTCTAGTATAATGCTTGGTGATCTGGATTTAAAGAACTGTATTTTACCT
GCAAAGAAATACTAAGGATTTCGGATTTTACCATCGGACATATAACGCATCATCATGTCA
AGAAGAGATTCTTCCATCCGATCAATCTCTTCCTCCGGGGATGACGATAGTGCCCCAACA
TCACCCCGAAGATCAAGTTTCAGCAACCCCACCCGACCCCGTAGCGGTAGTCACGTGTTT
GTGGACCCCGGGACAGCCACATACAACTACGCGGCGGCTGACGGTCGTATAAAACAACTC
AAAGATGAGCGAGAAGCCGTACAAAAGAAGACTTTTACTAAATGGGTCAACTCTCATCTA
GTGAGAGTCTCATGCCGCATCCAGGATCTATACATGGACCTCCGAGATGGAAGATCCCTC
ATCAAACTCCTTGAGATCCTCTCAGGAGAACGACTTCCTAAACCCACTCGCGGCAAGATG
CGAATCCACTGCCTTGAAAACACAGGCAAAGCTCTACAGTTTCTTAAAAGTAAGAAGGTT
CACCTTGAGAACATGGGATCACATGATATCGTCGACGGCAACCACCGACTTATTCTTGGT
TTGATTTGGACAATTATTCTAAGATTCCAGATTCAAGACATCAGCGTAGAAACTGAGGAC
AACAGAGAGACTCGCTCTGCTAAAGATGCTTTGCTTCTATGGTGCCAGATGAAAACAGCT
GGTTATGCAAATGTTAATGTTCATAACTTTAATACAAGCTGGAGGGATGGACTTGCTTTC
AATGCAATCATCCATAAGCATCGGTATGCCTTGTATATAATGTGCAAGTTTGTGTCAGAA
ATGTGTACAGTTCCTGACTTGATCGATTACGATTCACTGAAGAAATCAAATGCGATGCAC
AATCTTCAAAATGCTTTTAACGTGGCTGAACAACAACTTGGTCTCACTAAACTTCTTGAC
CCAGAAGATATTGTTGTGGAGCGACCCGACGAGAAATCAATAATCACATACGTGGTCACT
TATTATCATTACTTCTCTAAGATGAAAGCCATTGCTGTGGAAGGGAAGAGAATTGGAAAG
GTACAACATTTGAATTCATATTACACATGTGTGCTCGACAGTGCATTGGAGAGCAACAAG
ATGGTTGAAAAATATGACACTCTCGCATCAGACTTGTTAGAATGGATCGAACAAACAATT
GAAATATTAAATGACAGAACTTTTTCCAACTCCCTTACTGGTGTAAGTGCACAGCTGACA
GCGTTCAATAATTATCGCACCGCTGAAAAACCTCAGAAGTTTGAGGAGAAAGGAAACTTG
GAGGTCCTCCTCTTCACTCTTCAGAGCAAGATGAGGGCAAATAATCAAAAGCCTTACATG
CCCAAGGAAGGAAAGCTTGTGTCAGATATCAACAAGGCTTGGGAAAAACTTGAGAAAGCT
GAGCACGGTCGTGAACTTGCAATACGTAATGAGCTCATTCGACAAGAACGTCTGGAACAC
CTCGCTAGTAGGTTTGATCGAAAAGCAGCCATGCGTGAAACTTGGTTAAGTGAAAACCAG
AAGCTAGTGACGCAGGATAACTTTGGAGGCGATCTTCCAGCAGTGGAGGCAGCCACGAAG
AAGCACGAAGCGATTGAAACCGATGTAAAAGCATACGAGGAGCGAGTACAAGCTGTGGTG
GATGTAGCGAGTGAATTACAAAGGGAGGATTACCATGACATCAAACGTGTTAATGAGAGA
AAAGACAATGTTCTTCAACTGTGGGAATATTTGCTTGAGTTGTTACAAGGTCGAAGGTCA
AGATTGGAACTAAATGTTCGTCTGCAACAAATGTTTGAGGAAATGATGTCGTTACTTGAT
TGGATGGATGATATGAAGGGCCAACTTGCGAATGAGGATTTAGGCCAACACTTGATGGGG
GTAGAGGATATATTACAGAAACACATGTTGTTGGAACAAGACATCACAGTGCATGGGGAT
AGGGTGAAAGCAATTGAAAATCAAAGTCAAGAATTCTTGCAACCCACAGATGAATATTCT
GCGTGCGAACCATCTGCAGTTGAAGACAAAGTGACCGGTGTACGCACAGCATATGATGAA
CTATGCAAGCAAGCAGCAGATAGAGGGGCAAAACTTGATGAGTCGCGTCGTATGCATCAT
TTCTTTGCCACCATGGCTGAGGAAGTAGCATGGGTGAAAGAGAAGGAACAACTTCTTAAC
TCTGATGATCTTGGAAGGGACCTCACAAGTGTTCATTCACTTCTTACTAAACAAAAGGCA
TTGGAAGATGAAATGAAAGGACGTAAAGCGATGCTCGCGAACACCATCTCTGTGGGTGAG
GACTTGATCAAGGAGGATCATTTTGCATCCGAGGACATCCAGAAGCACATCTCGGACATC
AATGAACAATGGGAGAACTTGGAGCAGTTAGCTGATGGAAGAAATGAGTTGCTCAAGGAA
GCAAACAAACTTTACCAGTTTTACGCTGATGCTGATGACGTAGACACATGGTTGGTTGAT
ACGCTTCGTATCGTATCTACTGATGATTGTGGTAGGGATGAACCTTCAGTGCAATCTCTA
CTCAAGAAACATGCACAGGTCAATATCGCTGATGGATTAAATGAGAAAGACCGTGAATCC
GTTGAAGTTCAAGAACGATTACGAAACGTGGATACTCAGTACAAAGAACTTCTTGACTTT
GCAAAGTTAAGAAAGGAGAAGCTTATTGATGCAAGAGCATTATACAAATTCTATGGCGAA
GCTGATGCAGTGTTGGCTTGGATTGGCGAGAAGGAACAAGTTTTACAAAATATGTTGATT
CCTGATAATATTGAAGATATGGAACTTGTACAACATAGATTTGAAGGTTACGAGAACGAG
GTGAACAAACTTGCCCCACAAGTTGCAGTGGTGAACCATATGGGGCGTGGGCTTGTACAA
ACACAACATCCTAATGCAGATGATGTGGCAGAAAAACAAAACGAAATGAATGTCAGATGG
AACGCGTTAAGAGCATTACTTGAGGAAAGACGTGAAGTTTTATCTTCAGCGAAAGGGTTG
CATGGATTCAAACTTGAATGTGAGGAAACCGAGGGCTGGATTAAAGATAAAGCAAGAGTC
CTCGCAGCCGGAGCCGAGGATCAGCTCACGGATCGAGATCTTGCAGGAGTCGTTGCTCTT
CAGAGGAAGCTTTCGAGCATGGAACGTGATCTTGCTGCTATACAAGCAAAATTGGACAAC
TTGCGAGATGAAGCTGAGCGTTTATCAAACGAGCATCCAGAGGAAGCGGATGAGATCAGG
AGCAAGTTTGAGCAGATGGAGAAGGTTTGGCAGGAGTTGAGAGACATGTTAAGGAAGAGA
GAGGACTCACTTGGAGAGGCGGGGAATCTTCAGAAGTTCCTTCGAGATCTTGATCGATTC
CAGGCATGGCTATCAACCACACAAACCACGATAGCATCTGAAGACATGCCACAATCTCTA
CCAGAAGCTGAGAAACTTCTTCAACAGCATCAAGCTATTAAACTCGAGATTGACAACTAT
GAGGCTGATTACGAAGAAATCAAGAAAACTGGAGCGCAAGTTACTGCTGGTCGTGAAGAT
GAATCTCAATACATGTTCCTTGGACAGAGGTTGCAAGCTCTTGACCAGGGTTGGGACGAG
CTGCAGAAAATGTGGGAAAACCGAAACCATTTCCTTAAAGAAGCGAAAGAATATCAAGCG
TTCATTCGTGACTGCAAACAGGCGGAACAAATTCTCACCAACCAGGAGTACGCTCTAGAG
ACCGCTCGTCGCTCCTCTGCGGCTGCTACGACTCCTGACTCCGCTGAGGAAGTCCTGAAG
AAGCACGAGGCATTTGTTGCAACGATGGCAAGCGGAGACGAGAGGATCGAGTCCGTCCTC
CGCGATGCAGAGAAGCTTTCTGATGAAGAGACAAGTCATCATGCTGCAGATCGGATCAAG
GAGCGAGCTGAGAAGATCGCAGAAAGAAGAGCGAAGAATAAAGAGGAGGCAGAGGAGGTT
TCAGCAATGCTCCGGGAGAATCTAGCAATGCAGAAGTTTGTAGCTGACTGTGATGAACTG
AGTGAATGGGTGAATGAGAAGATGTTGACGGCTAAAGATGCCACGTATGATGATGCAAGG
AACCTTCACTCTAAGTGGCAGAAACATCAAGCATTTGCAGCCGAGTTGTCAGCCAACAAA
GATCGGTTGGAGAGACTTGAAGAAGAAGGTTCGTCACTTACAGAATCGAAACCTGAATGG
GGAGAACAAATAGAGACCAGACTTGATGATTTACGAAAGCACTGGCTGGCGCTAGAGAGT
TGCACTAAAACAAAGGAGAAAACTCTTTTCGAAGCTCACAAAGCCGAACTTTTTTCACAA
ACATGTGAAGATCTTGAGAAGTTTGCATCACAAATGGAGGAGCAACTCAACTCCGATGAT
GTTGGAAAAGATCTCGCCAGTGTTAATGTCCTCCTCAAAGATCATCTTGCTCATCAGGAT
GAAATCGAAGTCCGGAAACAGGAGGTGCAAGAACTTGAGAGTCAAGCTGATGTCCTGAAG
TCCGAGGGAGACGAGGATGTTGATACGATGAACGAGGAGCGAGCAAAGATCAAACGGAGG
ATCCAGGATCTGGATGAACCTCTTGAGAAGAGGAAGAATGCTCTTGATAACAGCAAACAA
CTCCATCAGTTTTACAGAGATGTACAAGATGAGAAATTATGGATTGATGAGAAAATCCCA
CAAGCTACTTCTAATGAGCTTGGTAGCTCCTTGCAGGAAGTTCAAGCTTTACAGAAGAAA
CATCAGGCTTTACGAGGTGAACTCACGGCACACGAGCCACTAGTGGTCGCTGTATGCGAT
CGTGGGGTAGCCATGGCAACCGAGGACAATCCTAATGTAGATAAAATAAATGAAAAGTGT
CATGAACTGCAGGAGAAGTGGGACAGATTACTTGAGGATGCAGATGAGAGAAAAGGAAAG
TTAACTGAAGCGGAAAACGCTCAACAATATTTCTTCGATGCTGATGAAGCAGTTGCGTGG
ATGGAGGAACAAGAACTTTACATGATGTCCGAGGAAAAAGCTAAGGACTCTCAAGGAGCA
ACAAAGATGTTGAAGAAACATCAAGCACAAGAGCAAAGCATCGATGATTATGCCGACACC
ATTCAACAACTTTCAAAGACATGTCGTGATCTATGTGACCAAGAACACCCAGAAAGCGAG
CAACTATCAGTGCGGCAACAACAAGTCGACCGAACTTACGCGGGACTCAAAGATCTTGCG
GAGGAGAGGAGGATGAAGTTGAGGGAGAGATGCGATCTCTTCCGTTTATCTCGGGACATT
GATGATCTGGAGCAATGGATCGCTCAGCGGGAAACGGTTGCCGCATCACAGGAGCAAGGG
CAGGACTTTGATCATGTTTCAATGTTGCAAGATCAGTTCAATGACTTCCGACGAGACACG
ATCAAGACCGGGGAGGAAAGAGTCGCTGATGCGATCCGGATGTCTGACGAACTCATCGAT
GCTGGCCACACGGATGCGCCAGAGATCGCAAACTGGAAAGACACGATAAGCGAGGCTTGG
GCCGATCTGCTCGAGCTTATCGACACCAGAGTTGAGATGCTTGCTGCTGCATATGCTCTC
CACAAATTCCATTATGATGGAGCTGAGATCCTTGCAAGGATCCAGGAGAAGAGACAGGAA
GTTCCTGATGAACTTGGACGAGACCACGATGCTGTGGAAAACTTCCAGCGTGAACATGAT
ATATTTGCTCAGGATATCAAAGCTATCGGACTACAGGTTGAAGTCATCACGGCAGCCGGA
AACGAGCTTCAAGAGGGATACGCAGGTGATGATCTTCACGAGATTGAAAAGAAGATAGAG
GCTGTGCAGAGTGCGTGGAATAATCTTCTCACTTTGGTGAAGAAGAGAGCTGCTCTTCTA
TCTGATGCTCTCAATAAATTCCGCTTCATGAATTTGTGTCGGGACCTCATGGACTGGATG
GAGACTACTGTACGACAGATTGACTTGCAGGAGAAGCCAAGAGACGTTTCTGGTGTTGAG
ACTGCAATGAGTGTCCACCAAGGCACAAAAGCAGAGATTGACGCTCGTAACAGCAGTTTC
GAGGAATGCACAGAACTTGGCCACCATCTTCTTAACACTGGCCATTATGCTAGTGATGAA
ATACAAGTCAAGTTGAACGAATTGTCCGCAAAACGAAATCATGTGGTTGATCGCTGGCAA
GAGAAATGGGACTTGCTTAACTTGTTGATGGAGGTGTACCAGTTCGCACACGATGCCAAT
GCATGTGATGCGTGGGTCCAACAACAGAATGCGCTCATCCGTGACATGCCCGTCGACTCT
TGCAGGTCAGCTGATGATGCTGACCAGTTGCTACGACGATTAGATGGGTTCGAGAAAGCA
GCCGTGCCTTGGGAAGAAAGATTTGCTGCTTTGGAGAAATTAACAGAGATGGAAATACGT
GACGAAGCTGCTCGCAAACTCGCGAAAGAAGAGATGGAAAGAAAGAGAAAGGAGGAAGAA
GAAGAGCAAGAAAGGAGGAGAATAGAAGAGGAAGAAGCGCAGAAGATCAGGGAAGAGGCA
GAGAAGGAAGCAGCTCGTGTTCAAGCGATCGTGGATGCTGAAACACCAACGATTCAAATC
GTTAATCCAGAGGGTCATGAGGCATCTCTCGTTAATGGGATGAACGGTGAAACCTCCGGG
GACGGAGCAGGTGATGCAGAGGATAGAAGAACGCCGGAGGTTCAGAGCCACGAAGGACCA
TTACAACGGAAACAGGAACGAGATATAGACGGGAAGAGAGCGTCAAACAGGTCCTGGAAC
AGTGTGTTCTGTGTGTTGCAAGACAAACATCTTACTTTCTACAAAGATCCAAAGGCAGCT
TCCCAGAGAGCTTCCTTCCATGGTGAGCAAGCTCTATCGTTAGAAAATGCAACTGTTGAA
ATAGCTTCTGACTACAAGAAACGAAAGAATGTTCTGCGATTGAAACTTTCTAGTGGAATG
GAATATCTGCTTCAAGCTAAAGATGAGGAGGAAGTGCAGCTGTGGCTGAACAGAATTCAA
GCCCAAAATCTCAATGCTTCCATCAGCAGTGGAGTCAGCACACCTTCTCGAGTATCAACA
TTGGTCAGCGAAGCAAGCCCCAAGTCTAAAAAGCGTAGAAGCTTTTTGAAAAGTGGGAAG
AAGAATAAGTGAATAGAACTAGATGAGTTGCACCCATGTAACTGAATACACGCGGTAGAT
CACTGGGTGGGGTTGTTCTACCACCTTGTTTATTACATAAACGTGGCACTGGTGCATTTA
TAAGTTTTCCACTTGATCAACCAATTCATGTGTTTTGTACTAGTTGATGTTTAATGCTGT
AGGCACCTATTCCGCACTCAATCATCCAAGGATATGTATTGGTTTCTATCGCGTCAAAAT
TGTTATAGCCACCATAGCTTTGTAGTCATGTCGCATTACAATACACTGTGCATGCGCGTG
TTAATGTTGACTTCGCGTGCATGCCCATTTTTCGTTCCTAATCTATTCATGTTCTTGATT
TCTGTAATTCTCCGTCGCTGGTAGCGACTCATGCGCAATTTTTGTACAGCAATTTCTCAT
TATTGAAAAAGTGATAAAAACACAGTAGTTATTAAAGGGCATTACCCCCTTTAATTTGGA
GACCTATTTCATTAACTAGTG
| Gene3D |
CH_dom_sf (IPR036872) - T[52-180] 2.9E-48 - T[181-317] 2.5E-45 |
| PIRSF |
Spectrin_bsu (IPR016343) - T[52-2366] 0.0 |
| SUPERFAMILY |
CH_dom_sf (IPR036872) - T[60-309] 6.4E-85 |
| ProSiteProfiles |
CH-domain (IPR001715) - T[71-175] 17.361 - T[190-308] 14.026 |
| CDD |
CH-domain (IPR001715) - T[72-175] 3.03994E-22 - T[191-310] 1.1845E-22 |
| Pfam |
CH-domain (IPR001715) - T[72-175] 1.9E-21 - T[191-311] 7.5E-24 |
| SMART |
CH-domain (IPR001715) - T[73-173] 4.3E-25 - T[192-306] 4.7E-15 |
| ProSitePatterns |
Actinin_actin-bd_CS (IPR001589) - T[73-82] . - T[147-171] . |
| Pfam |
Spectrin_repeat (IPR002017) - T[346-453] 2.2E-12 - T[466-568] 3.6E-18 - T[572-679] 5.0E-18 - T[682-785] 1.6E-21 - T[788-832] 5.1E-7 - T[878-979] 1.3E-18 - T[985-1091] 9.6E-15 - T[1094-1198] 2.9E-17 - T[1202-1309] 1.6E-7 - T[1314-1415] 2.4E-16 - T[1419-1521] 7.4E-14 - T[1524-1628] 2.4E-23 - T[1631-1734] 4.8E-17 - T[1738-1839] 3.8E-16 - T[1844-1946] 4.6E-14 - T[1952-2051] 1.0E-16 |
| SMART |
Spectrin/alpha-actinin (IPR018159) - T[348-454] 1.7 - T[468-568] 1.5E-24 - T[574-678] 2.3E-23 - T[684-784] 1.3E-28 - T[790-874] 2.4E-12 - T[880-980] 1.4E-25 - T[986-1090] 4.7E-17 - T[1096-1198] 2.4E-21 - T[1204-1310] 6.3E-13 - T[1316-1415] 2.8E-17 - T[1421-1521] 1.8E-18 - T[1527-1627] 2.8E-30 - T[1633-1733] 1.5E-25 - T[1739-1840] 3.4E-19 - T[1846-1946] 2.9E-17 - T[1952-2052] 1.7E-20 - T[2058-2154] 1.6 |
| Gene3D |
PH-like_dom_sf (IPR011993) - T[2216-2330] 1.5E-35 |
| ProSiteProfiles |
PH_domain (IPR001849) - T[2219-2329] 13.892 |
| SMART |
PH_domain (IPR001849) - T[2220-2331] 3.7E-11 |
| PRINTS |
PH_dom-spectrin-type (IPR001605) - T[2222-2241] 1.1E-20 - T[2242-2263] 1.1E-20 - T[2284-2301] 1.1E-20 - T[2304-2322] 1.1E-20 |
| Protein Name | Identity | Bit Score | e-value |
|---|---|---|---|
| SPTB2_HUMAN | 53.564 % | 2455 | 0 |
| SPTN2_HUMAN | 48.429 % | 2107 | 0 |
| SPTB1_HUMAN | 49.976 % | 2034 | 0 |