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  1. Transcript 'KH2012:KH.C1.1001.v1...'
  2. Clone 'cicl015p18'
  3. Transcript 'KH2012:KH.C3.199.v2....'
  4. Transcript 'KH2012:KH.C12.136.v1...'
  5. Transcript 'Harore.CG.MTP2014.S2...'

Transcript Model

Transcript Id

Harore.CG.MTP2014.S26.g15338.01.t

Possible name(s)

PHLDB1; PHLDB2; PHLDB3

Gene model

Harore.CG.MTP2014.S26.g15338

Location

S26 [58,100 / 74,847]

Sequences

Amino acid sequence

Length: 1,558

>Harore.CG.MTP2014.S26.g15338.01.p
MFHSLRLRPQIIFRKSACIFRGNVRELIFFSQSGLFYTFRPLHSFVYRICFDITMKEVNK
LASKNDNDKKHVGIVLDSDWDDIIASLDLVGKAISKNQRNSYSVATSRVQTLPRLGKTSQ
NDRQVVTGYNGSLRTPPPYPGNRTSNSLPLSPSESDYDNLSPQNNLIDVEHLFEPFLTSS
KVQYGNEDLTSCEHSLNLVLKSLEFPEFTDGKTAQSYVEAVEPPSPISMNSTAKNFYASS
SLMSPTRSSPDTSVKHQMNSTQVKKYTSPAMNNISFHSEHIQPSSSYNGYLNSKMVMPPA
LPPKLSPKTKLKPVIVNMNGSSKVCLSPERMQTNGKAFQFNANSQDSALLCGSNNVYLAN
FVNHAELSCKSTDKNPKLDNSYTSLSAAPKPAPRSTFFSQKGEEFNQNNNNKSANKLEKK
SSTEVSNSEEICIPNGFVSSRIARFSKTGIADNVTESRFHNASSRAQDFISVSSKFGPNS
DCQSKHCYEDINRTGPYDNIDLPVPMYYEDGSNCNSLPPLPPKLSKSAASSNRKTGMPVI
PVSMGVTSPPPISPRSIVAYSKMVEKNVVSIGRKPIVSSRSLSAPSSPLLNRKFATVGKN
HRHNSNEKEKIKCDLQVRSPSPTRSEFMTRRRHLSESLSSFSGGLRKAPSVRSLRDRFGS
QSSISSVDSERLEDDLILIHDDSVRQRRKEQLGAEKEKQRLGKILTMCEDFMNQSKRKDD
DLEKNFDLNKLLKEISLHGKDLSKADCEGRELHADSQTNPCGDAEYSSSYTLTSVAPASP
LSPKNTDSPGSFNSPPRNFRRLVSLERDICCQTSQVQGQVTVRSPHSEVQSVSSEENINK
VKNPPRPADVSEIQKLRDTGLEKIEKLQHHISDFEVQLDECTSALEMERALVSGELNSEQ
ELLNRSEQLSESLKDQIIDLEEKYMKQREIHNGLLEKEKEKLVEMEEKLMETEKQLNNCP
ESIRDLWEVQLKKDKTILEQELKNFEDLEFQTLEAVSRIDEEKENTQRKLIAKQKKMDYD
LRRRQEHVRALETQVNELLEQEKSENQRLNMMRDQAIKELQQHREETTLLERKYYEMTGT
LPPSPPRPSSVRTLSSSAMPMRGTNDATTKEDAVDGGSGNNEEAKENKDEHGTQFNTNQN
STSNATADSARDMREVLHKEGLWYRDDTSLCYKPKPAFGTSRNPTHFTLTRYKSNKNQPK
RGGSSIEQSSNNGLLSRSCYPVIQSLNDSRSSQGNSGINSDLTRCRGLEACSMSSLDSLG
TSVSAWSIQSPEIKEVEQIRAIERRIENAKAERQKLLADVNAYVTKSHQDMNNDFEKTIV
LSSSSSTVGTDAPTTSSSSDHDIMSPIATSPTEDRGEDVRLRLRQETKKQTRPMTRYLPV
RAKDFDLHAHIESCGHSPSLCRHICLNSTSCRGYMMKMGGRLRTWHKRWFVFDRVGKSLV
YYSNKHETKLRGMVFFKDIQDVFFDHLKTHKSPQPNLTFCVKCYDRVYYLTAPSPETLRI
WMDWSHTIEANELPTDKVLDRPNVHNEYLNFISRYLRQHSWMVYFCYCEDLSRLYVLF

Nucleotide sequence

Length: 4,677

>Harore.CG.MTP2014.S26.g15338.01.t
ATGTTTCATTCGTTACGTCTCAGGCCTCAGATAATCTTTAGAAAAAGTGCTTGCATTTTT
CGAGGAAACGTACGTGAATTGATATTTTTTTCGCAGTCGGGTTTGTTTTATACCTTTCGT
CCTCTGCACAGTTTTGTATATCGCATTTGTTTTGATATTACTATGAAAGAAGTAAACAAA
TTAGCATCCAAAAATGACAACGACAAGAAGCATGTTGGAATTGTTCTGGATAGTGACTGG
GACGATATTATTGCATCACTGGATCTCGTCGGTAAGGCTATTTCCAAAAACCAAAGAAAC
TCTTACTCCGTTGCGACATCTCGCGTTCAAACGCTCCCACGATTGGGGAAGACTTCGCAA
AATGATCGACAAGTGGTTACTGGTTATAACGGTAGCCTAAGAACACCGCCACCATATCCA
GGGAACAGAACATCAAATAGTCTTCCTCTTAGCCCGTCTGAATCAGATTACGATAATCTC
AGTCCTCAGAATAATTTAATCGACGTCGAACATTTGTTTGAACCTTTTTTGACATCTTCA
AAGGTTCAATATGGCAATGAAGATCTCACTTCTTGTGAACACAGTCTCAATCTGGTATTG
AAGAGTTTAGAGTTTCCGGAGTTTACTGATGGTAAAACTGCTCAATCCTATGTGGAAGCA
GTTGAACCTCCAAGTCCAATCAGTATGAATTCAACAGCCAAAAACTTTTATGCTAGTTCT
TCACTCATGTCTCCTACACGATCATCTCCAGACACGAGTGTGAAACACCAAATGAATAGT
ACCCAAGTTAAGAAGTATACTTCACCTGCAATGAACAACATATCCTTTCATTCGGAGCAT
ATTCAGCCATCTAGTAGCTACAATGGCTATCTGAACTCGAAAATGGTAATGCCACCTGCC
CTTCCCCCCAAGCTCTCCCCTAAGACAAAACTGAAACCTGTGATTGTCAATATGAATGGT
TCAAGCAAAGTTTGCTTGAGTCCGGAACGAATGCAGACAAATGGAAAGGCATTTCAATTT
AATGCAAATAGCCAAGATAGTGCCCTGCTATGCGGATCTAATAATGTTTATCTTGCCAAC
TTCGTCAATCATGCTGAATTGTCCTGTAAATCCACTGATAAAAACCCAAAGTTGGACAAC
TCGTATACTTCTCTTTCTGCTGCTCCAAAACCAGCTCCTCGTAGTACTTTTTTTTCACAA
AAGGGAGAAGAATTCAATCAAAATAACAATAACAAGTCTGCAAACAAATTGGAGAAAAAA
TCTAGCACTGAAGTGTCAAACAGTGAAGAGATTTGTATCCCAAATGGTTTCGTGAGTTCT
AGAATTGCTCGATTCTCAAAGACTGGGATTGCGGACAACGTTACAGAGTCCAGATTTCAC
AACGCTAGCTCAAGAGCACAAGACTTCATCAGTGTTAGTTCCAAATTTGGCCCTAATTCT
GATTGCCAATCCAAACATTGTTATGAAGATATAAACAGAACTGGCCCCTATGACAATATA
GACCTCCCAGTTCCGATGTATTATGAAGACGGAAGTAATTGCAACAGCCTACCTCCTCTA
CCTCCAAAGCTGTCAAAATCCGCTGCGTCGAGTAACCGAAAGACAGGAATGCCGGTGATA
CCTGTCAGCATGGGAGTGACTTCTCCACCTCCGATATCACCCAGAAGTATTGTAGCATAT
AGCAAAATGGTTGAAAAAAATGTTGTATCTATTGGAAGAAAACCAATTGTTAGTTCTAGA
TCACTGAGTGCGCCATCTAGTCCTTTACTCAACAGGAAATTTGCGACAGTTGGAAAAAAC
CATCGGCATAATAGCAATGAAAAGGAGAAAATAAAGTGTGATTTGCAAGTTCGCAGCCCT
TCGCCAACCAGGAGCGAATTCATGACTAGAAGGCGGCACTTGAGTGAGTCCCTCTCTTCT
TTCAGTGGTGGACTTAGAAAAGCCCCATCTGTACGTTCCTTGCGAGATAGATTCGGAAGT
CAGTCTTCAATCAGCTCTGTTGATTCGGAGAGACTTGAAGATGATCTGATACTTATTCAT
GACGACTCAGTCAGACAGCGAAGAAAAGAGCAATTAGGTGCTGAGAAGGAAAAGCAAAGA
CTGGGGAAAATTCTCACTATGTGCGAAGACTTTATGAATCAGTCCAAGAGGAAAGACGAT
GATCTCGAAAAGAATTTTGACCTTAACAAACTCCTTAAGGAGATCAGTCTTCATGGTAAA
GATTTATCCAAAGCTGACTGTGAAGGAAGAGAATTACATGCCGACTCACAGACGAACCCC
TGCGGCGATGCAGAATACAGTTCTTCCTATACGCTGACGTCTGTCGCACCAGCAAGTCCG
TTGAGTCCGAAGAATACAGACTCACCAGGATCCTTCAACTCACCTCCAAGAAATTTCAGA
CGTCTTGTCTCTTTGGAACGTGACATCTGCTGTCAAACATCACAAGTACAAGGACAAGTC
ACAGTTCGGTCACCACATAGTGAAGTACAATCGGTATCTTCTGAAGAAAACATCAACAAA
GTAAAAAATCCTCCCAGACCAGCAGACGTTTCAGAAATTCAAAAACTGCGAGACACTGGA
CTGGAAAAAATAGAAAAGTTACAACACCATATCTCAGATTTTGAGGTTCAGCTAGATGAG
TGCACTAGCGCTTTGGAAATGGAACGTGCTCTTGTTTCCGGTGAACTAAATTCAGAGCAG
GAGCTTTTAAATCGGAGTGAACAACTATCAGAATCTTTGAAAGATCAAATCATAGATTTG
GAAGAAAAATATATGAAACAAAGAGAAATACACAATGGATTGCTGGAGAAAGAAAAAGAA
AAATTGGTTGAAATGGAAGAAAAACTTATGGAGACAGAAAAACAACTTAATAATTGTCCA
GAGAGCATCAGAGACCTATGGGAAGTACAACTGAAAAAAGATAAAACTATTTTGGAGCAG
GAATTGAAAAACTTTGAGGATCTTGAATTCCAAACACTAGAAGCTGTCAGTAGAATTGAT
GAAGAGAAAGAAAATACACAAAGAAAGCTGATAGCGAAGCAGAAGAAAATGGATTACGAT
TTGAGGAGGAGACAGGAACATGTACGAGCTTTGGAAACACAAGTCAACGAATTGTTAGAG
CAAGAAAAATCCGAAAATCAGAGGCTTAATATGATGAGAGATCAAGCCATAAAAGAATTG
CAACAGCATCGAGAAGAAACTACATTGCTGGAACGCAAATATTACGAAATGACTGGTACA
TTGCCTCCATCTCCACCGAGACCATCTTCCGTCAGAACTCTTTCATCATCAGCAATGCCA
ATGAGGGGAACAAATGATGCAACTACTAAAGAAGATGCAGTGGATGGTGGCAGTGGAAAT
AATGAAGAAGCTAAGGAGAATAAAGATGAACATGGAACACAGTTTAACACAAACCAGAAT
TCTACCTCAAATGCTACAGCAGATTCTGCGAGAGATATGAGAGAAGTCCTCCATAAAGAA
GGCCTGTGGTACAGGGACGATACTTCCCTGTGCTACAAACCAAAGCCAGCATTCGGAACT
TCACGAAACCCTACACATTTTACTTTAACACGGTACAAATCCAACAAAAACCAACCAAAA
AGAGGTGGTAGTTCAATTGAACAATCCTCAAACAACGGTCTGCTTTCCCGATCATGCTAT
CCAGTCATACAAAGTCTAAACGATTCAAGATCCTCTCAGGGTAATTCAGGAATAAACAGT
GATCTTACAAGATGTAGGGGTCTGGAAGCATGCAGTATGAGCTCTCTTGACAGTTTAGGT
ACATCTGTTTCAGCTTGGTCCATTCAAAGCCCTGAAATAAAAGAAGTTGAACAGATAAGA
GCTATAGAAAGGCGAATAGAAAATGCGAAAGCTGAGAGACAAAAACTTCTAGCTGATGTG
AACGCCTATGTCACGAAAAGTCACCAGGATATGAATAATGACTTTGAGAAAACTATTGTT
CTTTCTTCGTCATCATCAACGGTTGGCACTGATGCACCAACTACCAGCAGCAGCTCAGAT
CATGATATTATGTCGCCCATCGCTACCAGTCCGACAGAGGATAGGGGAGAAGATGTAAGA
CTAAGGTTGAGGCAGGAAACAAAGAAGCAGACTCGCCCCATGACCCGTTACTTGCCGGTA
CGAGCTAAAGATTTTGATCTTCATGCACACATTGAATCCTGTGGGCATAGTCCTTCGCTG
TGTCGACATATTTGTCTGAATAGTACCTCGTGCAGGGGATATATGATGAAGATGGGAGGA
CGTTTGAGGACATGGCATAAACGGTGGTTTGTTTTCGATCGCGTTGGCAAAAGCTTGGTT
TACTACAGCAACAAACATGAGACTAAGCTGAGGGGAATGGTTTTTTTTAAAGATATCCAA
GATGTGTTTTTTGATCATTTAAAAACTCACAAGAGTCCACAACCTAATTTGACTTTTTGT
GTGAAATGCTACGATCGTGTTTATTACCTCACTGCACCCTCCCCGGAAACTTTAAGGATA
TGGATGGATTGGAGTCACACTATTGAGGCAAATGAGTTGCCAACTGATAAAGTACTTGAT
AGGCCTAATGTTCACAATGAATATCTAAATTTTATATCTAGATATCTAAGACAGCATTCA
TGGATGGTTTATTTCTGTTATTGTGAAGATTTATCCAGACTATATGTGTTGTTTTAA

InterProScan

Gene3D
PH-like_dom_sf (IPR011993) - T[1406-1509] 2.0E-20
ProSiteProfiles
PH_domain (IPR001849) - T[1408-1510] 11.281
SMART
PH_domain (IPR001849) - T[1409-1515] 1.2E-9
Pfam
PH_domain (IPR001849) - T[1411-1502] 1.8E-12

Best Blast Hits in UniProt
Protein Name Identity Bit Score e-value
PHLB2_HUMAN 29.376 % 332 6.81E-94
PHLB1_HUMAN 50.968 % 202 2.32E-52
PHLB3_HUMAN 53.333 % 171 4.51E-44





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