Homology
BLAST of Vigun08g060600.1 vs. DB:Swiss
Match:
AGD14_ARATH (Probable ADP-ribosylation factor GTPase-activating protein AGD14 OS=Arabidopsis thaliana OX=3702 GN=AGD14 PE=1 SV=2)
HSP 1 Score: 168.318 bits (425), Expect = 5.529e-43
Identity = 73/107 (68.22%), Postives = 88/107 (82.24%), Query Frame = 1
Query: 52 LLKLPENKRCINCNLLGPQYVCTTFSTFVCTNCSGIHREFTHRVKSVSMAKFSPEEVSALQAGGNERANQIFLKEWDPLRNSKPDSSNIQKLREFIKFVYVERKYTG 372
L+KLP N+RCINCN LGPQYVCTTF TFVC CSGIHREFTHRVKSVSM+KF+ +EV LQ GGN+RA +I+LK WD R P++SN +++REFIK VYV++KY G
Sbjct: 18 LMKLPPNRRCINCNSLGPQYVCTTFWTFVCMACSGIHREFTHRVKSVSMSKFTSKEVEVLQNGGNQRAREIYLKNWDHQRQRLPENSNAERVREFIKNVYVQKKYAG 124
BLAST of Vigun08g060600.1 vs. DB:Swiss
Match:
AGFG1_MOUSE (Arf-GAP domain and FG repeat-containing protein 1 OS=Mus musculus OX=10090 GN=Agfg1 PE=1 SV=2)
HSP 1 Score: 91.2781 bits (225), Expect = 6.723e-18
Identity = 43/107 (40.19%), Postives = 67/107 (62.62%), Query Frame = 1
Query: 52 LLKLPENKRCINCNLLGPQYVCTTFSTFVCTNCSGIHREFT--HRVKSVSMAKFSPEEVSALQAGGNERANQIFLKEWDPLRNSKPDSSNIQKLREFIKFVYVERKY 366
+ LP N++C +C+ GP YV T +FVCT+CSG R HRVKS+SM F+ +E+ LQ GNE QI+L +D ++ PD + QK++EF++ Y ++++
Sbjct: 20 MTGLPHNRKCFDCDQRGPTYVNMTVGSFVCTSCSGSLRGLNPPHRVKSISMTTFTQQEIEFLQKHGNEVCKQIWLGLFDDRSSAIPDFRDPQKVKEFLQEKYEKKRW 126
BLAST of Vigun08g060600.1 vs. DB:Swiss
Match:
AGFG1_RAT (Arf-GAP domain and FG repeat-containing protein 1 OS=Rattus norvegicus OX=10116 GN=Agfg1 PE=1 SV=1)
HSP 1 Score: 91.2781 bits (225), Expect = 6.903e-18
Identity = 43/107 (40.19%), Postives = 67/107 (62.62%), Query Frame = 1
Query: 52 LLKLPENKRCINCNLLGPQYVCTTFSTFVCTNCSGIHREFT--HRVKSVSMAKFSPEEVSALQAGGNERANQIFLKEWDPLRNSKPDSSNIQKLREFIKFVYVERKY 366
+ LP N++C +C+ GP YV T +FVCT+CSG R HRVKS+SM F+ +E+ LQ GNE QI+L +D ++ PD + QK++EF++ Y ++++
Sbjct: 20 MTGLPHNRKCFDCDQRGPTYVNMTVGSFVCTSCSGSLRGLNPPHRVKSISMTTFTQQEIEFLQKHGNEVCKQIWLGLFDDRSSAIPDFRDPQKVKEFLQEKYEKKRW 126
BLAST of Vigun08g060600.1 vs. DB:Swiss
Match:
AGFG1_BOVIN (Arf-GAP domain and FG repeat-containing protein 1 OS=Bos taurus OX=9913 GN=AGFG1 PE=2 SV=1)
HSP 1 Score: 91.2781 bits (225), Expect = 6.987e-18
Identity = 43/107 (40.19%), Postives = 67/107 (62.62%), Query Frame = 1
Query: 52 LLKLPENKRCINCNLLGPQYVCTTFSTFVCTNCSGIHREFT--HRVKSVSMAKFSPEEVSALQAGGNERANQIFLKEWDPLRNSKPDSSNIQKLREFIKFVYVERKY 366
+ LP N++C +C+ GP YV T +FVCT+CSG R HRVKS+SM F+ +E+ LQ GNE QI+L +D ++ PD + QK++EF++ Y ++++
Sbjct: 20 MTGLPHNRKCFDCDQRGPTYVNMTVGSFVCTSCSGSLRGLNPPHRVKSISMTTFTQQEIEFLQKHGNEVCKQIWLGLFDDRSSAIPDFRDPQKVKEFLQEKYEKKRW 126
BLAST of Vigun08g060600.1 vs. DB:Swiss
Match:
AGFG1_HUMAN (Arf-GAP domain and FG repeat-containing protein 1 OS=Homo sapiens OX=9606 GN=AGFG1 PE=1 SV=2)
HSP 1 Score: 91.2781 bits (225), Expect = 7.698e-18
Identity = 43/107 (40.19%), Postives = 67/107 (62.62%), Query Frame = 1
Query: 52 LLKLPENKRCINCNLLGPQYVCTTFSTFVCTNCSGIHREFT--HRVKSVSMAKFSPEEVSALQAGGNERANQIFLKEWDPLRNSKPDSSNIQKLREFIKFVYVERKY 366
+ LP N++C +C+ GP YV T +FVCT+CSG R HRVKS+SM F+ +E+ LQ GNE QI+L +D ++ PD + QK++EF++ Y ++++
Sbjct: 20 MTGLPHNRKCFDCDQRGPTYVNMTVGSFVCTSCSGSLRGLNPPHRVKSISMTTFTQQEIEFLQKHGNEVCKQIWLGLFDDRSSAIPDFRDPQKVKEFLQEKYEKKRW 126
BLAST of Vigun08g060600.1 vs. DB:Swiss
Match:
AGFG2_HUMAN (Arf-GAP domain and FG repeat-containing protein 2 OS=Homo sapiens OX=9606 GN=AGFG2 PE=1 SV=2)
HSP 1 Score: 80.4925 bits (197), Expect = 1.299e-14
Identity = 41/101 (40.59%), Postives = 60/101 (59.41%), Query Frame = 1
Query: 70 NKRCINCNLLGPQYVCTTFSTFVCTNCSGIHREFT--HRVKSVSMAKFSPEEVSALQAGGNERANQIFLKEWDPLRNSKPDSSNIQKLREFIKFVYVERKY 366
N+ C C G YV T +FVCT CSG+ R HRVKS+SM F+ EV LQ+ GNE +I+L +D + PDS + QK++EF++ Y ++++
Sbjct: 44 NRHCFECAQRGVTYVDITVGSFVCTTCSGLLRGLNPPHRVKSISMTTFTEPEVVFLQSRGNEVCRKIWLGLFDARTSLVPDSRDPQKVKEFLQEKYEKKRW 144
BLAST of Vigun08g060600.1 vs. DB:Swiss
Match:
AGFG2_MOUSE (Arf-GAP domain and FG repeat-containing protein 2 OS=Mus musculus OX=10090 GN=Agfg2 PE=1 SV=1)
HSP 1 Score: 80.1073 bits (196), Expect = 2.076e-14
Identity = 41/101 (40.59%), Postives = 60/101 (59.41%), Query Frame = 1
Query: 70 NKRCINCNLLGPQYVCTTFSTFVCTNCSGIHREFT--HRVKSVSMAKFSPEEVSALQAGGNERANQIFLKEWDPLRNSKPDSSNIQKLREFIKFVYVERKY 366
N+ C C G YV T +FVCT CSG+ R HRVKS+SM F+ EV LQ+ GNE +I+L +D + PDS + QK++EF++ Y ++++
Sbjct: 44 NRHCFECAQRGVTYVDITVGSFVCTTCSGLLRGLNPPHRVKSISMTTFTEPEVLFLQSRGNEVCRKIWLGLFDARTSLIPDSRDPQKVKEFLQEKYEKKRW 144
BLAST of Vigun08g060600.1 vs. DB:Swiss
Match:
AGD5_ARATH (ADP-ribosylation factor GTPase-activating protein AGD5 OS=Arabidopsis thaliana OX=3702 GN=AGD5 PE=1 SV=1)
HSP 1 Score: 72.4034 bits (176), Expect = 4.910e-12
Identity = 34/110 (30.91%), Postives = 58/110 (52.73%), Query Frame = 1
Query: 49 SLLKLPENKRCINCNLLGPQYVCTTFSTFVCTNCSGIHREF---THRVKSVSMAKFSPEEVSALQAGGNERANQIFLKEWDPLRNSKPDSSNIQKLREFIKFVYVERKYT 369
LLK PEN+ C +C GP++ F+C CSGIHR +V+S ++ + PE+V+ +Q+ GN++AN + E P + + + FI+ Y E+++
Sbjct: 21 GLLKHPENRECADCKTKGPRWASVNLGIFICMQCSGIHRSLGVHISKVRSATLDTWLPEQVAFIQSMGNDKANSYWEAEL-------PPNYDRVGIENFIRAKYEEKRWV 123
BLAST of Vigun08g060600.1 vs. DB:Swiss
Match:
SMAP2_CHICK (Stromal membrane-associated protein 2 OS=Gallus gallus OX=9031 GN=SMAP2 PE=2 SV=1)
HSP 1 Score: 69.3218 bits (168), Expect = 4.214e-11
Identity = 36/109 (33.03%), Postives = 61/109 (55.96%), Query Frame = 1
Query: 49 SLLKLPENKRCINCNLLGPQYVCTTFSTFVCTNCSGIHREF---THRVKSVSMAKFSPEEVSALQAGGNERANQIFLKEWDPLRNSKPDSSNIQKLREFIKFVYVERKY 366
SLL ENK C +C GP++ F+C C+GIHR RVKSV++ +++ E++ +Q GN +AN+++ + + P +P + Q + FI+ Y ++KY
Sbjct: 18 SLLSEEENKYCADCQAKGPRWASWNIGVFICIRCAGIHRNLGVHISRVKSVNLDQWTQEQIQCMQEMGNGKANRLY-EAFLPENFRRPQTD--QAVEGFIRDKYEKKKY 123
BLAST of Vigun08g060600.1 vs. DB:Swiss
Match:
AK1_DICDI (Alpha-protein kinase 1 OS=Dictyostelium discoideum OX=44689 GN=ak1 PE=3 SV=1)
HSP 1 Score: 68.9366 bits (167), Expect = 1.064e-10
Identity = 32/107 (29.91%), Postives = 53/107 (49.53%), Query Frame = 1
Query: 49 SLLKLPENKRCINCNLLGPQYVCTTFSTFVCTNCSGIHREFTHRVKSVSMAKFSPEEVSALQAGGNERANQIFLKEWDPLRNSKPDSSNIQKLREFIKFVYVERKYT 369
SL + P N+ C CN YVC F+C C+ +V+ + + FS E++S LQ+ GN + Q +L W P+ P + L F++ Y+E+++T
Sbjct: 15 SLFQDPNNQCCAECNSANVPYVCIKLGVFICPTCAHFLSTLGFKVRPIMGSSFSEEDISRLQSIGNLVSKQFWLARWTPMDIVMPPPED-PNLESFLRLKYIEKRWT 120
The following BLAST results are available for this feature:
BLAST of Vigun08g060600.1 vs. DB:Swiss
Analysis Date: 2019-10-17 (
BLAST: Vigna unguiculata L. Walp IT97K-499-35 genome v1.1 vs. Swissprot )
Total hits: 10
200 400 600 800 1000 1200 1400 1600 1800 2000 2200 Expect = 5.53e-43 / Id = 68.22 Expect = 6.72e-18 / Id = 40.19 Expect = 6.90e-18 / Id = 40.19 Expect = 6.99e-18 / Id = 40.19 Expect = 7.70e-18 / Id = 40.19 Expect = 1.30e-14 / Id = 40.59 Expect = 2.08e-14 / Id = 40.59 Expect = 4.91e-12 / Id = 30.91 Expect = 4.21e-11 / Id = 33.03 Expect = 1.06e-10 / Id = 29.91 Sequence AGD14_ARATH AGFG1_MOUSE AGFG1_RAT AGFG1_BOVIN AGFG1_HUMAN AGFG2_HUMAN AGFG2_MOUSE AGD5_ARATH SMAP2_CHICK AK1_DICDI
Match Name E-value Identity Description
AGD14_ARATH 5.529e-43 68.22 Probable ADP-ribosylation factor GTPase-activating... [more]
AGFG1_MOUSE 6.723e-18 40.19 Arf-GAP domain and FG repeat-containing protein 1 ... [more]
AGFG1_RAT 6.903e-18 40.19 Arf-GAP domain and FG repeat-containing protein 1 ... [more]
AGFG1_BOVIN 6.987e-18 40.19 Arf-GAP domain and FG repeat-containing protein 1 ... [more]
AGFG1_HUMAN 7.698e-18 40.19 Arf-GAP domain and FG repeat-containing protein 1 ... [more]
AGFG2_HUMAN 1.299e-14 40.59 Arf-GAP domain and FG repeat-containing protein 2 ... [more]
AGFG2_MOUSE 2.076e-14 40.59 Arf-GAP domain and FG repeat-containing protein 2 ... [more]
AGD5_ARATH 4.910e-12 30.91 ADP-ribosylation factor GTPase-activating protein ... [more]
SMAP2_CHICK 4.214e-11 33.03 Stromal membrane-associated protein 2 OS=Gallus ga... [more]
AK1_DICDI 1.064e-10 29.91 Alpha-protein kinase 1 OS=Dictyostelium discoideum... [more]
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Sequences
The
following sequences are available for this feature:
mRNA sequence
>Vigun08g060600.1_Vu_IT97K-499-35_v1.1 ID=Vigun08g060600.1_Vu_IT97K-499-35_v1.1; Name=Vigun08g060600.1; organism=Vigna unguiculata; type=mRNA; length=2274bp TTTTGAGCAGGTGAAAATGAGAAGCCAGAAAACAGAAGAAGAAAGGATTG AAAAAATAATTCGAAGTCTTCTAAAACTTCCCGAAAATAAAAGATGCATC AACTGCAATCTTTTGGGACCACAATATGTGTGCACAACTTTCTCCACATT TGTCTGCACAAATTGCAGTGGGATACATCGAGAGTTTACTCACAGAGTAA AATCTGTCTCGATGGCTAAATTTAGTCCAGAAGAAGTCTCTGCTCTTCAA GCTGGTGGAAATGAGAGAGCAAATCAGATTTTTCTCAAAGAATGGGATCC TCTTCGCAATTCTAAACCAGATTCTAGTAATATACAGAAACTGCGAGAAT TCATCAAGTTTGTGTATGTGGAAAGAAAATACACTGGAGAAAGTAGCACT AGCACTCTTTCTAGGATTAGATTGAGTGAGAAGGAGCCTAAGAGAAGTGG TTCATTTCGTTTAGAGTTCAGAACTCCACATTCAAGTCCTGGTCCTACTC CAAGAAGTGATGACAAGAATTTGAGATATTTGTACGATGAAAGCAGAAGC CCTAGATATGCTCAAAGGTATTCAAGAAATGGTGGCCAGATCAGAAGTCC TATACAAATTGAAGTTGTTGATGACAGGTACAAAGATGATGAACGTAGAA ATAGAAGACTTGCAAATATAGAAGCAAAGATGAAGAAAAATTCAAGTGAT GATCTCAAGAAAGTTGAAAACCCCCAACTCCCTGTTATTGCAGCGCCTTT GGGTGATGTATCAAAGGAGAAAGCTCAACCCCTACAAATCAAACCTCCTG GTGGCAAGGTTTCTGTTGAGAAAAAACCATCTGAGCAAAAAAATAATAAT CCAGAAACACCACCACCACCTATAGCACAACCAAATGAAAATAACTGGGC CATATTTGAAGCTTCAACAGAGGACAATGTTCCTAAAACTCCACCAAACA CAAGAACCTCTTATCCTTCTACAGAAAAGGCACCATCAACAAAAAATCCT ATAGACCTTTTACTTTCTGAATTGTCAGGTCCTGTGACTCCAATGAATGG TGGCATGCCACAAGTTCCAAGTAGTGTTAATAATGATCCAACAACTACAA CAGTACAAAATGCTATTACTTGGGACTTTCCACCTACTTCAGCAGGGAAA ACAACTGCATCATCCAACAATACTAGTGTTTGGCCATGCACATCAACCCC AGCCACTGAACCAGCACAACCTTCTAATGAAGCTCCTCCACATACTGAAG TTTGTCATGCTCATAATCCATCAAGTGTGCAGTATCTTCCATCTGTATCG GTAGGTTTTAGTTCAACTACACAACCATCAAATTCATCAGTCATAGATGT AGCTTCAAATAATAAGCCATCAGTAACTCCAAGTGAAAAAGATCCTTCCT GGTCTTTTACTGAACAACCTTCTCAAACTACCTCAAATCCCACTCAAGAA ACCAAATCTGATCCTAGTAAAGTGGAAAATAAGGCTAGTGGAAGACATGA AATTCCAGAGAACCTTTTTACACCAAGCTATTTATCTGGGCAAGCACCCC TTCCAAATTGGCAAAATGTTCAACCTTCTGGCATGGGATATGGCATGCAA TATTATCATAATGCTGTGCCTCCCTCAGCGATTTCAAATTCACCAATGTC TATGAACCCCTTTGATTTAACTGATTCAAGAAATTTAACCCATGTCTCAT CGCTTCCTTCTATCACTTCTGTGCGTGGTGCACCACAAGCTCTATCATCT CCTAGAACAGCATTGATGCATACTGCAAGCATGGGGTCTTTGGTGTCTCA GTCTCCAAGTTATACATCCCCAGTTATGGGTGTGTACTTTGATCAAGTTG ATAATCAACAGAAACCTCCTAGACCTCAAAGAGCTGAGAGCTTCAATGGT GATATAACTTCTTTTGGATCTGTAGACCCACTTCAACATTCAAATAGAAC ATTTACGACCTGCAAAAGTTCAATTTCTCTTTCCAATGCAAGAGGAAACC CATTTGACTAGTTTGAACAATTTGCCACACTGCCAAAACCTTTTGCCTTA TGTCAACCATAAAAATTGCAGAAGGATTATGATCTTGTCATTCTTGTGCC AACTTCACTCAGTTTCCTTTGTAAATTGTACTGTAAATATAAAAGCACAC ATATTCCCAAGTGGATGCAGAAAACTTTACGCATCAGAGGGCTGCTAATT AACTGATTTAACCATACAATGTATATTTATTGTAATTACATGTAAATTTG TACAACTCTCTTGTACATAACAAT back to top protein sequence of Vigun08g060600.1_Vu_IT97K-499-35_v1.1
>Vigun08g060600.1_Vu_IT97K-499-35_v1.1 ID=Vigun08g060600.1_Vu_IT97K-499-35_v1.1; Name=Vigun08g060600.1_Vu_IT97K-499-35_v1.1; organism=Vigna unguiculata; type=polypeptide; length=665bp MRSQKTEEERIEKIIRSLLKLPENKRCINCNLLGPQYVCTTFSTFVCTNC SGIHREFTHRVKSVSMAKFSPEEVSALQAGGNERANQIFLKEWDPLRNSK PDSSNIQKLREFIKFVYVERKYTGESSTSTLSRIRLSEKEPKRSGSFRLE FRTPHSSPGPTPRSDDKNLRYLYDESRSPRYAQRYSRNGGQIRSPIQIEV VDDRYKDDERRNRRLANIEAKMKKNSSDDLKKVENPQLPVIAAPLGDVSK EKAQPLQIKPPGGKVSVEKKPSEQKNNNPETPPPPIAQPNENNWAIFEAS TEDNVPKTPPNTRTSYPSTEKAPSTKNPIDLLLSELSGPVTPMNGGMPQV PSSVNNDPTTTTVQNAITWDFPPTSAGKTTASSNNTSVWPCTSTPATEPA QPSNEAPPHTEVCHAHNPSSVQYLPSVSVGFSSTTQPSNSSVIDVASNNK PSVTPSEKDPSWSFTEQPSQTTSNPTQETKSDPSKVENKASGRHEIPENL FTPSYLSGQAPLPNWQNVQPSGMGYGMQYYHNAVPPSAISNSPMSMNPFD LTDSRNLTHVSSLPSITSVRGAPQALSSPRTALMHTASMGSLVSQSPSYT SPVMGVYFDQVDNQQKPPRPQRAESFNGDITSFGSVDPLQHSNRTFTTCK SSISLSNARGNPFD* back to top mRNA from alignment at Vu08:8043887..8049042+
Legend: five_prime_UTR polypeptide CDS three_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
>Vigun08g060600.1_Vu_IT97K-499-35_v1.1 ID=Vigun08g060600.1_Vu_IT97K-499-35_v1.1; Name=Vigun08g060600.1; organism=Vigna unguiculata; type=mRNA; length=5156bp; location=Sequence derived from: Vu08:8043887..8049042+ (Vigna unguiculataTTTTGAGCAGGTGAAA ATGAGAAGCCAGAAAACAGAAGAAGAAAGGATTG
AAAAAATAATTCGAAGTCTTCTAAAACTTCCCGAAAATAAAAGATGCATC
AACTGCAATCTTTTG GTATGAAATTACACTTGGATTGTTACTTAAAATTT
ACTATTAACTATTCTTCATGACTAAATAATTTTTACGCATACAAATTAAA
TGTGACATTGTTGAAGGTTAATCATAGCATATTGAAATGTGATTTTAATT
TTGGGAGTAACTCAACTATGCATCGAAGGAAAAACCTTTTTGCTTTTATT
ATTAAATTATTTTTATTTGTTAAATATGTACATGTATGTATGTATGTACA
TCCAACATTTTCAGATGACACTATATAACATAACATACTATTCTTATGAA
TCAGGGACCACAATATGTGTGCACAACTTTCTCCACATTTGTCTGCACAA
ATTGCAGTGGGATACA GTAAGCATATAGAAATCATTTTCCTCCGTTTTTG
TTTCTTGCAGAGTGATGCCCTAGATGGATTTGAATATAGATTTTCTATGA
TCATGTGCACACTATTTTTTTCAAAGAGGTTGCTTAAAATTTTTCTATTA
TAGACAAAAACAGTATTTTCAGAGGCACTAAAACTTGATACGTATAAATT
TTCAAGGATTAAAAGCAAAATTAATCTTTGATATTTTATCATTATTGTTC
ATAGTTATTTCTGTGAACTTAGTGTGATTTATGATGAATTACAGTCGAGA
GTTTACTCACAGAGTAAAATCTGTCTCGATGGCTAAATTTAGTCCAGAAG
AAGTCTCTGCTCTTCAAGCTGGTGGAAATGAG GTATGCATGCATAACACC
ATGCATTTTTCTTCTCAAATTTCAAGCCACTCTCAAACACATAACATAAT
TTTCCATTCACAGAGAGCAAATCAGATTTTTCTCAAAGAATGGGATCCTC
TTCGCAATTCTAAACCAGATTCTAGTAATATACAGAAACTGCGAGAATTC
ATCAAGTTTGTGTATGTGGAAAGAAAATACACTGGAGAAAGTAGCACTAG
CACTCTTTCTAGGATTAGATTG GTAACTTTTGTGTACTCTTCCACATGAT
ATTTGTCATGACTTTAGCAGCAAAAAATGACTGAAAATGAGTTCATTTTG
GTGTGTTTTTTAGAGTGAGAAGGAGCCTAAGAGAAGTGGTTCATTTCGTT
TAGAGTTCAGAACTCCACATTCAAGTCCTGGTCCTACTCCAAGAAGTGAT
GACAAGAATTTGAGATATTTGTACGATGAAAGCAGAAGCCCTAGATATGC
TCAAAGGTATTCAAGAAATGGTGGCCAGATCAGAAGTCCTATACAAATTG
AAGTTGTTGATGACAGGTACAAAGATGATGAACGTAGAAATAGAAGACTT
GCAAATATAGAAGCAAAGATGAAGAAAAATTCAAGTGATGATCTCAAGAA
AGTTGAAAACCCCCAACTCCCTGTTATTGCAGCGCCTTTGGGTGATGTAT
CAAAGGAGAAAGCTCAACCCCTACAA GTAGGTTAACCTCCTCAAACTCAA
AATTGTTGGATTTGGATTCTCTGTTCGGTTTTGATGTGCTATTTCTCAGC
TGTACCTTCAAAATACACCGTATCCATGGACATTGATATTGACTTTTACA
GTATTTTAAAAAGAATTTTAAAATAGTGTATTTTTGAAAACACACCAGAA
GACGACATAAAAAAACTCAGTAGAGAATTGTTTCTTGAACTAAAAATTGT
TTCTTGCCTCTGAAATGCAGTTTTATGAACTTATATTACCACTTAATCTG
AATCTTTGACAAATTTGAATTTGATAGATCAAACCTCCTGGTGGCAAGGT
TTCTGTTGAGAAAAAACCATCTGAGCAAAAAAATAATAATCCAGAAACAC
CACCACCACCTATAGCACAACCAAATGAAAATAACTGGGCCATATTTGAA
GCTTCAACAGAGGACAATGTTCCTAAAACTCCACCAAACACAAGAACCTC
TTATCCTTCTACAGAAAAGGCACCATCAACAAAAAATCCTATAGACCTTT
TACTTTCTGAATTGTCAGGTCCTGTGACTCCAATGAATGGTGGCATGCCA
CAAGTTCCAAGTAGTGTTAATAATGATCCAACAACTACAACAGTACAAAA
TGCTATTACTTGGGACTTTCCACCTACTTCAGCAGGGAAAACAACTGCAT
CATCCAACAATACTAGTGTTTGGCCATGCACATCAACCCCAGCCACTGAA
CCAGCACAACCTTCTAATGAAGCTCCTCCACATACTGAAGTTTGTCATGC
TCATAATCCATCAAGTGTGCAGTATCTTCCATCTGTATCGGTAGGTTTTA
GTTCAACTACACAACCATCAAATTCATCAGTCATAGATGTAGCTTCAAAT
AATAAG GTGAGACATGCACTATGCCTTCTTGATATGAAGTACTAAAATCT
CAACATTACTGTCAAATTTCTTTGGTAACGAGGGAGGTACTCGAATCTAG
CACATACCTTTCTTTCATCCTATGTTACTAGAGATAAGGCGAGTTTATAT
GATATATAAGTGGGTACAAACCTTATCTTACAAACTGGTTTTATGGAATT
AAATTAGACTTAAAATTCACTTCTTAACACCCTATAATCGAAAGCAACAT
TATCAATTGAACTTTCTTGTGTAATTTGCTGAAATGTTTAGAAGAAGAAG
CATGTCAACATTGTCATGGTATCTGATAGACTTTAGTTATGTATTACTCA
TCTTGTTCTTTACTTTGATTACACACAGCCATCAGTAACTCCAAGTGAAA
AAGATCCTTCCTGGTCTTTTACTGAACAACCTTCTCAAACTACCTCAAAT
CCCACTCAAGAAACCAAATCTGATCCTAGTAAAGTGGAAAATAAGGCTAG
TGGAAGACATGAAATTCCAGAG GTAAAACATGTAGCCATTGGTGCTAAGT
TTCTTTGTTTTTAAGACAAAAAAAAAAAAAAAAGATTCATAAATAATTTC
TCTGCAGAACCTTTTTACACCAAGCTATTTATCTGGGCAAGCACCCCTTC
CAAATTGGCAAAATGTTCAACCTTCTGGCATGGGATATGGCATGCAATAT
TATCATAATGCTGTG GTACCATTCTATGCAACTCATCATTAACTTTATCT
CATCTCTTTGGTTTAGATACTCATTGGTGATTGATTGATTGATTTATTGA
TATGGTGTTTTATTTACAGCCTCCCTCAGCGATTTCAAATTCACCAATGT
CTATGAACCCCTTTGATTTAACTGATTCAAGAAATTTAACCCATGTCTCA
TCG GTATGTACAACATTAAACTGATATAATATAGTAGGTTTTGTCAGAAT
TTTCAAGCTAAACTGTTATAGCATTCTTAGTTATTTTAGCTTGTCTATAA
AATCAAACCTGAAACTTCTGAGTGAGAACTAACTCACAAGTTGGAAAAAG
AGAACAACTTTTATGTAACTAGGAGGCACTTAAATATATACAACTCCAAC
TGAAACTCAAAACATATCTCATCTTAATATATCCTTTTGAGGAAGAATAA
TTCGAGATTCACCATTTAGGAGCATTTTGTTTCTGTCTTGCATTTTGTTC
ATCTACACTTATGGACATGGAGATCCATTAATATATAACAATCACTTTAG
TTGTCAACAAGTTGAAACTCAATAAGAAAGGTTTACTTTTAGGCCTAGGG
TATAAAAAGGTATTAATTGTATGGATTAGATATGTTTTTAGTTCTTAAAC
TTAAACTTAGATGTGAAATTAAAATTTGTTTTGTCTCAAATTTAAATACA
TTTTGATCTCAAAACTTTTAAAATGAATGAATATAGTCCTCTTAATCCAA
CAATGTTAAACTTTTCTTTTTTAACTTTTAAATAATTTTCTAGACTAACA
TTTGAGTTAGAACGTGTTAAAGGGTGTAAACAACATATGTCAGCCTGAGA
ACAACAAACAAAAAACAAAAAACAATAATAAATGAATGAATTTCAATTTT
GCATCAAAGTTTAAAAACTAAAATCATATTTATCTTTATAGCAACTCAAT
GCCGTATAGGCCAATAATTATAGATATTACTATCGATTGTTTGAGTAAAC
ATGAACACACTGTGAAAAATGTTTAGCTTTTGGTTTAATTTCTGACTAAA
TTTACATTATAGAACCTTCAATTGATTGAGCAAATAATGCTTGTCATGCT
GAAATGTTTATGGATAATTCTATCTTTAAATGAATGAAGCCAAAATATTG
TTATAACCCTCCAAGATTTGTGGTATTTGTCTATATATAGCTTCCTTCTA
TCACTTCTGTGCGTGGTGCACCACAAGCTCTATCATCTCCTAGAACAGCA
TTGATGCATACTGCAAGCATGGGGTCTTTGGTGTCTCAGTCTCCAAGTTA
TACATCCCCAGTTATGG GTACATATTGCGCTTGTTGCCTTTCATTTCCTT
TCACCATTTTTTTCTTCATCTATTGTCATGATTCTTTTGTTCACTCTTCT
AAGGTGTGTACTTTGATCAAGTTGATAATCAACAGAAACCTCCTAG GTAA
GTCCTACTCATTGTATTATTTTGGATTACTTATATCATAGTCACTTGATT
ATAAGCTATGAAGAATATTATGAAGATTAATTTTCTTTATTAGATATAAA
ACATGTCATTTCATTCATTAGAAAGAGGAAAAAATATGTTCATTATTTGA
GATTTGACAATTGAAAATGTTAACACTATTGTAGTTATAATTGATATTTT
GTAGACCTCAAAGAGCTGAGAGCTTCAATGGTGATATAACTTCTTTTGGA
TCTGTAGACCCACTTCAACATTCAAATAGAACATTTACGACCTGCAAAAG
TTCAATTTCTCTTTCCAATGCAAGAGGAAACCCATTTGACTAG TTTGAAC
AATTTGCCACACTGCCAAAACCTTTTGCCTTATGTCAACCATAAAAATTG
CAGAAGGATTATGATCTTGTCATTCTTGTGCCAACTTCACTCAGTTTCCT
TTGTAAATTGTACTGTAAATATAAAAGCACACATATTCCCAAGTGGATGC
AGAAAACTTTACGCATCAGAGGGCTGCTAATTAACTGATTTAACCATACA
ATGTATATTTATTGTAATTACATGTAAATTTGTACAACTCTCTTGTACAT
AACAAT back to top Coding sequence (CDS) from alignment at Vu08:8043887..8049042+
>Vigun08g060600.1_Vu_IT97K-499-35_v1.1 ID=Vigun08g060600.1_Vu_IT97K-499-35_v1.1; Name=Vigun08g060600.1; organism=Vigna unguiculata; type=CDS; length=1995bp; location=Sequence derived from: Vu08:8043887..8049042+ (Vigna unguiculata ATGAGAAGCCAGAAAACAGAAGAAGAAAGGATTGAAAAAATAATTCGAAG TCTTCTAAAACTTCCCGAAAATAAAAGATGCATCAACTGCAATCTTTTGG GACCACAATATGTGTGCACAACTTTCTCCACATTTGTCTGCACAAATTGC AGTGGGATACATCGAGAGTTTACTCACAGAGTAAAATCTGTCTCGATGGC TAAATTTAGTCCAGAAGAAGTCTCTGCTCTTCAAGCTGGTGGAAATGAGA GAGCAAATCAGATTTTTCTCAAAGAATGGGATCCTCTTCGCAATTCTAAA CCAGATTCTAGTAATATACAGAAACTGCGAGAATTCATCAAGTTTGTGTA TGTGGAAAGAAAATACACTGGAGAAAGTAGCACTAGCACTCTTTCTAGGA TTAGATTGAGTGAGAAGGAGCCTAAGAGAAGTGGTTCATTTCGTTTAGAG TTCAGAACTCCACATTCAAGTCCTGGTCCTACTCCAAGAAGTGATGACAA GAATTTGAGATATTTGTACGATGAAAGCAGAAGCCCTAGATATGCTCAAA GGTATTCAAGAAATGGTGGCCAGATCAGAAGTCCTATACAAATTGAAGTT GTTGATGACAGGTACAAAGATGATGAACGTAGAAATAGAAGACTTGCAAA TATAGAAGCAAAGATGAAGAAAAATTCAAGTGATGATCTCAAGAAAGTTG AAAACCCCCAACTCCCTGTTATTGCAGCGCCTTTGGGTGATGTATCAAAG GAGAAAGCTCAACCCCTACAAATCAAACCTCCTGGTGGCAAGGTTTCTGT TGAGAAAAAACCATCTGAGCAAAAAAATAATAATCCAGAAACACCACCAC CACCTATAGCACAACCAAATGAAAATAACTGGGCCATATTTGAAGCTTCA ACAGAGGACAATGTTCCTAAAACTCCACCAAACACAAGAACCTCTTATCC TTCTACAGAAAAGGCACCATCAACAAAAAATCCTATAGACCTTTTACTTT CTGAATTGTCAGGTCCTGTGACTCCAATGAATGGTGGCATGCCACAAGTT CCAAGTAGTGTTAATAATGATCCAACAACTACAACAGTACAAAATGCTAT TACTTGGGACTTTCCACCTACTTCAGCAGGGAAAACAACTGCATCATCCA ACAATACTAGTGTTTGGCCATGCACATCAACCCCAGCCACTGAACCAGCA CAACCTTCTAATGAAGCTCCTCCACATACTGAAGTTTGTCATGCTCATAA TCCATCAAGTGTGCAGTATCTTCCATCTGTATCGGTAGGTTTTAGTTCAA CTACACAACCATCAAATTCATCAGTCATAGATGTAGCTTCAAATAATAAG CCATCAGTAACTCCAAGTGAAAAAGATCCTTCCTGGTCTTTTACTGAACA ACCTTCTCAAACTACCTCAAATCCCACTCAAGAAACCAAATCTGATCCTA GTAAAGTGGAAAATAAGGCTAGTGGAAGACATGAAATTCCAGAGAACCTT TTTACACCAAGCTATTTATCTGGGCAAGCACCCCTTCCAAATTGGCAAAA TGTTCAACCTTCTGGCATGGGATATGGCATGCAATATTATCATAATGCTG TGCCTCCCTCAGCGATTTCAAATTCACCAATGTCTATGAACCCCTTTGAT TTAACTGATTCAAGAAATTTAACCCATGTCTCATCGCTTCCTTCTATCAC TTCTGTGCGTGGTGCACCACAAGCTCTATCATCTCCTAGAACAGCATTGA TGCATACTGCAAGCATGGGGTCTTTGGTGTCTCAGTCTCCAAGTTATACA TCCCCAGTTATGGGTGTGTACTTTGATCAAGTTGATAATCAACAGAAACC TCCTAGACCTCAAAGAGCTGAGAGCTTCAATGGTGATATAACTTCTTTTG GATCTGTAGACCCACTTCAACATTCAAATAGAACATTTACGACCTGCAAA AGTTCAATTTCTCTTTCCAATGCAAGAGGAAACCCATTTGACTAG back to top