LLPS-Art-0334
BIG
▼ OVERVIEW
| Status: | Reviewed |
| Protein Name: | Auxin transport protein BIG; Protein ATTENUATED SHADE AVOIDANCE 1; Protein CORYMBOSA1; Protein DARK OVER-EXPRESSION OF CAB 1; Protein LOW PHOSPHATE-RESISTANT ROOT 1; Protein TRANSPORT INHIBITOR RESPONSE 3; Protein UMBRELLA 1 |
| Gene Name: | BIG, ASA1, CRM1, DOC1, GA6, LPR1, TIR3, UMB1, At3g02260, F14P3.9 |
| Ensembl Gene: | AT3G02260 |
| Ensembl Protein: | AT3G02260.3 |
| Organism: | Arabidopsis thaliana |
| Taxa ID: | 3702 |
| LLPS Type: | Client |
▼ PROPERTY
▼ Classification
Condensates:
| Condensate | Description | Tissue/Cell | PMIDs |
|---|---|---|---|
| Nucleolus | "...We identified 1602 proteins in the nucleolar and 2544 proteins in the nuclear fraction with an overlap of 1429 proteins." | Arabidopsis thaliana cells | 26980300 |
▼ FUNCTION
| Required for auxin efflux and polar auxin transport (PAT) influencing auxin-mediated developmental responses (e.g. cell elongation, apical dominance, lateral root production, inflorescence architecture, general growth and development). Controls the elongation of the pedicels and stem internodes through auxin action. Involved in the expression modulation of light-regulated genes. Represses CAB1 and CAB3 genes expression in etiolated seedlings. Confers sensitivity to the auxin transport inhibitors N-1-naphthylphthalamic acid (NPA), 2-carboxyphenyl-3-phenylpropane-l,2-dione (CPD), and methyl-2-chloro-9-hydroxyfluorene-9-carboxylate (CFM). Influences the polarized subcellular distribution of the auxin transporter PIN1 in response to auxin transport inhibitors. Plays a role in the regulation of responses to phytohormones such as auxin, cytokinins, ethylene and gibberellic acid (GA), particularly during light-mediated stimuli (e.g. shade ovoidance, etiolation). Required for pericycle cell activation to form lateral root primordia (LRP) in both high and low phosphate P conditions. Necessary for the plant-growth promotion and lateral root development mediated by the fungus Trichoderma virens. |
▼ CROSS REFERENCE
| Database | Nucleotide ID | Protein ID |
|---|---|---|
| Ensembl | AT3G02260.3 | AT3G02260.3 |
| Ensembl | AT3G02260.2 | AT3G02260.2 |
| Ensembl | AT3G02260.1 | AT3G02260.1 |
| Ensembl | AT3G02260.4 | AT3G02260.4 |
| UniProt | Q9SRU2, BIG_ARATH, F4J4S0 | |
| GeneBank | AF507018, CP002686, AC009755 | AEE73785.1, AAM77595.1, AAF02112.1 |
| RefSeq | NM_111093.2 | NP_186875.2 |
▼ SEQUENCE
| Protein Sequence (FASTA) |
|---|
1 MADDLANLCR FLFDDTAFPS LSSSASSDLF SRRLRSDDSI KRGLRSFYLL LRWGVAPIGG 60 61 DDADSSGKLR FETWSDSQLQ ALVSISQAIL LLSRSLLGTD LTLNQGLVDQ LEPIVLGVIQ 120 121 EVMEFSLSFL EKSSFRQNDL KMEINMEILL EIASFDGSEK QYDILPDFSP AEVAELWPAF 180 181 SGEHDNMDAQ SLVKCTFQGG RCSNEEKPVD RLLITLMSEC IESDVQAQSV VKSPFQQDCG 240 241 DLNPFTRHLA VVHLRCVCRL IMVCKELVQL PNMLDEKTVD QAVLDKLSFC LRILKLLGSL 300 301 SKDVQSIEND GSLLQAVASF TDAFPKLFRV FFEFTNHTAT EGNIESLSLA LVEGFLNLVQ 360 361 LIFGKSSVFQ NVQACVAASI VSNLDSSVWR YDGSSCNLTP PLAYFPRSVI YTLKLIQDLK 420 421 RQPYHIHDLR VLESEVTYED VSSTVDSVYF HLRQEKIPLL KCFTVEDIMR VIFPSSSQWM 480 481 DNFFHLVYFL HREGVKLRPK VERTYSSLRS NSFAEVESQI SHDDEALFGN LFSEGSRSLC 540 541 SIEPNDQPPV SVSSNLLLQA AKELLNFLRA CILCQEWVPS IYEDGCKKLD TGHIDILLNI 600 601 VGCSIEDKAS DGGCMLQDEG RPGHVAFELL LNLLRSRALS DFLESYLFQQ ILVVENSDFN 660 661 YNDKTLALLA HTLLCRPGLA GAQLRAKIYD GFVSFVTERA RGICAEALSL KELTACLPSA 720 721 FHIEILLMAF HLSNEAEKAK FSNLIASCLH KVDTPAGICD GPQLSSWAML ISRLLVLLHH 780 781 MLLHPNTCPT SLMLDLRSKL REVRSCGSNL HVTVGDHLSS WASLVARGIT DSWAEDESVS 840 841 HLMSQMIDFS PHPPTFQNDV STAKTLNLDY GDLSASLCRV LGLWKGKKAG KVEDLLVERY 900 901 IFMLSSDIAR INCALDSQPS LHVNYQNVDI SNSVDLISTS HLLVGDINVV GRNIELRNIL 960 961 IGVLNQLQAA PEQVVEDLGW DYIREGAWLS LLLYFLDGGV WDYCNKNSCS EIDPFWKECT 1020 1021 SVDAKYVAAA EGVVSYLMKT GDIAELLRML SSLVGKYLRV YKKAFLATFS DWNHHGHSSP 1080 1081 SLLLLKHTQF GKSLQGEYAK IGDNSLHLQC IFYLSKLDSL GDGRGSGVLW KVFWEFMVHG 1140 1141 FPTSLQTSSA ILLSCILSIR CIVLTINGLL KLGNSKEKFG VDTSVLHQLL DSIMIIKFDQ 1200 1201 VFESFHGKCE EIHQNICAVL QLPDLTELFL MKDMEGFVRD ISAEQIDRSQ VLEGVITKIV 1260 1261 DVMDSLSKDS SKSDIFKFYL GVDAVSEHTR EFYELQRGDL SVFIDSLDYC SLEPVNIKVL 1320 1321 NFLVDLLSVA QSPDLRRRVQ QKFIDMDLIS LSGWLERRLL GSFVEEIDGK KTAKGNSLPF 1380 1381 REAAMNFINC LVSSTNDLQT RELQNHLFEA LLISLDTAFL SFDIHMSMSY FHFVLQLARE 1440 1441 DNLMKMVLKR TIMLMEKLAA EEKLLPGLKF IFGVIGTLLS NRSPSHGESL CGKSLASYKN 1500 1501 TATGPLVPKL SGTTKKSDTL ALPVDQEGSS ISLECDVTSV DEDEDDGTSD GEVASLDKED 1560 1561 EEDANSERYL ASKVCTFTSS GSNFMEQHWY FCYTCDLTVS KGCCSVCAKV CHRGHRVVYS 1620 1621 RSSRFFCDCG AGGVRGSSCQ CLKPRKYNGN GSAPARGTNN FQSFLPLSED ADQLGESDSD 1680 1681 VEEDGFGEEN HVVLYIPKET QYKMSLLLEE LGIEDRVLEL FSSLLPSITS KRDSGLSKEK 1740 1741 QVNLGKDKVL SFDTDLLQLK KAYKSGSLDL KIKADYTNSK DLKSLLANGS LVKSLLSVSV 1800 1801 RGRLAVGEGD KVAIFDVGQL IGQATIAPIN ADKANVKPLS RNIVRFEIVH LSFNPVVENY 1860 1861 LAVAGLEDCQ ILTLNHRGEV IDRLAVELAL QGAFIRRIDW VPGSQVQLMV VTNKFVKIYD 1920 1921 LSQDSISPTQ YFTLPNDMIV DATLFVASRG RVFLLVLSEQ GNLYRFELSW GGNAGATPLK 1980 1981 EIVQIMGKDV TGKGSSVYFS PTYRLLFISY HDGSSFMGRL SSDATSLTDT SGMFEEESDC 2040 2041 KQRVAGLHRW KELLAGSGLF ICFSSVKSNA VLAVSLRGDG VCAQNLRHPT GSSSPMVGIT 2100 2101 AYKPLSKDNV HCLVLHDDGS LQIYSHVRSG VDTDSNFTAE KVKKLGSKIL NNKTYAGAKP 2160 2161 EFPLDFFERA FCITADVRLG SDAIRNGDSE GAKQSLASED GFIESPSPVG FKISVSNPNP 2220 2221 DIVMVGIRMH VGTTSASSIP SEVTIFQRSI KMDEGMRCWY DIPFTVAESL LADEDVVISV 2280 2281 GPTTSGTALP RIDSLEVYGR AKDEFGWKEK MDAVLDMEAR VLGHGLLLPG SSKKRALAQS 2340 2341 ASMEEQVIAD GLKLLSIYYS VCRPRQEVVL SELKCKQLLE TIFESDRETL LQTTACRVLQ 2400 2401 SVFPRKEIYY QVMFLPNSVK DTMRLLGVVK VTSILSSRLG ILGTGGSIVE EFNAQMRAVS 2460 2461 KVALTRKSNF SVFLEMNGSE VVDNLMQVLW GILESEPLDT PTMNNVVMSS VELIYSYAEC 2520 2521 LASQGKDTGV HSVAPAVQLL KALMLFPNES VQTSSRCVLV LAISSRLLQV PFPKQTMLTT 2580 2581 DDLVDNVTTP SVPIRTAGGN THVMIEEDSI TSSVQYCCDG CSTVPILRRR WHCTVCPDFD 2640 2641 LCEACYEVLD ADRLPPPHTR DHPMTAIPIE VESLGADTNE IQFSADEVGI SNMLPVVTSS 2700 2701 IPQASTPSIH VLEPGESAEF SASLTDPISI SASKRAVNSL ILSEFLQELS GWMETVSGVQ 2760 2761 AIPVMQLFYR LSSAIGGAFM DSSKPEEISL DKLIKWLLGE INLSKPFAAS TRSSLGEIVI 2820 2821 LVFMFFTLML RSWHQPGSDG SSSKLGGSTD VHDRRIVQSS TVVATQSSLH VQERDDFASQ 2880 2881 LVRACSCLRN QEFVNYLMNI LQQLVHVFKS RAANVEARGS SSGSGCGAML TVRRDLPAGN 2940 2941 YSPFFSDSYA KAHRADIFVD YHRLLLENVF RLVYTLVRPE KQEKMGEKEK VYRNASSKDL 3000 3001 KLDGFQDVLC SYINNPHTAF VRRYARRLFL HLCGSKTQYY SVRDSWQFSN EVKNLYKHVE 3060 3061 KSGGFENNVS YERSVKIVKS LSTIAEVAVA RPRNWQKYCL RHGDFLSFLL NGVFHFAEES 3120 3121 VIQTLKLLNL AFYQGKDVSS SVQKAEATEV VTGSNRSGSQ SVDSKKKKKG EDGHDSGLEK 3180 3181 LYVDMEGVVD IFSANCGDLL RQFIDFFLLE WNSSSVRTEA KSVIYGLWHH GRHSFKESLL 3240 3241 AALLQKVRYL PAYGQNIVEY TELVSLLLDK APENNSKQAI NELVDRCLNP DVIRCFFETL 3300 3301 HSQNELIANH PNSRIYSTLG NLVEFDGYYL ESEPCVACSS PDVPYSKMKL ESLKSETKFT 3360 3361 DNRIIVKCTG SYTIQSVTMN VHDARKSKSV KVLNLYYNNR PVSDLSELKN NWSLWKRAKS 3420 3421 CHLSFNQTEL KVEFPIPITA CNFMIELDSF YENLQALSLE PLQCPRCSRP VTDKHGICSN 3480 3481 CHENAYQCRQ CRNINYENLD SFLCNECGYS KYGRFEFNFM AKPSFIFDNM ENDEDMKKGL 3540 3541 AAIESESENA HKRYQQLLGF KKPLLKIVSS IGETEMDSQH KDTVQQMMAS LPGPSCKINR 3600 3601 KIALLGVLYG EKCKAAFDSV SKSVQTLQGL RRVLMSYLHQ KNSNFSSGAS RCVVSKTPNN 3660 3661 CYGCATTFVT QCLEILQVLS KHPRSRKQLV AAGILSELFE NNIHQGPKTA RAQARAALST 3720 3721 FSEGDLSAVN ELNNLVQKKI MYCLEHHRSM DIALATREEM LLLSEVCSLT DEFWESRLRL 3780 3781 VFQLLFSSIK LGAKHPAISE HIILPCLKII SVACTPPKPD TAEKEQTMGK SAPAVQEKDE 3840 3841 NAAGVIKYSS ESEENNLNVS QKTRDIQLVS YLEWEKGASY LDFVRRQYKA SQSIRGASQK 3900 3901 SRTHRSDFLA LKYTLRWKRR SSRTSKGGLQ AFELGSWVTE LILSACSQSI RSEMCTLISL 3960 3961 LAAQSSPRRY RLINLLIGLL PATLAAGESS AEYFELLFKM IETQDALLFL TVRGCLTTIC 4020 4021 KLISQEVGNI ESLERSLQID ISQGFTLHKL LELLGKFLEV PNIRSRFMRD NLLSHVLEAL 4080 4081 IVIRGLIVQK TKLINDCNRR LKDLLDGLLL ESSENKRQFI RACVSGLQTH AEENKGRTCL 4140 4141 FILEQLCNLI CPSKPEAVYM LILNKSHTQE EFIRGSMTKN PYSSAEIGPL MRDVKNKICQ 4200 4201 QLDLLGLLED DYGMELLVAG NIISLDLSIA QVYELVWKKS NQSSTSLTNS ALLASNAAPS 4260 4261 RDCPPMTVTY RLQGLDGEAT EPMIKELEED REESQDPEIE FAIAGAVREY GGLEILLDMI 4320 4321 KSLQDDFKSN QEEMVAVLDL LNHCCKIREN RRALLRLGAL SLLLETARRA FSVDAMEPAE 4380 4381 GILLIVESLT LEANESDSIS AAQSALTVSN EETGTWEQAK KIVLMFLERL SHPSGLKKSN 4440 4441 KQQRNTEMVA RILPYLTYGE PAAMEALIEH FSPYLQNWSE FDQLQQRHEE DPKDDSIAQQ 4500 4501 AAKQRFTVEN FVRVSESLKT SSCGERLKDI VLENGIIAVA VKHIKEIFAI TGQTGFKSSK 4560 4561 EWLLALKLPS VPLILSMLRG LSMGHLPTQT CIDEGGILTL LHALEGVSGE NDIGARAENL 4620 4621 LDTLADKEGK GDGFLGEKVR ALRDATKDEM RRRALRKREE LLQGLGMRQE LSSDGGERIV 4680 4681 VSQPILEGFE DVEEEEDGLA CMVCREGYKL RPSDLLGVYS YSKRVNLGVG NSGSARGECV 4740 4741 YTTVSYFNII HFQCHQEAKR ADAALKNPKK EWEGAMLRNN ESLCNSLFPV KGPSVPLAQY 4800 4801 LRYVDQYWDN LNALGRADGS RLRLLTYDIV LMLARFATGA SFSADCRGGG RDSNSRFLPF 4860 4861 MFQMARHLLD QGGPVQRTNM ARSVSSYISS SSTSTATAPS SDSRPLTPGS QLSSTGTEET 4920 4921 VQFMMVNSLL SESYESWLQH RRVFLQRGIY HTFMQHAHGR VASRAAEPTS SGGKTQDAET 4980 4981 LTGDELLSIV KPMLVYTGMI EQLQQLFKPK KPVHIEPIKK EGTSSGVELE PWEIVMKEKL 5040 5041 LNVKEMIGFS KELISWLDEI NSATDLQEAF DIVGVLADVL SEGVTQCDQF VRSAIDKD 5098 |
| Nucleotide CDS Sequence (FASTA) |
1 ATGGCAGATG ACTTGGCGAA TCTCTGCCGA TTTCTCTTCG ACGACACCGC CTTTCCCTCT 60 61 TTGTCGTCTT CGGCATCTTC AGATCTCTTT TCTCGCCGTT TACGCTCCGA TGATTCGATC 120 121 AAGCGCGGTC TCCGTTCTTT CTATCTCCTC CTTCGCTGGG GTGTCGCTCC GATCGGCGGA 180 181 GACGATGCTG ATTCCTCTGG CAAGCTACGC TTTGAGACAT GGTCCGATTC GCAGCTTCAA 240 241 GCTCTTGTTT CGATATCTCA GGCGATCCTT CTACTATCTC GATCTCTATT AGGTACTGAC 300 301 TTGACACTGA ATCAAGGTTT AGTGGACCAA CTCGAACCAA TCGTTTTGGG TGTCATCCAG 360 361 GAGGTGATGG AATTCTCTCT CAGCTTCTTG GAGAAGTCAA GTTTTAGACA AAATGATCTC 420 421 AAAATGGAGA TCAACATGGA AATACTTTTG GAAATTGCTT CTTTTGATGG AAGTGAGAAG 480 481 CAATATGATA TATTACCAGA TTTCTCTCCC GCTGAAGTTG CAGAACTGTG GCCAGCTTTT 540 541 TCTGGCGAGC ATGATAATAT GGACGCACAG AGCCTTGTGA AATGTACTTT TCAAGGGGGC 600 601 AGATGCTCAA ATGAAGAGAA GCCAGTTGAC CGGCTTCTTA TTACACTGAT GTCTGAATGC 660 661 ATTGAATCTG ATGTCCAGGC GCAGTCAGTA GTAAAGTCCC CTTTTCAACA AGACTGTGGA 720 721 GACCTGAATC CCTTTACTCG ACACCTGGCA GTTGTTCACC TTCGCTGTGT TTGTCGCCTG 780 781 ATTATGGTCT GCAAAGAGCT TGTTCAATTG CCAAATATGT TGGATGAGAA GACGGTTGAT 840 841 CAAGCTGTCC TTGATAAATT GTCGTTCTGC TTAAGAATTT TGAAGCTGCT TGGGAGTCTT 900 901 TCAAAAGATG TTCAAAGTAT AGAAAACGAC GGCTCATTGT TACAAGCAGT AGCTTCATTT 960 961 ACAGATGCTT TTCCTAAGCT GTTTAGGGTT TTCTTTGAAT TCACTAACCA CACTGCTACA 1020 1021 GAGGGTAATA TTGAGAGTCT TTCTCTTGCG CTAGTGGAGG GATTTCTTAA TCTCGTCCAA 1080 1081 CTCATTTTTG GCAAGAGCAG TGTTTTTCAG AATGTCCAGG CATGTGTGGC AGCTTCTATT 1140 1141 GTCAGCAATC TAGATTCCTC AGTGTGGAGA TATGATGGGT CCTCTTGTAA TTTGACACCT 1200 1201 CCACTTGCTT ACTTCCCTCG GTCTGTCATC TACACATTGA AACTCATTCA AGATCTCAAG 1260 1261 AGACAACCAT ACCATATCCA TGATCTGAGG GTTTTAGAGT CTGAAGTTAC CTATGAAGAT 1320 1321 GTCAGTTCCA CTGTTGATTC TGTTTATTTC CATCTGCGCC AGGAAAAGAT CCCGTTGCTC 1380 1381 AAGTGCTTCA CGGTCGAGGA TATAATGAGA GTGATATTTC CTTCATCAAG TCAATGGATG 1440 1441 GATAACTTCT TCCATCTTGT TTATTTCCTC CATCGCGAAG GTGTAAAATT ACGACCAAAA 1500 1501 GTGGAGAGGA CGTATTCCAG TTTAAGATCC AACAGTTTTG CAGAAGTTGA AAGCCAAATT 1560 1561 TCTCATGACG ATGAAGCCCT GTTTGGAAAC TTATTTTCTG AGGGTAGTCG TTCTCTCTGT 1620 1621 TCCATAGAAC CAAATGATCA ACCACCTGTT TCTGTCAGCA GCAATTTACT ATTGCAAGCT 1680 1681 GCTAAGGAAC TGTTGAATTT TCTTAGAGCA TGCATTCTTT GTCAAGAATG GGTTCCTAGT 1740 1741 ATATATGAAG ATGGATGTAA AAAGCTTGAC ACTGGTCACA TTGATATCCT GCTCAATATA 1800 1801 GTAGGCTGTA GTATTGAAGA CAAGGCTTCT GATGGTGGTT GCATGCTCCA AGATGAGGGA 1860 1861 AGACCTGGAC ATGTTGCTTT TGAGCTGTTA CTCAATCTCT TGAGAAGTCG TGCTCTGTCT 1920 1921 GATTTTCTAG AGTCCTACCT TTTTCAGCAA ATTCTTGTTG TTGAAAATAG TGACTTCAAC 1980 1981 TATAATGATA AGACTCTGGC ACTGTTGGCT CACACTCTTC TATGTAGGCC GGGCTTGGCT 2040 2041 GGGGCACAGT TGAGAGCCAA AATTTATGAT GGTTTCGTTA GTTTTGTTAC CGAGAGAGCA 2100 2101 AGAGGTATAT GTGCTGAAGC TTTGAGTCTC AAGGAGTTGA CTGCTTGTCT TCCTTCTGCT 2160 2161 TTCCATATTG AGATTCTTCT TATGGCTTTC CATTTATCAA ATGAAGCTGA GAAGGCAAAA 2220 2221 TTCTCAAATC TCATTGCTTC ATGTCTGCAT AAAGTTGATA CCCCGGCAGG AATATGTGAT 2280 2281 GGTCCTCAGC TGTCCTCTTG GGCAATGCTG ATATCTAGGT TGTTAGTGCT GTTGCACCAT 2340 2341 ATGTTGTTAC ATCCAAACAC ATGCCCAACA TCATTAATGC TAGATCTAAG GTCTAAACTG 2400 2401 AGGGAAGTTC GTAGCTGTGG TAGTAATTTA CATGTAACTG TTGGTGATCA TTTATCTTCG 2460 2461 TGGGCGTCTC TTGTAGCAAG GGGTATAACT GATTCATGGG CTGAGGATGA GTCAGTCAGC 2520 2521 CATCTAATGA GTCAAATGAT TGACTTTTCC CCTCATCCTC CTACATTTCA GAATGATGTG 2580 2581 TCTACTGCCA AAACCTTAAA CTTGGATTAT GGAGATTTAT CTGCGAGTTT GTGTCGGGTT 2640 2641 TTGGGGCTGT GGAAGGGGAA AAAGGCAGGA AAAGTGGAAG ACCTGCTAGT GGAAAGATAC 2700 2701 ATTTTCATGC TTTCTTCAGA TATTGCTCGT ATTAACTGTG CATTGGATAG CCAGCCTTCT 2760 2761 TTGCATGTTA ATTACCAGAA TGTGGACATA TCTAACTCTG TGGATCTCAT CAGCACCAGT 2820 2821 CATTTGCTTG TAGGCGACAT CAATGTTGTT GGTAGAAATA TCGAGTTGAG AAACATTCTG 2880 2881 ATCGGTGTTT TAAATCAGCT CCAGGCAGCA CCTGAGCAGG TGGTTGAGGA TTTGGGTTGG 2940 2941 GATTATATTC GCGAAGGAGC TTGGCTCTCT CTTCTGTTGT ACTTTCTTGA TGGTGGCGTC 3000 3001 TGGGATTATT GCAACAAAAA TTCATGTTCA GAAATCGATC CCTTCTGGAA GGAGTGCACA 3060 3061 TCTGTTGACG CCAAGTATGT TGCTGCAGCA GAAGGGGTAG TCTCTTACTT GATGAAGACT 3120 3121 GGTGATATTG CAGAATTGCT GAGAATGCTT TCATCATTGG TTGGCAAATA TTTACGAGTG 3180 3181 TATAAGAAAG CTTTCCTTGC AACTTTCAGC GATTGGAATC ATCACGGTCA TAGTTCGCCT 3240 3241 TCTCTGCTAC TTCTCAAGCA TACTCAATTT GGTAAAAGTC TCCAAGGTGA ATATGCGAAG 3300 3301 ATTGGTGACA ATTCTCTCCA TCTTCAATGC ATCTTTTATC TGTCAAAACT GGATTCCCTG 3360 3361 GGAGATGGAA GAGGTTCGGG TGTTTTATGG AAAGTGTTTT GGGAATTTAT GGTACATGGG 3420 3421 TTTCCCACTA GTCTTCAAAC TTCTAGTGCG ATTCTTCTTT CATGTATTCT AAGCATAAGA 3480 3481 TGCATTGTGC TGACAATAAA TGGCTTACTC AAACTGGGTA ACTCTAAGGA GAAGTTTGGG 3540 3541 GTAGATACTA GTGTACTTCA TCAGCTACTT GATTCTATCA TGATTATTAA GTTTGACCAG 3600 3601 GTATTCGAAA GCTTTCATGG GAAATGTGAG GAGATCCATC AAAATATATG TGCCGTGTTG 3660 3661 CAGCTTCCAG ATTTGACTGA GTTGTTTCTG ATGAAAGACA TGGAGGGGTT TGTAAGAGAT 3720 3721 ATCAGTGCTG AGCAGATAGA TAGAAGCCAA GTGCTTGAAG GGGTGATCAC CAAGATTGTA 3780 3781 GATGTTATGG ACAGTCTAAG CAAGGATTCT TCGAAATCTG ATATTTTCAA ATTTTATCTT 3840 3841 GGTGTAGATG CAGTCTCTGA GCATACCAGG GAATTTTATG AGTTGCAACG TGGAGATCTG 3900 3901 TCTGTGTTTA TTGACTCATT GGACTACTGT TCCTTGGAAC CAGTAAACAT AAAAGTACTT 3960 3961 AACTTCCTTG TTGACCTTTT GTCTGTGGCT CAATCCCCTG ATCTCCGGAG AAGAGTACAA 4020 4021 CAAAAATTTA TTGACATGGA TTTGATATCT TTGTCTGGGT GGCTGGAGAG AAGACTGTTG 4080 4081 GGTTCCTTCG TTGAAGAAAT AGATGGGAAA AAGACTGCAA AAGGAAATTC TCTTCCTTTC 4140 4141 AGAGAGGCAG CAATGAATTT TATTAATTGT CTTGTGTCAT CTACTAACGA CCTACAGACC 4200 4201 AGAGAGTTAC AGAATCATTT ATTCGAGGCC TTGCTGATCT CCCTCGATAC CGCGTTTCTC 4260 4261 TCATTTGATA TCCATATGTC TATGTCATAT TTTCATTTTG TTCTTCAACT TGCAAGGGAA 4320 4321 GACAACCTGA TGAAGATGGT TTTAAAGAGA ACCATAATGC TGATGGAGAA GCTTGCTGCC 4380 4381 GAGGAGAAGT TGCTTCCTGG TTTGAAGTTT ATTTTTGGTG TGATAGGCAC CTTGTTGAGC 4440 4441 AACCGTTCTC CAAGTCATGG AGAGAGTTTG TGTGGAAAGT CCTTGGCAAG CTATAAGAAT 4500 4501 ACTGCAACAG GTCCTTTGGT CCCAAAACTT TCAGGAACAA CGAAAAAATC TGATACATTG 4560 4561 GCTCTCCCCG TGGATCAGGA AGGAAGCTCA ATATCACTTG AATGCGATGT CACTTCTGTT 4620 4621 GATGAAGATG AAGATGATGG AACATCTGAT GGTGAAGTGG CCAGCTTAGA CAAGGAAGAT 4680 4681 GAAGAAGATG CCAACAGTGA GAGGTACCTT GCCTCAAAAG TCTGCACTTT TACGTCCAGT 4740 4741 GGCAGTAATT TCATGGAACA ACACTGGTAT TTTTGTTACA CTTGTGACCT TACTGTGTCC 4800 4801 AAAGGTTGCT GTTCTGTTTG CGCGAAAGTT TGCCACCGGG GTCACCGTGT TGTCTATTCA 4860 4861 CGATCGAGTC GGTTTTTCTG TGACTGTGGA GCTGGAGGTG TTAGGGGAAG CAGCTGCCAG 4920 4921 TGCCTGAAGC CACGCAAATA TAATGGAAAT GGAAGTGCTC CAGCTCGTGG TACAAATAAT 4980 4981 TTCCAATCGT TTTTACCCTT GTCTGAGGAT GCAGATCAGC TTGGAGAAAG CGATTCGGAT 5040 5041 GTGGAAGAAG ATGGTTTCGG GGAGGAAAAT CACGTTGTCT TATATATCCC TAAAGAAACT 5100 5101 CAATATAAGA TGTCACTGCT ACTCGAAGAG CTCGGGATAG AGGACCGAGT ACTGGAGCTT 5160 5161 TTCTCATCTT TACTTCCGTC TATCACTAGC AAAAGAGACT CTGGCCTGTC GAAAGAGAAG 5220 5221 CAGGTCAATC TCGGGAAAGA CAAAGTTCTT TCATTTGACA CGGATCTTTT GCAGCTGAAA 5280 5281 AAAGCATATA AAAGTGGGTC ATTGGACTTA AAAATAAAGG CTGATTATAC TAATTCAAAG 5340 5341 GACCTTAAAT CTCTTTTAGC CAATGGTTCC CTTGTCAAGT CTCTCCTGAG TGTTAGTGTT 5400 5401 CGGGGTCGCC TTGCAGTTGG AGAAGGTGAT AAAGTTGCTA TATTTGATGT TGGACAGCTA 5460 5461 ATAGGACAAG CCACAATTGC ACCCATAAAT GCAGACAAGG CCAACGTTAA ACCACTTTCA 5520 5521 AGGAATATTG TTCGTTTTGA GATTGTGCAT CTTTCATTCA ACCCAGTTGT GGAGAATTAT 5580 5581 CTTGCTGTCG CAGGCCTTGA AGATTGCCAG ATACTTACTT TGAATCATCG AGGTGAAGTC 5640 5641 ATCGACAGGC TTGCTGTTGA GCTTGCCCTG CAAGGTGCAT TCATCAGGCG TATAGACTGG 5700 5701 GTTCCTGGTT CACAGGTTCA GTTAATGGTC GTTACGAACA AATTCGTGAA GATTTATGAT 5760 5761 CTATCCCAGG ATAGCATCAG TCCAACACAG TACTTCACTT TGCCAAACGA CATGATTGTG 5820 5821 GATGCTACTC TTTTTGTTGC TTCTCGTGGG AGGGTTTTCC TTCTTGTTCT TTCAGAACAA 5880 5881 GGGAATTTGT ATAGGTTCGA ACTATCTTGG GGCGGCAATG CAGGCGCAAC ACCGCTTAAG 5940 5941 GAAATCGTTC AGATTATGGG AAAGGATGTT ACGGGAAAGG GTTCATCTGT CTATTTCTCT 6000 6001 CCAACATATC GACTGCTTTT CATATCCTAT CATGATGGAA GTTCTTTTAT GGGTCGACTC 6060 6061 AGCTCAGATG CAACATCCTT AACTGATACA TCTGGCATGT TTGAGGAAGA ATCAGATTGT 6120 6121 AAACAAAGGG TGGCTGGATT GCATCGTTGG AAAGAGTTGT TGGCTGGCAG TGGATTATTT 6180 6181 ATTTGCTTCT CCAGCGTGAA GTCAAATGCT GTCTTAGCTG TGTCCTTGAG GGGCGATGGG 6240 6241 GTATGTGCAC AGAATCTCCG TCATCCGACA GGATCATCTT CCCCTATGGT TGGAATAACC 6300 6301 GCATACAAAC CTTTGTCAAA AGACAATGTT CACTGTCTAG TTCTGCATGA TGATGGCAGC 6360 6361 CTTCAGATTT ATTCTCATGT TCGTAGTGGA GTTGATACTG ACTCAAATTT CACAGCTGAA 6420 6421 AAAGTTAAAA AGTTGGGTTC TAAGATACTT AACAACAAAA CCTATGCTGG TGCAAAGCCA 6480 6481 GAGTTTCCCC TGGATTTCTT TGAGAGGGCA TTTTGCATTA CAGCAGATGT GAGACTTGGT 6540 6541 AGTGATGCTA TTAGAAATGG TGATTCCGAG GGAGCAAAAC AGAGCTTGGC ATCTGAGGAT 6600 6601 GGCTTTATTG AGAGCCCCAG TCCCGTGGGC TTCAAGATAT CTGTCTCCAA TCCAAACCCT 6660 6661 GACATTGTTA TGGTTGGCAT CCGGATGCAT GTGGGTACTA CATCAGCAAG CTCTATACCT 6720 6721 TCAGAAGTGA CCATTTTCCA GAGATCGATT AAGATGGATG AGGGCATGAG GTGCTGGTAT 6780 6781 GACATCCCAT TTACTGTGGC TGAGTCACTT CTAGCTGATG AAGATGTTGT AATCTCTGTG 6840 6841 GGGCCGACTA CTAGTGGGAC TGCACTGCCC AGAATAGACT CGCTTGAAGT ATATGGTCGA 6900 6901 GCTAAAGATG AATTTGGCTG GAAAGAAAAA ATGGATGCTG TGCTAGATAT GGAAGCTCGT 6960 6961 GTGCTTGGTC ATGGTTTGCT TCTTCCAGGC TCTAGTAAAA AGAGAGCGTT GGCACAGTCT 7020 7021 GCTTCAATGG AAGAGCAAGT TATCGCTGAT GGTCTTAAGC TCCTATCAAT CTATTATTCA 7080 7081 GTTTGTAGGC CACGGCAAGA AGTAGTGCTT AGCGAACTCA AATGCAAACA GCTACTAGAG 7140 7141 ACGATTTTCG AAAGTGATAG GGAAACCCTA TTACAAACGA CAGCTTGCCG TGTTTTGCAG 7200 7201 TCTGTCTTTC CAAGAAAGGA GATATACTAC CAGGTCAAAG ACACCATGCG ACTCCTTGGA 7260 7261 GTGGTCAAGG TGACCTCCAT TCTTTCTTCG AGGTTGGGGA TTTTGGGTAC TGGAGGTTCG 7320 7321 ATTGTTGAAG AGTTCAATGC TCAGATGCGG GCGGTGTCTA AAGTAGCTTT GACCCGTAAA 7380 7381 TCAAATTTCT CCGTCTTTCT GGAGATGAAT GGCTCTGAAG TGGTTGATAA TCTGATGCAA 7440 7441 GTGCTATGGG GAATTTTGGA GTCAGAGCCA CTCGACACAC CTACTATGAA CAATGTCGTG 7500 7501 ATGTCCTCCG TTGAACTAAT CTATAGCTAT GCAGAGTGTT TGGCATCTCA AGGAAAGGAT 7560 7561 ACAGGGGTTC ATTCTGTAGC TCCTGCAGTT CAGTTACTGA AAGCACTTAT GTTGTTTCCC 7620 7621 AATGAGTCTG TGCAAACATC CAGCAGCCTA GCTATATCAT CAAGGTTACT TCAGGTTCCT 7680 7681 TTCCCAAAGC AAACAATGTT GACAACAGAT GATTTGGTTG ACAATGTTAC AACTCCTTCG 7740 7741 GTGCCTATCA GAACAGCTGG TGGAAATACA CATGTCATGA TTGAGGAGGA CTCTATAACT 7800 7801 TCATCTGTTC AATACTGCTG TGATGGCTGC TCCACCGTCC CTATACTGAG AAGAAGGTGG 7860 7861 CACTGCACTG TTTGTCCAGA TTTTGATCTA TGTGAGGCAT GCTATGAAGT GTTAGATGCA 7920 7921 GATCGTCTAC CACCACCACA CACTCGAGAT CATCCTATGA CAGCAATTCC AATAGAAGTG 7980 7981 GAATCACTTG GTGCAGACAC CAATGAGATT CAGTTCTCTG CGGATGAAGT AGGTATTTCA 8040 8041 AATATGTTGC CGGTGGTAAC CAGTAGCATT CCACAAGCTT CAACTCCCTC CATCCATGTC 8100 8101 TTGGAACCTG GTGAATCTGC TGAGTTCTCT GCCTCACTGA CCGATCCTAT TTCTATCTCA 8160 8161 GCGTCAAAGC GTGCCGTAAA TTCTTTGATT CTCTCTGAGT TTCTCCAAGA GTTGAGTGGA 8220 8221 TGGATGGAAA CAGTATCCGG TGTTCAAGCT ATTCCTGTGA TGCAATTGTT CTACAGATTA 8280 8281 TCATCTGCCA TTGGTGGAGC CTTTATGGAT AGCTCAAAGC CCGAAGAAAT AAGCTTGGAT 8340 8341 AAGTTAATTA AATGGCTTTT GGGTGAAATC AATCTCAGCA AGCCGTTTGC TGCTTCAACT 8400 8401 CGCTCTTCCT TAGGGGAAAT TGTGATTCTT GTGTTTATGT TTTTCACCTT GATGCTTCGG 8460 8461 AGTTGGCACC AGCCTGGTAG TGATGGTAGT AGCTCCAAAT TAGGTGGAAG TACAGATGTA 8520 8521 CATGACCGGA GGATTGTCCA GAGCTCCACT GTAGTAGCTA CTCAGTCTTC TTTACATGTT 8580 8581 CAAGAGAGAG ATGACTTTGC ATCTCAGCTA GTTCGTGCGT GCAGTTGCCT CAGGAACCAA 8640 8641 GAGTTTGTTA ATTATCTGAT GAACATACTT CAACAGCTAG TGCATGTTTT TAAGTCACGT 8700 8701 GCTGCCAATG TTGAAGCTCG TGGATCAAGC TCTGGTTCTG GTTGTGGAGC CATGCTCACA 8760 8761 GTCAGAAGAG ATTTACCTGC GGGTAACTAT TCTCCCTTCT TTTCGGATTC ATATGCAAAA 8820 8821 GCCCATAGAG CAGATATTTT TGTGGACTAT CACAGGCTGC TACTTGAGAA TGTGTTTCGC 8880 8881 TTAGTATATA CCTTAGTTAG ACCTGAAAAA CAAGAGAAAA TGGGGGAAAA GGAAAAGGTA 8940 8941 TACAGGAATG CTTCTTCTAA AGATTTAAAG CTGGACGGTT TCCAGGATGT TCTATGCAGC 9000 9001 TATATAAATA ACCCTCATAC GGCTTTTGTT AGGAGATATG CTAGAAGGCT GTTTTTGCAT 9060 9061 CTTTGCGGAA GCAAAACTCA ATACTACAGT GTCAGAGATT CATGGCAGTT TTCCAATGAA 9120 9121 GTGAAAAACC TATACAAGCA TGTTGAAAAG TCTGGTGGTT TTGAAAACAA TGTTTCATAT 9180 9181 GAAAGAAGTG TAAAGATTGT GAAGTCGCTT TCTACAATTG CTGAAGTTGC TGTGGCAAGA 9240 9241 CCTCGGAACT GGCAGAAGTA CTGTCTCAGG CATGGAGATT TTCTGTCCTT CCTACTGAAT 9300 9301 GGTGTATTCC ATTTTGCGGA AGAGTCTGTA ATCCAGACAC TTAAACTCCT CAATTTGGCC 9360 9361 TTTTATCAAG GAAAAGATGT GAGCAGCTCA GTGCAGAAAG CTGAAGCAAC TGAAGTAGTG 9420 9421 ACAGGCTCAA ACCGGTCAGG ATCTCAGTCA GTGGATTCAA AAAAGAAGAA AAAAGGTGAA 9480 9481 GATGGGCATG ATTCGGGTTT GGAAAAATTA TATGTGGATA TGGAAGGGGT GGTCGATATC 9540 9541 TTCAGTGCCA ATTGCGGAGA TCTCTTGAGG CAGTTTATTG ATTTCTTTCT GCTGGAATGG 9600 9601 AATTCGAGCT CTGTTCGCAC TGAAGCAAAA TCTGTTATTT ATGGCTTGTG GCATCATGGA 9660 9661 AGACACTCGT TCAAAGAAAG TCTGTTAGCA GCTCTTTTGC AGAAGGTTAG ATACCTGCCA 9720 9721 GCATATGGTC AGAATATTGT TGAGTACACA GAACTTGTCT CCTTGTTGCT TGACAAGGCT 9780 9781 CCAGAAAACA ACTCAAAGCA AGCAATTAAT GAGCTTGTGG ATCGGTGCCT GAACCCTGAT 9840 9841 GTGATAAGGT GCTTTTTTGA GACGCTGCAT TCCCAGAACG AACTCATTGC CAATCATCCA 9900 9901 AACTCCCGTA TATACAGCAC TCTGGGTAAT CTTGTGGAAT TTGATGGTTA TTATCTTGAG 9960 9961 AGCGAACCTT GTGTTGCCTG CAGTTCTCCT GATGTGCCAT ATAGCAAAAT GAAGCTTGAA 10020 10021 AGTTTGAAAT CCGAGACAAA GTTTACTGAT AACCGCATCA TTGTGAAATG TACTGGGAGT 10080 10081 TATACGATAC AGTCTGTGAC AATGAATGTT CATGATGCAC GAAAGTCAAA GTCGGTGAAG 10140 10141 GTCCTAAACT TGTATTACAA CAATCGCCCT GTCTCGGATT TATCAGAGCT TAAAAACAAC 10200 10201 TGGTCACTGT GGAAGCGTGC CAAAAGTTGT CATCTGTCTT TTAACCAAAC TGAACTGAAG 10260 10261 GTGGAATTTC CTATTCCTAT TACTGCTTGT AACTTCATGA TCGAGTTGGA TTCTTTCTAT 10320 10321 GAGAATCTTC AGGCGTTATC TCTTGAACCA TTGCAATGTC CTCGATGCAG CCGACCTGTC 10380 10381 ACTGATAAAC ATGGTATTTG CAGCAACTGC CATGAGAATG CTTATCAGTG CAGGCAATGC 10440 10441 CGTAACATTA ATTATGAAAA TTTGGATTCA TTCCTTTGCA ACGAGTGTGG CTACAGCAAG 10500 10501 TATGGGAGGT TTGAGTTTAA CTTCATGGCA AAACCAAGCT TCATATTTGA TAATATGGAA 10560 10561 AATGACGAAG ATATGAAGAA GGGATTGGCT GCTATAGAGT CTGAGTCTGA AAACGCTCAC 10620 10621 AAGAGATATC AGCAACTACT GGGATTCAAG AAGCCGCTTC TGAAGATAGT TTCAAGCATT 10680 10681 GGTGAAACTG AAATGGATTC GCAGCACAAG GACACTGTCC AGCAAATGAT GGCATCTTTA 10740 10741 CCTGGTCCAT CATGCAAGAT AAACCGCAAA ATCGCACTTT TGGGCGTACT GTATGGTGAG 10800 10801 AAGTGCAAAG CTGCTTTTGA TTCTGTCAGC AAAAGTGTAC AAACACTGCA GGGGCTTCGT 10860 10861 AGAGTTTTGA TGAGCTACCT CCATCAGAAA AATTCAAATT TTTCATCAGG TGCCTCAAGA 10920 10921 TGTGTGGTCT CAAAGACCCC AAACAATTGT TATGGTTGTG CAACTACATT TGTCACTCAA 10980 10981 TGTCTTGAGA TTCTTCAAGT GCTGTCGAAG CATCCAAGAT CTAGAAAACA ACTTGTTGCA 11040 11041 GCTGGTATTT TGTCTGAGTT GTTTGAAAAC AATATTCACC AAGGTCCGAA AACAGCCCGT 11100 11101 GCTCAAGCTA GAGCAGCTCT TTCTACTTTC TCGGAGGGTG ATCTGAGTGC AGTGAATGAG 11160 11161 TTAAACAATC TGGTACAGAA GAAAATAATG TACTGCCTTG AACACCATCG TTCCATGGAT 11220 11221 ATTGCGCTCG CCACTCGTGA GGAAATGTTG TTGCTTTCAG AAGTTTGCTC TCTCACTGAT 11280 11281 GAATTCTGGG AGTCAAGACT GCGCCTTGTT TTTCAGCTAC TATTTTCATC CATTAAATTG 11340 11341 GGTGCTAAAC ATCCTGCTAT ATCAGAGCAC ATAATTCTTC CTTGCCTTAA GATTATTTCT 11400 11401 GTGGCATGTA CACCTCCAAA ACCAGATACG GCAGAGAAAG AGCAAACGAT GGGAAAATCT 11460 11461 GCTCCTGCAG TGCAAGAAAA GGATGAGAAT GCTGCTGGCG TCATAAAGTA TTCATCAGAA 11520 11521 AGCGAAGAAA ATAACCTGAA TGTATCTCAG AAGACGCGAG ATATTCAGCT TGTGAGTTAT 11580 11581 TTGGAATGGG AGAAAGGGGC ATCATATCTC GACTTTGTGA GGAGGCAATA CAAAGCCTCT 11640 11641 CAGTCAATTA GAGGTGCGAG CCAAAAGTCT AGAACCCACA GATCAGATTT CTTGGCACTT 11700 11701 AAATATACAC TTAGGTGGAA GCGACGGTCT AGCAGGACAT CTAAAGGTGG TTTACAGGCA 11760 11761 TTTGAGCTCG GGTCGTGGGT CACAGAGCTT ATTCTTAGTG CATGTTCTCA ATCTATCAGG 11820 11821 TCGGAGATGT GCACATTGAT TAGTTTACTC GCTGCCCAAA GCTCACCTAG GCGCTACAGG 11880 11881 CTGATTAATT TGCTGATAGG CTTGCTTCCC GCTACGCTTG CAGCGGGTGA AAGTAGCGCA 11940 11941 GAATACTTTG AGCTACTCTT CAAAATGATT GAGACACAAG ATGCACTTCT TTTCTTAACT 12000 12001 GTCCGGGGTT GTCTGACAAC AATCTGTAAA TTGATCTCCC AAGAGGTGGG AAACATTGAA 12060 12061 TCTCTAGAAA GGAGTCTTCA GATTGACATT TCACAGGGAT TTACCCTCCA CAAGCTCTTA 12120 12121 GAACTCCTTG GAAAGTTCTT AGAGGTTCCA AATATTCGTT CCAGATTCAT GAGAGACAAT 12180 12181 TTACTGTCTC ATGTTCTGGA GGCCCTCATT GTAATTCGTG GCTTGATAGT GCAAAAGACA 12240 12241 AAGCTTATAA ATGATTGCAA CAGACGCCTA AAAGATCTTC TTGACGGACT TCTGCTTGAA 12300 12301 AGCAGTGAAA ATAAACGTCA ATTTATCCGT GCCTGTGTTT CTGGACTGCA AACCCATGCA 12360 12361 GAGGAGAACA AAGGACGTAC CTGTTTGTTT ATTCTTGAGC AACTTTGTAA TCTGATCTGC 12420 12421 CCGTCAAAAC CTGAGGCTGT GTATATGCTG ATCTTGAACA AATCACACAC GCAAGAGGAG 12480 12481 TTTATCCGGG GATCAATGAC AAAAAATCCA TATTCGAGTG CTGAGATTGG CCCACTGATG 12540 12541 CGGGATGTGA AAAACAAGAT TTGTCAGCAG TTGGACCTGC TAGGTCTACT GGAAGATGAC 12600 12601 TATGGCATGG AGTTGCTTGT AGCAGGAAAC ATCATTTCAC TAGACCTGAG CATAGCTCAA 12660 12661 GTTTATGAGC TAGTTTGGAA GAAATCAAAT CAGTCTTCTA CTTCACTGAC CAACTCCGCA 12720 12721 CTGTTAGCTT CAAATGCAGC TCCCAGCAGG GATTGCCCTC CCATGACGGT GACATACAGA 12780 12781 CTTCAGGGGT TAGATGGTGA AGCTACTGAG CCTATGATCA AGGAATTGGA AGAAGATAGA 12840 12841 GAAGAATCAC AAGATCCAGA GATTGAGTTT GCAATAGCAG GTGCAGTTCG AGAATATGGT 12900 12901 GGTCTGGAAA TTTTACTTGA TATGATCAAG AGTTTACAAG ATGACTTCAA ATCCAACCAA 12960 12961 GAAGAGATGG TTGCAGTTCT TGATCTCCTA AACCATTGCT GCAAGATTAG AGAGAACAGG 13020 13021 CGAGCTCTAC TCAGGCTAGG GGCTTTAAGC TTACTTCTTG AAACAGCTAG GAGGGCATTT 13080 13081 TCTGTGGATG CTATGGAGCC AGCTGAAGGC ATACTCTTAA TTGTCGAGAG TTTGACGCTT 13140 13141 GAAGCAAATG AAAGTGACAG CATCAGTGCC GCACAAAGTG CTTTGACTGT CAGTAACGAG 13200 13201 GAAACTGGAA CTTGGGAACA GGCCAAAAAA ATAGTGCTTA TGTTCTTAGA AAGGCTAAGC 13260 13261 CATCCTTCAG GGCTTAAAAA GTCAAACAAA CAGCAAAGGA ACACGGAGAT GGTTGCTAGA 13320 13321 ATCTTACCTT ACTTAACATA CGGTGAGCCT GCAGCGATGG AAGCACTCAT AGAGCATTTT 13380 13381 AGCCCTTACC TGCAAAACTG GTCTGAATTT GATCAGCTTC AGCAACGTCA TGAGGAGGAC 13440 13441 CCCAAGGATG ACAGCATTGC TCAGCAAGCG GCGAAGCAGA GGTTTACTGT GGAGAATTTT 13500 13501 GTAAGAGTGT CAGAATCTCT CAAGACAAGT TCATGTGGAG AGAGGTTAAA AGACATAGTT 13560 13561 TTGGAGAATG GTATCATAGC TGTTGCTGTC AAACACATAA AGGAAATTTT TGCAATCACG 13620 13621 GGACAGACTG GGTTCAAATC TAGCAAGGAA TGGCTTTTGG CTCTTAAACT TCCGTCAGTG 13680 13681 CCTCTTATTT TGTCAATGCT AAGAGGATTG TCGATGGGTC ATTTGCCTAC CCAAACATGC 13740 13741 ATAGACGAGG GAGGAATTTT AACCCTACTT CATGCCTTAG AAGGAGTCTC TGGAGAAAAC 13800 13801 GACATCGGTG CAAGGGCTGA AAATTTGCTA GATACACTTG CCGATAAAGA AGGAAAAGGA 13860 13861 GATGGATTTC TTGGAGAGAA AGTCCGTGCA TTACGAGATG CCACCAAAGA TGAAATGAGA 13920 13921 CGCCGTGCAT TAAGAAAGAG AGAGGAGCTC CTGCAGGGAC TTGGAATGCG TCAAGAGCTA 13980 13981 TCTTCTGATG GTGGTGAAAG GATTGTGGTT TCTCAACCAA TTCTTGAAGG TTTTGAGGAT 14040 14041 GTAGAGGAAG AAGAAGATGG ATTGGCTTGC ATGGTGTGTA GAGAAGGCTA CAAGCTCAGA 14100 14101 CCTTCTGATT TATTAGGAGT CTACTCTTAC AGCAAACGGG TGAATCTCGG TGTTGGCAAT 14160 14161 TCTGGAAGCG CACGTGGTGA ATGCGTTTAC ACTACAGTGA GCTACTTCAA CATAATTCAT 14220 14221 TTTCAATGTC ATCAAGAGGC AAAAAGAGCC GACGCTGCTC TTAAAAATCC GAAGAAAGAA 14280 14281 TGGGAAGGAG CTATGTTGCG TAACAATGAA TCTCTTTGCA ACTCTCTCTT CCCTGTCAAG 14340 14341 GGTCCCTCAG TTCCCTTAGC ACAGTATCTT CGTTACGTTG ACCAGTACTG GGATAATCTC 14400 14401 AATGCTCTTG GTCGAGCCGA CGGAAGCAGA CTCCGTCTAT TGACGTACGA CATTGTCCTG 14460 14461 ATGCTGGCTC GGTTTGCAAC AGGAGCTTCT TTTAGCGCGG ATTGCCGAGG TGGAGGAAGA 14520 14521 GATAGCAATT CCCGTTTCTT GCCTTTCATG TTCCAAATGG CCCGTCATCT TCTCGACCAA 14580 14581 GGAGGCCCCG TGCAACGCAC AAACATGGCT AGATCTGTTT CATCGTACAT TTCATCATCA 14640 14641 TCGACATCTA CAGCAACAGC GCCATCCTCG GACTCGCGAC CTTTAACTCC TGGATCCCAG 14700 14701 CTATCATCAA CTGGAACAGA GGAAACGGTT CAGTTCATGA TGGTAAACTC GCTTCTATCA 14760 14761 GAATCATATG AATCATGGCT CCAACACCGT AGGGTCTTTC TCCAGCGGGG GATTTACCAT 14820 14821 ACTTTCATGC AACACGCTCA CGGTCGGGTA GCTTCTCGCG CTGCAGAACC AACCAGTTCA 14880 14881 GGAGGCAAAA CCCAAGACGC AGAAACCTTA ACCGGCGATG AACTTCTCTC TATCGTCAAA 14940 14941 CCAATGCTGG TCTACACCGG TATGATCGAA CAGCTTCAAC AGTTGTTCAA ACCCAAGAAA 15000 15001 CCGGTCCACA TCGAACCAAT CAAGAAAGAA GGTACATCAA GTGGAGTAGA GCTTGAGCCA 15060 15061 TGGGAGATTG TAATGAAAGA GAAGCTGCTG AATGTGAAAG AAATGATTGG TTTCTCCAAG 15120 15121 GAATTGATCT CGTGGCTCGA CGAAATCAAC TCTGCAACTG ATCTACAAGA AGCATTTGAT 15180 15181 ATTGTCGGCG TTTTGGCTGA TGTTTTGTCT GAAGGAGTTA CACAGTGTGA TCAGTTTGTG 15240 15241 AGATCGGCGA TCGATAAAGA TTGA 15264 |
▼ KEYWORD
▼ GENE ONTOLOGY
ID | Classification | Description |
Cellular Component | Cytosol | |
Cellular Component | Integral component of membrane | |
Cellular Component | Membrane | |
Cellular Component | Plasmodesma | |
Molecular Function | Zinc ion binding | |
Biological Process | Auxin polar transport | |
Biological Process | Auxin-activated signaling pathway | |
Biological Process | Inflorescence morphogenesis | |
Biological Process | Lateral root formation | |
Biological Process | Photomorphogenesis | |
Biological Process | Response to auxin | |
Biological Process | Response to fungus | |
Biological Process | Root development | |
Biological Process | Unidimensional cell growth |
▼ ORTHOLOGY
| DrLLPS ID | Organism | Identity | E-value | Score |
|---|---|---|---|---|
| LLPS-Arl-2854 | Arabidopsis lyrata | 97.22 | 0.0 | 9385 |
| LLPS-Brn-0330 | Brassica napus | 90.09 | 0.0 | 8707 |
| LLPS-Bro-2363 | Brassica oleracea | 90.01 | 0.0 | 8702 |
| LLPS-Brr-0741 | Brassica rapa | 89.96 | 0.0 | 8251 |
| LLPS-Vir-1933 | Vigna radiata | 75.29 | 0.0 | 2328 |
| LLPS-Sot-0187 | Solanum tuberosum | 74.75 | 0.0 | 2192 |
| LLPS-Ori-2397 | Oryza indica | 72.82 | 0.0 | 2387 |
| LLPS-Sol-1251 | Solanum lycopersicum | 71.64 | 0.0 | 5049 |
| LLPS-Coc-0068 | Corchorus capsularis | 69.77 | 0.0 | 6583 |
| LLPS-Thc-2452 | Theobroma cacao | 69.72 | 0.0 | 6552 |
| LLPS-Pot-0365 | Populus trichocarpa | 69.28 | 0.0 | 6463 |
| LLPS-Org-0689 | Oryza glaberrima | 69.07 | 0.0 | 973 |
| LLPS-Gor-2376 | Gossypium raimondii | 68.91 | 0.0 | 6475 |
| LLPS-Viv-0323 | Vitis vinifera | 68.74 | 0.0 | 6378 |
| LLPS-Amt-2056 | Amborella trichopoda | 68.07 | 0.0 | 1112 |
| LLPS-Mae-2006 | Manihot esculenta | 68.02 | 0.0 | 6405 |
| LLPS-Prp-0917 | Prunus persica | 67.57 | 0.0 | 6409 |
| LLPS-Chc-0366 | Chondrus crispus | 67.21 | 7e-21 | 107 |
| LLPS-Mua-0943 | Musa acuminata | 66.65 | 0.0 | 3279 |
| LLPS-Met-1271 | Medicago truncatula | 65.35 | 0.0 | 6180 |
| LLPS-Phv-0724 | Phaseolus vulgaris | 65.02 | 0.0 | 6118 |
| LLPS-Via-1875 | Vigna angularis | 65.02 | 0.0 | 5765 |
| LLPS-Cus-2122 | Cucumis sativus | 64.63 | 0.0 | 5791 |
| LLPS-Glm-2522 | Glycine max | 64.48 | 0.0 | 6054 |
| LLPS-Hea-2347 | Helianthus annuus | 63.68 | 0.0 | 5912 |
| LLPS-Dac-2408 | Daucus carota | 63.16 | 0.0 | 5628 |
| LLPS-Nia-2225 | Nicotiana attenuata | 63.0 | 0.0 | 5925 |
| LLPS-Ors-1361 | Oryza sativa | 59.32 | 5e-15 | 79.3 |
| LLPS-Orp-0632 | Oryza punctata | 58.22 | 0.0 | 4927 |
| LLPS-Orb-1973 | Oryza barthii | 57.99 | 0.0 | 4876 |
| LLPS-Orni-2035 | Oryza nivara | 57.99 | 0.0 | 4877 |
| LLPS-Orr-1135 | Oryza rufipogon | 57.98 | 0.0 | 4874 |
| LLPS-Sei-2149 | Setaria italica | 57.79 | 0.0 | 5110 |
| LLPS-Orbr-2146 | Oryza brachyantha | 57.65 | 0.0 | 5164 |
| LLPS-Orm-1165 | Oryza meridionalis | 57.28 | 0.0 | 5165 |
| LLPS-Brd-1299 | Brachypodium distachyon | 57.13 | 0.0 | 5077 |
| LLPS-Orgl-1178 | Oryza glumaepatula | 57.07 | 0.0 | 4867 |
| LLPS-Lep-2151 | Leersia perrieri | 57.0 | 0.0 | 4843 |
| LLPS-Tra-2237 | Triticum aestivum | 56.95 | 0.0 | 5164 |
| LLPS-Tru-0498 | Triticum urartu | 56.87 | 0.0 | 5159 |
| LLPS-Hov-0354 | Hordeum vulgare | 56.82 | 0.0 | 5148 |
| LLPS-Zem-1015 | Zea mays | 56.67 | 0.0 | 5090 |
| LLPS-Sob-2100 | Sorghum bicolor | 56.45 | 0.0 | 5106 |
| LLPS-Cym-0986 | Cyanidioschyzon merolae | 51.67 | 3e-12 | 78.6 |
| LLPS-Sem-1388 | Selaginella moellendorffii | 49.82 | 0.0 | 4043 |
| LLPS-Php-1331 | Physcomitrella patens | 49.1 | 0.0 | 4102 |
| LLPS-Ova-4191 | Ovis aries | 47.44 | 5e-17 | 94.4 |
| LLPS-Cae-0925 | Caenorhabditis elegans | 44.93 | 1e-07 | 63.2 |
| LLPS-Xet-0671 | Xenopus tropicalis | 44.79 | 1e-16 | 93.2 |
| LLPS-Xim-3182 | Xiphophorus maculatus | 43.21 | 5e-63 | 246 |
| LLPS-Drm-0137 | Drosophila melanogaster | 42.11 | 6e-07 | 60.8 |
| LLPS-Anc-1309 | Anolis carolinensis | 41.59 | 9e-97 | 334 |
| LLPS-Leo-1801 | Lepisosteus oculatus | 41.53 | 2e-20 | 105 |
| LLPS-Asm-3725 | Astyanax mexicanus | 41.53 | 3e-20 | 104 |
| LLPS-Tag-2560 | Taeniopygia guttata | 40.91 | 6e-17 | 94.0 |
| LLPS-Cas-2739 | Carlito syrichta | 40.91 | 4e-17 | 94.7 |
| LLPS-Anp-0761 | Anas platyrhynchos | 40.91 | 4e-17 | 94.7 |
| LLPS-Meg-1948 | Meleagris gallopavo | 40.91 | 4e-17 | 94.7 |
| LLPS-Fia-3059 | Ficedula albicollis | 40.91 | 5e-17 | 94.4 |
| LLPS-Pes-3569 | Pelodiscus sinensis | 40.91 | 4e-17 | 94.7 |
| LLPS-Aon-4727 | Aotus nancymaae | 40.91 | 4e-17 | 94.7 |
| LLPS-Gaa-3918 | Gasterosteus aculeatus | 40.87 | 2e-19 | 102 |
| LLPS-Mam-3971 | Macaca mulatta | 40.52 | 3e-17 | 95.1 |
| LLPS-Poa-4264 | Pongo abelii | 40.52 | 3e-17 | 95.1 |
| LLPS-Nol-4574 | Nomascus leucogenys | 40.52 | 3e-17 | 95.1 |
| LLPS-Man-0525 | Macaca nemestrina | 40.52 | 3e-17 | 95.1 |
| LLPS-Hos-4232 | Homo sapiens | 40.52 | 3e-17 | 95.1 |
| LLPS-Pat-3339 | Pan troglodytes | 40.52 | 3e-17 | 95.1 |
| LLPS-Pap-4060 | Pan paniscus | 40.52 | 3e-17 | 95.1 |
| LLPS-Rhb-1499 | Rhinopithecus bieti | 40.52 | 3e-17 | 95.1 |
| LLPS-Mal-1872 | Mandrillus leucophaeus | 40.52 | 3e-17 | 95.1 |
| LLPS-Paa-3033 | Papio anubis | 40.52 | 3e-17 | 95.1 |
| LLPS-Cea-4173 | Cercocebus atys | 40.52 | 3e-17 | 95.1 |
| LLPS-Chs-3726 | Chlorocebus sabaeus | 40.52 | 3e-17 | 95.1 |
| LLPS-Maf-3969 | Macaca fascicularis | 40.52 | 3e-17 | 95.1 |
| LLPS-Caj-0353 | Callithrix jacchus | 40.52 | 3e-17 | 95.1 |
| LLPS-Gog-3570 | Gorilla gorilla | 40.52 | 3e-17 | 95.1 |
| LLPS-Ere-1067 | Erinaceus europaeus | 40.3 | 8e-07 | 60.1 |
| LLPS-Dar-0093 | Danio rerio | 39.84 | 2e-17 | 95.9 |
| LLPS-Tar-3242 | Takifugu rubripes | 34.14 | 8e-121 | 417 |
| LLPS-Aim-4291 | Ailuropoda melanoleuca | 34.07 | 0.0 | 822 |
| LLPS-Eqc-3758 | Equus caballus | 33.97 | 0.0 | 822 |
| LLPS-Fec-4506 | Felis catus | 33.9 | 0.0 | 822 |
| LLPS-Myl-1985 | Myotis lucifugus | 33.89 | 0.0 | 824 |
| LLPS-Caf-2080 | Canis familiaris | 33.87 | 0.0 | 823 |
| LLPS-Loa-3603 | Loxodonta africana | 33.87 | 0.0 | 822 |
| LLPS-Sah-1947 | Sarcophilus harrisii | 33.86 | 0.0 | 823 |
| LLPS-Mod-3000 | Monodelphis domestica | 33.8 | 0.0 | 822 |
| LLPS-Ran-1601 | Rattus norvegicus | 33.8 | 0.0 | 822 |
| LLPS-Sus-0553 | Sus scrofa | 33.8 | 0.0 | 817 |
| LLPS-Bot-4448 | Bos taurus | 33.76 | 0.0 | 813 |
| LLPS-Mum-3834 | Mus musculus | 33.74 | 0.0 | 819 |
| LLPS-Mea-1814 | Mesocricetus auratus | 33.74 | 0.0 | 819 |
| LLPS-Mup-3008 | Mustela putorius furo | 33.68 | 0.0 | 821 |
| LLPS-Dio-0461 | Dipodomys ordii | 33.33 | 0.0 | 801 |
| LLPS-Osl-1290 | Ostreococcus lucimarinus | 33.01 | 1e-106 | 390 |
| LLPS-Otg-0425 | Otolemur garnettii | 32.72 | 2e-78 | 286 |
| LLPS-Gaga-1077 | Gallus gallus | 32.54 | 3e-129 | 442 |
| LLPS-Lac-0025 | Latimeria chalumnae | 32.42 | 0.0 | 766 |
| LLPS-Fud-0563 | Fukomys damarensis | 32.38 | 0.0 | 894 |
| LLPS-Orc-1845 | Oryctolagus cuniculus | 32.36 | 0.0 | 890 |
| LLPS-Icp-1442 | Ictalurus punctatus | 32.03 | 0.0 | 879 |
| LLPS-Scm-3463 | Scophthalmus maximus | 31.9 | 0.0 | 899 |
| LLPS-Cap-3077 | Cavia porcellus | 31.77 | 0.0 | 904 |
| LLPS-Ora-2443 | Ornithorhynchus anatinus | 31.68 | 6e-143 | 491 |
| LLPS-Urm-2369 | Ursus maritimus | 31.65 | 0.0 | 901 |
| LLPS-Ict-4622 | Ictidomys tridecemlineatus | 31.57 | 0.0 | 903 |
| LLPS-Scf-0568 | Scleropages formosus | 31.55 | 0.0 | 857 |
| LLPS-Orn-2336 | Oreochromis niloticus | 30.88 | 0.0 | 897 |
| LLPS-Cis-0251 | Ciona savignyi | 30.84 | 4e-80 | 294 |
| LLPS-Pof-2062 | Poecilia formosa | 30.75 | 0.0 | 889 |
| LLPS-Ten-1063 | Tetraodon nigroviridis | 30.74 | 0.0 | 881 |
| LLPS-Cii-1639 | Ciona intestinalis | 30.72 | 2e-77 | 285 |
| LLPS-Orl-3616 | Oryzias latipes | 30.52 | 0.0 | 892 |