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Homology
BLAST of mRNA_P-littoralis_Contig1028.5.1 vs. uniprot
Match: D8LRU1_ECTSI (Putative sodium calcium exchanger n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LRU1_ECTSI) HSP 1 Score: 606 bits (1563), Expect = 1.390e-202 Identity = 327/414 (78.99%), Postives = 357/414 (86.23%), Query Frame = 2
Query: 596 DALFQTGVTGSPQVRKGGKLMMLTSISYLIIQGPAFFLSNETDAEVSSAEYWFALAGIITCSVLFIGYLLYQWEMSRTDNDQVLEDFMEEVRRDKIMEGKISLLGVMQAELNLVVGYSQSSEGGYHSMDGGDLVLPEKVMRRLEKLLRPFFDKYDDDKSGQLDKMEFWSVFHDLKEHVQTQELNAIFXXXXXXXXXLVDFDEFVTGVVKFLLEKSPDNVVSVPA-AAHEEEPDDGDEEEHEEMPEDLVHLDPDTQQFQVKMRAAYLMTAGTALVLIFADPMVDVLGAVGDRTGISAFYISFVLAPLASNASELIAAFNYSLKKTSRTIVISFAALQGAACMNNTFCLGVFMFLVFFRGLAWEFGAETVAILFVQVVMAVISLRATHRVIDGILVLCLYPLSIMVVAGLEALGWD 1834
+ L +GVTGSPQV KGGKLMM+TSISY IIQGPAFFLS ETDAEVS+ E FALAG+ITC+VLF GYL YQWE+SRTD+DQV ED+MEEVRR+KIM G+ISLLGVMQAEL QS+E GY SMDGG+L LPE VMRRLEKLLRPFFDKYDDD SGQLD+ EFWSVFHDL+EHVQT ELNAI XXXXXXXXX FDEFVTGV KF+LEKSP +S P AA +E DDGD EEHEEMPEDL HL P+ QQ+ VKMRAAYLMT GTALVLIF+DPMVDVLG +GDRTGIS+FYISFVLAPLASNASELIAAFNYSLKKTSRTIVISFAALQGAACMNNTFCLGVFMFL++FR LAWEF AETV IL VQV MAV+SLR T RV+DG++VL LYPLS+MVVAGLEA GWD
Sbjct: 2 ETLLNSGVTGSPQVSKGGKLMMITSISYFIIQGPAFFLSGETDAEVSAGESGFALAGLITCTVLFAGYLFYQWELSRTDSDQVFEDYMEEVRREKIMNGEISLLGVMQAELRFAA-TRQSTEEGYQSMDGGNLALPEIVMRRLEKLLRPFFDKYDDDNSGQLDRGEFWSVFHDLQEHVQTSELNAIXXXXXXXXXXXXXFDEFVTGVAKFVLEKSPTGTISSPPPAAIDEAADDGDSEEHEEMPEDLAHLKPEEQQYHVKMRAAYLMTVGTALVLIFSDPMVDVLGVLGDRTGISSFYISFVLAPLASNASELIAAFNYSLKKTSRTIVISFAALQGAACMNNTFCLGVFMFLIYFRNLAWEFSAETVTILLVQVAMAVLSLRNTFRVVDGVMVLSLYPLSLMVVAGLEACGWD 414
BLAST of mRNA_P-littoralis_Contig1028.5.1 vs. uniprot
Match: A0A0G4GBW8_VITBC (Uncharacterized protein n=2 Tax=Vitrella brassicaformis TaxID=1169539 RepID=A0A0G4GBW8_VITBC) HSP 1 Score: 489 bits (1260), Expect = 4.520e-155 Identity = 291/599 (48.58%), Postives = 394/599 (65.78%), Query Frame = 2
Query: 155 QFLMSIFIDPDSLPDGWQGFVQVLSLLFAYGFILFTASNMISDGSELLLLVPALAGIVGSVVLPVLGAVPDGAIVLFSGLGDDAQEQLSVGVGALAGSTIMLLTIPWFLATWGGRVDIGKESSLAVYKRPPGAALSWSKLSPGLSFKDALFQTGVTGSPQVRKGGKLMMLTSISYLIIQGPAFFLSNETDAEVSSAEYWFALAGIITCSVLFIGYLLYQWEMSRTDNDQVLEDFMEEVRRDKIMEGKISLLGVMQ---------------AELNLVVGYSQSSEGGYHSMD--GGD-------LVLPEKVMRRLEKLLRPFFDKYDDDKSGQLDKMEFWSVFHDLKEHVQTQELNAIFXXXXXXXXXLVDFDEFVTGVVKFLLEKSPDN----VVSVPAAAHEEEPDDGDEEEHEE----------MPEDLVHLDPDTQQFQVKMRAAYLMTAGTALVLIFADPMVDVLGAVGDRTGISAFYISFVLAPLASNASELIAAFNYSLKKTSRTIVISFAALQGAACMNNTFCLGVFMFLVFFRGLAWEFGAETVAILFVQVVMAVISLRATHRVIDGILVLCLYPLSIMVVAGLE-ALGWD 1834
+ L FI D +P GF+QVL L YG+ILF ASN+IS+GSELLLLVP+LAG+VGSVVLPVLGAVPDGAIVLFSGLG DAQEQLSVGVGALAGSTIMLLTIPWFL+ GGRV++ ES YK+P A W KL P ++ +L QTGV + + GK+M+LT+I+YL+IQ PAF + ++T + S E WFA +G++ V F+ YL+YQ+ ++ +++QVLED + E+RR + +G ++L G M +E + + G +G S D G D P K+ +++++LRPFF++ D DK+G LD E +F +L E +E++ +++F+EFV ++ ++ +KSP+ V + + E G EE +E +P+DL HL P+ QQ ++K+RAAY+M GTALVL+F+DPMVDV +VG+RTG+ AFYISFVLAPLASNASELIA++NYSLKKT +TI I+FAAL+GAACMNNTFCL +F+ LVFFR L W F AET+AIL V++ M I+++ H + DG+ VL LYPLSIM V +E A G+D
Sbjct: 3 EVLGKFFIPVDEIPYDVPGFIQVLFLGACYGYILFNASNLISEGSELLLLVPSLAGLVGSVVLPVLGAVPDGAIVLFSGLGPDAQEQLSVGVGALAGSTIMLLTIPWFLSIVGGRVNV-LESGELTYKKPKDADPDWKKLDPPNNW--SLTQTGVKCNKSIAVNGKIMLLTAITYLVIQIPAFAVIHDTIEQKRSFERWFAFSGMLIAIVCFVLYLVYQFWQAKGEHNQVLEDEIIELRRKALKDGMLTLRGAMFELFRMLEPHDYSPRFSETHGLRGSPSVQQGTVSSTDSVGADGKTRPLLQAFPPKMRHQMKEVLRPFFNELDLDKTGSLDHDEIRIMFRNLNEAPTEREIHDFIKKADMDNSGVIEFEEFVNAMIHYV-KKSPEQFSMAVDGMRTSVGSEAAGIGAVEEQDEXXXXXXXXESIPDDLAHLSPEQQQLRIKIRAAYMMLVGTALVLLFSDPMVDVFSSVGERTGVPAFYISFVLAPLASNASELIASYNYSLKKTRKTITIAFAALEGAACMNNTFCLAIFLALVFFRSLVWSFSAETLAILLVELCMGFIAMKRVHLLKDGLFVLALYPLSIMFVWVMENAFGFD 597
BLAST of mRNA_P-littoralis_Contig1028.5.1 vs. uniprot
Match: A0A7S4DCW0_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S4DCW0_HETAK) HSP 1 Score: 478 bits (1231), Expect = 1.070e-150 Identity = 279/594 (46.97%), Postives = 375/594 (63.13%), Query Frame = 2
Query: 161 LMSIFIDPDSLPDGWQGFVQVLSLLFAYGFILFTASNMISDGSELLLLVPALAGIVGSVVLPVLGAVPDGAIVLFSGLGDDAQEQLSVGVGALAGSTIMLLTIPWFLATWGGRVDIGKESSLAVYKRPPGAALSWSKLSPGLSFKDALFQTGVTGSPQVRKGGKLMMLTSISYLIIQGPAFFLSNETDAEVSSAEYWFALAGIITCSVLFIGYLLYQWEMSRTDNDQVLEDFMEEVRRDKIMEGKIS--LLGVMQA----------------ELNLVVGYSQSSE----GGYHSMDGG-----------DLVLPEKVMRRLEKLLRPFFDKYDDDKSGQLDKMEFWSVFHDLKEHVQTQELNAIFXXXXXXXXXLVDFDEFVTGVVKFLLEK--SPDNVVSVPAAAHEEEPDDGDEEEH-EEMPEDLVHLDPDTQQFQVKMRAAYLMTAGTALVLIFADPMVDVLGAVGDRTGISAFYISFVLAPLASNASELIAAFNYSLKKTSRTIVISFAALQGAACMNNTFCLGVFMFLVFFRGLAWEFGAETVAILFVQVVMAVISLRATHRVIDGILVLCLYPLSIMVVAGLEALGWD 1834
L +FIDPD+LP+G GF+Q++ LL Y +IL T SN ISDGSELLLL+P++AGIVGSV+LPVLGAVPDGAIVLFSG+G DAQEQLSVGVGALAGSTIMLLT+PWFLA GRV I L+ K+P KL S LF + V + ++ KGG LM++TSISYL+IQ PA E+D E+ E +AL G++ V F GYL YQW ++ ++ +++ KI++ ++ ++GV+ A + YS+ S+ GG S+ GG D +PE V + + +RPFFDKYD D SG ++ E VF DL E + + +F + FDEFV+G ++++ K ++ A EEEP EEMPE+ + L P + + R+ Y+M GT +VL+F+DPMVDVL AVGDRTG+ +FY++FVLAPLASNASELIAA+NY+ KKTS TI++S +ALQGAACMNNTFCL VF L++F+ LAWEF AET+AI+ VQ+V+A+ SL+ + DG LV+CLYP+S+++VA LE +GWD
Sbjct: 31 LSDLFIDPDTLPEGTYGFIQLMFLLVVYAYILCTGSNYISDGSELLLLIPSVAGIVGSVILPVLGAVPDGAIVLFSGMGPDAQEQLSVGVGALAGSTIMLLTLPWFLAVIAGRVSILDGGELSYTKKP--------KLQKNRS---GLFNSAVACADELSKGGALMLITSISYLVIQIPALSFEGESDEEIGQDESTYALVGLVMTGVFFFGYLWYQWALANGGDEAA------HLKQQKILKSQMECGMVGVVDAFRPDFAPLAAQMASSYKQRFGESYSERSKRVMAGGKRSLLGGSPGKQYEAVGSDGDIPEAVRAKFMQFIRPFFDKYDADHSGAIEMEEIRLVFKDLNEKMSKPQFEGLFKVFDLNNDGKISFDEFVSGTSQYIVSKILEEESAAKNKLAGDEEEPKXXXXXXXXEEMPEEFLDLPPAQRSRAIVGRSCYMMFLGTFIVLLFSDPMVDVLTAVGDRTGVPSFYVAFVLAPLASNASELIAAYNYAAKKTSSTILVSLSALQGAACMNNTFCLAVFFALIYFKTLAWEFAAETLAIIAVQIVIALFSLKNKQTLFDGALVMCLYPISLILVATLEGMGWD 607
BLAST of mRNA_P-littoralis_Contig1028.5.1 vs. uniprot
Match: A0A0G4FE07_9ALVE (Uncharacterized protein n=1 Tax=Chromera velia CCMP2878 TaxID=1169474 RepID=A0A0G4FE07_9ALVE) HSP 1 Score: 476 bits (1224), Expect = 6.320e-150 Identity = 285/596 (47.82%), Postives = 379/596 (63.59%), Query Frame = 2
Query: 155 QFLMSIFIDPDSLPDGWQGFVQVLSLLFAYGFILFTASNMISDGSELLLLVPALAGIVGSVVLPVLGAVPDGAIVLFSGLGDDAQEQLSVGVGALAGSTIMLLTIPWFLATWGGRVDIGKESSLAVYKRPPGAALSWSKLSPGLSFKDALFQTGVTGSPQVRKGGKLMMLTSISYLIIQGPAFFLSNETDAEVSSAEYWFALAGIITCSVLFIGYLLYQWEMSRTDNDQVLEDFMEEVRRDKIMEGKISLLGVMQAELNLVVGYSQSSEGGYHSMDGGDLVLPEKVMRRLEKLLRPFFDKYDDDKSGQLDKMEFWSVFHDLKEHVQTQELNAIFXXXXXXXXXLVDFDEFVTGVVKFLLEKS-----------------------------------PDNVVSVPAAAHEEEPDDGDEEEHEEMPEDLVHLDPDTQQFQVKMRAAYLMTAGTALVLIFADPMVDVLGAVGDRTGISAFYISFVLAPLASNASELIAAFNYSLKKTSRTIVISFAALQGAACMNNTFCLGVFMFLVFFRGLAWEFGAETVAILFVQVVMAVISLRATHRVIDGILVLCLYPLSIMVVAGLEA-LGWD 1834
+ L +FIDP SL +G FVQVL L YG+ILF ASN+IS GSELLLLVP+LAG+VGSVVLP+LGAVPDGAIVLFSG+G++AQE+L VGVGALAGSTIML TIPWFL+ GGRV+I E+ Y +P GA + WSKLSP +F ++TGV + K++MLT++SYLIIQ PAF+ S + + FALAG+I + F+ YL+YQ ++ +V+ED + E ++ I GK++L GVM L +++ + + + ++LE+LLRPFF + D D SG+L+ E +FH L E EL+A F VDF+EFV+ + F+L++S P++ + P AA E+PEDL HL P+ QQ ++KMRA Y M GTALVL+F+DPMV V+ VG RTGIS+FYISF+LAPLASNASE+IA++NY+LKKT +TI ISFAAL+GAA MNNTFCL VF+ L++ + L W+F AET+AIL V+V+M++++LR HR+ DG+LVL LYPLSI +V LE GWD
Sbjct: 3 EVLGKLFIDPASL-EGDYAFVQVLFLGAVYGYILFYASNLISSGSELLLLVPSLAGLVGSVVLPILGAVPDGAIVLFSGIGENAQEELKVGVGALAGSTIMLFTIPWFLSIMGGRVNI--ENGQCTYTKPAGAPVGWSKLSPPGNFSP--WKTGVECEASIGVNAKIVMLTALSYLIIQLPAFYSSGVPEYVARDFQNGFALAGMIVTFLAFVAYLIYQARVA--SQSKVVEDRILETQKSAISSGKLNLRGVMYEVYKL--SQRRAARDNRTGREAALVQQQQNHQKKLEELLRPFFLRLDMDNSGRLETHEIRRIFHVLGERPSPAELSAFFEKCDRDKSGAVDFNEFVSAMEDFVLQRSDVFAQEPSPEALEQGMSMESPPESPSRTVRGLAQQPESEAAAPTAAEPXXXXXXXXXXXXEIPEDLAHLSPEQQQTRIKMRAFYQMGLGTALVLLFSDPMVSVMSNVGTRTGISSFYISFILAPLASNASEVIASYNYALKKTRKTITISFAALEGAASMNNTFCLFVFLTLIYIQKLTWQFSAETMAILLVEVIMSLVALRRVHRLGDGMLVLTLYPLSIFIVWALENWFGWD 589
BLAST of mRNA_P-littoralis_Contig1028.5.1 vs. uniprot
Match: A0A6U4FF05_9STRA (Hypothetical protein n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A6U4FF05_9STRA) HSP 1 Score: 460 bits (1183), Expect = 1.340e-144 Identity = 269/563 (47.78%), Postives = 362/563 (64.30%), Query Frame = 2
Query: 161 LMSIFIDPDSLPDGWQGFVQVLSLLFAYGFILFTASNMISDGSELLLLVPALAGIVGSVVLPVLGAVPDGAIVLFSGLGDDAQEQLSVGVGALAGSTIMLLTIPWFLATWGGRVDIGKESSLAVYKRPPGAALSWSKLSPGLSFKDALFQTGVTGSPQVRKGGKLMMLTSISYLIIQGPAFFLSNETDAEVSSAEYWFALAGIITCSVLFIGYLLYQW-EMSRTDNDQVLEDFMEEVRRDKIMEGKISLLGVMQAELNLVVGYSQSSEGGYHSMDGGDLVLPEKVMRRLEKLLRPFFDKYDDDKSGQLDKMEFWSVFHDLKEHVQTQELNAIFXXXXXXXXXLVDFDEFVTGVVKFLLEKSPDNVVSVPAAAHEEEPDDGDEEEHEE----MPEDLVHLDPDTQQFQVKMRAAYLMTAGTALVLIFADPMVDVLGAVGDRTGISAFYISFVLAPLASNASELIAAFNYSLKKTSRTIVISFAALQGAACMNNTFCLGVFMFLVFFRGLAWEFGAETVAILFVQVVMAVISLRATHRVIDGILVLCLYPLSIMVVAGLEALGWD 1834
L +FID LP+G GF Q+L LL AYG+ILF ASN+ISDGSELLLLVP+LAG+VGS VLPVLGAVPDGAIVLFSG+G DAQEQLSVGVGALAGSTIMLLT+PWFL+ + G VDI E VY++P K+S K + GV + VR G ++MMLTS+SYL+IQ PA +L + E++ E +ALA ++ C + F+ YL+YQ+ + D D L ++ V ++I +G+ISLLG + + ++L + S + L + +RL+ +L+PFF KYD D + L++ E V DL HV +LN F V F EFV G L E+ + + E + E + MPE+ V L PD QQ ++ MRA Y+M GT LVL+F+DPMVDVL +G+R ++ FY+SFVLAPLASNASEL+A++NY+LKKTS++I IS AL+GA MNNTFCLG+FM L++ +GLAWEF AET+AILF Q + +I+L RV +VL +YP+S+++V+ LEA+G+D
Sbjct: 3 LSDLFIDAKDLPEGGYGFCQLLFLLAAYGYILFQASNLISDGSELLLLVPSLAGLVGSCVLPVLGAVPDGAIVLFSGMGPDAQEQLSVGVGALAGSTIMLLTVPWFLSVYAGSVDI--EDGECVYRKP--------KVS---GMKAVFWDMGVQPTADVRYGAQIMMLTSLSYLLIQVPAGYLHGPEE-EIAKGEKKWALAAMLVCIIAFVSYLVYQYIAAQKADEDSSLNLKVDAVVVERIQKGEISLLGALNSVIHLAAPETAS--------EATPLKDETPLEKRLKAILKPFFHKYDTDHNASLERSELGVVMSDLGMHVSADDLNKRFERYDIDSDGSVSFHEFVQGTADMLREEDVQTFIKANSRGEGEAANGVATAEEDXXXXXMPEEFVSLPPDVQQRRILMRAFYMMGLGTGLVLVFSDPMVDVLSELGNRINVTPFYVSFVLAPLASNASELLASYNYALKKTSKSITISLTALEGAGSMNNTFCLGIFMVLIYTQGLAWEFTAETIAILFAQFAVGLIALAPVQRVWHAAVVLAIYPVSLILVSALEAIGFD 543
BLAST of mRNA_P-littoralis_Contig1028.5.1 vs. uniprot
Match: A0A0G4FV97_9ALVE (Uncharacterized protein n=1 Tax=Chromera velia CCMP2878 TaxID=1169474 RepID=A0A0G4FV97_9ALVE) HSP 1 Score: 455 bits (1170), Expect = 3.570e-142 Identity = 288/584 (49.32%), Postives = 373/584 (63.87%), Query Frame = 2
Query: 161 LMSIFIDPDSLPDGWQGFVQVLSLLFAYGFILFTASNMISDGSELLLLVPALAGIVGSVVLPVLGAVPDGAIVLFSGLGDDAQEQLSVGVGALAGSTIMLLTIPWFLATWGGRVDIGKESSLAVYKRPPGAALSWSKLSPGLSFKDALFQTGVTGSPQVRKGGKLMMLTSISYLIIQGPAFFLSNETDAEVSSAEYWFALAGIITCSVLFIGYLLYQWEMSRTDNDQVLEDFMEEVRRDKIMEGKISLLGVM------------------QAELNLVVGYSQSSEGGYHSMDGGDLVLP--EKVMRRLEKLLRPFFDKYDDDKSGQLDKMEFWSVFHDLKEHVQTQELNAIFXXXXXXXXXLVDFDEFVTGVVKFLLEKSPD-----NVVSVPAAAHEEEPDDGDEEEHEEMPEDLVHLDPDTQQFQVKMRAAYLMTAGTALVLIFADPMVDVLGAVGDRTGISAFYISFVLAPLASNASELIAAFNYSLKKTSRTIVISFAALQGAACMNNTFCLGVFMFLVFFRGLAWEFGAETVAILFVQVVMAVISLRATHRVIDGILVLCLYPLSIMVVAGLEAL-GWD 1834
L +FI+P +L G GFVQVL L F YG+ILF ASNMISDGSELLLLVP+LAG+VGSVVLP+LGAVPDGAIVLFSGLG +AQE+L VGVGALAGSTIML TIPWFL+ GGRV+ E Y +P A WSKL P +F +L T V + KL+MLT++SY IIQ PAF+ E ++ E FALAG+I V F YL+YQ +V++D + E +R + G +++ GVM QA V G+ ++S S+ GGD ++ +K R +E LLRPFF++ D D SG+LD+ E +F L E XXXXXXXXX F EF+ +++++ E+ +V P + +PEDL HL P+ QQ ++K+RAA LM GT LVL+F+DPMV V +G R IS+FYISFVLAPLASNASE+IA++NYSLKKT +TI ISFAAL+GAACMNNTFCL VF+ LV+ + L W+F AET+ I+ V+ VMA +++R THR++DG+LVLCLYP+S+ +V LE + GWD
Sbjct: 5 LGKLFIEPSTLT-GEYGFVQVLFLGFVYGYILFNASNMISDGSELLLLVPSLAGLVGSVVLPILGAVPDGAIVLFSGLGPNAQEELKVGVGALAGSTIMLFTIPWFLSIMGGRVNY--EDGKCTYTKPRVAGEEWSKLMPESNF--SLTGTAVECESSIAVNAKLVMLTALSYFIIQLPAFYCRGEPIKIAAAFENGFALAGMIVTFVAFCLYLVYQ--AREASKSKVVKDLIMEKKRSALDGGLMNIRGVMYEAFLLDEMSRSQAAAAMQAGGAAVGGHGRASRTARVSLLGGDSLMTAQQKARRDMENLLRPFFNRLDSDGSGKLDRYEIRKLFFVLHERPTEXXXXXXXXXXXXXXXXXXXFQEFIDAMIEYVREEQKQTRRGSSVWRAPRPVASDXXXXXXXXXXXXVPEDLEHLSPEEQQKRIKIRAATLMAVGTGLVLLFSDPMVAVFSEIGTRLNISSFYISFVLAPLASNASEVIASYNYSLKKTRKTISISFAALEGAACMNNTFCLFVFLCLVWAQNLTWQFSAETIVIIIVEYVMAFVAMRRTHRLLDGLLVLCLYPISLGIVWALENVAGWD 581
BLAST of mRNA_P-littoralis_Contig1028.5.1 vs. uniprot
Match: A0A8J2WX80_9STRA (Hypothetical protein n=2 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A8J2WX80_9STRA) HSP 1 Score: 453 bits (1166), Expect = 3.870e-142 Identity = 265/560 (47.32%), Postives = 364/560 (65.00%), Query Frame = 2
Query: 176 IDPDSLPDGWQGFVQVLSLLFAYGFILFTASNMISDGSELLLLVPALAGIVGSVVLPVLGAVPDGAIVLFSGLGD--DAQEQLSVGVGALAGSTIMLLTIPWFLATWGGRVDIGKESSLAVYKRPPGAALSWSKLSPGLSFKDALFQTGVTGSPQVRKGGKLMMLTSISYLIIQGPAFFLSNETDAEVSSAEYWFALAGIITCSVLFIGYLLYQWEMSRTDNDQVLEDFMEEVRRDKIMEGKISLLGVMQAELNLVVG-YSQSSEGGYHSMDGGDLVLPEKVMRRLEKLLRPFFDKYDDDKSGQLDKMEFWSVFHDLKEHVQTQELNAIFXXXXXXXXXLVDFDEFVTGVVKFLLEKSPDN----VVSVPAAAHEEEPDDGDEEEHEEMPEDLVHLDPDTQQFQVKMRAAYLMTAGTALVLIFADPMVDVLGAVGDRTGISAFYISFVLAPLASNASELIAAFNYSLKKTSRTIVISFAALQGAACMNNTFCLGVFMFLVFFRGLAWEFGAETVAILFVQVVMAVISLRATHRVIDGILVLCLYPLSIMVVAGLEALGWD 1834
I+PD + D +L L +YG++L+ ASN+IS+GS+LLLLVP++AGIVGS VLPVLGAVPDGAI+LFSGLGD +AQE L+VGVGALAGSTIMLLT+PW L+ W GRVD+ E A Y R P L + GV+ PQV+ G +M++T +SY+IIQGPAFF++ ++ AEV+ E +AL G++T F+ YL YQ +S + V + E V + + G++SL G M + + +EGGY + G D V+ K+ +++RPFF K+D G LDK E +VFHDL E L+AIF +DFDEFVTG+ + +S ++ V DD + EE EE+PED+ L P QQ +K RAA + GTALV++F+DPMVDV+ +G RTG+ AFY+SF+LAPLASNASEL+A+ Y+ KKT +I ISFAAL+GAACMNNTFCL +FM LV+F+G+AW++ AET++I+FVQ+ +AV + + T +DG L+L +YP S+++VAGLEA+G+D
Sbjct: 6 IEPDDIGDS-----GLLWLFLSYGYVLYFASNLISEGSDLLLLVPSIAGIVGSCVLPVLGAVPDGAIMLFSGLGDVEEAQENLAVGVGALAGSTIMLLTVPWALSLWAGRVDLDAEGK-ANYAR-----------KPKLGANRGPTECGVSPGPQVKSGANIMVMTLVSYVIIQGPAFFMAGDSRAEVAENEKSWALLGLVTTLGGFVSYLYYQ--VSSSHAQDVQKKKQEAVMKTMLASGQVSLAGAMAGLVYATQDPLAGGNEGGYGTTSGLDHVVKAKI----SEVVRPFFKKFDQSGDGHLDKGEIKAVFHDLGEDPPPAALDAIFDELDHDKNGTIDFDEFVTGIWSHVHRRSHESEGSRAVGEAIKRSGSSADDDEGEEDEEVPEDIQDLSPADQQKVIKSRAAQKLFLGTALVVVFSDPMVDVMSEIGVRTGVPAFYVSFLLAPLASNASELLASMYYAGKKTQTSITISFAALEGAACMNNTFCLAIFMGLVYFKGIAWQYTAETLSIVFVQLAVAVFARKGTLTPVDGALILAIYPASVVLVAGLEAMGFD 542
BLAST of mRNA_P-littoralis_Contig1028.5.1 vs. uniprot
Match: A0A2D4CG72_PYTIN (Uncharacterized protein n=2 Tax=Pythium insidiosum TaxID=114742 RepID=A0A2D4CG72_PYTIN) HSP 1 Score: 451 bits (1161), Expect = 4.340e-141 Identity = 275/582 (47.25%), Postives = 372/582 (63.92%), Query Frame = 2
Query: 161 LMSIFIDPDSLPDGWQGFVQVLSLLFAYGFILFTASNMISDGSELLLLVPALAGIVGSVVLPVLGAVPDGAIVLFSGLGDDAQEQLSVGVGALAGSTIMLLTIPWFLATWGGRVDIGKESSLAVYKRPPGAALSWSKLSPGLSFKDALFQTGVTGSPQVRKGGKLMMLTSISYLIIQGPAFFLSNETDAE-------VSSAEYWFALAGIITCSVLFIGYLLYQWEMSRTDNDQVLEDFMEEVRRDKIMEGKISLLGVMQAELNLVVGYSQSSEGGYHSMDGGDLVLPEKVMRRLEKLLRPFFDKYDDDKSGQLDKMEFWSVFHDLKEHVQTQELNAIFXXXXXXXXXLVDFDEFVTGVVKFLLEK----SPDNVVSVPAAAHEEEPDDG-----------DEEEHEEMPEDLVHLDPDTQQFQVKMRAAYLMTAGTALVLIFADPMVDVLGAVGDRTGISAFYISFVLAPLASNASELIAAFNYSLKKTSRTIVISFAALQGAACMNNTFCLGVFMFLVFFRG-LAWEFGAETVAILFVQVVMAVISLRATHRVIDGILVLCLYPLSIMVVAGLE-ALGWD 1834
+ S FIDP LP+ G QVL L YG++LF ASN+ISDGSELLLLVP++AGIVGSVVLPVLGAVPDGAIVLFSG+G DAQEQ+SVGVGALAGSTIMLLTIPW L+ + GRV++ E Y RP A W+KL+P + L+ TGV ++R + M+ TS+ YLI+Q PA + D + V++AE FA + F+GYL W + RT +V E+ ++EVR I +G++SL GV+ E +V ++++G +++ P ++R+E+++RPFF YD +K ++D E + F D+ E + +E ++F E +K+L+ K VS+ H EEP+ +EEE EEMPEDL HL QQ ++K+RAAY+M GTALVL+F+DPMVDVL VG RTGI AFY+SFV+APLASNASELIAA+NY+ KKTS+T+ IS +AL GAACMNNTFCLG+F L++F+G L W+F AET+AIL V++VM +++ T R+ G++VL LYP+SI +V LE +G D
Sbjct: 1 MSSFFIDPKDLPETGYGLGQVLFLGAVYGYVLFNASNLISDGSELLLLVPSMAGIVGSVVLPVLGAVPDGAIVLFSGMGPDAQEQVSVGVGALAGSTIMLLTIPWALSVFAGRVNLN-EKGQGNYIRPRNAPEGWAKLTPPGNMN--LWSTGVVVFDEIRSNARTMIATSLIYLILQIPALQYTGTVDRDATADHSVVAAAERPFAFVAFLVSMAAFVGYLY--WNVKRTS--KVAENAIDEVRVAAIRKGEVSLSGVLAEE---IVSMKRATKGEKSALN------PRVQLQRVEEIIRPFFHVYDKNKDNRMDVEEIQAFFKDMNEPITAEEAQRWMKDADKDRSGFIEFRELAEATLKYLVAKYEAEEKGRAVSM-RGIHIEEPEIDLSVIHDEYAGMEEEEEEEMPEDLAHLSIHEQQRKIKIRAAYMMFIGTALVLLFSDPMVDVLSEVGRRTGIPAFYVSFVVAPLASNASELIAAYNYAAKKTSKTMSISISALLGAACMNNTFCLGIFAALLYFKGGLVWQFSAETIAILLVELVMGYFAMKKTQRLFHGLIVLMLYPMSIGLVFLLENVIGLD 565
BLAST of mRNA_P-littoralis_Contig1028.5.1 vs. uniprot
Match: A0A0L0DBP1_THETB (Ca2:Cation Antiporter family n=1 Tax=Thecamonas trahens ATCC 50062 TaxID=461836 RepID=A0A0L0DBP1_THETB) HSP 1 Score: 453 bits (1166), Expect = 5.430e-141 Identity = 273/572 (47.73%), Postives = 361/572 (63.11%), Query Frame = 2
Query: 161 LMSIFIDPDSLPDGWQGFVQVLSLLFAYGFILFTASNMISDGSELLLLVPALAGIVGSVVLPVLGAVPDGAIVLFSGLGDDAQEQLSVGVGALAGSTIMLLTIPWFLATWGGRVDIGKESSLAVYKRPPGAALSWSKLSPGLSFKDALFQTGVTGSPQVRKGGKLMMLTSISYLIIQGPAFFLS----NETDAEVSSAEYWFALAGIITCSVLFIGYLLYQWEMSRTDNDQVLEDFMEEVRRDKIMEGKISLLGVMQAELNLVVGYSQSSEGGYHSMDGGDLVLPEKVMRRLEKLLRPFFDKYDDDKSGQLDKMEFWSVFHDLKEHVQTQELNAIFXXXXXXXXXLVDFDEFVTGVVKFLLEKSPDNVVS--------VPAAAHEEEPDDGDEEEHE----EMPEDLVHLDPDTQQFQVKMRAAYLMTAGTALVLIFADPMVDVLGAVGDRTGISAFYISFVLAPLASNASELIAAFNYSLKKTSRTIVISFAALQGAACMNNTFCLGVFMFLVFFRGLAWEFGAETVAILFVQVVMAVISLRATHRVIDGILVLCLYPLSIMVVAGLEALG 1828
L ++F+DP LP G VQ++ L+ YG++LFT+SNMISDGSELLLLVP+LAGIVGSVVLP+LGAVPDGAIVLFSGLG DAQ+QLSVGVGALAGSTIMLLTIPWFL+ GRV + + YK P GA KLSP S +L +TGV P + GK+M++TS++Y+IIQGPAF LS ++ + S E W+A AG+I + F+GYL YQ +T +D+ +D ++ R+ I ISL G EL ++ + + + GD RL L+ FF+KYD D +G +D E + DL E E+ + +DF+EF G +K + ++ + S V A +E GD ++ EMPEDL L P+ QQ ++KMR+A+LM GT LVL+F+DPMVDVL G RT I FYISFVLAPLASNASELIAAFNY+ KKT +TI IS + L GAACMNN+FCL +F+ +V+ R L W + AET++I+ VQ++MA + + TH ++ GI+VL LYPLSI+ V G+E G
Sbjct: 72 LSNLFVDPKELPQDGNGMVQLVFLMAVYGYVLFTSSNMISDGSELLLLVPSLAGIVGSVVLPILGAVPDGAIVLFSGLGPDAQKQLSVGVGALAGSTIMLLTIPWFLSILAGRVSLDRNGK-GAYKAPAGA-----KLSPPGSM--SLTRTGVNCGPSIAIAGKIMVITSLAYIIIQGPAFGLSCGLKSDDNKCKSKGERWWAFAGLIYAFLSFVGYLWYQ---VKTSDDEQSKDKVDATRKKAIQASMISLSGAFAQELEMMSQPNSAGTALLSETNRGD---------RLRSTLKTFFNKYDRDGNGSIDSSELILLLSDLGEKPTNDEVADMMTELDTDNDGTIDFEEFAVGCLKLIQRRTDGDHASAAERGQMRVTGAINEVHDAIGDSDDXXXXXXEMPEDLRTLSPEEQQRKIKMRSAWLMGLGTVLVLLFSDPMVDVLSEFGARTHIPPFYISFVLAPLASNASELIAAFNYAAKKTKKTITISLSTLLGAACMNNSFCLAIFLAIVWARSLKWIYSAETISIVGVQLIMAFFAFKKTHTLLSGIVVLTLYPLSIIAVWGIERAG 623
BLAST of mRNA_P-littoralis_Contig1028.5.1 vs. uniprot
Match: G4YQZ3_PHYSP (Uncharacterized protein n=20 Tax=Peronosporaceae TaxID=4777 RepID=G4YQZ3_PHYSP) HSP 1 Score: 443 bits (1139), Expect = 6.550e-138 Identity = 278/586 (47.44%), Postives = 368/586 (62.80%), Query Frame = 2
Query: 161 LMSIFIDPDSLPDGWQGFVQVLSLLFAYGFILFTASNMISDGSELLLLVPALAGIVGSVVLPVLGAVPDGAIVLFSGLGDDAQEQLSVGVGALAGSTIMLLTIPWFLATWGGRVDIGKESSLAVYKRPPGAALSWSKLSPGLSFKDALFQTGVTGSPQVRKGGKLMMLTSISYLIIQGPAFFLSNET-------DAEVSSAEYWFALAGIITCSVLFIGYLLYQWEMSRTDNDQVLEDFMEEVRRDKIMEGKISLLGVMQAELNLVVGYSQSSEGGYHSMDGGDLVLPEKVMRRLEKLLRPFFDKYDDDKSGQLDKMEFWSVFHDLKEHVQTQELNAIFXXXXXXXXXLVDFDEFVTGVVKFLLEKSPDNV------------------VSVPAAAHEEEPDDGDEEEHEEMPEDLVHLDPDTQQFQVKMRAAYLMTAGTALVLIFADPMVDVLGAVGDRTGISAFYISFVLAPLASNASELIAAFNYSLKKTSRTIVISFAALQGAACMNNTFCLGVFMFLVFFR--GLAWEFGAETVAILFVQVVMAVISLRATHRVIDGILVLCLYPLSIMVVAGLE-ALGWD 1834
+ FIDP LPD G +QVL L YGF+LF ASN+ISDGSELLLLVP++AGIVGSVVLPVLGAVPDGAIVLFSG+G DAQ+Q+SVGVGALAGSTIMLLTIPW L+ + GRV+I E+ Y RP G W+KL P KD L +TGV ++ + M+ TS+ YLI+Q PA F + + +V+ AE FA+ + + F+ YL W + R+ +V ED ++EVR I +G+ISL G++ AE+ + E H+ L + R+ ++RPFF YD ++ ++D E F DL E V E ++F+E V +++LL K + + +++PAA E D+EE EE+PEDL HL QQ ++K+R+AY+M GTALVL+F+DPMVDVL VG RTGI AFY+SFV+APLASNASELIAA+NY+ KKTS+TI IS +AL GAACMNNTFCLG+F L+ F+ GL WEF AET +ILFV++V+ I+++ T R++DG++VL LYP SI +V LE LG D
Sbjct: 1 MSGFFIDPKDLPDDGYGLIQVLFLGAVYGFVLFNASNLISDGSELLLLVPSMAGIVGSVVLPVLGAVPDGAIVLFSGMGPDAQQQVSVGVGALAGSTIMLLTIPWALSVFAGRVNID-ENGRGNYVRPKGDQ-HWAKLMPP-GNKD-LTRTGVVLFDEIPSTARTMIFTSLIYLILQVPALFYTGTAKEDAQADNTQVAKAEKPFAIVAFVVSMISFVLYLY--WNVQRSS--EVKEDVIDEVRVAAIRDGEISLSGILAAEVAKL-----KKESPTHATP---LNASREHFDRVADIIRPFFHAYDKNRDRRMDADELQVFFKDLGEAVSRDEAEKWMAAADKDKSGFIEFNELVEATLRYLLAKYENEIQGRSSVSMQRVVVEQQYSLAIPAAEGE------DDEEEEEVPEDLAHLSIAEQQKKIKIRSAYMMFLGTALVLLFSDPMVDVLSEVGARTGIPAFYVSFVVAPLASNASELIAAYNYAQKKTSKTISISISALLGAACMNNTFCLGIFAALMSFKSGGLVWEFSAETFSILFVELVIGYIAMKKTQRLLDGLIVLLLYPASIFLVFLLENVLGLD 564
The following BLAST results are available for this feature:
Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
| Property Name | Value |
|---|
| Stop | 1 |
| Start | 1 |
| Seed ortholog | 2880.D8LRU1 |
| PFAMs | EF-hand_5,EF-hand_7,Na_Ca_ex |
| Model size | 4046 |
| Max annot lvl | 2759|Eukaryota |
| Hectar predicted targeting category | signal anchor |
| GOs | GO:0000325,GO:0003674,GO:0005215,GO:0005432,GO:0005488,GO:0005509,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005773,GO:0005774,GO:0005911,GO:0006810,GO:0006811,GO:0006812,GO:0006814,GO:0006816,GO:0006950,GO:0006970,GO:0008150,GO:0008324,GO:0009506,GO:0009628,GO:0009651,GO:0009987,GO:0015075,GO:0015077,GO:0015081,GO:0015085,GO:0015291,GO:0015297,GO:0015298,GO:0015318,GO:0015368,GO:0015491,GO:0015672,GO:0016020,GO:0022804,GO:0022857,GO:0022890,GO:0030001,GO:0030054,GO:0031090,GO:0033554,GO:0034220,GO:0035725,GO:0042592,GO:0043167,GO:0043169,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044422,GO:0044424,GO:0044437,GO:0044444,GO:0044446,GO:0044464,GO:0046872,GO:0046873,GO:0048878,GO:0050801,GO:0050896,GO:0051179,GO:0051234,GO:0051716,GO:0055044,GO:0055065,GO:0055074,GO:0055080,GO:0055085,GO:0065007,GO:0065008,GO:0070588,GO:0070838,GO:0071214,GO:0071470,GO:0071472,GO:0072507,GO:0072511,GO:0098588,GO:0098655,GO:0098660,GO:0098662,GO:0098771,GO:0098805,GO:0099516,GO:0104004 |
| Exons | 14 |
| Evalue | 8.76e-214 |
| EggNOG OGs | 28NP9@1|root,2QV8Y@2759|Eukaryota |
| Ec32 ortholog description | Putative sodium calcium exchanger |
| Ec32 ortholog | Ec-08_002440.1 |
| Description | calcium:sodium antiporter activity |
| Cds size | 1674 |
| COG category | S |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789365.2548006-UTR-P-littoralis_Contig1028:10941..11066 | 1680789365.2548006-UTR-P-littoralis_Contig1028:10941..11066 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig1028 10942..11066 + |
| 1680789365.2665453-UTR-P-littoralis_Contig1028:12203..12241 | 1680789365.2665453-UTR-P-littoralis_Contig1028:12203..12241 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig1028 12204..12241 + |
| 1680789365.4033825-UTR-P-littoralis_Contig1028:32731..34940 | 1680789365.4033825-UTR-P-littoralis_Contig1028:32731..34940 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig1028 32732..34940 + |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789365.275213-CDS-P-littoralis_Contig1028:12241..12339 | 1680789365.275213-CDS-P-littoralis_Contig1028:12241..12339 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1028 12242..12339 + |
| 1680789365.2826948-CDS-P-littoralis_Contig1028:12610..12823 | 1680789365.2826948-CDS-P-littoralis_Contig1028:12610..12823 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1028 12611..12823 + |
| 1680789365.2904146-CDS-P-littoralis_Contig1028:27566..27783 | 1680789365.2904146-CDS-P-littoralis_Contig1028:27566..27783 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1028 27567..27783 + |
| 1680789365.3008292-CDS-P-littoralis_Contig1028:28392..28512 | 1680789365.3008292-CDS-P-littoralis_Contig1028:28392..28512 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1028 28393..28512 + |
| 1680789365.3082862-CDS-P-littoralis_Contig1028:29191..29299 | 1680789365.3082862-CDS-P-littoralis_Contig1028:29191..29299 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1028 29192..29299 + |
| 1680789365.3171031-CDS-P-littoralis_Contig1028:29687..29753 | 1680789365.3171031-CDS-P-littoralis_Contig1028:29687..29753 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1028 29688..29753 + |
| 1680789365.3299532-CDS-P-littoralis_Contig1028:29975..30128 | 1680789365.3299532-CDS-P-littoralis_Contig1028:29975..30128 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1028 29976..30128 + |
| 1680789365.3401086-CDS-P-littoralis_Contig1028:30299..30418 | 1680789365.3401086-CDS-P-littoralis_Contig1028:30299..30418 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1028 30300..30418 + |
| 1680789365.3503797-CDS-P-littoralis_Contig1028:30795..30856 | 1680789365.3503797-CDS-P-littoralis_Contig1028:30795..30856 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1028 30796..30856 + |
| 1680789365.361583-CDS-P-littoralis_Contig1028:31116..31225 | 1680789365.361583-CDS-P-littoralis_Contig1028:31116..31225 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1028 31117..31225 + |
| 1680789365.3713367-CDS-P-littoralis_Contig1028:31592..31765 | 1680789365.3713367-CDS-P-littoralis_Contig1028:31592..31765 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1028 31593..31765 + |
| 1680789365.3832293-CDS-P-littoralis_Contig1028:31937..32051 | 1680789365.3832293-CDS-P-littoralis_Contig1028:31937..32051 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1028 31938..32051 + |
| 1680789365.3944063-CDS-P-littoralis_Contig1028:32608..32731 | 1680789365.3944063-CDS-P-littoralis_Contig1028:32608..32731 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig1028 32609..32731 + |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig1028.5.1 >prot_P-littoralis_Contig1028.5.1 ID=prot_P-littoralis_Contig1028.5.1|Name=mRNA_P-littoralis_Contig1028.5.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=558bp
MSIFIDPDSLPDGWQGFVQVLSLLFAYGFILFTASNMISDGSELLLLVPA
LAGIVGSVVLPVLGAVPDGAIVLFSGLGDDAQEQLSVGVGALAGSTIMLL
TIPWFLATWGGRVDIGKESSLAVYKRPPGAALSWSKLSPGLSFKDALFQT
GVTGSPQVRKGGKLMMLTSISYLIIQGPAFFLSNETDAEVSSAEYWFALA
GIITCSVLFIGYLLYQWEMSRTDNDQVLEDFMEEVRRDKIMEGKISLLGV
MQAELNLVVGYSQSSEGGYHSMDGGDLVLPEKVMRRLEKLLRPFFDKYDD
DKSGQLDKMEFWSVFHDLKEHVQTQELNAIFEKIDTDQSGLVDFDEFVTG
VVKFLLEKSPDNVVSVPAAAHEEEPDDGDEEEHEEMPEDLVHLDPDTQQF
QVKMRAAYLMTAGTALVLIFADPMVDVLGAVGDRTGISAFYISFVLAPLA
SNASELIAAFNYSLKKTSRTIVISFAALQGAACMNNTFCLGVFMFLVFFR
GLAWEFGAETVAILFVQVVMAVISLRATHRVIDGILVLCLYPLSIMVVAG
LEALGWD* back to topmRNA from alignment at P-littoralis_Contig1028:10942..34940+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig1028.5.1 ID=mRNA_P-littoralis_Contig1028.5.1|Name=mRNA_P-littoralis_Contig1028.5.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=23999bp|location=Sequence derived from alignment at P-littoralis_Contig1028:10942..34940+ (Pylaiella littoralis U1_48)
TGATGTGCTAGGATAAACTTGCTGTGTTCCTCCGAGTGGCATCTGGTGCC
GTTTTGAGGTCTCTCTCATCTCTCCAGGGAGCATTTTCTCTCTACCGGCA
CGCGTCGTATCGGCTATCAGTTCCGGTGAGGAGTCTTCATTGGAAAATAG
TTGGCGCTCAAAGGCTGCATCTTGGAGGCGTACTGTAGCGCATTTTTGTC
GTTGGGGTCGTCTTTTTTACCATGTGCTATTTCAGTAACCTCCTGAAGCA
ACAGGAGTTCCGTCTCGAGCAAGTTCTCGAAGTCCTGCTGGCGGGCATGC
AATTGCTTGCTTAGGACGTTGATGTGTGGATTCGTTCCTAATTGGGTGGG
TGCGAACTCTCAGAAGTGTTTGAGGTGTTGACGAATTGGCCTAGGCAATT
CGGTTTGCCTCACCACACCAATTAACGTGGGCAATATGATTTGCATCGTG
TGACGACTTCGTTCTACACCAAGACAGCAGTAAGAATCCCCAGTAAGCGG
ACCTCCTTCACTCATACTCGTACACGACCAAAATTGGTGACATATCGATT
ACCTTATCCGAGTTGTGTACTCACGAGTCAGGAGTATAGGTTGTTGTAGC
AGTCTCACGGCGTCGACAATCCAGTTCTGTCGTTTTGAACGAACGAATTT
GCTCTCGCGCACTGTTGCTGTACACAGCAGTACTATGATTTGCGCAGCTG
GTGTGGTACAAAGAACAGAGAGGTTGTTCGCCTGCCCTCTCTGGCTGCCG
GTCTCAGTTACATATACTTAGTGCACAACTCAAAGAAAATTAAAATAATA
CTTCGAAGTACTTCGTACACGGATACACGTGAAGAACACACTTTCGTAAT
CATATGACGTACACGAATTATGCATAGACGAAGTGCTGAGCATGAGTGAT
GGACCCTGTGTCGCAAGATGTCTTGATCTGATGAGTCGTAAAAACTCTGG
TGGATGTTTGACTCTCAAATCGACTCGAAAATCTTTCTTCGTATACAAGT
GAAAGGCGAACCGCGAAACACTTCGACGTCTTTGTAAAAAAAACGAAGGA
TGCTCTCCTTTTTGAACTTACCGAAACTAATGCTTCGCAAGTGCAGGCTC
CTCGAAGTGCTGTTACCTGTTGAATGATATCATATGATACGTACATCCGA
GATTCTGATGTTTCACCCCAGGGCGGTTTCGGTACCAGGCCGTCCAGGAA
CTCTTGTGTAATTCATAGAGGCGACCTCATTGTTGTTTGCGCTCGTTTTC
CCTGTTTACCAGGTTGGTGACCGCTTTCGGAGGGCGAGCAGCAGTTCCTG
ATGTCAATCTTTATCGACCCTGACTCCCTTCCAGATGGCTGGCAGGGTTT
CGTCCAAGTTTTAAGTCTGCTGTTTGCGTATGGGTTCATCCTCTTCACGT
GAGTTTCAACGACCCTTACGATTAACATGACTATCATATCATACTACTTC
GTACTAGGCATGTTTCTAGCAAAGACAACGACCTGCTGCAGATATGTGTT
TGGCATGAATGAAATGTATGGTCTATGGCGCAAACCAGCGGGATGTGACC
ACATACAGGGTATTAGCTCCGAGGTCCCCACCTCCTGATCGATTTTGGGA
GTTCTATGATGGTACATGACGATGTTTTGTGACATGTGTCGCTGTATTTT
ATTAAATTTTCACTCGCAGCGCATCCAACATGATCTCGGATGGGTCGGAG
CTACTGCTGCTTGTTCCAGCCTTGGCAGGCATAGTGGGGTCTGTGGTCCT
CCCCGTACTGGGCGCGGTCCCTGACGGTGCCATCGTCCTTTTCTCAGGGC
TGGGCGACGACGCGCAGGAACAGCTGTCTGTCGGTGTTGGTGCTCTCGCG
GGATCGACCATTATGCTGTTGACCATCCCCTGGTAAGACTTACTGCTGTT
GACACAGAACATATTTCTGAATTTCAGTGACATCAACATCCAAGAACGAC
GGTTGCTATGTGGGGCAGGCTGTGAAACCTTCACAATGAGGATTCAGATG
TAAATATCATATTACATACCATACGTACATGCTTGTACTTCTTTTTTTTT
ACTAGCAAAATACTTACGGTCTTTACATGCCCGAACTTAACATGTGTACA
GATGTACAGATGAATGTCTGGTTCCGACTTTAAATGTACGGGCTCGTGGG
ATCGCACGTGTGGACATCATCCATATCTGCGTTGATAGTTGGCTCAATCG
CAGATTTTTTGCCACAGTATTGATCCATCCTGATACACAGGGGGGTGGTG
TTCAACGTTTCGGCGGAACATTCGATCGAGTCACGTAGAGGTGGAAAGAG
TGATACATGCAGCCCGGCACGCGAAAAAGAAACGGCAGGTGTACATTCAT
TTATTGTACGGTAGCTGGAACTTCTTTGTGTAATACTTCGAGTATGTATG
AAGTAAAAGCCGTCCCTACCTGTAAGCTGAGGGTCCTCTTCTGGTGATGA
TATCCTAGCGGAACGTATTACACATAACACAATTACAGCAGCAGTAGATA
TGACACTTATGAGTATTGTTGTATTGAGGCTTCAACGCTTTATATTCGCC
TCCGCGAATGACTATCCGAATCTACCCTATCCGTATGTATGGGACAACTC
TCTTCCCACTTTATTATTTCATGTTTGAGTACCCTCCCCCTTATTTCGTG
GTACGTTGTTTACCTAGCCATGATGCTGTACGCTCGTATTGTACCAGGTA
CACTTTTTCGCCGCCTAAAGCATAAAAGCCGAAACACACCTAAAAAATAC
CGATTTCAGTATTGCATACCGGTACGCAGGTCGTCATTGATTCTGCATGA
TATAATATGTACGTCAATAATAGACCAGCGATCTAGTAACATGTGATTGT
TGGGTAAATATGATCATGGCGTGGTCGATCGGAGCCGATACATCGAGAAA
ATAAAGGCGGCGGAGCGCGTTTGGCGGAGCCACCAACGGCTCCCCAGCTT
ATAAAGGGGCCCCGCTGGAGGCGCCGCCGGAGTCGACTTTTCTCTACGCC
ATTTGGCTTCATTTCCCTTCAAAATTGGCCAACAAAATCGACAACCGAAC
ATAGGTTCCATCGACAGCAGTAATGTCGATAATCATAACAACTGCTGGAG
TATGTGTGTGTGTGTCTTTTCATCCCTTTAATTGGACGCCACTCGCTTTT
TCACTCAAGAAACCCAACATGTATTCAACACTCCGTCCCGAACGCAATAA
ATCACCGATTGCGACACATATGGTACCAAACTGACCGCCGTCAATAGAAG
AAGTGATATTCTCGGATATTTGTTCAAGGCTATATCAGTGGAGTTAGGGG
GAGAAAATGTGCTATTGCTACCGAATGACGTAGTTTAACACCCCCCCCAA
GTTTAATAAATATCAGGCTTTTCACTCTCGATGCCAGATAAACAAGCTTC
GAGGTACACCTTTTTTTCGCCGACGGATGGTCTCTCTGGGCTAATAGGGA
GGTGTCCACGAAACATTTTTCAAAACTCTGCGAATTGACGTAGTTTGGCC
AATAATAGCGCAAAAGTTCTTAAAAATTGCCGATTCTTTCTAGGGTTAAA
TTTAGGAGTTAACCACACTGACTTGAGTTTTCTCACGCGGTTTTTTCGAG
TAATACCCTGAAATTTTGCATGCATGTTCTTTTGTCTACTGCGCTACTTT
CGACTAGCGGGGTGCAGCGTTTTTTTTTTTCACCGGGTTTCTGGGGTCCC
AAGTGAGCCATGTTGACCAAAAAATACCTTCATACTAATATATCGAAAAA
AAAAAAATCGCTGCACCTCGACAAACGAAAGTTGCGTAGTAGGCGATAGA
ATAAGCATGCAAAATTTCAGGGTCCAACTCGAAAAAACCGCGTGAGAAAA
TGATGTTGAATACTTCTTGCTTGAACCAGCCTCTACACCTTTCGGGTAGG
TAGACGCTCCAACCGGGGTCACACAGTCGGAAGTCAAACACAGGAGTTTT
TTCTGTTCCTTCATTTTATTTTTTCTTGTCTCCACTTCCTACTGCAGTCC
TTGCCTTCATTTTTTTCTCTCGAGAAAGGGTACAGCCATCCCTTTCCCTC
GTCGACACTTCGAATTGTGTTTACTCACAAATTCATCGTTTTCCTCCCTC
ATGCACGACATGAGAAGAATTCCGGATCGTGTTACTGCACCGGGATCCGA
ACTCAAGCGTAAGTGTCAGAAGATTTCGAGGATAATCAACTGAACCACCG
GGGCGACCGGCTACGCAATATGAAATATGAATTTTGATTCGTGATAATAT
TGATGCGTCATTCTGTAGTGTTATCGATTGCAGTTGGGGCTACGGGGCCA
TGCCAAGGAAACCTCTCTTAAGCCGAGATGTAGGTTCAAGATAATTCCTC
TCTTATGATACACCGATTATATTAGGTTTTAGGCTGCTGTCTGTAGCTGG
CACTATCATAAAAGCACAGAAAGAGGCGCTCGTGTGGTAATGCCTCACGT
GCGTATTCAAAAACCATTTTGTATTTATTTACACGTTACGCGATCCCTGC
TGAATGTTGTGAACTTCGTACTTCAGTAGCAAAAGAGAACGTTCCAACAT
CATCTCAGCATAGTAGCAGCCAACAGAACACAGAGAGAGAGGAAGACCCG
GCGTGTTGTCCGGCACTGCCTTTCAAAGCGAACCCGCTGCGCAAGGCATA
TCGTCAACTCTTGTCAACTACACTCTGTGCGGTACACTGGCTGTACAGCA
TACAGCAGGAGCCTGGGCTGGGCTGAGGTTTTCAGCTGTTAGCTACTGCT
GTTACTGTACACATTGGGGCGGGGTGTATGTTCGGTTTAAGAGAGTGTTG
TGCCAAACCGTTTTGACCTCTCTTGAACCGGCAATTCTCTTAACCATTTT
GGGCCTTCAGATGGAAAAATCGGGCATCAGAATCGAGCATTAGCATCATG
TTTTTGTTCAAGCCCGGTCTACTTGGATTCTGGAATCATGAACACGTCTG
TGAATGCGCCGCACTTCCGGGAAACAGCATGTATTGGCTTCTCCATCTGG
CAAGGCTTTGATAAACGAGACGAATTGGTTGTAGCAGGCGGTTGTGCCGC
CCTCCGTGTAGGCGGCAGCGTCAACCGCGGGAAGGACAGACATGGTTGCG
TTCTCTACGAGAGCCTTCACCAGGCAGCAGCAACAGTAGCAATGGGTACC
CTAAAGAGGCCGAAGGCCTCCACACCCAGGGGATTAGAGAATTACAGATA
CAGGAAAACCTTCAACCGGGAAAATCGGGCATTATTATATTATTATTTCC
GGGCAATTGAATGATACTTGAAATAGACAGCATGGGCAAACACACCGGAA
CCAGGGATCCAACATGCTACCTCTGTCGGCTCGTAATAGTGGCCGGGCTA
TCCTTCTACTATGTAACCCTAACCAATCGAGCCTATCGCGGGCCTTTGCC
GTGGCCCCTTCTTATTTTTAGCTCGTGCCGTGGCTGCTGTGCTGCTGGAA
TTCTCGAGGGGATTTGGAGCTCATTTTTTTTGGAGGCAATGCGCGGCGAG
ATTGCACGAAACGGAACCCTTTTGCCTGACAAAGAAAAAAAGCAGACTAC
TCGACTAGCCATCTTCGTGAGCAGCCTAGTCCCAGAGGGGTTAAACTGAG
CTCTCTTCACCCTTCTGGGACCAGGGTCTTTCGGCGGGGCAACCCGAATA
GCCCGGGTTCTAAAAAGAACTGAACCAGCCGGTATTCCACCGCCCGAGAA
CCAGACACAAAGAAAGCCAGCTCTTGGCTCCGCGTGCACAAATCATGAGA
TAATCGACATGTGAGCACCTCACAGTTATTCAGCCAGGGTCGCTAACAAG
ATCTCGCAACAGGCTGGTAGCCTCCCTGGAGACACTAGTAGAGTTACCCG
ATGATCGCGATGCCGCCTCGTGCTCTCAAATATCTCGAAATCATGACTGG
TCATTACAGGCCTCCCTCTCTCATACCCAAATGAAACCAAGATAACTCAG
GCGCTTATTTTTAGCGCATTTTTGTCCACTGTAGCCCTCAACCTACATTT
TGTCAATCTGGGGCACAGCAGGATGCATGTAGCAGGCCCTGCGGTGGTTG
TAAGACTGCTGTGTGTTGCTCGTGTTGGATACGCTGTGCGGTGTTTTATT
TTATAATTAATGCTGTACAACAAACTCCATCGCGTTCTTTGGTTCGGGAT
TTGTTGTTTTCGTCCTCATCCCATACTCAATCCCCATGTCCCCGACGAGA
CCGCCCCCAGAAAAAATAAAAAATGAACAATTTTCAGTGAACAAAAAAAT
GCAGAAGGGTTAAACCGCATCCATGACTGTATCGGCACACTTCGACAATG
CCTGCCGACAGACTCAGAGATGCTGCCGCGTGTTTCTGCTAACGAAACCA
CGAACAGAAGCAGCAATGTAGTGAGACGTGGACCTCTTCACATGGCAACA
AATGAAGCTAACACAACAAACAAACTCCGCCCTTTGTTTGCAGTCATCTA
TGATGCATCACACAAGGGTCACCTTCGACTGCTGCTATGAACAGGAGATC
AACAGCATTATCGCCAATAATTATGATTCTAATAAATGGTTCGTTACTCC
TGTCGTTATCGATGATCAGCACACTTTAGACAATGCCAACAGACGAAGAA
ATGCTGCCGCGTGTTCTTGTTGTTAACGAAACCACCAACAACAGAAGCAA
GCGTGCAGTAATACGTGGGCCTCTTCGTTACAAATAAGATTACGCTATTG
TTTACACACGGTCCTGCTGGAAAAGCATGACCCACCTGACTGTCCGTGTG
GGTGCAAGGGTGTGTGTGGGGGTCATCATAGACTAAGAGTTGCGTGTGTA
ATTTTGTTACTTCGGTATTGTTGCCAGTGGGGAGAACTCTTGGCTTCGAC
ATGATAGAGTCTAATTTAATGATGAGCGTAAAGAAAGTCCGACAAATCAT
ACTTGCATATCGCACTCTAGGAACGAAGCCACGCTACCCCGTAGGCATTT
GCATACATTATTGGATCATATGCTTCGAAAATGCATCACTTCGTACTCGT
AACGAAGTATCTTTTCCTTTCGCCCTCTCCGATGCGTGTGCGAGCGAATT
CCAACCGGCTTCCGACAAGCGAAGAAGTAGAAGTATCTCTGACTGCAATG
GCGTGCGCGATTAAATTAAAACCACAAGTTTCACTTATTCGCATATCCAA
ATAGCAAATAGCACCAGCAGACAATAGTACCGCAGTACATCCTGTTGCGC
CTCCTGCTACAGCTGAAAGCAAAGCCGCTAGTAGTGGGTAGACACGCCGA
TACATCGCCGAATCCCCCCAGCCGATGTATAGATAACTTCGTATTGTTTA
ATATCGGCACCGATACACAACCCTATATTTTGTAGTTCAATACCATGTAG
TCGTATGTACATGTATGTCCATCGATGTCATCGATCATTATCAGTTCAGA
AGCTCAAACGATTGTCAGGCAAATTCCATGCGAAAGGCTTTGGCTTGATC
AATACAGCAGGCGCGTGACATTGGCGATCGCAGCCGGTTGCTAGATGTTG
CTGTGTGTGCCCATCGACACGGATCGCTTGACCGATAGGTTGCTGTGCTT
GCCGATCAAAAGCCATTTCAGATTGCTTGATAGGCTTAGGCTCGTTCCAA
TCGACACGTATTGATTGATCCGATAGATTGCTTGTTGTGACGATCTTCAC
CTATTGTATTCAGAAACCATTGAGAAGTCAGCGTTGAGCCACCCAAAAAA
AAGTATCGATATCAAATTGCGTTCATCAATTGGAGGAAGGAAAAATAGTG
CTTGCACTATGCTCTCGCGTCTTGGATAAAAGAGGGAGGGAGAGAGAAGA
AGAGACACGACGTAGATGACACGGCACAGGGAGGAACGGGGAGAGGGAGA
CGGAGAAACTGCAGCTAGCTGTAATGTGTTTAATGACTACACACCACACA
TGGCATCACGACGGAACAAACCAGAAATCAACAAAAACTACATAATTGAC
AACAACCAAACAAAAAACACAAAACAACGGGCCATCATCCCGGGGTCGGA
AAATCTGCTGCAGCTATTCTTATGCAAAAAATAAGAACACTAGTCTCTGG
CCCCCAGAAACGTTCTTCGAGTCAGAGGTAATGTAATAACATGCGGTGAA
GCCCGGCAATCGTGTACGATAACATATTTTGAAACTATGGGCGATTTTCG
TACCGGTATTGTTGGAAACAGGATACCAGCATTCCCAAACCTCTACATAT
ACTTCGTACTCCATTTTGAAAGAAACGCAGACTTGAAGCAATACAACTGC
CCTTTCAGCTCCAGACGTCGTCCATCAGAATTACCTAGTCCGCCACATCC
GTGACCCCACGCCCAATCCAACCCTCCCTCCCTCCCTCAGACAACCTGTC
CGAAGCTCCGTCGCTGTAATGGGATTTTTAAGATTCCCACGCAAAGATAC
CGTCGGCGTTTCCGTCGGGGAAATTCTACCACGGGTACGGGGTGCCCCAA
CTCGTGGTCGGCTGCCAAGCTTGCACGCCTCAGCCCCTCGCAGCATCGCC
GGTCTCAGCCACTGCACACATGGAGATGAAGAAAATATTGATGGCATCAC
AACGGCTGAGCAAATTTTAGGAGTGGTCGGTGCCCTGGGCGCAGATGCTT
CCGAGAAACGAGGAGGAGCGATCGTTGCCTCAGGTGTGGACGTATCGGGC
CAGACGAGCGAAAATTCCCCTCTTTGCAGCCGCACGTTTTGCGCATACGA
TTGAGGGGTGGGTCCGGATAACGATCGCATGTTGACGTTTTCGTTCCTTT
GCGGACGCAGTTCTGCGCTGCAAGCTCTTCCGCTTCGCCCTCTTCTTCTT
ACCGGTTGACACCCCACCCCTTGCCGCTGAAGTTTCTCGTTGGCATCCTC
TCTTATAGACCATCGTGCCAGTACACCATCACGGCGTTCGCCCCCTCGCT
CTGCAGACCCAGCGACTCCGATCCTCGATGTTGTTGTCGTATTGCTGCCT
AGCCTGAGGATAACGAAACGCACGACTCGACGTAGTTCTCGACGTTGCCA
CTGATTCACTCGGGAGTTGACGCCGCAGTTCTCTCACCGCGAGCATAGGC
AGCCTCACGCTTCAAGGAGAAGATGGTTGTCGAGAGCTGGATGCACTCTT
CGATACGCACAATCCACACCTCATTTTCCCGCACGAACAAGCAAGCACTG
ACGAAACGCGCCCTCGGTTCCCGCACTTTTCAAGGCAATCACCCACAATT
TCTTGAAGGGCAGACCGAATTCGCAGCCCAATGGGAGGTCAACCAAGACG
AAAAATTGGACCTGGTCGTTGTAATCTGCTCTCCAAGGCTAGAAGTCAGC
CGCTGGCCACGCGCCATTCCATTGCTACCCTGGAGATCTCCGATGTGGAC
GAACGCCCTGTTGACCGACTGGGGTTTTAGAGCACCTTCCACAATTCTCT
GGACGGTCACTTGCACCGTGTACAACCCTGGGTCCTGATTTTTCCCGGTT
TCATGGCCAGCGCGAAAATCATCCACTTGTCCGCGTCGACCGACGTCACG
AGCCACTTGCCCTCTCTTTCCCAGTGCTTCCTTGTCTACACGACGAAATG
AACTAGTGAAAGCCCGGTCGCGTCACTACCTGGGGCACGGAGTCGCCTAA
TACCCCTGTCCACGGCCACACGGTCTCGATAGTGCAGGAGCGGCTCCTTC
TCCTTTCCTGGCCGTACTCTAACCTCCCCCCTCTTCCCTGCAATTTCACC
GGCGTCTGCAGAAACGCTGTCAACATTGACTACAGGAACCCCCAAGACCA
ACTACCGCCCCAATTTTCGTATCTAGACGAGCACGCCCCCTCCGTTCGCG
ACTGCACTGACAACCCTTGCACTTGCGCCGGTCTCTTCGCCATCACGCAA
ACCAAGCTCGTCTTTGACAACGTACACCGCCACGATTTTCTTTGGCGTGC
TGTCTCCTGCCTATTTGGAGTCTGCTAGTACCTTCTTGGTGAGGTTCGCG
GTGACTCCGCCGCGAATTTCTTCGCGCCGGCCTTTGAGTTTCCCTTTATG
TTGTGACGAGAGAACGAATAGGAGCCTTCTCCAATTCAGGACGCGTACGG
GCCCGACAGAGCAACGTGGAGATGCGCAACTTGGGGCCCTCCTATTTCTC
GTGTCACCCGCTCCTCCCGCCGATTCGGCCAAGGGGCCACGCAAGGGAAG
CCCGCAAGGGAAGCCCGCAGGGGATCAGGTCGTTCGACATGGCGTCGAAT
GTTCGTATCCGCCTGTCTACGGCAGGCGGACACATCTTCTCGCCCGCTAT
TTGCACGGCGCCCCCGGGACACTTGTTCGACTTGACACAAAGGGTTTTGT
TGTGACCCGATCGCAGTCAAGTACCAGGTAGTCCGCATGATAGTTCTGGG
CCTTCTTCTCTTCAAAATCAGGTTCCATCTAGTTGCTAGGCGTTCAACAT
GCTGGTTGAAGCTGACCACCTTCACTCTTCCGCCGCTAGCGTGTTCTGCT
CTTGCCCCCTATCGTCGACAGTGGTTCACGTAGACTATCGGCTATTTCCC
CACATGGGTCGCTGCCTGCTTCTCGGCCTCGTCTTTCTGCCTGTTGCTCT
CCTCGTCTACGATCTTCCCCGTGGACTCGAGTAGCCCCCCCCGCATCTGC
CCCACTCAACTTGCGCCTCCTCCAGCGTTTCCTTCCCAACTCTGACTCTC
CTTCCACGCCCCGGGAAGTTGCGCCGATAGTTGCCGCAAAAAGCTTCACA
ACTACGTCGGCGTGTGCATTGAGACTGCTCTGGTGGTCGCCACTCCCGTC
CTGCTTGTGCGCCGAAGGTGCCGAACAGACCCCACGCGGGCTCCGCTGCT
TGTCACTGGAATAAATAAATGGGATTGGCCTCACTGGGGTGATGGGTCAG
CAGTGCTAGTGTGCTGCTGCAAGGTGTGGTCGGGCGGCTGGTCGAGCACC
GTGGTGCCGCCGATGGTGGCTACGTCTGTGGTAAACTTTGGTGTTGGTTG
TGTTTGTTTCCTGCATATGTGACTGACTCAGAACGTTTTGCGAAAGGTGG
TACACGCCTTGTTGATTCTCACATTAGCTCACTACCGCCGCAGTCTAGCC
CGTGGTCACAAACCAGGCACATATCGTGTTAGGAGGAAAAAAAATAAACT
AAAATAAATGGACTATGATCACCCACAGTCAAATCAGATATGGTACCGTT
GGGGTACCATCTGTGGTGGCCAAAGTACCAAACAAAATAGAGAAAAAAAA
AACAGGTTCGAAAGAAAAAACAAAAATTGAAAACAGTACGACAAACAAAA
AATAGTACTTCGTACATCGAACCAGGGCCCAGGGCCATGATAGACCAAGG
CAAAGGCAAACCAGAGCGATGGTCCAGTAACTAAATGGTCAATAGACGAA
AGACAAAAATATAAATAAAAAAGAAGATACAGGGAGGGCACAAAGACTGA
GGGAGGCACTCGAGCACAAACACGACGAACAGGCCGCCAAACAACCAAAG
AGGAAGCAGGGGGACGAAAAGAGAAAAGAAAAAAAAGAGACAAAGAGGAC
AAAATGCATACATGGAGAGTGCAGAGGGAAGACCGGAAGTACCTGGAGTC
GGGGAGGGGGAGGGGGAGGTAATAAAAATATAATGTAAGGCATGCAATCA
ATCGCAAACATACATGTCTTGCCACGAGGTCTGCCTGTTCACGCTTGCTC
TCCCCAGTCGCACTCATGCCTCCTGCTACTGGCACCACCGTACCCAGTTG
TTTCTGCCCCACATCTTTGGCAGCAGCTACACCACCATTCCGCCCTACAG
GTTTTCCATTCCGGCCACCCCGTAGCTTGGCTTTGGACTGCTTCTTCTTG
TGCTGTGCAACTCCAACCCCACTGCCCCGCTGCCCTTGTGCCCCCCCGTA
CTCCTCCTCTCGTTTATCCCCACCATCCGTTCTCCCTCTTTTGGCCAAGG
CCTACCCCTCAGCCGCGTTTCTCTCCCTTTTCAGTCGACGTGTCTCTGAT
AAGTCTCCCTCTTTCTTGAGCCACTCGTCCGTGAACCGCCGCGCACCCTC
GTCGATCCTGTCGTACCACTCGTCAGCTCTCTTGGCACTTGCCTCCCACC
CCGCTTTTTTGTCGACCACGATGTCGAACGCTTCGAGGTCGTCCTGCATT
CGCCTCAGCCAGTCAAACTCTTGCCCCCCCAGATACCTCGCTCCCCCCTG
CAATTCTCCCCAAAGAGCAATTTTCGGGAGTCTCTCGTCTCTCATGCGCG
CAACGAATCCTGCGAAGCATAGTCGCCGCTTGCGCACGGTGGCCTCAATG
CTCTCGTCGCAACCCGCGGTGATCAGGGCTTTGGCGTAGGAGAGGGGTCG
GTCTGTTCTCTCCCTCTTTTTCCATCCGATGCAGCGAAGGAGGAAGAAGC
GGTGGGCTGACCGAAGCTTGCGGTACTCCGCTGGCTTCAGATTCCATGTG
ACACACCCGTAGAGTAGGGTCTCCACGACTTCAGCTTGGAAGAGTCGTAC
TTTTAGTCGAAGAGGGGCCCCCGGGCGGTCGTACATTGCCTGGCTGTTGC
GCCGGAAGCAGGCGTGCGCTCGCTGCACTCGGTGGTTAATCTCGCCCTCA
GTGCTACCGTCCTCACAAATCGTACCCCCGAGATAAACGAAGTATTTCTT
CTGCTTGAAGACCATCCCGGCAGCGTCGATCGTGAACGAGCACGCCTCCA
TCCCTTTCGCGAGCATACACATGCTCTCCGTCTTGGGTTCTGACACCAAC
AGCCCAAACCGCCCGGCCACACGTCCGATGATCGGCATCATCTTCTCAAG
GCTCCCAGGTGATTGAGATACAATACAGGCGTCGTCGGCGTAGAGCATAC
TCCAGATGGACTTCACTGTCTCCACCAGTCGGACGTTCCTCCCCTTCCCC
TTCGTCACCTTCCTCTTGACCTTGGCCATGTCCGCCATCACCTCCGCGTC
CTTGCTGATACCGGCAAAGGCCACCATGAGCATCGCAGCAAAGAAAAGGT
TGAGCAGCAGGGGTGCCAGATTGCATCCCTGTCGGAGTCCCTGCCCCACG
TCAAACCAGTCGGAGCACCTCCCGTCGTCCATCCGTACGCATGCTCTCAT
TCCGTCGTGGAATTGGCGAATGTACACAAGCATCTTGGGGGGCACTCCGA
GCCGCTTGACCACCGACCACGGTAGTTCCCGGTCTACGGAGTCGTAGGCT
TTCGTGAGATCGATAAAGCAGGCGTACAGTGGGGTTGACTTCTTTCGCGC
AAGCTCGTGAAGGCGTCGAACCACGAACATCATGTAAACCGTTGAGCGGT
TTGGTCGGAAGCCGCTCTGTTCCTCCGGCAGAATGCCCTCTCTTTCGCAG
TAATCGCTTAGCCGGGTGGCGACCAGCTTCAACAGTACCTTGCCAGCGTG
TGCCACAAGGGAGATGCCCTGGTAATTGCCGCACTCCGTCGTGTCCTTCT
TGTGCAGCACCTTGATCGAAGCATCTTTCCACTGCTGTGGAACCCTTCCT
GATTGCCAGATGTTGATGATGATGCTGTAGAACTGCCGTAGGAGGACTTG
GTCTCCTTCAAGGAAGAGCTTGATAAGCTCCGCTGGTAGCTCGTCCGGGC
CCACAGCTTTCCTGTTGGCCATTCCCCGGATTGCTTCCTCAACCTCAAAC
AGCGAAGGGACGTCATCAAGCGGTACGCACTGAGGCCAGGGCTCGATCTT
GTCCACCACTCTCGGATCAAGGGTCGGTGACTTGGTGTTGAGCAGAGCAT
GGAACCACCTGGCCCACCGCTCGAGGATAAGTGCGGGGTCCCGAAGGAGA
TTTCCATCCTCTTCCTTGATGTTCTGTGAGGTGAAGGCCCTCTTCCCCTC
CACATCCAACCCCTTCATGTGCTTGTAGAAACCGGCCTGATCCCCTTCGC
GGCTTTTCTTCTCGAGCTGACTCACAAATCCATCGAAGAACTCATTCACA
GCACTCGCTCTAAGTCGATCAAGGTGCTTCCCGGCCGCCTTGAGGTTGCT
CCTGAGGGTGGGATCTTTCGGCGCACCGCGAAGCTGCTTCCGGGCGTCCT
CCCTCTTGAGCCATGCCGCCTGGATCTCCTGCTGCACTTCCTCACTGGCG
CACCAGCCACTTGGCAATCTCTTGCCCTTGGCCCGGGGGGCAACGTCAGC
GGCGGTGGACATCACAGCAGTCGTCAAGGCCGGCGCGAGCTCATCCACTT
TCGCACCTTCCATGAAGGGGGAAATTCTGTCTCTAAAGTCTTTCCGAAGC
TGGGGGTCCGCCATCAACCGTTGTAGATCGATGCTAGCGGAGGTACTGCT
GCTGCTACCCCTCACACGTCGATTCGGTGCCACTCGGCCAAGCAAGCGGA
TGTTGGCAAGGACGAGGTTGTGGTCGGAGTCCTTACGATCGATACGCCGT
ACGGAGACGTTGCGCACCACCCGAAGGTCTGCCTGGCGGGTCAGGATGTA
ATCGAGTCGGTATTCTCCCTTCCCGCGGTTGGAGCTTTTGAACGAGTGTG
ATATCCCGCGTTTGGGTGTGCAGAAAAAGGTGTCCAGGATGGAAAGCCTA
CAGCTTGCTGCGAATTCCACAAGTCTCCGCCCGTTATCGTTCTGCTTGTC
ACGCCCGTACATGCCCATCACCTTATCAGGGGTACTCTCATCCTCTCTTC
TACCAGTTCGAGCGTTCGCATCCATCATAACCACGACGTGTTCCCTGCTA
GGTACTGCATTGACTGTCTCTCTCACTGATAGCCAGAATCCACCTTTCTC
ACTAGTCCCATCCGTCTCGGTGGGTGCATAGGCAACCACAAAGGATACAC
CGTTCGAGCCAGTGAGTTGCAGGCGTACCTTCATCAGTCTTGCGCTAATG
CACTCCGTCATACCTCCTTTGTCCATCCCATCCACGATGGACTGCTTGAT
AGCCAACCCGACCCCGTGCACTCCTTTCTTCTCGGTGGTCCCGGCACGTG
CTCCACTCCGGATCACAACGTGTCTCGCGTGTGTGAAGGCACCATCATTA
GCACGCCGGGTTTCCTGGAGGCCAACCGCGTCGCAATCGGAGCTACCACA
GAGCTGTAGTACGGTGTTGGAGTTGTGACCGATACCGTTGGCGCCCTTGT
AAGCAAGGGTGCGGACGTTGAAGGAGCCCACTACCAGTTCGCCTGCGCGT
GTCTTTGATCTCATCTCTGCCCATCTCTTTCGGTCAGCCTTGCCTTAAGG
TCGGTTTTGCTTCCGTTTCTTTCGAGCTGCAATTTTCCTCCGTTCCATCC
ATCTTTGCCAAGCTCGGTACTCGTCTACGTTCAGGCGGGCTGGGGACGAC
ACTCCCGGCCAGCGTCGACGTGAAGGTCGACGAGGGTGCTTACAAACGTG
GTGCCTCCTAGTCTCTCTGCTCCTCAGGCTACGAGTTCCGCGTTTTCCGC
GGTGATGTGTCGATACAGCTGCCGCAGACAGTTTGACTGTCGCGGAGACC
AGACCATAGTTGGTCCGGACTGCTGTAGTGCCATTCGTCACCTCCATCAC
CTACCCAGCCTCGGCGTGCGCCGAGTAGGGTCTGACCGCACCACTCCCAC
ACTACCCTGTCTACTCTGGTAGAGCCCGGTGTGTCCACGAGGGACCCACT
AGGTTTTGGGTGACCCCGGCCGGGTAGCACGCCTGTGGATACGTGATACA
AGCAGTCCAACAATAACCAGGGCGCAAACATATACATCCATCACGCGGTG
CACACGCCGAACACTGCTCATCACCAAAGTAGCTCTTGCCATCGAAGAAG
CCGTTTCTTAAGTCCAAATGGCCTAGATCCTTTGCGATAAAGTCAACGCT
TGGCCTCGTGATATCAAATCAATCCACATAAAAAAATCGGTCAGGGTACA
GCTGAGTAAAACTCACATTTACTGCTGTTGTCTAGCTGTCAGTAAACCCG
CGACTGACCCGCTTCAAACACTGCTGAACCCTGCTGAATGAATCCAATTC
TCTACTTTGATGTATCCATATCCACACTTGTCCTTCTGAACTCCAAATTG
CCTCGAATCTTGTGCTAAAGACAACCGCTACACAGCTGACTAGATAACGC
GGAAATATCATCAAACCCATGGCTATTACTTCAAATCGAACTGTCATGGG
CTCCGGATACCGCAATCATTTCACGAACTCTCACTCCTCGTGAAATGATT
TCACGAACTCTTTCCTTCGCTCAATTAGCACTTTCAGAACCCAACTGGAA
TTTAAAAAAAAATGAAAGATTTTCATTGGGTATGGTTTGCCGAGAGTTTA
CCGAACACTTTCTTTTGTGTTTAGACATGAAAGTGTCCTCAGTTCCCCCC
AAAAAACAGGGACACGGTTGCCTTGTGTAGTCTTGTTATTTCAATTTTGG
TTATCATGTACCTGGTACACAAAACATTCCGTGGAGAGACGTGTGCTTGG
TAGGGCCAATGTCATGGCTAGATTGGACCACCAAGGTTACACAGCAGACA
CACCATCCCCGGACAAGAGACAGCAAGCTTACCCAAACGTTCGAGGACAA
AGGGTGTGTTGATCATGTCGCAAGGTCAGGTTGTAGTCTTCTGAAAAGAA
ATCGACGTCCCCAAGTTGGAACACCCGGATGCTATCGTACCGAGAGGAAC
TGCCTGTTTCTGGCCATCCACTTTTAAAAAGCAACTGCCGATGGAAATCC
CGCACGTCGTGATGCATGCTTACAGGTTCCTCGCAACTTGGGGTGGCCGC
GTGGACATCGGCAAGGAAAGTAGTCTCGCCGTTTACAAACGCCCTCCGGG
TGCGGCGCTCAGCTGGAGCAAGTTGAGCCCTGGGCTCTCCTTCAAGGATG
CCCTGTTCCAAACTGGTGTGACTGGTAGCCCTCAGGTCCGCAAGGGAGGA
AAACTGATGATGCTCACCTCCATCAGCTACCTCATCATCCAAGTGAGTTC
ATTACCTGGGAGCCCAGTTTGCATATGGTTGACCATGTGCTTTTCGGCCA
ATGCACTGCCGTCGATGGTGACGTGGGTTTTGTTTCGACTTGACATATCC
GGGTGGGTTTACCGCTAGGTAGAACTCTGGAAGACTGGGGTCGGAGTCGC
CTCTGACACATGCGGGGGTGGTGTGCTGGGACCGCTTGTAGCTGCGCAAT
ACTGCTCGTTCTCGATCAGTCGCGTCCTTGGCGTATCTACTGCTGCCCAG
TATAGGAACTTTCCGCCTCCTTGTGAGTGCATTCGTGGAGCGAGCTGTCG
GGATAAGTTGGTGCTTTGTCCGCTGCCGTGGCAACACAAGTGTTGTGTCT
ACGGCGCAAAAACCTCATTGAGGCCAACTAGGTCCAGTGAAAGCTCTTGG
CCGGAATCTCGTGATGTGAGTTAGACGGTGTCCGCTTTTCGCTGTTGCAA
AACCGATGGACCACACACAGCAGTCCAGCGCCATTCTTTCTTCTTAAATT
CGTGTGTTTTGAGATAAATTTCAAGGTAACATGAGTGTTCATCCTCATGG
TTCCAGCAACACCTCCCTCTGCCGATGCGCGTTGGTTGTTTTGTCATACA
GGGTCCCGCTTTTTTCTTGAGTAACGAGACGGATGCGGAAGTGTCCTCTG
CAGAGTATTGGTTCGCCCTGGCTGGCATCATCACGTGCTCGGTTCTCTTT
ATCGGGTACCTTCTTTACCAGGTTTGTTATGAGAGAGTAGCTGACAACGG
GATCCGGTTGATTTGTTGATGTGGTGGCCCACTACCCACCCAACTGCTCA
GTAGTACCGTAGTCTCCCTTGAGACCTCAAAGGAGAGGGGCTCTTCAAAG
CGTGTAAACATAGTCTCCCCCGATTCACGCAAGAATAGGATGAAGAATAT
GATAGCCTTTTAGAGCTCCAGCCAGGAGAATGTACCAAAAGCTTGTCGTT
TCACAGCCCCCGACCACATCTGCCGCTAGCGCTCTGCGCCGCTGTCGACC
TTTCGCGCTGAACAACGCAAGTCACATATTTTGATTGAAATATTATTCAA
TGTACCAGTCCTATTGCCGAAATGAAATACTTGCAGAGTACGGTCTGAAT
TGTTTGGTGACACACAGGACCCCGCCCCCTTCGTACTCTAAAAGGCCTAA
GGGAGGGACGGGAAGTTTCTTCGAACCTCGACCCCTGCGTGGTTAACTCA
AGGTTGTCAAGTAGTTCAATATTTTGGGCATTTTTTATAGACGGGCGGAT
GTGGGAGTAGTCAACATTTACCAGGTGTTTATTTCGGTAGATAATTTTGT
TATTTGATGCACTTGGACTCGTTGCGACCAATAGCACGGCTCGTGGGGAG
TTACAGACAGCTAACAGCGGGAATGCCCGTGGCGCGGTTGTCAAACACAG
TGGGAGATGTCCCGCACAGATAATGATCAGGTGTTGGAGGATTTCATGGA
GGAGGTGCGCCGCGACAAGATCATGGAGGGCAAGATCTCCCTCCTTGGGG
TCATGCAGGTTAGTTCGTGATACGGTGCCACTTAGCCGAGTAAGCCATTG
ACTGTCATTGCCAGGGTTGTGACTATACCCCATCTGTGTGCCCTTGTGTG
TTTCAATCGGCGTCTCTGTCATACATTGGTTCGCATGAGCTTTATTGGAC
ATTGTGCACGGTTCATGTTTACACTGCGCCCCGACTGACTGCTGTCGTCA
AACCATTCGAGGTTCTGAGTACATTATTGGTACATATCACGCACGCCATA
TATGATGCCGATGCCCTTGGAATTCGTGAGGTGCGAGCGCTGGTGTTTGC
AGATGTTTGCCTTTATCCTCTCGTCATGTTGTTTCCATATCTCATTCAAA
ATGTGTGGCTCGTGACGTTGGCGTGTACGACTTTTCGCGTTTCCAGGCGG
AGCTCAACTTGGTTGTTGGCTACAGCCAGTCATCGGAAGGAGGCTACCAC
TCCATGGACGGGGTGAGTCATTCGACTCAAGCGGCAGACCTTGATCGGAA
CCCGCGCTGGCGTCGTCATTACGGGCCTGGCAAAGCACTTTGTTTGTGAA
GCTTCAAGTATATTGACGTTGCCCAACTTGCTTGTGTGGACGACTGTGGA
GCATGCACGCATGGTACATTTAGCCGACGCGTGACGCACGAAGCATGCCC
GCGTGCTGCTTGCGCTCACCCCTTCTCTGCTCAGGGAGACCTTGTGTTGC
CGGAGAAGGTGATGAGGCGCCTGGAAAAGCTGCTGAGGCCTTTCTTCGAC
AAGTATGACGATGACAAAAGCGGGCAACTGGACAAGATGGAATTCTGGTC
TGTTTTCCACGACCTCAAAGAACACGTTCAAACTCAGGTCCGTGACTGTG
GCGAGAAAGCATCTCATATTATTCATGTCATAGCGCTCAGTCGCAGTGCA
CTAGCAGCATTTCATGCGTTTCAGAGCCAAGCGGTAGATCTTCTCATTCT
GGTGGAGCGTTGGTTTTATGGAACATGCATCCTGCTTTGTCTATCTTGCT
GTCTGCAGGAGCTCAATGCTATATTTGAAAAAATCGACACAGACCAGTCG
GGTCTGGTAGACTTCGATGAGTTCGTGACTGGCGTGGTCAAGTTTTTGCT
GGAGAAGAGCCCTGACAACGTCGTCAGGTAAACCACACATTTTCTTGACA
CTGCAACAGAGTATGCTTCAGGCGGTCTTGCGCCCGCCACTTCTATACAG
CTTATTCTCTTGGTTGACTCCTCGCTCCTGGCATCTGTAGGCCCCGCCAA
TTCTACACATGACCCCATCATTTCACTTCCCTGTGTTGTGCATGTGTCCA
CTTTTTTCGCTGTTCCCGAAGCACCAGCGTCTGCAGATGGTTCAAGTTTC
GGGCTTCCATAAGCGGCTGCTTTCTTATTTCGACAGCTCTCTGTTTTTGT
CGGGATCTGTTGTTGGTCATATGATATTATGGTTGAGCCTGTGCGTGCGT
GACCCATATGCCCCCCCCCCCCCCCCCCCCCATCGCTGTATTTCGTGTCA
ACAGCGTTCCGGCGGCGGCACACGAAGAGGAGCCTGATGACGGTGACGAG
GAGGAACACGAGGAGGTCAGTGCAGTACCAAGTCTATCCCCAGAAGAAAA
TCGAGTTTCCATTGTAGCGTTGTCAACTCGACACAAGCACCCATATTGCA
TCCACATGTAGAGAGCCATGAGCGCCTATGAGCACTTTGCAAATGATGGT
CGGGGTTGCGGTGGCCCTCTGCAAACATTGGCATAATTGTCCCAGCGGGG
TTTGTTCTGTTCTTGCCCCCCCCTTATTGCGACCTCCACTTCCCTTACAA
CATGATTACCTGCGCGTTGTCGCAGATGCCGGAAGATCTCGTACATCTTG
ACCCGGACACGCAGCAGTTTCAAGTCAAGATGCGCGCGGCCTACCTCATG
ACGGCCGGGACAGCCCTCGTGCTGATTTTCGCTGGTAAGCCGCGATGCGC
AGTCTATTTCCCGGCCAAGCCCATGCATCACCGGATCCGTAGGAATCGGA
GGAGTTTCAATTTTCGTTCCTGCGTAGAATAGTCGCATGCGTAGAGGTTA
CGTCAGTCCATCCAGCTCGGGCAAACCGCTCGGGTCCGGGTAATGCGTTG
ATTGTGGTTGGTTTATCGAATTTGTTACAACAACAAAAATTGGAAACAGT
TGCTGTGCAGATGAGGCCAAAGTATTACACTTTGGAGTAAGGCTAGGGCC
CAACTAACGCGGAAGCCACACTGCACAGCTGACAAGTACGTACCTGGCAT
CATGTAAAGTTTGTAACGCCTTGAATGTACTGCTTTTTTTTGGTCCACAA
GATCCTATGGTGGACGTTTTGGGAGCCGTTGGCGACCGCACGGGCATCTC
CGCTTTCTACATCTCCTTCGTCTTGGCGCCGCTCGCGTCCAACGCCAGTG
AGCTGATCGCCGCTTTCAACTACTCTCTCAAGAAGACAAGTCGCACGATT
GTCATCTCGTTCGCCGCCCTGCAGGTGAGAGGCGCTGCTTTTTTATACAC
GATGAGATCTACGGCAGTGTTCAGATTTGGCCTGTCGACTGGGCTTGAAA
TGCGACAGGGCAACTTTCTCTAGATTCTGCACCCTCAAACGGTTCGCAAA
CATGTGCACTCGTCCTTTTCCTTTGCCTGCCCTGCTGTCTTTGCAGGGTG
CCGCTTGTATGAACAACACGTTCTGCCTGGGAGTGTTCATGTTTCTGGTC
TTCTTCCGTGGCCTTGCGTGGGAGTTTGGAGCTGAAACGGTCGCTATTCT
CTTTGTGCAGGTCAGTCGATGGTCGACGTAAATGTCCTATAAATGTACTG
TAAATGTTGACGTTATGTTGTTCTTTTACAGGAACAAAATACCGCTGAAC
CTATTTAGGGATGAAATTGAATGCTTGCACCGCATGGGACAAGGGCTTGA
GGAAAGTGCGGCGCCTCAGGAATGTGAAATTGATTTCGTCCTTGTGAAAA
CGGTTGTACGGGAGTGAATGGACCGAAGAGACTGTCATTACTTCAAGAAT
ATAAAGGATGAGCACTAAACAAGCGATCAAAAGGCGTGCTGCGATCAAAA
GGCTCGCTGTTCTTAAGGCATACTTGGTAGTTTGTTGAGGAGTATTCACT
AGATGACAGATGCCTCCCTTCGTCCGTGCAACTTCAGTTGCATTTGTCTT
TGTCTGCCTCGGTGTGCTCCCTCCTTACCTATTCTGAAGTTGGCGCCCGA
CCGGCGGGCCACTGTTGCTTCCCCAAATGTGTGCTTTGGATGAGTGTTGT
GGGGTCTGCTCAACCAACACATGGCTACTGATGCACGTGTTCCCGTGACT
GCTCATCTTCTGCACAGGTGGTAATGGCAGTCATTTCCTTGCGCGCCACA
CACCGGGTCATCGACGGCATCCTCGTTCTCTGTCTTTACCCGCTGTCTAT
CATGGTGGTCGCGGGGCTGGAGGCGTTGGGCTGGGACTGATTCATGTCGT
ACTGACTTCGCTCCGTGAACACACACGCAAACGTTCTGTTTGCGTTTGAT
GTGCCCTCATGTCACGTACGAAAGGGTGCGTGTACCAGATTACGTTTGAT
AGTCTTTATTTGACACGTGAGCGCGTGACCACACGTCATACATACGCTGG
CATTCACCGCGTTTCGAGAACGATAGTTTTACGATCACGTTGCAGAGCTC
GTCTTTATCCCGTTTTCCGGGTTCTATCTCAAGAAACATATGTTCTCATA
TTATTCATGTTGTTACTCTGAATTCGTGGTATTTATCGACAAATTGTACC
ACGTTAGGATTTTATTTAGTTTTCGCGCAATAGAGGATCTAGCGATGTTT
GGGGCAGAAAGTGCCTGTGTGCCCTTTGAGTGTGCGGTTCCGACTTGCAT
GGTGTTTTTACGCGCTCAACTTGCAGGTGCGATCATGATTTGTCTCTCTG
CTCTGTCCAGGCTGGTAGGTGGGGGACAATGAGTTGCTTTCATCATTCCA
TTTTTCCCACCCGCTGTAAAATTTAAGTTAGTTCCGAAGTGCATCCATGG
CCGCTCCTCCATAGGCAAGCGTGATTTCTTTTACTCAAAAGTAGTTGGCT
TGTCACACTTGTTTGCGCGTGCTAGGGCGTTTTAATTTAAGCTTAGATCC
AGTTTTGTACAAGCCCCGGTTTGGTTGTTGTTGTGGGTGCGTGCTTGTAG
GGTGGCGCAGCACTCCCGAATTTTTTTATCATTTGGTCTGGCTACCAGCA
GGGTTGGAGGGCCATTTTTTTATGGCGCACGACTTTTTCCTGGGCGTGTT
TACTACACCTCCTTCTGTTTTTTGGCCTTGTGGATTGTTCTTTCACATGT
TTCATTCGGTTTGGCTCTGTCTCTCCGATGTCTGACTTTTCCTGCTTCGG
CGTCATGTGTTGTTTTTCTTTTTTTCTCTTTTGTCGTGGACGAAGGGCAT
TTTTATTTGTCGTGTACTTTATCGTGTAAGAGGATGTCTGTGAGAACGGA
AGTCGTCTCACTGGTTGAATAAACTGAGTATCATAGTAAGGAGAGTGGAG
GAGGCGCTCAATACCACATGGATGATCGATGTTCGAGCGGTGCTTTAAGG
GCAAGACAATCACACCGATTTTCTGTTTGCTGTTTTGAAGCTCACGAGCA
TCTTAGCTTCGAATGAAGTACTTGTCCGTTGGTTTGTTTTTCTGGCTCCG
TCTCTGCCCCCTCTGCTCTCCTCTGGGAGAGTTGCGCTTCATTCTCAGTG
AAGAAGGATTAAAATATGGTGTCGACGTTTTCGCTTTTAGTGTCGGTAAT
AAAAGTGTTCCGTTTTGGTGATGCGATGAAATATTTTATGTGTCCCATAT
GTGTGCTGTTCTTCCAGAGAAGAACTCGTACGTTGGTACGAAGATCGTCT
AGAGCAGGGAACGTTCTGCATATCAGACCAACAAACAGGTACCTGGTACA
TGGGAAAAATTTAAGAATGTCTGTGATACAACTCAAACTCGAGTGTAAAG
TGCATGGTGGCGAAGTATTCAGATGGATCATCTCGGAGATTTGGATGCCT
ATCAGGTTTGAGTCTTTGCCGGTGTCCACGACCTTCCGCGCGGTGTGGCT
CTCGGGTGCGTGCACGTACAACGCCGTCCCCACCATAATAGTGTCTCCTC
TGCACTCGTGTTGCACCTTTTTCCTTCCGCGCGGTGTGGAAAGCGAACTG
TGAGACACACCAATCAGTATAAAATGTATACTCTACACGCCGCACGCACT
TGATGAGAACACGCCTGCGAGTGATATCCTCGTGTAAACCCGAACACTCT
GAAATTGGAGTCGACGGCAGGTTGGTTCACAAACATCATATATACCAGGT
ACGATATACAAGTACCTGAATACACTCAAATGCGTGAACTTTTTTGCCGT
TCGGGATGTGAGTTGTGTGCGTCTGGGTACAAAGTGTGTGTTGCATGCTT
CGTGTGTGCATCATGATTTTCATTTCCAAGGGGAAAGACCTGCTTAAGAC
GGACGACGGCGTCGTATCATACAAAAGATGCGCCGTAGACTCTCCTTGTT
GTACTTCTTATGTTCTGTTTGTGCATGCATTCATTCTTGAGAGGAAAGAC
CCGCTGAAGACCGACGACGTCGAACAAAAGATATGTAGATGCGGCCCCAC
TCAAGAAACTCTTATTTTCCTGAGGTTCAATAGCGTCTTTATAGAGATA back to topCoding sequence (CDS) from alignment at P-littoralis_Contig1028:10942..34940+ >mRNA_P-littoralis_Contig1028.5.1 ID=mRNA_P-littoralis_Contig1028.5.1|Name=mRNA_P-littoralis_Contig1028.5.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1674bp|location=Sequence derived from alignment at P-littoralis_Contig1028:10942..34940+ (Pylaiella littoralis U1_48)
ATGTCAATCTTTATCGACCCTGACTCCCTTCCAGATGGCTGGCAGGGTTT
CGTCCAAGTTTTAAGTCTGCTGTTTGCGTATGGGTTCATCCTCTTCACCG
CATCCAACATGATCTCGGATGGGTCGGAGCTACTGCTGCTTGTTCCAGCC
TTGGCAGGCATAGTGGGGTCTGTGGTCCTCCCCGTACTGGGCGCGGTCCC
TGACGGTGCCATCGTCCTTTTCTCAGGGCTGGGCGACGACGCGCAGGAAC
AGCTGTCTGTCGGTGTTGGTGCTCTCGCGGGATCGACCATTATGCTGTTG
ACCATCCCCTGGTTCCTCGCAACTTGGGGTGGCCGCGTGGACATCGGCAA
GGAAAGTAGTCTCGCCGTTTACAAACGCCCTCCGGGTGCGGCGCTCAGCT
GGAGCAAGTTGAGCCCTGGGCTCTCCTTCAAGGATGCCCTGTTCCAAACT
GGTGTGACTGGTAGCCCTCAGGTCCGCAAGGGAGGAAAACTGATGATGCT
CACCTCCATCAGCTACCTCATCATCCAAGGTCCCGCTTTTTTCTTGAGTA
ACGAGACGGATGCGGAAGTGTCCTCTGCAGAGTATTGGTTCGCCCTGGCT
GGCATCATCACGTGCTCGGTTCTCTTTATCGGGTACCTTCTTTACCAGTG
GGAGATGTCCCGCACAGATAATGATCAGGTGTTGGAGGATTTCATGGAGG
AGGTGCGCCGCGACAAGATCATGGAGGGCAAGATCTCCCTCCTTGGGGTC
ATGCAGGCGGAGCTCAACTTGGTTGTTGGCTACAGCCAGTCATCGGAAGG
AGGCTACCACTCCATGGACGGGGGAGACCTTGTGTTGCCGGAGAAGGTGA
TGAGGCGCCTGGAAAAGCTGCTGAGGCCTTTCTTCGACAAGTATGACGAT
GACAAAAGCGGGCAACTGGACAAGATGGAATTCTGGTCTGTTTTCCACGA
CCTCAAAGAACACGTTCAAACTCAGGAGCTCAATGCTATATTTGAAAAAA
TCGACACAGACCAGTCGGGTCTGGTAGACTTCGATGAGTTCGTGACTGGC
GTGGTCAAGTTTTTGCTGGAGAAGAGCCCTGACAACGTCGTCAGCGTTCC
GGCGGCGGCACACGAAGAGGAGCCTGATGACGGTGACGAGGAGGAACACG
AGGAGATGCCGGAAGATCTCGTACATCTTGACCCGGACACGCAGCAGTTT
CAAGTCAAGATGCGCGCGGCCTACCTCATGACGGCCGGGACAGCCCTCGT
GCTGATTTTCGCTGATCCTATGGTGGACGTTTTGGGAGCCGTTGGCGACC
GCACGGGCATCTCCGCTTTCTACATCTCCTTCGTCTTGGCGCCGCTCGCG
TCCAACGCCAGTGAGCTGATCGCCGCTTTCAACTACTCTCTCAAGAAGAC
AAGTCGCACGATTGTCATCTCGTTCGCCGCCCTGCAGGGTGCCGCTTGTA
TGAACAACACGTTCTGCCTGGGAGTGTTCATGTTTCTGGTCTTCTTCCGT
GGCCTTGCGTGGGAGTTTGGAGCTGAAACGGTCGCTATTCTCTTTGTGCA
GGTGGTAATGGCAGTCATTTCCTTGCGCGCCACACACCGGGTCATCGACG
GCATCCTCGTTCTCTGTCTTTACCCGCTGTCTATCATGGTGGTCGCGGGG
CTGGAGGCGTTGGGCTGGGACTGA back to top
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