Homology
BLAST of mRNA_P-fluviatile_contig100.935.1 vs. uniprot
Match:
A0A6H5KHV3_9PHAE (3-isopropylmalate dehydratase n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KHV3_9PHAE)
HSP 1 Score: 929 bits (2401), Expect = 0.000e+0
Identity = 463/538 (86.06%), Postives = 490/538 (91.08%), Query Frame = 1
Query: 202 RKLAVSQNAVAWASVGMLVLCGMASSLAPGQGLGVGSGCAQGFLGSGGMVRLSKPRKDGAINAKFEGSISMVTSVKVSEPMTLTEKIIAKACNRRSVAPNDNVWVKTDVLMTHDVCGPGTIGNFYKEFGPKAKVWDPEGVVIIPDHYIFTADPRANRNVDILRDFVNEQGIKYFYDITDRGNFKVNPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKSPASMQFALEGEIPDHLLAKDIILQIIGDIGVAGATYRSMEFAGSALGQLSMEERQTLCNMAIEAGGKNGVIPADDITVAYVDARNAGNKPYEIFSADPNAKYFSKKRYNVEDLEPVVAKPHSPDNKALAKDCRDTKIDRVYIGSCTGGKTEDFAAAARILQNQKVRVPTFLVPATQKVYNDIQNLKIGGRTMASIFREAGCLEPASPSCAACLGGPADTFARMNEPFQCVSTTNRNFPGRMGHKDAGIYLASPYTAAASAVTGFVTDPREVFDFDKGKRWAIEDILTESVQ 1815
RK S AVA+AS+G L LCG +S Q L V +G +R +P++ A +GS +M TSVKVSEPMTLTEKIIAKAC+R+SVAPNDNVWVKTDVLMTHDVCGPGTIGNFYKEFGPKAKVWDPEGVVIIPDHYIFTADPRANRNVDILRDFVN+Q IKYFYDITDRGNFK NPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKSPASMQFALEGEIPDHLLAKDIILQIIGDIGVAGATYRSMEFAGSALGQLSMEERQTLCNMAIEAGGKNGVIPADD+T+AYV+ARNAGN+PYEIF ADPNAKYFSKK Y++ +LEPVVAKPHSPDNKALAKDCRDTKIDRVYIGSCTGGKTEDFAAAARILQNQKVRVPTFLVPATQKVYNDIQ LKIGGRT+ SIFREAGCLEPASPSCAACLGGPADT+ARMNEPFQCVSTTNRNFPGRMGHKDAGIYLASPYTAAASA+TG+VTDPREVF FD+ KRWAIEDILT+S +
Sbjct: 6 RKCVPSYIAVAYASLGALSLCGTTTSFVLRQNLIV-------TPKAGRYLREGEPKE-----ATRKGSATMATSVKVSEPMTLTEKIIAKACDRQSVAPNDNVWVKTDVLMTHDVCGPGTIGNFYKEFGPKAKVWDPEGVVIIPDHYIFTADPRANRNVDILRDFVNQQDIKYFYDITDRGNFKANPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKSPASMQFALEGEIPDHLLAKDIILQIIGDIGVAGATYRSMEFAGSALGQLSMEERQTLCNMAIEAGGKNGVIPADDVTMAYVNARNAGNRPYEIFKADPNAKYFSKKTYDMSNLEPVVAKPHSPDNKALAKDCRDTKIDRVYIGSCTGGKTEDFAAAARILQNQKVRVPTFLVPATQKVYNDIQTLKIGGRTLGSIFREAGCLEPASPSCAACLGGPADTYARMNEPFQCVSTTNRNFPGRMGHKDAGIYLASPYTAAASAITGYVTDPREVFGFDQDKRWAIEDILTDSAR 531
BLAST of mRNA_P-fluviatile_contig100.935.1 vs. uniprot
Match:
X2KY86_SCYLO (3-isopropylmalate dehydratase n=1 Tax=Scytosiphon lomentaria TaxID=27967 RepID=X2KY86_SCYLO)
HSP 1 Score: 919 bits (2374), Expect = 0.000e+0
Identity = 462/548 (84.31%), Postives = 494/548 (90.15%), Query Frame = 1
Query: 193 QSRRKLAVSQNAVAWASVGMLVLCGMASSLAPGQGLGVGS---GCAQGFLGS-GGMVRLS--KPRKDGAINAKFEGSI-SMVTSVKVSEPMTLTEKIIAKACNRRSVAPNDNVWVKTDVLMTHDVCGPGTIGNFYKEFGPKAKVWDPEGVVIIPDHYIFTADPRANRNVDILRDFVNEQGIKYFYDITDRGNFKVNPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKSPASMQFALEGEIPDHLLAKDIILQIIGDIGVAGATYRSMEFAGSALGQLSMEERQTLCNMAIEAGGKNGVIPADDITVAYVDARNAGNKPYEIFSADPNAKYFSKKRYNVEDLEPVVAKPHSPDNKALAKDCRDTKIDRVYIGSCTGGKTEDFAAAARILQNQKVRVPTFLVPATQKVYNDIQNLKIGGRTMASIFREAGCLEPASPSCAACLGGPADTFARMNEPFQCVSTTNRNFPGRMGHKDAGIYLASPYTAAASAVTGFVTDPREVFDFDKGKRWAIEDILTESVQ 1815
++ ++ +S AV AS+G L L A+S GQ LGV S GC + F+ S G V+L + R+ + A SMVTSVKVSEPMT+TEKIIAKAC R SVAPNDNVWV+TDVLMTHDVCGPGTIGNFYKEFGPKAKVWDPEGVVIIPD YIFTADPRANRNVDILRDFVN+Q IKYFYDITDRGNFKVNPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKSPASMQFALEGE+PDHLLAKDIILQIIGDIGVAGATYRSMEFAGSALGQLSMEERQTLCNMAIEAGGKNGVIPAD +T AYVDARNAGNKPYEIF+AD NAKYFSK+RY+V +LEPVVAKPHSPDNKALA+DCRDTKIDRVYIGSCTGGKTEDFAAAARILQNQKVRVPTFLVPATQKVYNDIQ + IGGRT+ASIFREAGCLEPASPSCAACLGGPADT+ARMNEPFQCVSTTNRNFPGRMGHK AGIYLASPYTAAASA+TGFVTDPREVF+FDKGKRWA+EDIL+ ++
Sbjct: 3 RTEKRAVLSLWAVVRASMGALCLFDTATSFVWGQRLGVTSRTRGCMRAFVSSRGSTVQLPPLRERQGRVVKAASRPQTPSMVTSVKVSEPMTVTEKIIAKACGRSSVAPNDNVWVRTDVLMTHDVCGPGTIGNFYKEFGPKAKVWDPEGVVIIPDQYIFTADPRANRNVDILRDFVNQQDIKYFYDITDRGNFKVNPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKSPASMQFALEGEMPDHLLAKDIILQIIGDIGVAGATYRSMEFAGSALGQLSMEERQTLCNMAIEAGGKNGVIPADHVTTAYVDARNAGNKPYEIFNADQNAKYFSKQRYDVGNLEPVVAKPHSPDNKALARDCRDTKIDRVYIGSCTGGKTEDFAAAARILQNQKVRVPTFLVPATQKVYNDIQTMTIGGRTLASIFREAGCLEPASPSCAACLGGPADTYARMNEPFQCVSTTNRNFPGRMGHKGAGIYLASPYTAAASAITGFVTDPREVFEFDKGKRWAVEDILSAGLE 550
BLAST of mRNA_P-fluviatile_contig100.935.1 vs. uniprot
Match:
A0A835YVF1_9STRA (3-isopropylmalate dehydratase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YVF1_9STRA)
HSP 1 Score: 830 bits (2143), Expect = 5.810e-296
Identity = 398/460 (86.52%), Postives = 426/460 (92.61%), Query Frame = 1
Query: 421 SVKVSEPMTLTEKIIAKACNRRSVAPNDNVWVKTDVLMTHDVCGPGTIGNFYKEFGPKAKVWDPEGVVIIPDHYIFTADPRANRNVDILRDFVNEQGIKYFYDITDRGNFKVNPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKSPASMQFALEGEIPDHLLAKDIILQIIGDIGVAGATYRSMEFAGSALGQLSMEERQTLCNMAIEAGGKNGVIPADDITVAYVDARNAGNKPYEIFSADPNAKYFSKKRYNVEDLEPVVAKPHSPDNKALAKDCRDTKIDRVYIGSCTGGKTEDFAAAARILQNQKVRVPTFLVPATQKVYNDIQNLKIGGRTMASIFREAGCLEPASPSCAACLGGPADTFARMNEPFQCVSTTNRNFPGRMGHKDAGIYLASPYTAAASAVTGFVTDPREVFDFDKGKRWAIEDIL 1800
SVK+++PMTLTEKIIAKAC++ V PNDNVWVKTDVLMTHDVCGPGTIGNFYKEFG AKVWD EGVVIIPDHYIFTADPRANRNVDILR+F +Q +KYFYDITDRGNFKVNPDYKGVCHVALAQEGH RPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIK+PA+M+FAL GEIPD+LLAKD+ILQIIGDIGVAGATYRSMEFAGSAL QLSMEERQTLCNMAIEAGGKNG+IPAD+IT AYVD RNAG KPYE+F+AD A YF+ K Y++ LEPVVA PHSPDNKALAKDCRDTKIDRVYIGSCTGGKTEDFAAAAR+L QKVRVPTFLVPATQKVYNDIQNLKI GRTMA IFREAGC+EPASPSCAACLGGPADTFARMNEP CVSTTNRNFPGRMGHKDAGI+LASPYTAAASAVTG+VTDPREV+ FDK +R +E +L
Sbjct: 15 SVKIAQPMTLTEKIIAKACDKSVVRPNDNVWVKTDVLMTHDVCGPGTIGNFYKEFGADAKVWDNEGVVIIPDHYIFTADPRANRNVDILREFAAQQNLKYFYDITDRGNFKVNPDYKGVCHVALAQEGHCRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKTPATMRFALNGEIPDYLLAKDVILQIIGDIGVAGATYRSMEFAGSALSQLSMEERQTLCNMAIEAGGKNGIIPADEITRAYVDQRNAGQKPYEVFAADAKATYFADKTYDMSQLEPVVAMPHSPDNKALAKDCRDTKIDRVYIGSCTGGKTEDFAAAARVLDGQKVRVPTFLVPATQKVYNDIQNLKINGRTMAQIFREAGCIEPASPSCAACLGGPADTFARMNEPLLCVSTTNRNFPGRMGHKDAGIFLASPYTAAASAVTGYVTDPREVYGFDKARRHPVETLL 474
BLAST of mRNA_P-fluviatile_contig100.935.1 vs. uniprot
Match:
W7TZ20_9STRA (3-isopropylmalate dehydratase n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7TZ20_9STRA)
HSP 1 Score: 770 bits (1988), Expect = 9.230e-272
Identity = 367/460 (79.78%), Postives = 413/460 (89.78%), Query Frame = 1
Query: 439 PMTLTEKIIAKACNRRSVAPNDNVWVKTDVLMTHDVCGPGTIGNFYKEFGPKAKVWDPEGVVIIPDHYIFTADPRANRNVDILRDFVNEQGIKYFYDITDRGNFKVNPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKSPASMQFALEGEIPDHLLAKDIILQIIGDIGVAGATYRSMEFAGSALGQLSMEERQTLCNMAIEAGGKNGVIPADDITVAYVDARNAGNKPYEIFSADPNAKYFSKKRYNVEDLEPVVAKPHSPDNKALAKDCRDTKIDRVYIGSCTGGKTEDFAAAARILQNQKVRVPTFLVPATQKVYNDIQNLKIGGRTMASIFREAGCLEPASPSCAACLGGPADTFARMNEPFQCVSTTNRNFPGRMGHKDAGIYLASPYTAAASAVTGFVTDPREVFDFDKGKRWAIEDILTESVQS 1818
PMTLTEKI+A+A + SVAPNDNVWV+ D LMTHDVCGPGT G F KEFG AKVWD E V+IIPDHYIFT+DPRANRNVDILRDFV EQ IKYFYDITDRG FK NPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDA+FV+GTGKLL+K PASM+F L GEIPD+LLAKD+ILQIIGDIGVAGATYR+MEF G+A+ QLSMEERQTLCNMAIEAGGKNG+IPAD++T AYVDARNAG++PY IF ADP+A YF+K Y++ LEPVVAKPHSPDN+ALA++CRD KIDRVYIGSCTGGKTEDF AAARILQ KV VPTFLVPAT++VY+D+ +L +GGRT+A IFR+AGC++PASPSCAACLGGPADTFARMNEP CVSTTNRNFPGRMGHKDAGI+LASPYTAAASAVTG+VTDPREVF+F + ++ A E + T++ S
Sbjct: 55 PMTLTEKILARAAGKESVAPNDNVWVRADNLMTHDVCGPGTFGLFKKEFGANAKVWDRERVLIIPDHYIFTSDPRANRNVDILRDFVQEQNIKYFYDITDRGEFKANPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDAAFVLGTGKLLLKVPASMKFELNGEIPDYLLAKDMILQIIGDIGVAGATYRAMEFGGNAIRQLSMEERQTLCNMAIEAGGKNGIIPADEVTTAYVDARNAGSRPYTIFEADPDASYFAKYAYDLSSLEPVVAKPHSPDNRALARECRDIKIDRVYIGSCTGGKTEDFVAAARILQQNKVSVPTFLVPATRRVYDDLYSLTLGGRTLAQIFRDAGCIDPASPSCAACLGGPADTFARMNEPLLCVSTTNRNFPGRMGHKDAGIFLASPYTAAASAVTGYVTDPREVFEFSQTRQPA-ETLATKAPAS 513
BLAST of mRNA_P-fluviatile_contig100.935.1 vs. uniprot
Match:
A0A5J4YMP4_PORPP (3-isopropylmalate dehydratase n=1 Tax=Porphyridium purpureum TaxID=35688 RepID=A0A5J4YMP4_PORPP)
HSP 1 Score: 699 bits (1803), Expect = 9.580e-244
Identity = 332/458 (72.49%), Postives = 384/458 (83.84%), Query Frame = 1
Query: 427 KVSEPMTLTEKIIAKACNRRSVAPNDNVWVKTDVLMTHDVCGPGTIGNFYKEFGPKAKVWDPEGVVIIPDHYIFTADPRANRNVDILRDFVNEQGIKYFYDITDRGNFKVNPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKSPASMQFALEGEIPDHLLAKDIILQIIGDIGVAGATYRSMEFAGSALGQLSMEERQTLCNMAIEAGGKNGVIPADDITVAYVDARNAGNKPYEIFSADPNAKYFSKKRYNVEDLEPVVAKPHSPDNKALAKDCRDTKIDRVYIGSCTGGKTEDFAAAARILQNQKVRVPTFLVPATQKVYNDIQNLKIGGRTMASIFREAGCLEPASPSCAACLGGPADTFARMNEPFQCVSTTNRNFPGRMGHKDAGIYLASPYTAAASAVTGFVTDPREVFDFDKGKRWAIEDIL 1800
K+ PMTL EK++A+ N+ SV P DN+WV DVLMTHDVCGPGTIG F +EFG AKV+D E VVIIPDHYIFTAD RANRNVDILRDF EQ IKYFYDI DR +FKVNPDYKGVCH+ALAQEGHTRPGE+LFGTDSHTCNAGAFG FATGIGNTDA FVMGTGKLL+K PASM+F +G++PD++ AKD+ILQ IGDIGVAGATYRSMEFAG + LSMEER TLCNMAIEAGGKNG+I AD+ T AY+ R KP+ + ++D A+YF+ +Y +LEPVVAKPHSPDN+ LA++CRD KIDRVYIGSCTGGK+EDF AAAR+LQ +KV+VPT+LVPATQ+V+ D+ N+KI G+T+A IF EAGC+EPA+PSCAACLGGP DTFARMN CVSTTNRNFPGRMG KD+ +YLASPYTAAASAVTG+VTDPREVF+FDK KR E +
Sbjct: 60 KLVRPMTLVEKVLARGANKDSVKPGDNIWVDVDVLMTHDVCGPGTIGIFKREFGADAKVFDKEKVVIIPDHYIFTADERANRNVDILRDFAREQNIKYFYDIVDRSDFKVNPDYKGVCHIALAQEGHTRPGEILFGTDSHTCNAGAFGMFATGIGNTDAGFVMGTGKLLVKVPASMRFVFDGQLPDYIHAKDMILQCIGDIGVAGATYRSMEFAGGVIKGLSMEERMTLCNMAIEAGGKNGIIAADETTFAYL--RGKTEKPFTVLNSDEEAQYFADYKYQASELEPVVAKPHSPDNRDLARNCRDHKIDRVYIGSCTGGKSEDFIAAARLLQGKKVKVPTYLVPATQRVWQDVYNIKIKGQTLAEIFSEAGCVEPAAPSCAACLGGPKDTFARMNTAEVCVSTTNRNFPGRMGSKDSSVYLASPYTAAASAVTGYVTDPREVFEFDKQKRVTAEQAI 515
BLAST of mRNA_P-fluviatile_contig100.935.1 vs. uniprot
Match:
UPI001FBA0E57 (3-isopropylmalate dehydratase large subunit n=1 Tax=Aetokthonos hydrillicola TaxID=1550245 RepID=UPI001FBA0E57)
HSP 1 Score: 689 bits (1779), Expect = 2.270e-241
Identity = 325/437 (74.37%), Postives = 376/437 (86.04%), Query Frame = 1
Query: 442 MTLTEKIIAKACNRRSVAPNDNVWVKTDVLMTHDVCGPGTIGNFYKEFGPKAKVWDPEGVVIIPDHYIFTADPRANRNVDILRDFVNEQGIKYFYDITDRGNFKVNPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKSPASMQFALEGEIPDHLLAKDIILQIIGDIGVAGATYRSMEFAGSALGQLSMEERQTLCNMAIEAGGKNGVIPADDITVAYVDARNAGNKPYEIFSADPNAKYFSKKRYNVEDLEPVVAKPHSPDNKALAKDCRDTKIDRVYIGSCTGGKTEDFAAAARILQNQKVRVPTFLVPATQKVYNDIQNLKIGGRTMASIFREAGCLEPASPSCAACLGGPADTFARMNEPFQCVSTTNRNFPGRMGHKDAGIYLASPYTAAASAVTGFVTDPRE 1752
MTLTEKI+AKA R V P +N+WV DVLMTHDVCGPGTIG F +EFG AKVWDP+ +V+IPDHYIFTAD RANRNVDILRDF +QGIKYFYDITDR NFK NPDYKGVCH+ALAQEGHTRPGEVLFGTDSHTCNAGAFG+FATGIGNTDA F+MGTGKLLIK PA+M+F L+GE+P +LLAKD+ILQIIGDIGVAGATYR+MEFAG ++ +++MEER TLCNM IEAGGKNGVI D+ T Y+ R +KP+E DP+AK++S + Y+V LEPVVAKPHSPDN+ALA++C D KIDRVYIGSCTGGKT DF AA+IL+ +KV+VPT+LVPATQKVY D+ LK G+T++ IF EAGC+EPA+PSCAACLGGP DTF R+NEP CVSTTNRNFPGRMG+K+AGIYLASPYTAAASA+TG+VTDPRE
Sbjct: 1 MTLTEKILAKASGRSVVTPGENIWVDVDVLMTHDVCGPGTIGVFEREFGADAKVWDPDKIVLIPDHYIFTADERANRNVDILRDFAQQQGIKYFYDITDRSNFKANPDYKGVCHIALAQEGHTRPGEVLFGTDSHTCNAGAFGEFATGIGNTDAGFIMGTGKLLIKVPATMRFVLDGELPPYLLAKDLILQIIGDIGVAGATYRTMEFAGESIQRMTMEERMTLCNMVIEAGGKNGVIAPDETTFEYLRTRT--DKPFEAVYTDPDAKFYSDRHYDVSQLEPVVAKPHSPDNRALARECSDVKIDRVYIGSCTGGKTTDFFNAAQILKGRKVKVPTYLVPATQKVYEDLFKLKYEGQTLSEIFLEAGCIEPAAPSCAACLGGPKDTFGRVNEPEVCVSTTNRNFPGRMGNKEAGIYLASPYTAAASALTGYVTDPRE 435
BLAST of mRNA_P-fluviatile_contig100.935.1 vs. uniprot
Match:
A0A1X6NQJ8_PORUM (3-isopropylmalate dehydratase n=1 Tax=Porphyra umbilicalis TaxID=2786 RepID=A0A1X6NQJ8_PORUM)
HSP 1 Score: 689 bits (1778), Expect = 6.740e-240
Identity = 331/457 (72.43%), Postives = 381/457 (83.37%), Query Frame = 1
Query: 409 SMVTSVKVSEPMTLTEKIIAKACNRRSVAPNDNVWVKTDVLMTHDVCGPGTIGNFYKEFGPKAKVWDPEGVVIIPDHYIFTADPRANRNVDILRDFVNEQGIKYFYDITDRGNFKVNPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKSPASMQFALEGEIPDHLLAKDIILQIIGDIGVAGATYRSMEFAGSALGQLSMEERQTLCNMAIEAGGKNGVIPADDITVAYVDARNAGNKPYEIFSADPNAKYFSKKRYNVEDLEPVVAKPHSPDNKALAKDCRDTKIDRVYIGSCTGGKTEDFAAAARILQNQKVRVPTFLVPATQKVYNDIQNLKIGGRTMASIFREAGCLEPASPSCAACLGGPADTFARMNEPFQCVSTTNRNFPGRMGHKDAGIYLASPYTAAASAVTGFVTDPREVFDFDKGKR 1779
S VK++ PMTLTEKI+AKA R SV P DN+WV TDVLMTHDVCGPGTIG F +EFG AKVWD E VVIIPDHYIFT D RANRNVDILRDFVNEQGIKYFYDI DR ++KVNPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGN+DA FVMGTGKLL+K PA+M+F L G +PD+++AKD+ILQIIGDIG AGATYR+MEF+G + LSMEERQTLCNMAIEAGGKNG+I AD T A++ R ++PYEIF D A ++ Y+ LEPVVAKPHSPDNK LA++C D +IDRVYIGSCTGGKTEDF AAARILQ ++V VPTFLVPAT KV +D++ + + G T+ SIFR AGC++PA+PSCAACLGGP DTFAR+NEP CVSTTNRN+PGR GH + I+LASPYTAAASA+TG VTDPR+V+DF+ +R
Sbjct: 58 STAPGVKIATPMTLTEKILAKAAERGSVRPGDNIWVNTDVLMTHDVCGPGTIGVFKREFGEDAKVWDTEKVVIIPDHYIFTEDVRANRNVDILRDFVNEQGIKYFYDIIDRSDYKVNPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNSDAGFVMGTGKLLLKVPATMRFVLNGVLPDYIMAKDLILQIIGDIGTAGATYRAMEFSGDVIDALSMEERQTLCNMAIEAGGKNGLIAADATTEAFLAGRT--DRPYEIFHTDGKAGTYADYTYDAATLEPVVAKPHSPDNKDLARNCADVRIDRVYIGSCTGGKTEDFLAAARILQGRQVCVPTFLVPATAKVASDLETITMNGETLKSIFRSAGCIDPAAPSCAACLGGPKDTFARINEPLVCVSTTNRNYPGRQGHSEGQIFLASPYTAAASAITGKVTDPRKVYDFNDVRR 512
BLAST of mRNA_P-fluviatile_contig100.935.1 vs. uniprot
Match:
K9W3H2_9CYAN (Homoaconitate hydratase family protein n=12 Tax=Cyanobacteria TaxID=1117 RepID=K9W3H2_9CYAN)
HSP 1 Score: 684 bits (1766), Expect = 2.280e-239
Identity = 323/437 (73.91%), Postives = 373/437 (85.35%), Query Frame = 1
Query: 442 MTLTEKIIAKACNRRSVAPNDNVWVKTDVLMTHDVCGPGTIGNFYKEFGPKAKVWDPEGVVIIPDHYIFTADPRANRNVDILRDFVNEQGIKYFYDITDRGNFKVNPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKSPASMQFALEGEIPDHLLAKDIILQIIGDIGVAGATYRSMEFAGSALGQLSMEERQTLCNMAIEAGGKNGVIPADDITVAYVDARNAGNKPYEIFSADPNAKYFSKKRYNVEDLEPVVAKPHSPDNKALAKDCRDTKIDRVYIGSCTGGKTEDFAAAARILQNQKVRVPTFLVPATQKVYNDIQNLKIGGRTMASIFREAGCLEPASPSCAACLGGPADTFARMNEPFQCVSTTNRNFPGRMGHKDAGIYLASPYTAAASAVTGFVTDPRE 1752
MTLTEKI+A+A R V P DN+WV D+LMTHDVCGPGTIG F +EFG AKVWD E +V+IPDHYIFTAD RANRNVDILRDF EQGIKYFYDITDR +FK NPDYKGVCH+ALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDA F+MGTGKLLIK PA+M+F L GE+P +LLAKD+ILQIIGDIGVAGATYR+MEFAGS + LSME+R TLCNMAIEAGGKNG + D+ T YV R+ NKP+E D +A+++S ++Y+V LEPVVAKPHSPDN+ALA++CRD KIDRVYIGSCTGGKT DF AA++L+ Q+V+VPT++VPATQKVY D+ K G+T++ I +AGC+EPA+PSCAACLGGP DTF RMNEP CVSTTNRNFPGRMG+K+AGIYLASPYTAAASA+TG+VTDPRE
Sbjct: 3 MTLTEKILARASGRSVVEPGDNIWVNVDLLMTHDVCGPGTIGVFKREFGADAKVWDTEKIVLIPDHYIFTADERANRNVDILRDFAKEQGIKYFYDITDRSDFKANPDYKGVCHIALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDAGFIMGTGKLLIKVPATMRFLLNGEMPKYLLAKDLILQIIGDIGVAGATYRAMEFAGSTIQHLSMEDRMTLCNMAIEAGGKNGTVAPDETTFEYV--RDRTNKPFEPVYTDADARFYSDRQYDVSQLEPVVAKPHSPDNRALARECRDVKIDRVYIGSCTGGKTSDFMYAAQVLKGQQVKVPTYIVPATQKVYEDLFTTKYDGKTLSEILLDAGCIEPAAPSCAACLGGPKDTFGRMNEPEICVSTTNRNFPGRMGNKEAGIYLASPYTAAASAITGYVTDPRE 437
BLAST of mRNA_P-fluviatile_contig100.935.1 vs. uniprot
Match:
K9TYF3_CHRTP (Homoaconitate hydratase family protein n=26 Tax=Cyanobacteria TaxID=1117 RepID=K9TYF3_CHRTP)
HSP 1 Score: 683 bits (1763), Expect = 6.260e-239
Identity = 323/437 (73.91%), Postives = 374/437 (85.58%), Query Frame = 1
Query: 442 MTLTEKIIAKACNRRSVAPNDNVWVKTDVLMTHDVCGPGTIGNFYKEFGPKAKVWDPEGVVIIPDHYIFTADPRANRNVDILRDFVNEQGIKYFYDITDRGNFKVNPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKSPASMQFALEGEIPDHLLAKDIILQIIGDIGVAGATYRSMEFAGSALGQLSMEERQTLCNMAIEAGGKNGVIPADDITVAYVDARNAGNKPYEIFSADPNAKYFSKKRYNVEDLEPVVAKPHSPDNKALAKDCRDTKIDRVYIGSCTGGKTEDFAAAARILQNQKVRVPTFLVPATQKVYNDIQNLKIGGRTMASIFREAGCLEPASPSCAACLGGPADTFARMNEPFQCVSTTNRNFPGRMGHKDAGIYLASPYTAAASAVTGFVTDPRE 1752
MTLTEKI+AKA R +V P +N+WV D+LMTHDVCGPGTIG F +EFG KVW+PE +V+IPDHYIFTAD RANRNVDILRDF +EQGIKYFYDITDR NFK NPDYKGVCH+ALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDA+F+MGTGKLLIK PA+M+F L+GE+P++LLAKD+IL IIGDI VAGA YR+MEFAG + +++ME+R TLCNMAIEAGGKNG I ADD T YV AR +KP+E D +AK++S +RY+V LEPVVA+PHSPDN+ALA++C D KIDRVYIGSCTGGKTEDF AA IL+ Q+V+VPT+LVPATQKVYND+ LK G+T++ IF +AGC+EP +PSCAACLGGP DTF RMN+P CVSTTNRNFPGRMG K A IYLASPYTAAASA+TG+VTDPRE
Sbjct: 3 MTLTEKILAKASGRNAVEPGENIWVDVDLLMTHDVCGPGTIGVFKREFGADTKVWNPEKIVLIPDHYIFTADERANRNVDILRDFAHEQGIKYFYDITDRSNFKANPDYKGVCHIALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDAAFIMGTGKLLIKVPATMRFVLDGEMPNYLLAKDLILHIIGDISVAGANYRTMEFAGETVSRMTMEDRMTLCNMAIEAGGKNGTIAADDTTFEYVRART--DKPFEPVYTDSDAKFYSDRRYDVSQLEPVVAQPHSPDNRALARECSDVKIDRVYIGSCTGGKTEDFIHAAHILKGQQVKVPTYLVPATQKVYNDLFTLKYEGQTLSEIFLQAGCIEPTAPSCAACLGGPKDTFGRMNKPEVCVSTTNRNFPGRMGDKSAQIYLASPYTAAASALTGYVTDPRE 437
BLAST of mRNA_P-fluviatile_contig100.935.1 vs. uniprot
Match:
UPI0019FD652D (3-isopropylmalate dehydratase large subunit n=1 Tax=Oscillatoriaceae cyanobacterium M7585_C2015_266 TaxID=2774341 RepID=UPI0019FD652D)
HSP 1 Score: 683 bits (1762), Expect = 9.200e-239
Identity = 322/437 (73.68%), Postives = 371/437 (84.90%), Query Frame = 1
Query: 442 MTLTEKIIAKACNRRSVAPNDNVWVKTDVLMTHDVCGPGTIGNFYKEFGPKAKVWDPEGVVIIPDHYIFTADPRANRNVDILRDFVNEQGIKYFYDITDRGNFKVNPDYKGVCHVALAQEGHTRPGEVLFGTDSHTCNAGAFGQFATGIGNTDASFVMGTGKLLIKSPASMQFALEGEIPDHLLAKDIILQIIGDIGVAGATYRSMEFAGSALGQLSMEERQTLCNMAIEAGGKNGVIPADDITVAYVDARNAGNKPYEIFSADPNAKYFSKKRYNVEDLEPVVAKPHSPDNKALAKDCRDTKIDRVYIGSCTGGKTEDFAAAARILQNQKVRVPTFLVPATQKVYNDIQNLKIGGRTMASIFREAGCLEPASPSCAACLGGPADTFARMNEPFQCVSTTNRNFPGRMGHKDAGIYLASPYTAAASAVTGFVTDPRE 1752
MTLTEKI+A+A NR +V P +N+W+ DVLMTHDVCGPGTIG F +EFG AKVWDPE +VIIPDHYIFTAD RANRNVDILR+F EQ IKYFYDITDR NFK NPDYKGVCH+ALAQEGHTRPGEVLFGTDSHTCNAGAFG+FATGIGNTDA+F+MGTGKLL+K PA+M F L+GE+PD+LLAKD+ILQIIGDIGV+GA YR+MEF+G A+ +SMEER TLCNM IEAGGKNG I D+ T YV AR +KP+E D +AK+ S Y+V LEPVVAKPHSPDN+ALA++C+D KIDRVYIGSCTGGKT DF AARIL+ +V+VPT+LVPATQKVY D+ +K G+T+A IF AGC+EPA PSCAACLGGP DTF R+NEP C+STTNRNFPGRMG+K+AGIYLASPYTAAASA+TGF+TDPRE
Sbjct: 3 MTLTEKILARASNRSTVTPGENIWINVDVLMTHDVCGPGTIGVFKREFGANAKVWDPEKIVIIPDHYIFTADERANRNVDILREFALEQNIKYFYDITDRSNFKANPDYKGVCHIALAQEGHTRPGEVLFGTDSHTCNAGAFGEFATGIGNTDAAFIMGTGKLLVKVPATMHFILDGELPDYLLAKDLILQIIGDIGVSGANYRTMEFSGEAIAPMSMEERMTLCNMVIEAGGKNGTIAPDETTFEYVRART--DKPFEPVYTDADAKFHSVWHYDVSKLEPVVAKPHSPDNRALARECKDVKIDRVYIGSCTGGKTTDFLNAARILKGNQVKVPTYLVPATQKVYEDLFTVKYDGQTLAEIFLAAGCIEPAPPSCAACLGGPKDTFGRLNEPEICISTTNRNFPGRMGNKEAGIYLASPYTAAASAITGFITDPRE 437
The following BLAST results are available for this feature:
BLAST of mRNA_P-fluviatile_contig100.935.1 vs. uniprot
Analysis Date: 2022-09-19 (
Diamond blastx: OGS1.0 vs UniRef90 )
Total hits: 25
0 1 Expect = 0.00e+0 / Id = 86.06 Expect = 0.00e+0 / Id = 84.31 Expect = 5.81e-296 / Id = 86.52 Expect = 9.23e-272 / Id = 79.78 Expect = 9.58e-244 / Id = 72.49 Expect = 2.27e-241 / Id = 74.37 Expect = 6.74e-240 / Id = 72.43 Expect = 2.28e-239 / Id = 73.91 Expect = 6.26e-239 / Id = 73.91 Expect = 9.20e-239 / Id = 73.68 Sequence A0A6H5KHV3_9PHAE X2KY86_SCYLO A0A835YVF1_9STRA W7TZ20_9STRA A0A5J4YMP4_PORPP UPI001FBA0E57 A0A1X6NQJ8_PORUM K9W3H2_9CYAN K9TYF3_CHRTP UPI0019FD652D Pages
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Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
Property Name Value
Taxonomic scope Eukaryota Seed ortholog score 686.4 Seed ortholog evalue 1.1e-194 Seed eggNOG ortholog 130081.XP_005708866.1 Preferred name LEU1 KEGG rclass RC00497,RC00976,RC00977,RC01041,RC01046,RC03072 KEGG ko ko:K00749,ko:K01702,ko:K01703 KEGG Reaction R03896,R03898,R03968,R04001,R08620,R08624,R08628,R08634,R08641,R08645,R10170 KEGG Pathway ko00290,ko00660,ko00966,ko01100,ko01110,ko01210,ko01230,map00290,map00660,map00966,map01100,map01110,map01210,map01230 KEGG Module M00432,M00535 GOs GO:0003674,GO:0003824,GO:0003861,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005829,GO:0006082,GO:0006520,GO:0006551,GO:0006790,GO:0006807,GO:0008150,GO:0008152,GO:0008652,GO:0009058,GO:0009081,GO:0009082,GO:0009098,GO:0009507,GO:0009532,GO:0009536,GO:0009570,GO:0009987,GO:0010035,GO:0010038,GO:0010494,GO:0016053,GO:0016143,GO:0016144,GO:0016829,GO:0016835,GO:0016836,GO:0016853,GO:0016866,GO:0019748,GO:0019752,GO:0019757,GO:0019758,GO:0019760,GO:0019761,GO:0032991,GO:0035770,GO:0036464,GO:0042221,GO:0043226,GO:0043227,GO:0043228,GO:0043229,GO:0043231,GO:0043232,GO:0043436,GO:0044237,GO:0044238,GO:0044249,GO:0044272,GO:0044281,GO:0044283,GO:0044422,GO:0044424,GO:0044434,GO:0044435,GO:0044444,GO:0044446,GO:0044464,GO:0044550,GO:0046394,GO:0046686,GO:0050486,GO:0050896,GO:0071704,GO:1901135,GO:1901137,GO:1901564,GO:1901566,GO:1901576,GO:1901605,GO:1901607,GO:1901657,GO:1901659,GO:1990904 EggNOG free text desc. 3-isopropylmalate dehydratase activity EggNOG OGs COG0065@1,KOG0454@2759 EC 2.4.1.183,4.2.1.33,4.2.1.35 COG Functional cat. E CAZy GT5 BiGG Reaction iMM904.YGL009C,iND750.YGL009C Best tax level Eukaryota Best eggNOG OG NA|NA|NA BRITE br01601,ko00000,ko00001,ko00002,ko01000,ko01003 Hectar predicted targeting category signal peptide Ec32 ortholog description Homoaconitate hydratase Ec32 ortholog Ec-13_001950.1 Exons 12 Model size 2487 Cds size 1656 Stop 1 Start 1
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
1622815421.227239-UTR-P-fluviatile_contig100:23617..24259 1622815421.227239-UTR-P-fluviatile_contig100:23617..24259 Porterinema fluviatile SAG_2381 UTR P-fluviatile_contig100 23618..24259 - 1693561797.440942-UTR-P-fluviatile_contig100:23617..24259 1693561797.440942-UTR-P-fluviatile_contig100:23617..24259 Porterinema fluviatile SAG_2381 UTR P-fluviatile_contig100 23618..24259 - 1622815421.3637629-UTR-P-fluviatile_contig100:61395..61403 1622815421.3637629-UTR-P-fluviatile_contig100:61395..61403 Porterinema fluviatile SAG_2381 UTR P-fluviatile_contig100 61396..61403 - 1693561797.8345351-UTR-P-fluviatile_contig100:61395..61403 1693561797.8345351-UTR-P-fluviatile_contig100:61395..61403 Porterinema fluviatile SAG_2381 UTR P-fluviatile_contig100 61396..61403 - 1622815421.3761024-UTR-P-fluviatile_contig100:63016..63197 1622815421.3761024-UTR-P-fluviatile_contig100:63016..63197 Porterinema fluviatile SAG_2381 UTR P-fluviatile_contig100 63017..63197 - 1693561797.843594-UTR-P-fluviatile_contig100:63016..63197 1693561797.843594-UTR-P-fluviatile_contig100:63016..63197 Porterinema fluviatile SAG_2381 UTR P-fluviatile_contig100 63017..63197 -
The following CDS feature(s) are a part of this mRNA:
Feature Name Unique Name Species Type Position
1622815421.240852-CDS-P-fluviatile_contig100:24259..24430 1622815421.240852-CDS-P-fluviatile_contig100:24259..24430 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 24260..24430 - 1693561797.7258883-CDS-P-fluviatile_contig100:24259..24430 1693561797.7258883-CDS-P-fluviatile_contig100:24259..24430 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 24260..24430 - 1622815421.253384-CDS-P-fluviatile_contig100:24805..24979 1622815421.253384-CDS-P-fluviatile_contig100:24805..24979 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 24806..24979 - 1693561797.7366204-CDS-P-fluviatile_contig100:24805..24979 1693561797.7366204-CDS-P-fluviatile_contig100:24805..24979 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 24806..24979 - 1622815421.2650547-CDS-P-fluviatile_contig100:25211..25277 1622815421.2650547-CDS-P-fluviatile_contig100:25211..25277 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 25212..25277 - 1693561797.7487407-CDS-P-fluviatile_contig100:25211..25277 1693561797.7487407-CDS-P-fluviatile_contig100:25211..25277 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 25212..25277 - 1622815421.2778785-CDS-P-fluviatile_contig100:39697..39892 1622815421.2778785-CDS-P-fluviatile_contig100:39697..39892 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 39698..39892 - 1693561797.7603748-CDS-P-fluviatile_contig100:39697..39892 1693561797.7603748-CDS-P-fluviatile_contig100:39697..39892 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 39698..39892 - 1622815421.2889538-CDS-P-fluviatile_contig100:46074..46201 1622815421.2889538-CDS-P-fluviatile_contig100:46074..46201 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 46075..46201 - 1693561797.7703896-CDS-P-fluviatile_contig100:46074..46201 1693561797.7703896-CDS-P-fluviatile_contig100:46074..46201 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 46075..46201 - 1622815421.2986953-CDS-P-fluviatile_contig100:46370..46483 1622815421.2986953-CDS-P-fluviatile_contig100:46370..46483 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 46371..46483 - 1693561797.7805998-CDS-P-fluviatile_contig100:46370..46483 1693561797.7805998-CDS-P-fluviatile_contig100:46370..46483 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 46371..46483 - 1622815421.309553-CDS-P-fluviatile_contig100:47698..47875 1622815421.309553-CDS-P-fluviatile_contig100:47698..47875 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 47699..47875 - 1693561797.792447-CDS-P-fluviatile_contig100:47698..47875 1693561797.792447-CDS-P-fluviatile_contig100:47698..47875 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 47699..47875 - 1622815421.3207688-CDS-P-fluviatile_contig100:50872..50986 1622815421.3207688-CDS-P-fluviatile_contig100:50872..50986 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 50873..50986 - 1693561797.8023636-CDS-P-fluviatile_contig100:50872..50986 1693561797.8023636-CDS-P-fluviatile_contig100:50872..50986 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 50873..50986 - 1622815421.3308513-CDS-P-fluviatile_contig100:51157..51265 1622815421.3308513-CDS-P-fluviatile_contig100:51157..51265 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 51158..51265 - 1693561797.8100827-CDS-P-fluviatile_contig100:51157..51265 1693561797.8100827-CDS-P-fluviatile_contig100:51157..51265 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 51158..51265 - 1622815421.3405025-CDS-P-fluviatile_contig100:52463..52634 1622815421.3405025-CDS-P-fluviatile_contig100:52463..52634 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 52464..52634 - 1693561797.817929-CDS-P-fluviatile_contig100:52463..52634 1693561797.817929-CDS-P-fluviatile_contig100:52463..52634 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 52464..52634 - 1622815421.3515706-CDS-P-fluviatile_contig100:61155..61395 1622815421.3515706-CDS-P-fluviatile_contig100:61155..61395 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 61156..61395 - 1693561797.8258488-CDS-P-fluviatile_contig100:61155..61395 1693561797.8258488-CDS-P-fluviatile_contig100:61155..61395 Porterinema fluviatile SAG_2381 CDS P-fluviatile_contig100 61156..61395 -
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-fluviatile_contig100.935.1
>prot_P-fluviatile_contig100.935.1 ID=prot_P-fluviatile_contig100.935.1|Name=mRNA_P-fluviatile_contig100.935.1|organism=Porterinema fluviatile SAG_2381|type=polypeptide|length=552bp
MQSRRKLAVSQNAVAWASVGMLVLCGMASSLAPGQGLGVGSGCAQGFLGS back to top mRNA from alignment at P-fluviatile_contig100:23618..63197-
Legend: UTR polypeptide CDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-fluviatile_contig100.935.1 ID=mRNA_P-fluviatile_contig100.935.1|Name=mRNA_P-fluviatile_contig100.935.1|organism=Porterinema fluviatile SAG_2381|type=mRNA|length=39580bp|location=Sequence derived from alignment at P-fluviatile_contig100:23618..63197- (Porterinema fluviatile SAG_2381)AGTAGAGCGCGTGGAGGTGGGTATCCAATCATGTCTTGCATGGACTGACT
TCTCAGAGAACCACACTTGGTTGAAATGAACCGTTCCCATGGGTATCCTT
GCGGCGTGACCTCCGGAACTCGAAGTGGCAGCAGAGCATGACGGCGGCGT
CCCTGCGCAGGACGAATAATAGGCGCTCGTG GTCAGAATACAACCGTTCG
ACTTGGCAATGGAATATTGGAATGCTGATTTCAGCTGACATTTCGACGAT
GCAAACTTTACACTGCAATACCGATATCCACGCGCCTCTGTTTCACTGCT
GTGTGTCCACGGGACTTTCCCCACCAGCCCCGCTCACGACCATGAAGGAG
ACCTACCTCAAAACCTCCCTTTGTCATGGGGTTCCAAGGGTCTTCGACCC
CGCCTCCCTTTCGTTGGGTACATGTCTAATGAAATGAGGTCTATTCCAGC
ACACCGGCAGTTGTGATGAATGCGGATCTGGATCTGAGCGCCACACAAAA
AATCACTTTCACCTCGTGTACTGACTAGCTGTATGACTCACGAAAAAGCA
TTTGGATTAGACTACAGGAGACTATTATTTGTTCAGAGCACAACCACGGC
AGTAGCATGTGCGACTGAGATGTTCAAACACCACTCTGGAGTGGTACACC
CGACTCATTGCTTGCGTAGGGAAGATGTCGCCTTCTTTGCATAAAGTGTT
ACTTAGACGGGCACGAGCTTTCCCTGGCAACACGAGTTGAGATTTTGTTT
CGAGGTCACAAAGGTGATCACACGCAAGAAGACAAGGTTTTGGTACTGAC
TCGTGATAGCGCCAGGGGCCCTTTGGCCCGAGGTACAGGCACCGGCGATG
CCATCCCCGTTTTGGTTGATTTTCTCTAAGAATAGAGTTGTACTGGAATA
AGCGCCGCTGTCGGTTTGCAGGGATCGCGGCGGCACGCAGGTGCTGAGTT
ATGGGCTGGCCACTTACGGCCATTAGGGAGATTGCAAGCCTTGGAGGCAT
GGATTCCGAGCGCGTCTCGTTGCACACTGCGTACAAAATACACTGCCGGC
GGACATGAGGGAAGCTATACCACCTGATGTACACAACATGTGCTGCACTC
GATGCTGTAAACAGCATTTGCTCCTCGCCGCTGCCAGAGGCCTGAGAAAT
TCATCCATGCTTCCCGCACCCCGAACTCCCCAAGTAATCCCGGTTGTTGT
CTTGGGGGGAGTGGATAGTATCACGGGGCCAAGGTGCTGTGAAAGGTCGA
CCTAGAAAAGCGTGTAAGAGCTGTCGGTAAGCAATCCGCACTAGGGTGTC
AACCAGCCTTATGTGTATACCACGATATTACTCCCCTTCGGCGAATCCAG
ATAATGATTTTGGCGATGTTTCCGTGCCTCTTCAGTATCCTGCACCATAA
TCCGGTTGTGAATACGGCGTCTGTTCACCGGACATTTACGAACAAGGATA
GGTTTGGGCGTAAGTGTTTAGTGACGCGGTGATTCTTGATTTTTGTTTTT
GAAACGTGGCATGCCTACCTTTAACTAGGTGCTCTCCCTGCCCTTTGTCA
TGCAAGTAGGGACGGAACGGTGGAAATCGCATCAGCATCAAAAAGGTTTT
CATGAGTGTTTTCTTGTTTCACGGTACTCAGCGTCGAAGATATTTGGGGA
AACAGACGCACGTTGAGGGCCGGGCACGATGGAAGGAAGACAAAAATGGA
TGTCATGCACAAATCGCGACAAGTTTGCATCGTTTCGTGTGCTGAAATCA
CTGCTAAAGCTGCTCAACTTGCTTCTTTGTTTTGGCTCACGCAGGAATCG
TG ATGCAATCAAGACGGAAACTTGCGGTCAGTCAAAATGCAGTGGCTTGG
GCTTCAGTTGGAATGCTCGTACTCTGCGGAATGGCTTCTTCACTTGCTCC
GGGGCAAGGATTGGGGGTGGGGTCGGGGTGCGCGCAAGGATTCCTTGGTT
CTGGGGGAATGGTGCGCTTATCGAAGCCTCGGAAGGACGGAGCGATCAAC
GCCAAGTTCGAGGGCTCTATTTCCATGGTCACCTCGGTCAAG GTAAGGCG
GGCTGGAACTGGTCCCGATTCAATTTCTTAAGGATGAGTAGGTTTCTCAT
GTCGGGGGGACGAAACCAAGGGTATGCTCCTCCTCTCTCATCATTCGCTG
GGCTGACAAAAGATCTAAGTGAGGCGAGACCTCCCCCTCCCCGTCGTCAA
AGTCGAACGCTGAGGTCTGGTCAGATTTTTTTGGACACGAGGCTTCGTCA
TCGGTCGTCTCGTTTTACATCTCCATTGGCAGGGGGAGAAGGGGGAAACC
CGTTCCCTTGCGGCAGTGGGGGGACACCAAAGGTAGCGCGAGATCGTGCG
TGCGATGTGCTTAAAGAATCACAGTTGACTATGACAAGTTTTGGCCCTCC
CGTCCCGCTTTTGTATCGTGACTCCGAAGATTAACACGCCATGTTTTGAT
GCCGCTCCTCATGCTTTCGAAAGCGATCGTCGAAAAGTGCGGTCTGCGAT
TTTGTTCCTTTCTAACGCGACCTTTTTATATGCAGTCGATCGATGGAATT
ATGGATATCCCTGAACACTCAAGACGCGATTATTTAATTGCCGTCATTGG
GGTCCTGCCGTTCCGCTACGTATCACAGTCCTGAGCGCTTTAGTTGCCGT
TCGCTTCGGATCCTTTTTTTGAGCTCGGACCCTCAGTGAAACTCAGTCAA
TGAGTTGTTTCCCTCCCCTCAGGGGTGCGCAGCCATGCCAACACCGTGGG
TGATGCTCAATCTCGCGGCGACGGGAAGGAATGGGGCGGAGGAGGACTCG
CTCCAAGTCTCGAGGCTTAGTTTCGTCTGGTGCCTTCTCCCTTTTCTGAG
GGACTCAGCCCCTTGAGAATAAAAAAAAGTTTTCGCGCTGCTCAGGGCTT
TGAAGTTTGCACAGCCATGCCAACATATTATCTTGGCTCGACTCCGCAGC
TGAGGGGAATCATGATACGGAGGAGGACTCCCTCGCAGTCTCAAGTCTCT
GGCGCCCTCTGTGCACCGCTCTTTTGGCTAGCGAGCACGGCAGGGCACAC
ACACAGCGATCAAACTCGTATTCCGCCCCACAAGCAACTTGATTTTTGTC
TCTCTCTCTCTCACGGTCTCAGCGCGCGGGCGTCCGAGGTGTAACGTTGG
AGTTCTCTCCAATAGAAGCGGAGTAAATCTGTGCGGTCGAACGTTGCGGA
TATGTTTGGTGTCGTGTTGAAGGCATTAATGAGCTGTTGCCAGCGTCCGC
ACATCGTGTATCTTGTTGACGTCTGTGTCGATCCTCGGCTTAATAGCTGA
GCGTAGATTCGAAATTGAGAGAGTTGTTAACAACACTGACGTGTATGTGA
TATGAACTTGCAAGGAGAGATAGAAACACACACGCAAGGGCAATACAAAG
TCTCGCATCTTCGAAGCGAGACAATGAGCTTTGCATTTGCGTTCGATATC
GTTCGTATAGTCAGGTATATGTGTTGATGGGCATGTGCGAGAATCCTGAG
AACGCGAGGTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTC
TCTCTCTCTCTCTCTCTCTCTCTCTCCTCCTCCTCCTCCTCCTCACCCCT
CCTCTATTCGTCCGCGCGCGCGTGTGTATTCATCTGCGGGTACTGTTGCT
CCTTAAGCGTGCAGAGTGAGGCCCAGGTCTGCACATCCCTACCCGGCGCT
CTGCACAGTCTTGCGCGCGGCGACGTGTTTCCAAGTTGAATTTTGAACCC
GCATGAAAGGGCGGCGTTGACTCTCAACATACACATACACATTACTTACA
CCACCAGACACACACCCTCTGCCCTTAGCCTCTCCAGCGCCGTTCTATTC
TTTTTACCGCATAGCCATCAAAGGCGGTTGCCGTCTGCCTTATCTCATCA
CCAGTCGGCACGGAGAAAGCCACATTACGCATGATCGCCTGACTTCAGGA
TCACCATTTCTCACTCTTCAACCCAGCGGCAGTACTCTATCCATAGCTTG
ATGCTGCTCAAACACACGGACTCAAACATAGCTTTCCTTTTTTTGGTCCC
TGCCGATATCTCCGGCTTCGCGCAAGCCCAAAACACACCGTCGCGTCGTC
AGTTTCGCGTGCACCCGGGAGCCACAAGGTCCGACCGCCCAGATCATCGA
AGTGTGCCCGCAGCGTATCCGAGATGTTGCGCTTTTTCGGTCCTCTGCAG
TCACCAAATGTTTTTCACCAAAGACATGCACGCCATATCTCGACTTCTCT
CTGTACGATTTGATCATGGTTGGGTGCACACCTGGTGGGTGTAAGAATGT
TCCACATTCATGAAGTGCTACGCCCGCCTTCGTTCAAGGTCGGAAAATAT
CATGTCTTGCTCGCGTTTGGCGACTAGAGATGTATTGTAGATGCAGCGCG
GTTTCGATTTTTCACGACATACCTCCTCTCTCTTTCGTTTTTCACTTCAC
CATTCTAAAAGGGCACGAGCCCTTCGAGGCGAATACGAGCACGTGGCTAT
CGAGAGCGACGCGCACTGCTTCCTCGCAGCTCAAGTTTGTAACCGTGCTG
CGTTACATTGGCTTCGCCATCCCTTGAAAAGCGGTTTGCGCAAACGTTCA
AAAATCTCGCAAGAGAGAGAGGGATGAGGGGGATTCTTACTTCAGTGGCG
CATGGTGGCTCTCTCCTTGCTCTCCCCTTCAACTCTCTGCAAGCGGATGA
GGCACGTGAGGCGAAAGTAAGCACGGGGCCCTCAGGAGCGACTGGCACTG
CTTCCTTGAAGCCAACGCCTATGACCGTGCTATGCTACAATGACTCCACG
GTCCGTTAAGCAGTGTTTTTTGCCTAAGATTCTGAAAACCTTGCGAGAGA
GAGAAGGGGGCAGGGGGGAGGAGGGGGGTGTACTCATAGTCGTGCATGCC
GTAGTCGTTAGACCATTGACCTCGCATCCCTACAAAGCCGGGACGGAGCA
CGCCGGGTTCTCACCGGACCAGGCTCTCACACCACCAAGCGCGAAGCGCC
GTGAGGTATTCGGCGAGTCGCATGAAGGGTGCGCTGCATCCTGCTAAGGG
TGTTCGGCATCTTGAGCTTACTTCCTTGCATACGGATGACAGCTGCGTAT
GGCTTAATTTATTTTCTGGTGCTTTCACTTCCAGAGACAGTTGTAAGCAC
TGTGTAACTGCCTCGAGGGTGCTTGACCACTTTGACACAACGTGGTGCGA
TCATCCCCCTTGCGCCGAGTGGGGGTTCTCCGCCCCGCACAACATGATCT
TCTCGACCACCATTTTGGTTACCGCCAAAAAAACCAGAGGAAAAAAAAAG
ACGGTAACCTGGTTGCCGAGTTCACGAAGTGAATTGGCTTGTTTTACAAC
GTCGTTGCCAAGCGACGAAAACCCAATCCCGATGGCAAACACCGAGGTGA
GAGCCAGCGGGGCATCAGGTGGGGGGGGGAAACCGAAGCTCACACCCATG
TTTAATGTAGTCCAAGTCTCGAGATTCCGAAAGATGTGCTTGCTCAAGTT
TGTGCAGCGAATATTTTTCTTGCTCGATTTTACGGGGTGGAGAAATGTTG
TCTCGGGAGAGATCGGAGGGACGTCAGTCGTCTTTTCCTCTGTACAACAG
AACCTATCCAGGTCAACCAAGGCTCCGAGCATGCGCGGAGTCTGTCCGTT
GCGATGATGACCACTTTGCTGGCGGGAGTACGCATGGAGGGTGCGAAAGA
AAAAGCCTTTGTGGCGAAGAAAAAGGTCAATTGTCCCTTTGGGGCTCATC
AGAGATGGGTGACACACAGCGGCGTTTTTCGTCCTTTATCACCTGCGGAA
ATCAAACGTGGAAGGTAGTAAGTAACTACCCATCATGAATCTCCGTCGGA
GGGAGTGGGTTGCGAACAGGTTGGTTCGTTGAGGAGAGCCCGGCCGAAAT
TTGTATCTTCCCTCTTCAGTTTCGTAGAGTTTAGACTGCTGTGTTCTACC
GCCTCAAGTATGACTAACGAACTAGGGATCGCATACGCTGAGCTTCTCCG
TCGTGATTGAAAGCATCACCTTCCAGCCCACTTTCCACCGAAGCAAAACT
GAGTTCGGAGAATGCCCCTTTCAAGGTTCGAGGTTCATATGTGCTTCAGC
GAGTGAGCACTTGACTGCGGTATTGCATAGTGCTTGAGGGTTGATGCGCG
CTTCTGTCTACTTGTCGAACTCACGTTGTGGATATTTTTTCCTCGCTCGT
GGTGGGCTCCCATCACAAACCAAAGGCCAAAGTGGTGGGGGCATTGGCTC
TAGCGTTGCTCAGAGCCCTCTACGAATTCGCTACCCGCGGCAAGTTTGAA
CTGTGGTCGATAGTTGCATGTGGCATCCTCGTCCCGCAGCGTAGGCAAAT
TATTTCTCGTCGCTCGATTTCAGGGTCAACATTTCCGGATCCGTGATTTT
CCGGCCATCTTTAGAAATGGTAGCAGACACATTTTCAAGCACATTTGTTC
CATGGAAGATATGATAAATTTCGAAATGAAACATATGTGGCCTAGATTTT
GGTTCCATAATGTGGGCGTTAGGGGTTGTCTCTCAAAAATATATTTGATG
GCAAAACCGGCAACCGCGCACCCCCCTCTAATGACAATATTATACCCTTC
GGAAACCCTCCACAAATCTGCGCCGCCCCCCATTTCTATTTCTTATTCCG
CGGAGAACCCTTTTTTTTTTTGCGTCGTGGTTTGGCTCTGGCTGATCGCT
GAGAGAAGGTTTCATCTCCCTTTGTTCGGCCTTGGCCCCCCTCTCCCTTC
ATGTATTGGGGTCGTGTGGGAACATTGAGCATTGAGGTGTGTGGAAATGT
TGCTTTCTGGTGTGAAAAAGCCGCGGGGGCTCGTGTTTGTCACCAAGCAA
TTTTGTTCCATACACACTTGGGCAACGCGCACCTCACAAGTCAGCGGCCA
GGATGGCAGGACAGTGCTCCGAGGGTTGAGCACACTGCGGCCACTTTAGC
CGCAACCCTAATGATTACTGGCTTAAATGTTTGCAAGTTCATGGGGGATT
TTCACCCTCTCGCTTTGTGGTGTTGGGCGATTATCGATCAGCGCCTGCAT
ATAATCACGTGTGGTTCCCGTCAAAAATAAACAATCAATCGGTCGCGATT
TTCGATGGCTTGCGAGTGGCCTATTCGTGAGAAGATCCTCCATGAGTGGG
CTTCTAAGATTGTCGGGCGACGTTTTGAGTCTGCTCACCATGGTGAACAT
TTCCTGGTTTTTGTCAGGTTTTGTGTCTGCAGCAGAGCACTCCAGATCAC
GTGATAAATTAATCGTTGTCTTGAATTGTAGATTTAAAGTCATGACCTAA
AACTCGCGCTCTTTACACCATCTTTAGGGACGATCTCCCCGTACATCCCC
ACCTGCTCCCCGATTGCCACGACAAGGCACCAGTCGGATTCGCGAATATC
GAGGGAAACTGCTGGCAGTAATGTCGAGATTCGAGATTAGCGTTGCTGTA
GCCATGTGGCTTACGGGTCACTCGAAAAGGTCCGTCCCTCTTCACCACAC
ACGCCGGGCATGCATCGCAACAATGAGCCCATATTATCCTGTTGTTGCGC
CACGTTCGGCATTACGCTGTTCGATTGCCACAGGAGCCAGCCCCGAAATC
TCACTGCAGCGGTACGAGAGCACGCATGTAGCATTGCGGCATTTTGCCCT
GTCCCCCCCCAAAGTGTCACCGCGGTTATTACTAGCACAAGAGCCTCGCG
CTTTCGAATCGAGGCCCTTCATTGCTCAGCAGCCAGTTTTTGGAGACGAT
CGGAGAGTAGTGTGATGTGCGTTCACCGCGCCGGGTACTACCCTGTCTAC
CTTGTGTCACTGTTGCTCTGCTCCACTATGCGTCGCCGCCTGTTGTCAGA
GAATACACGCTCCCTTGATTTTGTCCTCGATCACGTAGCGTGTTTCTGTT
GTGTCACAGCTGGAGATGTGCCGAACCTGATGTGTGCTCGATTTCCTCAC
AGCAGCCGCAATGGATGGCTGCCCCTTCCCGCAGGCCGATTGCATCCACT
GAGTTCAGGGGTTTAAACAAAAGTCTGCTACTCTGGTTGCTACATTTTGT
TGAGTTTCTCCGCCCCGTCGCCCCGTCGCCTCGGCGCGCGAGAGCGCAGC
ATTTCAGCACACCACAGCGCGCCGCCAGTGGCGTCCTCCAAAATCGAATT
ATCGGCAGATGTTCTCTCTCTAGCTCTCTCTCTACCGTGACGTGGTCGAC
CATGAGGCTCGTTTGGTGGGACTGCGGGACTATCAGCGGAAGATGTCCTC
CTTTCCCTCTGTTGCTGTCTCTGTCTCTGTCTCTGTCTATCTCTGTCTGC
CTCTCTGTCAAGCTAACGTGCACGCCCGCGACAATCATCGAAGTTCACCG
ATTTCTGAAAAGCCATTTCATCAGTTTCCGCGGAGCAGTGTTGGCTTTTC
ATTATTCTCTACTTTGAAGTTTGTCGTTTCTCTGTCTTTTCCTTCGGTTG
CAGACAGACGTGAGTGCACGCAAACTTAGGGGGTTATCTTCCTTGACTGC
AGTAATCTCGAACGCAAGATGTATGTGGCTGCTCCTCTATCATGAAATCT
TATGTTTCGATGTTTATCTCCCTCTTTTCCGTTGCACATTACACCCAAAC
GTCCTCTGTCCTATATCCAAACGAATAGAAAAGAACACAGAAGGAAGATG
GGGTGGGAGGAACATCAACTTCTCTCTCCCTCTCTCTCTCCTTCTGTCTC
GCTTAATTTCTCCGTTTTCTGCACCTTTTTCTCCCGACTGGCGTGCCACC
ATGCGGGAGCCGTAAAAGTGTCTCCCGAAATGACTCTGCGATCTCCTCAG
TGTGTACGTTCACGGCTTTTGGTTCAATTGCGCGAGACGCTGTTTTCACG
CGAATCGGTATGCCCGGTTCAAAAGGCTGGACTTCCGCTGAGGCATATTT
GCACAACTTTTCCTGTGTATGCGATCATGCCAAGGGAAAGAAATGGGTCC
CGGACGTGTCTCAAGTATCCGGCGATGGCATTAAATTACTGACTTAGAAA
GCGAGATTCATCGCATTGGTGTTCTCTATTCTCTTCATCCCGTTGGCATT
CCCACTTAAACTTGATTCCACGCACCTCATCCTTCTCGACTACATTTTTT
CTAACACTTTTAACCAGCTAGCCAGAACCCTGTTTTCTACGGTCACATTT
CCAATATCATGGGCGACGACGACGGGATCCCCCCCCGGCTACGAACATCC
ACTTGCATCTTGGTAGTATATCCAGGATGACATAGCAAATGGTATTTCTC
GTAGGGGTCCCGACATGATTTGCCATGCCAGCAACGGAAACCGTGTTTGG
CACTTTCGTTTTGGTACGCTCGGAGCTGTGCTGGGGCGATGTCGAACGCG
TTACCCAACTCCGCAACCTGGACCGAAACTAATCCTTCATAGCGCCCAAA
CGGTGCTTGGCTGCGGTTCATAATCCAGCACAGGTTGTTGCTGTGCCAGC
CGCTTCCGGAGTCAGCACGTTGTTTGATCTGGCGGCGAACACAGCAAGCA
GCCGATGATGTGCGGTTTGGATCCATGTTGGACTTTGGAGACACTCCCTC
TGCCTCTTCGAGAGGCTTAAAGCCCTAGCAGCACTTGTGAGCCTGACAAC
ACTACGAACTGCTGCGGCTGCCGCGTGCCTACTATTTAATACGAACTTTT
TGTTGCAGGTCGACAATCCTCCGAAGCTCCAACTAGAATGTGTTAAGAGA
GTCCGGAAGGGAAGTTGAACGTTGACAGCTCCATGTGTAATTATAGAGAA
TCCCCGACAGCGCCGTCCAGTGCGATTGTCAACTATTATTTATTATATAT
CCTTGCTGGGTGCGCAGTCTCTCGCGGTGTTTCAATCCAGTAAGGTAAAA
AAACGCGTCGTCAGGGACCTGTCATCGATGTGTATTCGACGAAGTCACCA
CCCGGCTCGGTCTGTAAAGGTCAAGGTAGCCGATTCTGCATCGCAATAAC
ACATACATTTTTCTTGTGTCGACGGCGCAGACTGAAGGTAGACTAGAAAG
TTGTGCTTCGAACTCGTGCTTAGTCGACATGTCGTTCAAAATTACAGCAC
CCACAATTCGTTCTGGTGGAAAGAAGACAGGGTTGTCCTGATCGTGGACT
TCGTAGTTGACACTGGCCGGGTTAATAATTTTTGCTTCCGTGGCGCGATG
ATGAGTATATCGCTTCAGGCAATTTAGACGCAATAGTCACGAAAGCGTAA
ATTCAGTAAAATACAATTTCAACAAGGGCAACATGTCGCGAAACTACCAT
CGCAACGTATAAAAAGCAGCACTGCGTGACCCTAGCAAAACGTTCACGCC
CATCAGCATCTGCTGGACCACTTCGGTATGCTTTGCCCTGCTGGGCTCGT
AGCCACAGCGGGCGCTGCGTGAGGTTTTCTCTCGTTATACCGAGAGAAGA
GGCCACCCTGCAGACTCTTCGCGCTGCCAGCGCACTGCAGCAGATGCACA
GAAATCATGCTTGGGCCTAAGTTTGGCCGGTGCTGAAATTCGGGGAGCTT
GATTCGTACGAGTACAGATTTTCACGATATCAGTCATGTGCGTATTATCT
GGAACACTTGCAGGTTTCGGAGCCGATGACCTTGACGGAAAAGATCATCG
CTAAGGCGTGCAACCGGCGGAGTGTGGCTCCTAATGACAACGTGTGGGTT
AAGACGGACGTGCTTATGACCCACGATGTTTGCGGACCGGGAACGATTGG
GAATTTCTACAAAGAATTCGGCCCCAAGGCAAAG GTAAGTCTGACGAACG
GCGTTGTTGCGGCACATGTCATGTGAGGCCTCGCATGTCACATTCTTCGC
TCTATAGGAAATGCCCTCAGTCCCCTTGCATTTTTTTCGACATTTTGCCC
ATAGTGTGCATGCTCGGCACCACACCTTGAATGACCGATCGTCACTGTTT
CAGCTTTAGTTGACACTATTCAATGTAAAGATGTGTGTCAGATTTATCAG
GATTTTTTGCTTGAATTGAGGGCATTCTTTGATCCTCCCACTTGGTGCCC
GCAAACGATATTGCGCTCTACGTGCTTGTCATTTCGTTTCTTTCAGAAAA
GTTTGGAACATACAGCCAGATGCAACGTTCTGTGTACTCACACAGCAGGG
GGTGGAAACACACACACATCATTACCCCACAGCTGAAGCACAGCGGCTTC
TACACTTTTACCAAGTTCGGCCGCTTCTCCGTCCACACGAATGTGTGTGT
GTGTGGAATGCATGCTCGCAGGCACGGTGTATGTTATTGTTATTTAAAAG
TCGAAATTTCGCCGCGGAGTCTCGCGCGCGTTTTGCTTACCAGAAGCTCT
GTGCGTCCAGCCGTCTTTTCTTGCCTTGTAAATTAGAAGCTCTGAGTCTG
TCCGGTGTTTGCGGGAGTACGACGTGCAATAAAGAGATTTTTTTGGCGAC
AGCCTCGTGATGCCATATATGCTGCGTACTTTTTTTACACAAAACCTAGT
TTGCATACACATGGAAGCTACAAAGAGCCGTCCAACAGATTGACCCACTG
CATCCACGGAGTGCATTGACACAGGATATCTGCGTTCTTCGTGTTACCCA
GACGCTGGAAAGTACGAACTTTCGATCTGGCTGACGTGGAGGCCCATAAT
CCCTTGACCCTCTGTCCCTTCCCTTACTCGCCATTGGGAAAATACAGATC
GAAAAGCGGTATTTTTCGGGCTATCCTCCGTTTACATTTTCAACCAAGCA
AGCCACCATGGTTGTGGACAGCAGTTGCTGAAATCGTTATTTCGTTTAAC
TGGATTCAACCCTCGGGGTTGCCTTTTGTTACACACTAAACAAAACGGGC
TGCTTCTTTATGCTCAATTTTATGGCGAGAAACAAGTGATGAAGTTCACA
CCAAGAGCTGAAGCACGCAATGAGAAACAGAGCCACGTTCGATGAGAGCT
GAGCTGCTGCCACACCCACGTTTGTCGAGCAGGTGTGGGATCCAGAAGGC
GTGGTCATTATTCCTGACCACTACATTTTCACGGCGGACCCCCGCGCGAA
CCGCAACGTCGATATCTTGCGCGATTTCGTCAACGAGCAG GCGAGCGGAG
TCTTTTGGGATGCAATGTTTTTTTCCGAGGAACATTTGGTACCCTTTCGG
GCGGTGAACGCTGTGTTGCGGCGCGCATGAGGTTTGATTGTCGTTGTGGA
CGACACTAACAACGCCAGGGGCATCTGATGTTGATGTTCCGGACTCTCGC
TGTGTTCACAGGGTATCAAGTACTTTTACGACATCACCGACCGCGGCAAC
TTCAAGGTCAATCCGGACTACAAGGGTGTGTGTCATGTCGCCCTCGCCCA
GGAGGGCCACACTAGACCTGGAGAG GTGAGGAAGGTGGAGGAATCTGTCT
ATTTCCCGACAAAATCCGTGGGAGCTTGTCATCGCGCTCGTACACGTGAG
AGTACGACAAACTCCCCCGTCGGGTATCGCCGCACTTTCAGCCTTCTCAG
CTTAAGGCCTGTTGCCTTTCCGTAAAACGCTTTCCCGAAGCTCAACTCGT
CATTGACAAAGTCAGCACAGAGGTCTTCTGCTTGTCTTCGGAGCCTGCGT
AGGTGACAGAGATTCGGAATGTAACGCACGCGGCCTGAGCAATGTAAAAC
GTAGAGCCTGCCGCAGGTGACCGCTCACAAAGATTCAACGCTCACGAGAA
GCGCGCATTCAGGTCCACTTTTTGTCAGAAACCTTGACGCGACATGAGTG
CGCTGACTAAATCTATATGGTTAAGCCCGTCAAATTTTTATTATCTCTTT
TCGCTGTCGGAAAATTCGGCTTTGTTTTTACGACCGCAGCTGGAGCTACA
GCAGTTGAAACGACCACCGTATTTTCATCGCCGCAGATGACCGCCGTCTT
TTTCATTCATCTCGCGCAAGCCGAAGCCACGCCGTCGCTGGGGTGCCTCC
GTATCCCGCACCCCAAGGCAGAACGAGGCTCGGCCGCCCCGATCGCCGAC
ATGCGCCCACCGCCGCACGCGTTTTCGCGATTTGTCTGAAAATCAGAAGC
TCATTCTTGACGCCGCGATTAATGCCACATTTTCAATTATTTCAGCTAAT
TTTGACGCCATCACACAGCCGGTGTGTACTGGAAGGGTTTGCCCCATCAT
GAAGGACTGCGGCATATCCGAGAAGAGTGCATATCTCTCTCGCGTTCAAT
GAGAAAAAGTTGGAGAGGGTCGAGACTTCTGAGTGTTGTTCCAGCCTGCG
TCTTCTGGTTGATTTTCACTTCGACGTGCAAGCGCGCGGTCCGCCCGACT
TGAGGGGGACTGTAGAGCCCCGAAACTGCTTCCATGGAGCTCACGATGTT
GACTTTCCCTACTGCCCTGACTTCAAAAACTCTTCAGCAGCGTTTTGGGA
TATGGGCCCGCGCAAGCAAGGACAAAGCTGCACGGGGCGCAGGGAAAACA
AAAGCGGAAAACTTGAGAGTCTAGTGAAAAACCGACGGGGCCCCAAATAT
TTTCTGCGAGACTTTTTGTTCCGCGGGAACCGATTCTGTGCATGCCGGAC
CGGCATTTTTTCCCCCGGGGTATCATAAATGGCGAAGACCCGCGCACAAC
ACTAGCAGTCTGTCACGTTCCGTTCAACGCGTCCTGGGCACCTTTTTCGG
AACGCCCTCTCTCTCCCTTCTTCTCTCTTTCCACATTCGCACATCCTGCC
CCCTGACCAAGCGTGACAAATTTTGAGGTACAAATCGACACAAACAATTA
ACATCATCGTTCGCCCCTGGCTCCCCTCCGGGACCTTCCACTCGCGATGG
AAGGGTTGTGCCGATTGTCATCTTTCTGCTTTCTGTCAGATAGTAAATAC
TCTCCTTGCTCTTGGTGAAGGTATCAGGGCTTTAGACGAAGCTATGAACT
CACCCGGCTCTTTGTGAAGTTGAATCTTGCCTGTGTGCAAAGCAGGTTCT
CATCAATAGGCGCAAAAATGAAGACTATTTTGACGTCATGACTGTTCCTC
AGCTCGTACACGTTCGTTCCGGTTGTGAAAAGAGTGCGAAGCTCACAGAA
CGCCATTGCACGGTTTTGACTTTTCCCCTTTACCGATCCAGGGAATCTAC
ACCTAGGTCACTCGAGGCCGGAGCCAGCATCGACTGCAGAGAAAACTTTT
TCATGTTCGTTTCAGACGTGAAAACTGTCGACTTTAAATGCAAGCCGCAA
CTGCGCACTTTGCGAAACGAAACGGCCTTGGATTTCGTGCACATTGATGG
TCAGAATGTTGCGTGTTGATGCCCTCGAGTTGGAATCACGTCGTTGGTGA
TCAACATGCATGGATGTCGAAACTGCACCCTAGCGGCACAAATATTCGGT
CAGGACTGTTCAAGGGATGATCACGCGGATTCAATTGGTAGCAAAGATTT
CCAACCCTGACGAAGATTGGTTTGTGCTGCGCTAATCCCAGCCCGATAGG
AAGAATCTGGTTTTTTTTGTAGGCCGGCTCTGTCGACTCCGTCTTTCGTG
ACCCACCTTCCTTGTCCCTAGCCCGAGTGTTCGGAGCCACAGAAGCTACG
GATGCGATCTCGCGGCGGTGCCTCCGGGCAACTTGAGCACACATTGTGCT
GTAGCGCCATTTTTCTCAAGCCCTCGATGATCATTGAAAATCGCACGAAA
GCGGCGCACGAGTGAGGACCTCTCGCACGACTTTTTCTCCTGAGACGTGC
TCCGGAACGGAGACTGGCACGCGTTCGAAGGGCCGGCGGGCCATGCGCAC
CTACATCCTGAACATTTGGTTCAATCTTGCCGGGAACGTACCGAGTTTCT
TCCAGCTGGCACTCAATCCTCCGCAGACGTGCTTGACGGGCGGCGAATCC
TGTTTCTATTGTTTTCTTTGCATCGCAAGAGGGGACGCACTTCCTGGACC
GGTAGCCGATTCGCACAAGACGGTTGATCAATCCGAAGCAAGTTGGAGGT
GTACGCGTCCCTCACGAAATTCGGTGCCGCTGATTCGCCTGATCATCGGA
AGCTCCTCCTTCGCAATCGATTTTTGGGTTCAAGTACACAACCGTCGTGC
AATCATCTTTACACAAGCTCAATCTATGCGCTAAGCGCACTCGATGCTTG
TGGGGGCTGAGAGGGGGGAGGGGGGCGACGTAGTTCCTGCATGCCGATTT
GACGGGCAGAGGTCAGCGGTCATGGACATGCACGCTTTGAAGGAAATCCC
CGTACTTCTCCATGTAAATTTTGATGAGCAATGACGCGTCCCATACGTGT
ATCGGCGGGAGAAATGTTGGCTTGGAAGTTCCAATCTCGTTCGATTTTCG
TTATGCTGCGGCAATTCTTCTGAGCGTGGCAACGTCGATATACCCATGGC
CGTCCGTTTTCCTCCCCAAAAGGTCTTGTTCGGGACGGATTCTCACACGT
GCAACGCCGGCGCTTTCGGGCAGTTTGCGACGGGTATCGGGAATACGGAC
GCGTCGTTCGTTATGGGCACCGGGAAGCTGTTGATCAAGAGCCCGGCCTC
CATGCAGTTCGCCCTGGAAGGGGAGATCCCAGACCATCTACTGGCGAAG G
TCAGCTGAGATGAAAAGAAGAATATTCTAATTTCTTCGGCGAAACAGGCG
GATTTCAATAATGGACGCGGTATATATACTAGATTATTTGTGGGGCTCGT
ACCGACGGCAGACCTTGTGGGTATCTATAAGTGTGGCGTCTGTCTTGCAG
TTAGTGCCGAGGCTCACAGGAATGACCGTCAAGTTAATGGCGAAGGAGAG
AGCTGTGTTGGAAAGGGTCGCTCCGGTCACCAAGACAGGAATTGAATCGA
GGTGTAAGTCCAAAGACCACCGAGCGTCTGAGGACACTGAAGGAAGCCAA
GAAGCGATAAGAATGTTCGAAAACTGTGGGAGAGGTCAAGCAACGTCGGG
AGAGCGAGCAGGTGGAGTCGAGCAGGGTGATGCATCTGCTGTTTTTGCAC
GACTATGTGCTTCAATCGTAAACAAACATATCGCTAGTAAAGGCGCTAAA
GCGGTGCCAGCAGTTCGTACTGAACCGTGTCGGTTTTACAAATGCTACTT
GCACCCACGCTCCGGCAGTGGTCTGGTGCCTGTTTAGTTCAGGGTTGAAT
CAGCGATGGAAGATTTCGATGCGTGCTGTGTGGCTGGATTGAGACTCTGC
AGTGAAAACAGCAGCACAAGAAACAGGTTTTCGACGAGTATTTGTTTCCC
CCTTCGCTTACAACAGTACGATCCGCCTCCTTGTCGTCATCGTCACTGAC
ACTGCTTGTGCTCCTGAGCGTGTACGTTCTACCAGCTGTCTCTTGGTTCG
AATCCTAGCAGTACGCCGTCCCGATCTCTAAACGCTTAAACCAATAATTT
AGTGTTTCGTGGTGAACGGCGTGGGCGACCACACTTCCACGATAATCATT
GCGCGATTGTAGAGGCTCCGACAAAAGCTTGTCTTCATTTTCGCCCCTCT
TTCTATACCTTTCTTGACTGACCAGGAAAATCTTGTCGGACAACAAACTG
GAGCACGGTCTTATTAAGAATCGAGTCCCTGCCTTTCATTGGCGTCGGCT
TCCATCTGCCTTGAAGATTTCATTTGGCGTCGAGACTTGATGACGACGAG
ATCATAAATTGATGTGTGAACGCGGTACTTGCAGCTTTTGATGTCGCGTT
CAGCAGTCCGAAAATCAGTACATTTTAAGTAGGTTGTATTGCTAACCACA
TTGTTGTTTATGTGGACTTGTTGGTCTCTGCGCTGATTATTTCGAAATCG
TGTTTCACTCACAGGATATAATTCTTCAAATCATTGGCGATATTGGCGTG
GCGGGCGCGACATACCGTTCCATGGAGTTCGCTGGTTCAGCTCTGGGCCA
GCTTTCCATGGAAGAGCGTCAAACCTT GTGAGTCAGGTAGCTGTTGTATG
CATGCATGCGTGCCTTCTGAAAACGGTGGTGGAATTCAAGCGATTGTCAT
CGCGAGTGAAATGTCTTAGGGATGGTGCAGCCCCAACCGCTTTTCGTTGC
AGCTGGAGAACTTCGCTGTGCTTGTTTCGCGTGCCAACCGGAATAGGTGC
AACATGGCAATCGAGGCTGGAGGAAAGAATGGAGTTATCCCTGCGGACGA
CATCACCGTGGCGTACGTCGACGCCAGGAATGCAGGGAACAAGCCGTACG
AAATATTCAGTGCCGACCCCAAT GTGAGGACGCACCGCCTACCCTATTTT
TAAACACACGAAATGGTCCCCCGCTGGTTGTTTCTGCCGTTCTCAAGAAT
GTCACGGCAACGCCTTTGGGATTCGAAAGTGATCGTCGCAAACAACGGGC
GCTACTTCGCGGTTGCTAGTTTCGTTCCTCATGCGGATAGAGACGTCTGG
TGTGGTGCATCAAACAGGCATTTTGCCCTCTCTTGAAAGCAGCACTTTTT
CGCATGAAACGAACTGTTTACGAAGTAATACGAATACTACGCACATGAAA
GTGAGCAAAAGGCGACGACATTAACAATGATGGCACCGGCGTTGAGTCTG
CGTCAAAGTCGTTGCGTTCTGGAACGCTGGCGGCAGCGTATCCTTTTGCG
CTGCACTTTACTTTGCGTGTGCTTGAGGTCGCAGAGAATACACGAACGTA
ATACCGCGGGATAAAGTGGGCAACAGTGACTTTGTAGGTAGTGGATATGT
GTATCACCTGCTAGGTACCCTTGAGTCAGCGAAAGAAATGTTTATTGCAA
CTCGTCGCCAATGCGATATCACGCCTTCCTGAAGGAGCACGGTTCCGACG
TGTTCCACAATCGAGATGAAGTGTCGCTCACCACGGTGCTTCGCCTCTCA
GTAGTTTTCTTGACGATTTTTTATCGCACGGTACGAAACTGCTGTTGGGA
GAAATGAAACACTCCCGACTAGGTATTTTCATTTTTTTCCGCGCCCTGCG
TGCCAACTCTACGTCTTGGTGCGGAATTATTTTCCGGTGCGTTCTTTTCG
AGCTTGACAATAGTCGTCCCTATTTCGAATTTCGTTAATTTTTTTCGGCG
TTGGGTGGCCCCGGAGGCGCAGTCTACAGCTGATATGTAGCCGCTCCCGC
GAGGAAGAAAGAAGGTGGAAGCTACATTGAAAGCGAACAAGATAACATAC
AGTGCTGTATCCCACGGGTTGAAGCAGAAGGTGGCTTCTTGACACACCCA
GCATCCCCTGGTAGTTGTTAGCCCTAGGCTCTCCGTCAGTGAAGCTCCCC
AGACCACTTGAAAGTATCATCGTAGATCTGAAGCCGCAGATGTGATCTCG
GAGATTTGAACCTGCCACCATTGAACCCCACGGATTCAGGAGCGAGCGCC
CCCGACGTCACCTCTTACCCCCCGCATAAGCCATGACAAGGCACTCGTTG
AACGCACTACGTCCACTGACCACTGCCATGCCATCACCATTGTTATGCGT
GCAGCTGCTGTCGCAATAGGCATACCTGTCTCCTGAGTAGTCACGGCATG
CGTGCTGCCAGCTGTACTGTGATTCATCGGCCCGCCCTTTTCATAAAGGG
ATACAATTTGCTTCCCAAAGACAAGCAACACATACGTTTAGACATCCCAA
GGGTGTACAGCTGTCTCGCACATCGGCGCATGTGTTTGCAAATCAGTTAT
GGCCGAACCCATCATGGTGCTGGCGAGGGAAAGGAGAATCATTCGGTGAG
AAGCGGCTTGCCCACCCGGTGGAAGGTTCCCGCCTCTTTTTTTGGAGGGT
TCGGCTTCCAAATATTTCGAACGTTTATATAATCCGCACGCCCGCACGGT
GAAACGTTCCAAATGTTTGTGTGATACGTACTCGAGGATGGGTTCAGCGG
AATTTCAGGAGTAGACAGCGACAAAGACGCAGCAGTAGCAAACGGCGTGG
CGACGGACGTCGGACACAGCAGGGCTGGCGGCTGTCGTTGAGGACTGACT
TACATGTGTATGTAGACAGCAGATAATATTATTGCATGCGAAAAAAGGTC
GGTTGTGCTGTTTTTTGTTGATTTCCGGGTTGCCTTCCTTGGGCCTCTGC
GCGGTGATCGAGCTAGGTGGTGACCTCCCAGCACTGTGTGTTTTCCATCC
GCCGATGCCTTTTTGTTGGCCTAAATCCAAAAAGATTGGACACCGCCAGC
TTTACACCAACAATTTTTTTTCTTGCGAAATCTTTCAGGCACACAGTCAG
TAGAGGCCGCCGCCCAGAAAAGCGTGCCTCATTCATTAGGTGAACCAGTC
GGTATTCCTCCCCTCCATCGTTGCCTGGCCGGCGAACACTCGTCAGTACA
ACCCTAGCATTGTATGGGTACCAAGATAGACTCAGGTGTGGGTGTGTACC
CGAATTGGTGATACTGATTTTTCGAGTGTTTTTTGTTCTACTCCGAAGTA
TTAGTTTCCATCTCACAACGCGTACAGGGGGATCGGAGGGCTCAAAACTG
TCTGAATGGCATCTCTTCGCGGACCCTCCTGGTTGACTTTATTTGTATTT
CTTGGTTACCTTCATTCGATGAGTTTTCGTGTGACCACGGGAATTGACCG
CGGCTAGTGCTCATCAGTACGGACAGAGAGGAGACTGGGCGGAGAGATCG
GGACTGATTTTATTGTCAACGCAATAAAAACTAGGGTAACAGCAATCGTG
CTTGAATAACAAACGCACACCGCCGTGCCCAAGTGTGTCATTTTAGCGTG
TCTGTACTCTCTTCGAAGGCTGTACATCCTTTCGGTCCGTCACAACAGAT
TCTTGTATGTGCGCCCACAAACACAACCCGAGCTTCCCAGCCGTTACCTT
GGTGCGCTGCTTGCCCTTGTTTTCTGTCCGTCTTAGGTGTGCTGATCAGA
CTGCTGTTGTTGAGACAAAGAGGCGACACTCATGAATATTTTCCGTTTTT
GGATCAGGAAGCCTCGAGCTTCAGGCTGAAGGGTTGACCTGACTACCAAA
CGAGCGATAGATGCGCCAATCAAACTCAATCCTCCGTTCCGACTTGTGGA
AAGAGGGGGGACTTCGAAACAACGATCAAGAAGCTCTCGCGCACGCGTCA
CAGAATGTAAACTCTGTACATTATTCAAAAACGCGGCTTCTCCTGCGGTG
GGACTATCAACAGCAGTGACCTGCTACAATACTCTTGCCCCTTTGCGAAG
ATGCACGCAGTGTCGTAGGTGTGAAATTTGCGACGCCTGGGTGTCGTAAC
CATCTATCATAATCAAATCTGTGAAATCAAACAGTGCTGGGGGAACCATG
GCGGCGGTGGTGGATGCAATCCGGTAGTTGCTCTGGAAAAAAAGTGGTAT
AATCCGGAGCCTCTCGAGCAGGGCCTCCCCTGCACATGAAGTGTGCGATG
GCATAGCTTCACAAATGGACACACACATCGTCACCCAATTCCCCATCCCT
CCATTTTGAATTGATTGCTTTCTCCTCAGGGTCACGCAGTCGGCATGCTG
ATACATTACCGGCCATGTCCGGAACGCGATCAGACGTCCTTGGCAGGCGT
GCTCAACGCCCAAAGTCGCAAAGAATCCCGACGGGAAATGGGACGCCGTT
TTTGAACGTACATCCTTCAAGTGGAGCCCACTGCCCTGAAATTGGAACCA
TTCAGACGCCTTTTTTTTCACCCGCCTCAACGACATTCCATTCAACACTC
CGCTCAAATTCTGCTCAAACCATCCGCACATAAGGGCCCCCATCTAGCCT
TCGCTGAACACCTCACACCTACTCACGCAACAGCAAGAAGAGGACACAAA
CGCCACTTGAGATGCCCGCCTCGCGCAATCACAAGAAGAGAACGATTCTT
TGCAGTTCTTTTAGGCTAGAGGAGGAGGAGGCGTTTCAAAATTCGACAGT
CTCGAGGGTCGGTGTTTTTTGTGTGGGCAAGAGAACTTGACTCAGGCTTC
ACAAAGACAAATGTGGCAGCCGAATTTGCAGAACAGGAGGAGCGTAACTC
ATGTCAACAAAAAAGGTGTAGCAGTGTTAATCGCACCCACAGCAGTGTAG
CCAGCGCTTTTTGCACATGGTGATGCACGGAGCATACCAGATCCCCATGG
CCGATTTACAAAATTCGGAACCTCCACAATAGGATGAGTGCCAAGGACAA
GGCGGCCGGGTTTGGGGAGATCTTATCTAAAACCTTTCGAAACCTATGGT
GCAGCAGTTGGGTATTGAAAATCGGCCCGGAGGGTCCGTCATCCGTTATT
GAATACGGTGCACGGTCGTGCAGATCCAATTTCCGGGGCATCACACTCAC
ATTTTCATTTGCTCAATCGCGTGCTGCCCACGCAGAACCCAAATAGTCGA
TTTCCGCGCGCTGATGCACACACACTCACTCACAGGCGAGCGATACATCA
TCTCGTGTAGGTGTGTTGTCCGCGATGCTATCACACCAGGGAGGCCTCCA
CCCCAACCTTCCGAAGGGGAACCATGCAGCCTCTTGTAATACAGAGAGTA
GGGTTGGTATTGGCCACATAGAGCACGTGATACGCGGGTTTTCAGAAATC
AACCTCGGAATCTGTTTGCTACTGCCGCGTCTACATGTTTCTACCCTCTC
TCCCGCAAGCCCTTCAATAGGAGTGCTGTCGCGATACAGCAGTAATCCTC
AACTTTGTGGCACAGAGAGGGCTGTGGTATGCTCAGGTCTACCCTTTTTC
GTCTCTCTAGAGTCAGCTACTGTGATTGGAGGTGGGCTTGTGATACTGGA
GCTTGACTTGTGGAAAGCTTTACTCCCTATGCCGGTTTGGAACAGGAGAT
GGTACATGTTCGCCGCGTCCTGGCGTCACTGAAATCATCCCTTGGGTACA
TTTGTGCTTAGTGGTGTGAGGCGTGTGGTGCATGCAACGAAAGAAATACA
GGACAACACACAGGACTCACACAAGGTGGACCGGGATGTAGCCAAACTGA
CGTGTTCGGTAGGGTGTGCTCGCCTCGTGGGGGGAGGGAGGGTTCAAGGC
GGGCGTTCGAGGGCGGGTCGATAACACTCACGTTGCAAGCGGCGCAAATC
ACGGAGGAAGATCCGGACGGTGTTCCAGCTTCGCTGCGCGTCGTTGGGGC
CCGCCTCCCAGCGTCGATCAAAAGCTGCGGTGTGCCGCCCCGTCAACGCA
TCTCATACCTACCTGCATCAGAGTTTTGAGCGATTTCATTGCTTTGTTCA
ATGTCTGCTAGAATCTTGAAGTTTGGTTTGAGCATCTGCGAGAAATGAGG
CCTGATCAACAGCTGTTTCGCTGTTGGTGATTGGCCAATTCCCCGGTTCG
AAGCAGACGAAGAATTTTTTGCGGGTACAAAAAAATGTTAACCGAGGCTC
CTGCTGTTTTCGCAGCAAGCAATGGCCTGTGTCAGGAGCACCATCGGTGA
CACGAGACTTGTCCAGATGGGCTGACCAGGCAATTATTGTGATCGCACAC
GTTGGGTGCCATCGACACGTTCGAAGCCCGGTGAAGACGTTTTTCACGTA
CTTTGTATATTTTTCCGCGTCGCCTGTAACGCGGGTGATGGTTGAAGAAA
AAAGCTGAAGGGCGGTGAGAATGGTTGGGCACGCGGCTTCGATTCTAGCC
CTTTTTCAGTTGATTTACTTCGCAGTAGTAAAACCAAAACGTCAGCAGCG
GCGCAATACACCCCTCCCAACACGCCAATACCAACCAGTGGTACATGCCA
CATGCGACTACAACCAATTTTTTTGCCTCGGGGCGGATTATCTTAATATG
TTGACCGCCCTTTCCTGCTATACAGTGTATTCGTGATGAGGGAAGGCGAG
CATCGAATTTTGCCCGACACCATTGATTCCACGCGCGAGATGTATCGCCA
ATAGTAGCCGGCTACACTCGCTTACACCTCCCAATCTTGACGTTGCGTCT
ATCACTAGCACCTCCGACCGCTTCATTTAGAGTAATAGCCTCAAACGTAC
CTCACAATGAGAACAGGGCTTTTTTTATTTGTCATCGCCCGTCGCTCCAC
AAAGCAAGTTAGAGAGCAGCCTTGGCTAGCCGACGCCCGGGCCCAAATAA
TCGGAAGTAACCTTGATAAAGTTTATAGGCTGGTCGAGTTTTGAAGGGAA
TGAAGTGAAATTCGGTGACGTTCACTCTTTTTCGTTTTGTCGTACACGAT
ATGACGCTTCCAATCAAAGCACCGTGAGCGAAGACTTTCAATCACTGGCG
AACCGCTGATATATTTCGGTTGATATTTTGTGCCTCCTCTCATTTTGATA
AATCTGTTTGTGCTCAAATGCGAAGTCGAGAAGGTGCAGATGAGTCGCGC
TTTTCCAGCCATACAGCGGTCGGCAGGATTGTGCCCCGTTGGCTAGTGGT
TGCAGCGCGCATTCGACGTCGATTGATGCGATACACCTGCCGGTTTATGT
TCAGACAGCGCTCATCAAAGCTTTTGCCGACAATGCCATGCCTCCGTCAA
CTCAGGCGAAGTACTTCTCCAAGAAAAGATACAACGTAGAAGACCTTGAG
CCCGTTGTGGCTAAGCCCCACTCCCCGGACAACAAGGCATTGGCCAAGGA
TTGCCGTGACACCAAGATCGACCGCGTCTATATCGGCTCCTGCACTGGGG
GAAAGACCGAGGATTTTGCCGCCGCAGCCCGTATCCTTCAAAACCAAAAG
GTAAGCGTATACACTGCGTGGGGAGGTCGTTTTGAGAAAGATGCCCGAAA
CAGTGCGTTTGCGGAATGGGAGGATTGGTGTTTCCGTGTGTGTGTTTAAT
TGTATTCGTGTTATCGCACACAACTTCTTATGCAGTTTCGAGAGGAGACC
CTACCGTGGCCGGGGGCTCCGGATTTCACAACTTTCCAGAGCAACTTTGT
GGTTGTCCACCCACCATGTTTTTGTTTTACAGCGTTGGCAATAAAAACTG
TTTACGACACCCAGGTTTCGAAGTTTCATATCTACGACACTGTGTGGATT
TTGTTGTGGAACCTTCAGCGCCCGAAGCAGACTTCACAAAGCGGCAACTG
ACGACACCGGCGTCAGTTGCCGCAGTGAGTGGCGTTTTTGTGCTCCTGCC
CGACACTGTCCATCGGTTTTGAACCACCCACGGAAACGCAGCGGATGTGG
TTTTGTGATCATACACGAGGGATCAGTGCTAAGATGCACGCGGTTTCGTG
GTTATGAAAGTAGGCGACAACGGGGTCGTGAAAAGCACCACGGCCATTCT
ATGGGTTTTACGGTTCTGATGTCGACAGACTTCATCGATCGCCTGCACAC
ACCTTGGTGGTCAGGGCTTAGGTCCTGTTCAGCTCAAGCCTTCCTCTCAG
AGTTCCAGTCTTCATTGAAACGATTTCAACGAGTTGGTTCTCTCCTCTCA
GAGCTTTAAATTTCGCATAGGCATGCCGGCATGGTTTCACGTCGGGATCT
CGCGGCAGAGAGGAGGAAACATGCTGAGGAGGTCTCCCTCCAAGTCTCAA
GTCATAACTCTCAGAGCTCTGCGCACGAAGCTGCTTTGGCCAGCGCACCC
GGGAGGGTACACACACGCAGCTATCGAACACCGATTTTGCCGCAAATGAG
TGACGGACGTTCGTGAGTCAAGCACTGAAGTTCCCTCCGGGTCTGTGGAC
CCAACGCGTGTGTGTGACCACGATGCTGCGTTACAACCATCATTGGAGCC
CTCGCACCAGTCCGTCCTTCTGTCTGCACATACTGTCTGCATTATAGTGC
CTCGTCCTGATAATCTCTGTGAGCAGGAGATTCGAATGTGCGCAGAGATT
GACGAATGTCAGGTTCAACGAGATTCGCTGACTGGCGTGTGTGTGGACTG
AAGATAACAAACACGCGCGTACGCACGCATGCAACGCGCTCTCACTCACC
GTCCCGCTTTGCTTGAAACGAGACGACGAGCTCTGTGTGCTGATACCTGT
CCGGCCCGAAGTTCATCACCGAGCTGTAAAATCGAGCCGCGGAAACTGCA
CGACTGCCGCATTTTGGGGTCAACTTTGACTTCAACCTTTTGGCCAATCT
GATCGACAAAAAGCCGCGGCGCAGATCTTTGTAGTATGCTCCCTCACGTT
AATGTATTTATCTCCCTCACCCCAATGTTGTAGTTTGCCTCCCGACCTTA
AGATCACGGTTCAAACTCACCGGGAGCGCCTCAGTCTATTGCGTAGGCTG
ATCCCTCATCTCTCAAGGCTTTCCATTTTCGAACGGCATGCGCGATATCT
TTGGTACTTTCCGAGCTCTCGGGACGTCACGTACAGTGCGACAGTTAATT
CCAAAATGCGTGTGTGGGTAGCATGTAACAGTCCTCGCTTCAAGCTTTCG
AACTCGCGTGCAGCGAAACGATGTCATGGGTTGGTCAGCCATCACTATAC
ACGTTGCTGCGTAGATAATTTTTGCGCTGTGACACACACGCACGTGGGAG
TGTGCGTCACCAGCCTAAACGATTCACAGAGATAAGTATGTGTTCTCATG
TTATCTCATTGGGGTCCTCCGTGATTGTGTTTGTTTCCAGGCGTGTGTTT
TCTCGACGCGTGATTCATGTTAGCATACGGTGGGTTTGTTGAAATTCATT
CCCTTGTCTGTATGTGCTTTGAGGGAGATTCGCGCGTCGGCGGGGATATG
TACAGTCAGGCAGGGGATGAAACCGATGCCTGAAGCTACAGGAACCTTTT
ATTTGATAGAAACTGTCCACCGTCCGTGCCGGGTACTGGGGTCCGCAAGG
GGCTTCAGTGTACGGCATGCCCCCCGACAGTACTGGTCAACACGTTTCTT
CAAGCAGGATTTCGACTGCTGGTGGTGGTGCTTGTGGTGTTGTTATGGTT
GCTGTTGCTGCTGCTGCTGCTGTGGCTGCCACACCTGCGTACGCCGTTGC
TGCGTTCTTGCTGCTGCTCTTACTGCCGGTGCTGATGAGAATCGACGCAC
CCCCGTACAGATACGCACCAGACAGACAACAGAGTCGATGAATAGATCAG
TATTCTTGACACCCTGAACACTCCACAAAACCATATAAATAGCAACAGGC
CGTTCTGTGTTGCACGGGCCCTGGCCGCGGTGCTGTCCCTCCGTTTTGCA
TCCGTGCTGTCGTTGTCGTGAAAAACACTGATTATTTTCCGCGCTGTAAG
TTAGATCTAGAGAGACGAATTCCACTACCTCATGTGTAGCTTGCTGCTCG
TGAGAAAATATCTGGGTTTCTACGCGCGGAGTTCCATCATCTGCTTTTGT
CCAGGTGCCTGCTGATATTCGAGGTACACCTGAAAAAATTCACCACAACG
ATTTTGAAATATCAGTCTGACTGTGGTACACCAAAAAGGACGCCAGGTTT
GCGGTAGGTCTTAGTCTCACGATTTTTACGGATTGCACGCAGATCCAAAC
ATCCACTGCGAATCAACACGCACCCACATGTCATCATCATCTATCTCCGT
GTCCTGCGAAGGACCTATCCACGTGTCCTGCGAAGGATGTTACACATTTG
ACATAGTTTTCGTCGAGCTATCTGAAACTTCACTCCGCGGATGGCAATGC
TTCGCTGGGTGGTGTGGCTGAGAACACATCGTCTGTTGCCTCCGTGGAGC
TACTGTGGCAACAGCTTTAACTTGAGCTTGCACACACAACATGTAAAAAC
CGCAACCCATGCCTGACATGAATTTTGTACAGAGGCGATTGTAGCGTAAC
TTCCCTCCGACGAAAGGGTAGGCTGGGCCCCTTGTGTGCAGTATATAGAC
TTACTGCACTCTCGAGGGAGCCTCTTCAATCCGATCAAAGATCGCACATG
TCTGCCTCGAGTGCCTCTTTTGATTTACCTAATCTGACAGTCGAGAAGTG
TTATTTGTGCGTTCGGGCAAACAACCTTATCTCTGACATCCGCCGCGACG
AAAAAAAAAGGAAGCAGCGACGGCACTATGACACCCTCTTTTTTTGTGTT
TTGGCGAAAGGTCAAAACAAGCCGCTTCTTCTTATTTTGAACACGCAATG
CCATCTTGCATCAGCACCAACTTGAACCAGATGTTTAGTCCAAAGGACCT
CTTCGCGGATTTGGCGATTTCCGCAAATCAGCCAGTCGGAAATCACGTTG
TGTACTTTTTCGAGCGCCGGACCTCATTCGCCCCGTCTGATGCAGCTTCG
TTTTCCGAAACTGGAGTATCGTCTATCCTCGATTCATGAAAGTGTCGACG
GACGCACGGCTCCATGCTCGCTTATAGCAGTACAGAGGGGGCTTTTCCCC
TCTTTTGTGTCTTCCTCGCCTTCTGCACAGTGTGATCACTGATTGGTTAG
TCTGTAATGCAAGAGTGGCGGAGGATGAAAAACATTGTCATCAATTTGCT
GTTTTCCCGTGCGCACACGCTGCATTCGCACAAACTTGCTTGAAAACTGT
TGCTGTTTACAGAGATTTGAGAGAGACAAACATTTCTTTTGGTGTTGGCC
AGCGTAACAGAGAAGGCCTGCACAACAACGAAGGACACAGTATCAACGAG
CTCGGAACACGGCGGAGATGCGCACCCAGATCAAATAGCGGGAGTCGAGG
GGGAAATTCGTCAAGGCCGCCAGACATGACTTGTAAATGGGTCTTCGTAC
GATTTCATGCTCTGTTGTTGCTGATGTTAGTTGATCCAACTAGTGATCGG
CGCTAAGTTTGTTTACTTCGAAGTGACGCGATGCGTTCGACCGTGAAAAC
CTGCAAACAAGGGAAAACAAGCCACCACGCAGGCCAGGAAGAGTGTCTGA
ATTAGGGAAAGCTGCAGAAGTTGCAGCCTGCATACTGTTCCCGCTGGAAA
CGCAGCGTCAGGACCGGACAATTCAGGGTCTGTGGACCTGCACAGTTTGT
TTACGTCTTATCGTAATTTCGCAGAAATACTCACCTGGCGATGATCCGGG
GACTCGCTGAAACTTCGATTTGAATGCTGCATCGAGTGCTGAGTCGCGTG
TGAGCTCTGCATACCGTCGCTGACCTCTGTTTTTTGCTCCGAAGAGACCT
TGAGGTTGTATTGTTACTAGGCAGATGTCAAACTTGCACATGATCGCGCA
AGCGACGTCGTGAAGTCCACTCTTCCCTGTTGCAAGGATTTCAACCCTAT
CTTTTCATTTCCAACTTTTTTGGTGCCCCCTTCATTGTGTTCAACGTGTG
CCGAAAATGGAGACTCCCAAGGCTATTGATGATATTGATGTCCAAAGCGG
CTGTTTTTGCGGAGACACACATAAAACCAAGGCAGACTATGGTGCTGTCG
GCAGTGTCATGCATTCCCGGAGTGTCGAACGCCTTGCGAGTGAGCTGCTG
TGTCGCTGTGGGTGTGAAACCTCTCTCCGCCTCTACTTGGGTGGTACATT
TTCACCAGTTTGTTTTTCAATCTTTCTCTGTGTTCGAGGACACTAGAATC
ACTGCTCCAGGTGCGTGCCTTGTGCACAAATCCTCGCCTGTCCTCCGTTT
TTTACTTACTTCACGACCTGTCTGTCGTTAGCCCCTTGCATTGAATTGCG
CCCCCCATCCCGCCCCTCCCCTCCCCCTTTTTCGAGGGTGGATTGGTCGA
GGTAGGGTTGGCTCTTGTGGCATGGAGCTGTAAAACTGCTGTATAGGGCA
TGGGGGTTGTTCATGCGGTATATCCTGTGAGATTGTGGACTCCGGTCCTA
GAGATCACACCCTATAGGATGTCCGCTGAACGCTGGATAGTTGGAACGCC
CTAGAGCAATCATACTTATGAAATATCCACCTGTGGGGTATATAAGCAGA
TTATTCTCCAAGTGTATCACACACGAAGCGACGTGTTCGCTGTGTGTGCG
CGCCAATATGATAAGTGCGCGCAAAGATCGAAGTCCCTTTGCGGTACTTG
AAGAATAGTCGAGCCTGCCGAATGTGAAACGTTTGGTTTACCGGATGCCC
AATCAACCCATGGCAGACCCGGTTTGGCTCAGCAAACACAAGGATGATGG
CCAGATGCTGGCTTATCCTTGTGAAACGCGCCTGGCCGGCGAAAACCCGG
CGTATCGCTCCGTCCCGGCATTGTAGGTGACGCGAGGTCTATGGTCTGAC
CGACTACGGCATGCGTTTTCATGAGTACACCCCCCATCCCCTCATACTTA
TGAAATATCCACCTGTGGGGTATATAAGCAGATTATTCTCCAAGTGTATC
ACACACGAAGCGACGTGTTCGCTGTGTGTGGCGCGCCAACATGATAAGTG
CGCGCAAAGATCGAAGTCCCTTGCGGTACTTGAAGAATAGTCGAGCCTGC
CGAATGTGAAACGTTTGGTTTACCGGATGCCCAATCAACCCATGGCAGAC
CCGGTTTGGCTCAGCAAACACAAGGATGATGGCCAGATGCTGGCTTATCC
TTGTGAAACGCGCCTGGCCGGCGAAAACCCGGCGTATCGCTCCGTCCCGG
CATTGTAGGTGACGCGAGGTCTATGGTCTGACCGACTACGGCATGCGTTT
TCATGAGTACACCCCCCCATCCCCTCCGCTGGCTCTCACCTTGGTGTTTG
CCATCGGGATTGGGTTTTCGTCGCTTGGCAACGACGTTGTAAAACAAGCC
AATTCACTTCGTGAACTCGGCAACCAGGTTACCGTCTTTTTTTTTCTTCT
GTTTTTTTGGCGGTAACCATAATGGTGGTCGAGATGATCATGTTGTGCGG
GGCGGAGAACCCCCACTCGGCGCAAGGGGGATGATCGCACCACGTTGTGT
CAACATGGTCAAGCACCCTCGAGGCAGTTACACAGTGCTTACAACTGTCT
CTGGAAGTGAGAGCACAAGAAAATATATTATGCCATACGCAGCTGTCATC
CGTATGCACGGAAGTAAGCACAAGATGCCGAACACCCGTAGCAGGATGCA
GCGCACCCTTCATGCGACTCGCCGAATACCTCACGGCGCTTCGCGCTTGG
TGTGAGAGCCTGGTCCGGTGAGAACCCGGCGTGCTCCGTCCCGGCTTTGT
AGGGATGCGAGGTCAATGGTCTAACGACTACGGCATGCACGACTATGAGT
ACACCCCCCCCCATAAGTCAATCACATCCCTGCCATAAAAACCGTCTCCC
GTGTTCGTCTTCCATACACACGCAGATTTTGTACACCACTTTCACGTGGT
GTGGATTCAATGATGCGTGCTTTATATGCTGTCATGCTTGGTCAGCAGTG
CGTACCCTAATCCCTCGTGTGTCACAGAGATTTTATTCTCAAATGTTGCG
GATTCTGCCGTTTTGTGTGCGACATTACATCCTGAACAGGATTGGATTCT
GCTGCGGAAACTCTCAGACCTCAAACTAATGTCGAAGGCCGCGCGTTGTG
ACTCCGTTTTCAGTGACCCCGTCTTTGGTGACGACGGTTTGTCTTGACCT
GGTCACATGGTCGCTGGTTGATTGCTCGGAGCCGACGGAAGCGACGCATG
CGAGCTCGCGGCAGTGCCTCCAGGCAACCCAAGCACACCTTTCTCCACAG
CTCCTATTTTTTGAAGCCGCCCAGGATCACCGTAAATCGCAAATAACCGG
GCGCACACTCGCTGGTGGAGGCCTCCTTCACGATTTTTTCTCACGAGACC
TTGTCCGCAATTGAGGTAGGCATGCGCTCGCAGGGTCTACGGCTCATGCG
CACACGAATTAGCATCGGGTGCAGCAAGTTCGCCGAGAATGCGTTGCCGA
TTCGCACAGGCGTCCGAAGCATCGTGTGCGTTTCTGGGGTCATGCCCGTA
AAATGGGAGCCTCAAATGACCGGTTTGATCTGCGGTTGCCCACGTTATTC
ACCACCGGCGAATCCATTCCGTGTCTGATAATATGATTTCGTCGCCTCCA
GCTCACCATCCTCTTTCGGCACGTGCACAGACGATTCAACTGTAGACCTC
CCAGGAGGTACGGACAGTTGGCACGCAGCGAATACACAATCGAATCTCGC
CCCTCGTCCCTGTGTCCGGGGATTCCGTGCATTCGCACCCCCGGCCATCA
CAAGCTGGCTGCGAGATCCTTTCAAAAGTTGAGCCAATAGAAATCGGAAG
ATTTTGGAAGCTGTTGTGCGCGGATGCTCATACGCACGCATCACGAACTG
CATCCGCGTGAGGTTTTTGGAGCTTGTCTGCTATCGAAGCGGGTGCAGGA
ACGAACGAGCGCCAATAATATATTTTCTGCAAGAGCTGTGATAATATTTT
TCTCACTTTTTTTTTTATAAACAGTGGCACTTGCTTCAATTCAACTTCAC
AAGAACGGGCTTTATTTTCGCGACTGATCGAAGATCCACACCAAGTGTGA
TGTTTTTTTGCACACAGCCGAGCAAGCTGCTCTGCTCTCTCGTCGAAAAG
TACATCTCCGAAACACCTGTATGAATAATCGGTTTCGTTTCGGGAAAACA
CGCACAGCTACCATGGGTAGGGCAAAGCGGGGCTATTACATTTGAGGAGT
CTCGCGAACCGCGGAAAAATTAAAAGAGGCATTCTCCTGAAGATGAAGTT
TTTGGCTTGCGGCAAGTGCTGCGCTGTTTGCGTCATTTCTCTGAGATCTC
ATTGCAACAAGGCTGTTTTGCGCCGGACGTCATCCTTCCAAGCCATATCT
CTTTTATAAATCTTGAGCACTTCGTTAACGCTGAAAGAGCGTTATGATGT
GCCCTCTGCCATCGATTGTTAATTAATGTGTTGTTTTCGCCCCCGTCGTG
TATCTGCATCCACTGTGGCTGCGATTCACCGTCATTAATATTCACGATCA
TCACAGGTTGCAGCACAAAAACAACAGAGCGTATCGCATGTCCGTTCTCT
ATGGAGTTGAATGCCGCCATCCTATGCACCGTGCAAGTCCTTGGATTGCA
CGCACTTGCAGTGCGGGGATACCATATTTCCTACTTTTTTCTGAACGACT
TCTCCGAGTTTTTTTGCGGCGCCGCTGGCTTTCGGGCGTATCGCACTTTG
ACGCACTGCGGCGATTGCCAGGGTGATGTTTGGCCCCCGCGCCGCCCTTG
TGGTGTCCGTATGTTGAGCACCCCATAAATGGATTACCAGGCCTGCCACC
GTCCCCGTTTGCAGCCCGCTGGCGAGGCGGAGGTGGCGGCCGCAATCCGA
AGCCGAGGCCAACTCCCGCTCCCGCCCCCACAGCCTGCACCCCCCCTGCC
TCCATCCCTGCTCTATCCCAGCCGCTGCTGCGGCCGCCGCCGCCTCCGCC
GCCACCATTCCCGACGGGGTTGCCGCCCCACCATTGCAGTTGGGCTCGGG
TATGCACGAAAAGGCGACAGAGTTGGCGAATCGCTCATCTGGTGCCTGAT
GCCTCAGCTGGCTGCTGAGTCGTCGAAGGGGCCCCTGGACTAGTGCCGTG
GCGTTTTGGAAGTCCAGGCGGACTCTGAACGAGGCGGCGTAGCTTTGCAG
GTGGGCGGCTGTCTTCCTGTGAACGGCCAAGTACTGTTGGTGGACGGCCT
CGATCTTGCACACGTACGGTTCCAGTCCGAGGCCGTTCTAGCAACGTCCA
CGCGCTGGCGGTCGCGCGCTGATGCGCTCCCTCCTGGTCGAGAGTACTGG
AAGTACTTATTCTTGAACTTCTGCTTTTCAGCAGGCGTGGTCACCGGTAT
CACCGGCAATATGCTGCTCATGAGTTGAGCGAGGTATCGCGAGGAGGGTA
ACAACTGCGGAGCAGGTACGGCTCGATCGACGCAGTCGATGGAAGCACCG
TGCTCGGGTATCTCGGGGCTTGTGAGGCGCTCAGAGGAAGTCTGTGTCGG
TTTGCCATCAAATATCAGAACACTGTCCGCCAAGCCCATCCTTCTACCGC
TGTCCTCGAAGTCTAACGGCGCAACCCACGTCGGGTACACCGGCTGCTCT
GGGTACCCGGAAATGGTCAAACGCTGGCCGATCATGTACTGGTTGTTGAA
ACCGCCAATCTCCGGCGCCATGCCACGGTTTTCGACCGCCCTCCCGTTGT
TCCACCGGTAGTTGAACTCGATTAACACGGAGTGGTACGCTCTCGGGGAT
GCGGAAAAGTTGGCGACGAGGTCGCGAATGTATCGATGGTAGCCCTGAGC
GGGTTTTGGGAGGGGGGTGGGGCGGAACGTTGTTGCAGCGAAGGTATTGA
TCAATGCTGCGCTTTTCGTTTTCGTAATGAGCGGAATACATTCGCCACCC
AGCACCACCTACCTCCGTGCTGTTGGTGCCACGGATGCATTGATAAACCG
TGAGCCCCGTCTATGTCTTGCCTCGTTCGAAGTACAGTGAAACCCCGGGT
GGGTCGTTGAAGCGCCCCTGCTCGATATGCTCTCGGACCAGCCCAACAGC
CTTCATCGCTGCTGGAGAACAAAGCACCTGGCCGGTTTTGGCGTCACTGG
TGTCCTTGCAGGAATTTACCACCGCATCAAAGCAGGACAGGAGAACGCCT
GGGTTCGCACACGGCGTCGCGCGTTCCGCAAGAACACCCAAGTCGTATCT
TTTATCTTCGCGATTTCTCCATCCAACCTCCCCTCCTTTCAAGACGCTCT
CGACCGCCTCGATGTCGGCCTTGTTGACCATGAACAAGGCATCGAGCAGG
AGAGACATGAAGATCAAACGGGCACCGTGGCTCTTGGGGACCACCCTGAA
GATACGATTCATCCCATGGGACACGTCCAACCACACGGGCAATGATGGCG
CAACCCTGTCCCTGCCCAAAGTCGTCGGAGAACCCAAGCGAGCACTCGAA
CGCGCGGAAGCACCGGAGTACTTGACCGAGGCGCTGGAAGATGCTGCTGT
TGAGGAAGTCGAAGCTGTGCCCTGTGAGAGGAAAGCAAAAAGAGCAAGTG
ACGGAGTTTGGTTGGTGAGGATCGAAGACAGTACGTAAGCAGCACGCGTG
GAACGACATTTCCAGCTTCGAATCTGCCGTCCACAACGCTGATCGCCGTT
CACCTGGTGGCTCGAGCGCCTTGAGGGATGAATTCATCGTCGTCACAGAA
AGCGGGGTCTGGCCAGAGTTCGTCGTCCTCTTCTCCGCCAGCCAATCCCT
CACCGGCTTCGTGTTGTACGGATTCTGTCCGATCGAAAATTGTGTGGACG
CTGGATGAGCATGTGTGGGCAGATAGTGTCAAGCGCACACACCGCCGGTA
TCGGGATTCGAGGCGTCTACCAAATATGGATTGCTTCCAATATTTCAATG
AGGCGTACAAAAACAATCACCTGACCCCTCCACGATTTATGCCGTCGGGA
GTGCCGCGTTGCTGAAATTGTCCACGTAGTTGGCACCCGCCGTCGTCCAC
AGCCTCCTGTAGCGAAGGCCTGTACAGAGCCGCCGCGCGCGCGTGATCTA
AATCCCAGAGCACCAAATCTTCATCGTCGAAACATGCAGCGGAGTCGAGG
TTTTCTTTGTTCGCCGGCTCACCCTCCTTCCCCTCCCTGGCACCCTCCTC
TTGAATGGGCTGGACTGCTGTCTCGCCACCAACAGCGGCGTGCTGTTCCG
GCACGGATAAGGGCCACGTCTTTGATGCAGTGCTGCATCTCCGGCGTGGG
CTCTTCGGGTTGACCTCTCCTACGGTACAACGGTTGGTGTGTCTCTTGGC
TCCGAACACAGGCGGCGACGATCTAGCGTGCAGAACAGGCATCGAGGGTT
GGTGAGGGGGGCGGTCCAGATACCACGTCACCACCTTGCAAACTTCGTCG
AATACTTCGCACATAAAAGAGCCATAAAAACGAGCCTCAACGGTGGAAAC
GGAGCAGGCTACCTATGCGTTGCCTTTGCCGTATGACTCACCGGAATCCA
ATGAGGCACGCCACGTCGTGCTCCATGACTACCCGGCGCGGTCCTTGCGG
GTCCCAGCCATGTGGCGCGCCCTAACCACAGTTTGGACAAGGAAATCTGT
TTGAGCGAGCTTCGCGAACAGGTACTCCGGTATCCATGCGAATACCGCCT
TCAAATAAAACGAACCAAGCTTGGGCAATCATGGAAGAAGGCAAAAGTGG
AGAGGCAAGATCAGAAAACGCGTGAAAAGAGCTGTGTCCAAAAGCTGCTC
TCCTACTTCAAAAGTTGGCCTCTGCTCGTCCAACGGCTGCCTATTCAAGC
AGGACAACCAGCATTTAACTGAACATACACACAACTGAGCCTGTTCGCAC
GGCTCCATTCTCTGGAGTGATGAGCGGACTGCCGTACGGAAATCGGCGTG
AACCTCCGGGTCGTGCTCTTGTAGAACCGCTGTGGCGAATGATGTCAGAG
TAGATGATGCTCTTCACTCGATCGACAAACTTTCGCGGCGCATGGGTCAA
CCGATAATGTTCATCGATGCCAAGTGCATCGCGTTCAGCAGCAGGCATTC
CTTCTCCTTCTCCTTCTCCTCCTCCTCCTCCCCCCCCTCCTCCTCCTTCT
CCTGCGCGCCCTTCACCTTCTCCTCTCCCTGCTTGACGTGCTCCTCCTCC
ACGCGCACTCCCTCGCTCTCTTCGTTCATACCCTCCAATGCCTTGGCGTC
CACCTGCCATTCCATGCCGCCGTCGCTGCCGCCACTGCCGCCGCCGCCGA
AACGGCCCGAAGGTGATGCTCCTGTCGCCACCCCTGCCAGTGCTTGTGAT
GGGCCTGGTTGTGCCGACGGAAATAATGCTGGTGGTACTGCTGATGGCAC
CCTGCTGTTGGCGGACTGCGAGCTTTGCCCTTGCCCTTGCTGCTATGGAG
GGGAGGGAGGGTAGTGTTGCCGCGGCGTGACTCGGACTTGCAGCGACACG
ACTCTGAGGAGGGCCGGTGCTATTTTCGGCTTGTGTATCCCCAGCAGAGT
TCCCTCTGGGCACTGATGGCTGATTAGCCAAAGTAGTGCCCGGGCGGCAA
TTCACCATCTCGACCCTCACAAGTTGGTATGCTGCTACCCGAACCTCATG
TGTCGGCCGCCTGTCGCAGCTTGAGTGACCGCAAGTCCTGCCCCCATCGT
CGACATCAGAGGTAGATGGTGTTGTTCCACTACCCGCACCCCTACCCTCT
CTTTACCCTGGCTTTCATACGAACATGGACGCCTTTGCGATGAAGGCGGA
CTCCTCGCCATCATAGACGCTAAGGATGGCACCTGACTGGCATTTCACCT
GCGCTCCGCTTCCTCCTGCCGTTTCTTGGTTTTGGGTCCGCTTTTTTAGC
GCTGTGTTTGGGCTGCGACCTTGGGGCGGTCTGGGCCGATGGCGCGCTCT
TTTGAGGGCGCTTCCTGTTGCGTGTTCCCTGTTGTGGCTGTCGTTTGCCT
TTTGTGGCTGTTGTTTGGTATGTGGTATCTGTCTGTCGGCGAGACTGCGG
CGTGGTTCGGTCTAAAGTTCGGCGGGACTTTTGACTACACGGAGCCTCTG
ACTTGCTTCTAGGGAGTCGCATTCTCAAAGTCGTAGTCTACCTTCCAATA
GATTTATTTAACGAATGTTGGTTTTGCTCAGAAATTTCGTTCCGTCGTCC
CCACTGCCGGAAAAAATCTGCGGAGCACCTAGTTTTCGAACCTTCTGTTT
TGAACACGCACCATTTCCGAAAACAAAAAACGTCTCTTGTTTCGCAGCAG
CAGCACCACGCACCAAGCGAGGACTACCCTTAGCTGTCTACTGCAGGTTT
CGGTCAACAGCAAGCAGTGGCGATGAGCCTGCCCGTACATGGGGCAGACA
GATCCAATTCCGCACTCGCTCGCCCCTTGTCTCTGCTCTTGAATTCGACG
GCGCGCGGGGAGAGCCCTCGCCGGGCAACAAAAACCGTCATCGTCTCGTC
ATCGTCGAATACAACGAGACGACGCCGGATTGGGGGCGGCCTCGCTATCG
ACTCTCCCTACCTTCCAGAGGCACCAGAAGCATTTTACCGTCATCGTCGC
AAACAAAAGAAAGACAAAAAGCACGGAATTGAAAGCAGGCTTGTGTGGCT
ACACCGTGTGAGCATGCATGAGTCGTTGTTTTCCGGTTACGCTACGGTCG
GCCAGGCACGCATAGGCGCCACTAACTTTACGCGCAGATGGTACTCGGGG
TACCACACTCTTGCTACCCCACCTCGACAGTAGGTCCCGTGCTCGGCTGA
ACTCTCCACCCGATTGTATTTGACGTTTGGTTTGCGTTGGAGTCGCGCAA
ATACCAAACACCGAGTTCCATAGCCCTCTCTGGGTGGTATTCGGACATCG
AAAGCTTGACAGGCGCGTGTGAGAATTTGGCACAAAAGTACTGGATCCAA
ACATGATAATATCATCCAGGAGTTTCCCAAATGAAATCGTTCCGCGTAGT
TGGCAAATGCTCGGTGTAGTGCGGCAGTTGAGCGTTGGGAAGACCGTATC
AAAGCGGTTTGCTTCACACCGTCGCCTCCACCGTCTTTTGATACTTTTCT
TCGGTCGATTGCAAGCAGTCGGTCGGCCATCGATTATCCTTCGGATTTTT
TTTTTTTTGTCGATGATCCATCTGGAGAAAAATCGAGCATATCGTTCTGC
AGGGCTGGCGGTGTTTGCCCGATGGGTACTCTTTTCCCCGTTCGTTGACG
GTAGGGCCTTTGTGCTCAATGGAACAAACGGTTTCTGTCTCCTGAATGCT
TCCATCGCAGGTACAGGGTGACACACCTTCACGATTTCGTTTCCACTGCC
ACTGACAGCCTTGCCGAACATGAATGTTGTCTCCACTCCGTTTAGGTGGT
CGTGGTGGTGGTGGCGACGGTGATTTTGTTCACGACTCACGATTTCGCTC
ACTTCTTGTTCAAAACTGGGCAACCACCATTTGAAAAAAAATTGGCGTCC
GGACTTGGTTCGTACTTTGCCTCAGCTCATGACATGTTCTTGTCTCGTTG
ATTACGTGATTCTCAATTCGCCTGTCCCTCCCCGACATCAATGCTTGAAT
GCTGCCGACTGCTGCTAAGGAACTTTCAGCACAACGTTCGCATCAAATCC
GTGTTGACAACGGCGTTCAACTCTAACAACAAGCCATTGAGCGGTGTGCC
TTGCCAACGAAAAGACGAGGTAGGGTTCATCTCAGGCACACCGCTTCATC
TAAATAATCTTGTATATTTCATTTGACGTCTGCTCATTCACCTCGCCCAC
TCTGTCACCAACAGGAAAAACTCGTGCGCATTGATCGCAAGTTTCAATGC
TTTCGACTCAGTTTTGTCATCTAACTTGGGGCTATCGACGCCGATTACAA
GTTATCGAAGTGTCGAAATCTATGATCTAAACCAACTTTCCTGAGTGCAA
CGTTTCGCCGTATTGACCAGGTCCGAGTGCCTACGTTCCTGGTTCCAGCT
ACGCAGAAGGTGTACAACGACATCCAGAACTTGAAG GTCCGTCTCACTTC
TTTAGCTCGCTCTTCTCGCACGCTCCACTCGCCTAAGTTATTTACAGATT
CGCCCCATTTTCATGAAATAGTGCGACAGTAAAAAAGTACAGGAATGGTC
GAGGTTTTGCTGTCAAAATTCTCGGTACTCAATTTGTATCGTCAGAGACA
CTTAAGAGAAAGCAGCTGCTCACGAGATGAAATGTCTCCCAATCTGAATT
CTTTGTCGCTGCGCGTAGATCGGAGGCCGGACGATGGCCTCAATATTTCG
CGAGGCTGGGTGTTTGGAACCGGCTTCCCCCTCTTGCGCTGCATGTCTAG
GGGGCCCAGCGGACACCTTCGCCCGCATGAATGAGCCTTTTCAATGTGTG
TCAACCACCAATCGGAACTTTCCAGGACGCATGGGACACAAG GTGGGAAT
TTGCGCGACCGAGTCAAAGTTAGAACACTTGGCGAAGCAGTCCTGATTAC
ATCCTTTTTTGCATAATCTCTCGCTGCGACGAGCCCGTAGTGTGTCTTGC
ATGTCATCCCAAGTACCAGGTATGACATGAGCAGCAAAAAATAGCATGCG
AACATTGACTTCTTCGGACGCATCGATCGACAAAGACTCGCTAAATTGCC
TACTGCGTTAGTGTTGGAAGGCAATGGGTCGGGATATTCTGTACTCCTCG
TAAAGCGGCTACTTTTCTGCCTAATTACTGGGAACTCTTCATGCAATGTG
GCTGTGGGCGTGCTTTCTCCATCGTCGCTGATCTGTCTGCCCGTGACTTC
GTGTGCTCTTGGTACAGGACGCCGGCATTTACTTGGCATCCCCGTACACT
GCCGCTGCCTCGGCTGTCACGGGGTTTGTCACAGACCCTCGCGAGGTGTT
TGATTTTGACAAGGGCAAGCGTTGGGCTATCGAAGATATTCTGACTGAAA
GTGTTCAATCGCAAGCACAGCAGGCCGTTTCTGCTTGA GTGTAACTAAGC
ATCAGATCGGATGTGTCGGGGTTTGACTGTAAAGGCTTGACGATACGGAT
TGCATCATCCAATGTCTTGATATCAATGACTTGGTTTTGGTTCTGAACGT
GTGCGCATGCAGTATGGGCTCGCAGTTAAGAAACGATAAATCCGGTCCAG
GCTCAATGTGGAGGACACCGCTAGTCGGGAATACAACAATGCATCTGTGT
GCATACGAAGTATAGGAAGATATGACTCTCGAGGCAACTTGCCTTGGAAG
AGTCAACAAACAATAGAGCACCGTGAGAGATGGGTATCTTGCAGAGGCAC
GGCCATGTTGCCGAGAGGAAGGCGGAAAGTGCTTAGACTCTCCTCCTCCC
ACTCTGGGCACTTGTCCTTCTTTTGTCTTCTGTCTCTTTCTCGTCGCTGC
ATCTCACAACCCCAGCCGCCCTTGGCAGTGGATAAATACTGCCACGACAC
CGGCTTCTGCCGTGCCAGTACCCGTGTCCTCACCAATGTCTTGATGTGGC
GTGAAGAAGGAGCCAGATCCGTTCATTCTCTTGTAGTCGAGTTTTTTTGT
TTTTCTCTACTGACTGATGGATCGTGCTGGTTACGTTCTTCGACATTTTC
CTATTTTACTCGTTCTGCTGTCGTCACGTG back to top Coding sequence (CDS) from alignment at P-fluviatile_contig100:23618..63197-
>mRNA_P-fluviatile_contig100.935.1 ID=mRNA_P-fluviatile_contig100.935.1|Name=mRNA_P-fluviatile_contig100.935.1|organism=Porterinema fluviatile SAG_2381|type=CDS|length=3312bp|location=Sequence derived from alignment at P-fluviatile_contig100:23618..63197- (Porterinema fluviatile SAG_2381) back to top