mRNA_P-littoralis_Contig155.17.2 (mRNA) Pylaiella littoralis U1_48

You are viewing an mRNA, more information available on the corresponding polypeptide page

Overview
NamemRNA_P-littoralis_Contig155.17.2
Unique NamemRNA_P-littoralis_Contig155.17.2
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig155.17.2 vs. uniprot
Match: A0A6H5KCI0_9PHAE (GH88 protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KCI0_9PHAE)

HSP 1 Score: 677 bits (1746), Expect = 2.880e-231
Identity = 382/738 (51.76%), Postives = 461/738 (62.47%), Query Frame = 1 
Query:  397 AALCLGWSS---VLLGGVWVADVVRADDSLNVVVSGAFDFAGDQLTVMNEEVLIEEGVFTDYTDEDGQWETTKENGDPIGKEVWTSGMVAGMFWYQYAATGNLAMKTAAEFYCTGLEGVELLDDNDLGFQVLNSYGLGYRWTNSTSDKQSYLERVLAGAATLHENRWDGNIPAYWSWENPSQRPEWERAVNVDMIMNMEIMLWAHVNGGDDHDEDVEGHADLTWLDIVRDDNSTNHVADYDPDTGEFVETGTYQGYTDDSTWTRGQAWAVYGYVMIYRYLAMPRFLERSIGLLEYFDSNLPDDLVPPSDFDAPVSATSNGKDSSATAIVASASIELFLSTDDAAYLIKGQNYLSALLVADYYLPDATDGYQSILRRATAAWGDP--EVGATFGDYFLLECMFRYINLAPSILLFEEDAVDV-VGVASTARXXXXXXXXXXXXXXXXXXXXEPRRLQQVLLGGEFCAISVSGVVVAFADSGCVPVAPDFSVLESGTTPAPVGADATPSPTA--------GSRGEETVDTPAPSSPV------VAATFAPLVVXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXVLLPTPGGQNAETMAPL--------NTAGGSPAPTAPEIIATAEPAADTT-----------------------------AGASLEFGALELNHDVDLSYLDAASTVVVRFSVDLENTSNTPATLSLQNADGDVLETDVTAPDGGWQPGSNK 2439
            A LCL WS     LLGG  V  VVRADDSLN  V+ AF F+G QLTV+ EEVL +EGVFTDYT+ DG W T K+NGD I + VWTSGMVAGMFWYQY ATG+  MKTAAEFYC+GLEG+E  +DND GFQ+LNS+GLGYR T S    + YL+RVL GA  LH  RWDGNIPAYWSWENPS+RP+W+RAVNVDM+MN+EI+LWA +NGG+DH+ +V GHAD TW DIVR+DNSTNHVA YD DTGE +ETGTYQGYT+ STWTRGQAWA+YGY M+YR+L   RFL+RSIGLLEY++ NLP+DL+PP+DFDAP SAT NGKDSSA AIV+S  +ELFL T+D  YL+K Q YLSAL     Y PDATDGYQSILRRA   WGD   E+GA FGDYF LE M RY  LAPSI+L++E  V+V V                           E RRLQQ L GG++C ++VSG  V+F D  CVPVAPDFSVL+ G+T      D+TP+PT          + G   +DTP+P+         +A T AP                                          P P     ET+ PL        +  G +PAPT  + +                                       +GA + +G+  L++DVDLSYLD  ST +V  SV L+NTSNTP+ LS++NA+G  L T +  PD GWQ GSN+
Sbjct:   40 ARLCLAWSCCALALLGGGGVG-VVRADDSLNSAVAEAFVFSGAQLTVLTEEVLTKEGVFTDYTETDGLWRTEKDNGDSIDQTVWTSGMVAGMFWYQYEATGDETMKTAAEFYCSGLEGLESEEDNDTGFQILNSFGLGYRLTGS----EEYLQRVLTGAEALHGFRWDGNIPAYWSWENPSRRPDWDRAVNVDMMMNLEILLWAGLNGGEDHELEVAGHADSTWKDIVREDNSTNHVAAYDIDTGELIETGTYQGYTNSSTWTRGQAWAIYGYAMVYRFLPEQRFLDRSIGLLEYYEDNLPEDLIPPADFDAPESATDNGKDSSAAAIVSSGLLELFLETEDPTYLVKSQTYLSALFAGTCYQPDATDGYQSILRRAMREWGDEDGEIGAVFGDYFFLETMVRYQKLAPSIILWQEAGVEVAVSRRRRLEEETRQDETLAEGAEEVGQEGEMRRLQQELDGGQYCPLAVSGGTVSFKDPACVPVAPDFSVLDQGST------DSTPAPTVTGDXXXXXXTGGIVVLDTPSPTPDARGGLDTLAPTLAPYTTAPLGPGET-------------------------------PAPTAAARETLQPLLSTDSPMGDVVGVTPAPTTQQPVTVPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXSGADVTYGSTVLDNDVDLSYLDETSTTIVWLSVTLDNTSNTPSVLSIENAEGSTLSTTIPDPDNGWQAGSNR 735
[Close]
BLAST of mRNA_P-littoralis_Contig155.17.2 vs. uniprot
Match: D8LHN8_ECTSI (Unsaturated glucuronyl hydrolase, family GH88 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LHN8_ECTSI)

HSP 1 Score: 482 bits (1240), Expect = 1.930e-161
Identity = 236/340 (69.41%), Postives = 278/340 (81.76%), Query Frame = 1 
Query:  397 AALCLGWSS---VLLGGVWVADVVRADDSLNVVVSGAFDFAGDQLTVMNEEVLIEEGVFTDYTDEDGQWETTKENGDPIGKEVWTSGMVAGMFWYQYAATGNLAMKTAAEFYCTGLEGVELLDDNDLGFQVLNSYGLGYRWTNSTSDKQSYLERVLAGAATLHENRWDGNIPAYWSWENPSQRPEWERAVNVDMIMNMEIMLWAHVNGGDDHDEDVEGHADLTWLDIVRDDNSTNHVADYDPDTGEFVETGTYQGYTDDSTWTRGQAWAVYGYVMIYRYLAMPRFLERSIGLLEYFDSNLPDDLVPPSDFDAPVSATSNGKDSSATAIVASASIELFLST 1407
            A LCL WS     LLGG  V   VRADDSLN  V+ AF F+G QLTV+  +VL EEGVFTDYT+ DG W T K+NG+ I + VWTSGMVAGMFWYQY ATG+ AMKTAAEFYC+GLEG+E  +DND GFQ+LNS+GLGYR T S      YL+RVL GA  LH+ RWDGNIPAYWSWENP++RP+W+RAVNVDM+MN+EI+LWA +NGG+DH+ +VEGHAD TW DIVR+DNSTNHVA YD DTGEF+ETGTYQGYT+ STWTRGQAWA+YGY M+YR+L   RFL+RSIGLL+Y++ NLP+DL+PP+DFDAP SAT NGKDSSA AIV+S  +ELFL T
Sbjct:    3 ARLCLAWSCCALALLGGGGVG-FVRADDSLNSAVAEAFVFSGAQLTVLTGDVLTEEGVFTDYTETDGLWRTEKDNGNSIDQTVWTSGMVAGMFWYQYEATGDEAMKTAAEFYCSGLEGLESEEDNDTGFQILNSFGLGYRLTGS----DDYLQRVLTGAEALHDFRWDGNIPAYWSWENPTKRPDWDRAVNVDMMMNLEILLWAGLNGGEDHELEVEGHADSTWKDIVREDNSTNHVAAYDIDTGEFIETGTYQGYTNSSTWTRGQAWAIYGYAMVYRFLPEQRFLDRSIGLLKYYEDNLPEDLIPPADFDAPESATDNGKDSSAAAIVSSGLLELFLET 337
[Close]
BLAST of mRNA_P-littoralis_Contig155.17.2 vs. uniprot
Match: D7FUJ9_ECTSI (Unsaturated glucuronyl hydrolase, family GH88 n=3 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FUJ9_ECTSI)

HSP 1 Score: 462 bits (1188), Expect = 3.720e-150
Identity = 237/392 (60.46%), Postives = 290/392 (73.98%), Query Frame = 1 
Query:  475 LNVVVSGAFDFAGDQLTVMNEEVLIEEGVFTDYTDEDGQWETTKENGDPIGKEVWTSGMVAGMFWYQYAATGNLAMKTAAEFYCTGLEGVELLDDNDLGFQVLNSYGLGYRWTNSTSDKQSYLERVLAGAATLHENRWDGNIPAYWSWENPSQRPEWERAVNVDMIMNMEIMLWAHVNGGD-DHDEDVEGHADLTWLDIVRDDNSTNHVADYDPDTGEFVETGTYQGYTDDSTWTRGQAWAVYGYVMIYRYLAMPRFLERSIGLLEYFDSNLPDDLVPPSDFDAPVSATSNGKDSSATAIVASASIELFLSTDDAAYLIKGQNYLSALLVA-DYYLPDATDGYQSILRRATAAWGDPEVGATFGDYFLLECMFRYINLAPSILLFEEDAVDV 1644
            LN+++S A DFAG QLTV+ ++VL+E  +FT YTDEDGQW T K+NGD I   VWTSGMVAGMFWYQY ATG    +T AE    GLEGVELLDDNDLGFQ LNS+GLGYR   ++S K    +  L+GA +L++ R+  NIPA+WSW NP   P+WERAVNVDMIMNMEIMLWA VN GD ++ +  E HAD TW D+VRDD ST HVADY+  TGE V+ GTYQG+ DDSTW+RGQAWA+YG++M++RYL  PRFL+  I  L YF  NLPDD VP +DFDAPV +  N KDSSATAIV SA  ELF  T + +YL KGQ +LS+LL++ +Y+   ATDG+Q+ILR + AAWGD  VG+   DYFLLE M RY  ++PSI+L  E  V +
Sbjct:    2 LNILLSAA-DFAGQQLTVLKDDVLVENYIFTSYTDEDGQWITVKDNGDVIDLTVWTSGMVAGMFWYQYEATGQNIWRTYAEDMQEGLEGVELLDDNDLGFQTLNSFGLGYRLVGTSSFK----DITLSGAQSLYDYRYVSNIPAFWSWANPKSEPQWERAVNVDMIMNMEIMLWAAVNDGDAEYSDAAENHADTTWADLVRDDYSTFHVADYNKSTGELVDKGTYQGWQDDSTWSRGQAWAIYGFIMVHRYLQKPRFLDYGINTLSYFVDNLPDDNVPYADFDAPVDSD-NPKDSSATAIVTSALFELFEQTGEPSYLEKGQEFLSSLLLSPNYFDSSATDGWQAILRNSAAAWGDAAVGSVTADYFLLESMVRYQTMSPSIILRNETEVSI 387
[Close]
BLAST of mRNA_P-littoralis_Contig155.17.2 vs. uniprot
Match: A0A6H5JQV0_9PHAE (GH88 protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JQV0_9PHAE)

HSP 1 Score: 395 bits (1016), Expect = 2.620e-125
Identity = 203/335 (60.60%), Postives = 246/335 (73.43%), Query Frame = 1 
Query:  649 MVAGMFWYQYAATGNLAMKTAAEFYCTGLEGVELLDDNDLGFQVLNSYGLGYRWTNSTSDKQSYLERVLAGAATLHENRWDGNIPAYWSWENPSQRPEWERAVNVDMIMNMEIMLWAHVNGGD-DHDEDVEGHADLTWLDIVRDDNSTNHVADYDPDTGEFVETGTYQGYTDDSTWTRGQAWAVYGYVMIYRYLAMPRFLERSIGLLEYFDSNLPDDLVPPSDFDAPVSATSNGKDSSATAIVASASIELFLSTDDAAYLIKGQNYLSALLVAD-YYLPDATDGYQSILRRATAAWGDPEVGATFGDYFLLECMFRYINLAPSILLFEEDAVDVV 1647
            MVAGM WYQY ATG    +T AE    GLEG+E+LDDNDLGFQ LNS+GLGYR   +TS K    +R L+GA +L++ R+  NIPA+WSW NP+  P+WERAVNVDMIMNMEIMLWA VNGGD ++ + VE HAD TW D+VRDD ST HVADYDP TGE V+ GTYQG+ DDSTW+RGQAWA+YG+ M+YRYL   RFL+ +I  L YF  NLPDD VP +DFDAPV +  N KDSSATAIV SA  ELF  T +  YL K Q +L++LL++  Y+   ATDG+Q+ILR + AAWGD  VG+   DYFLLE M RY  +APSI+L  E  V ++
Sbjct:    1 MVAGMCWYQYEATGQSIWQTYAEDMQEGLEGIEVLDDNDLGFQTLNSFGLGYRLVGTTSFK----DRTLSGAQSLYDYRYVSNIPAFWSWANPTNEPQWERAVNVDMIMNMEIMLWAAVNGGDAEYSDAVENHADTTWADLVRDDYSTYHVADYDPSTGELVDKGTYQGWQDDSTWSRGQAWAIYGFTMVYRYLKEQRFLDYAINTLSYFVDNLPDDNVPYADFDAPVDSD-NPKDSSATAIVTSALFELFELTGEPTYLEKAQEFLTSLLLSSTYFDSSATDGWQAILRNSAAAWGDEAVGSVTADYFLLESMVRYKTMAPSIILRNEAEVSIM 330
[Close]
BLAST of mRNA_P-littoralis_Contig155.17.2 vs. uniprot
Match: D7FQV4_ECTSI (Unsaturated glucuronyl hydrolase, family GH88 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FQV4_ECTSI)

HSP 1 Score: 393 bits (1010), Expect = 1.970e-123
Identity = 205/330 (62.12%), Postives = 246/330 (74.55%), Query Frame = 1 
Query:  649 MVAGMFWYQYAATGNLAMKTAAEFYCTGLEGVELLDDNDLGFQVLNSYGLGYRWTNSTSDKQSYLERVLAGAATLHENRWDGNIPAYWSWENPSQRPEWERAVNVDMIMNMEIMLWAHVNGGD-DHDEDVEGHADLTWLDIVRDDNSTNHVADYDPDTGEFVETGTYQGYTDDSTWTRGQAWAVYGYVMIYRYLAMPRFLERSIGLLEYFDSNLPDDLVPPSDFDAPVSATSNGKDSSATAIVASASIELFLSTDDAAYLIKGQNYLSALLVAD-YYLPDATDGYQSILRRATAAWGDPEVGATFGDYFLLECMFRYINLAPSILLFEED 1632
            MVAGMFWYQY AT     KT AE    GLEGVELLDDNDLGFQ LNS+GLGYR       K S+ ER LAGA +L++ R+  NIPA+WSW+ PS+ P+WERAVNVDMIMNMEIMLWA  NGGD D+ + VE HAD TW D+VR+D ST HVADYDP TG+  + GTYQG+ DDSTW+RGQAWAVYG+ M++RYL   RFL+RSI  L YF  NLPDD VP +DFDAP ++  N KDSSATAIVASA  ELF  T +  YL K Q +LS+LL++  Y+   ATDG+Q++LR + AAWG+  VG+  GDYFLLE M RY  +APSI+L +E+
Sbjct:    1 MVAGMFWYQYEATCASKWKTYAEDIQEGLEGVELLDDNDLGFQTLNSFGLGYRLVG----KGSFKERTLAGAESLYDFRYASNIPAFWSWKKPSKEPQWERAVNVDMIMNMEIMLWAANNGGDTDYSDAVENHADTTWADLVREDYSTYHVADYDPSTGDLEDKGTYQGWQDDSTWSRGQAWAVYGFAMVHRYLKDERFLDRSILTLGYFVDNLPDDNVPYADFDAPENSD-NPKDSSATAIVASALFELFELTGEPTYLEKAQEFLSSLLLSSTYFDSSATDGWQALLRESAAAWGEDSVGSVTGDYFLLEAMVRYKTMAPSIILRDEE 325
[Close]
BLAST of mRNA_P-littoralis_Contig155.17.2 vs. uniprot
Match: A0A6N6ZAI7_9BACT (Putative unsaturated glucuronyl hydrolase n=1 Tax=Puniceicoccaceae bacterium 5H TaxID=2508868 RepID=A0A6N6ZAI7_9BACT)

HSP 1 Score: 266 bits (679), Expect = 6.970e-77
Identity = 157/399 (39.35%), Postives = 224/399 (56.14%), Query Frame = 1 
Query:  460 RADDSLNVVVSGAFDFAGDQLTVMNEEVLIEEGVFTDYTDEDGQWETTKENGDPIGKEVWTSGMVAGMFWYQYAATGNLAMKTAAEFYCTGLEGVELLDDNDLGFQVLNSYGLGYRWTNSTSDKQSYLERVLAGAATLHENRWDGNIPAYWSWENPSQRPEWER-AVNVDMIMNMEIMLWAHVNGGDDHDEDVE-GHADLTWLDIVRDDNSTNHVADYDPDTGEFVETGTYQGYTDDSTWTRGQAWAVYGYVMIYRYLAMPRFLERSIGLLEYFDSNLP---DDLVPPSDFDAPVSATSNGKDSSATAIVASASIELFLSTDDAAYLIKGQNYLSALLVADYYLPDATDGYQSILRRATAAWGDPEVGATFGDYFLLECMFRYINLAPSILLFEEDAVD 1641
             AD +L   ++ +  +A D+        L ++  F +YT+  G W T  ++        WTSG V G+FWY    + +         +  G+       DND GFQ+  ++G       +  D   Y   ++ GA TL + RW+ NI A+ +W      P  E   VN+DM+MNMEI+LWA  +GG+    D    HAD +W D+VRDD ST HV DY+ D G      T+QG+  DSTW+RGQAWAVYGY M+YRY  +PR LER+    +YF +      DD VP SDFDAP+ +  N +D+SA AIVASA++EL+ +T +  YL   +N L++L  A Y L   TD Y+S+L + +  WG+PEVGA  GDY+ +E M+RY+N  P      +D++D
Sbjct:   20 HADLALQQQIADSIGYAADRWDYTASNRLSDQETFVNYTNTSGVWRTQNDS-------TWTSGFVPGIFWYLSDLSNDAIWANRGARWDQGVRSRATATDNDTGFQIYCAFGTALM-LGADVDTSDYTSVIIQGADTLIDERWNSNIGAFRAWPASDSTPNTEPFEVNIDMMMNMEIILWASQHGGNTAWADAAISHADASWEDLVRDDYSTFHVVDYNLD-GSVDSKRTHQGWKTDSTWSRGQAWAVYGYTMLYRYTQLPRMLERAEHTFDYFMTATEAQVDDYVPYSDFDAPIDSE-NPRDTSAAAIVASAALELYQTTGEQKYLTAAENMLNSLTQAPY-LSIGTD-YESVLAKGSEKWGEPEVGAVTGDYYFIEAMWRYLNWIP------QDSID 400
[Close]
BLAST of mRNA_P-littoralis_Contig155.17.2 vs. uniprot
Match: R9PSV9_AGAAL (Putative unsaturated glucuronyl hydrolase n=4 Tax=Agarivorans TaxID=261825 RepID=R9PSV9_AGAAL)

HSP 1 Score: 253 bits (646), Expect = 1.080e-72
Identity = 153/358 (42.74%), Postives = 205/358 (57.26%), Query Frame = 1 
Query:  562 FTDYTDEDGQWETTKENGDPIGKEVWTSGMVAGMFWYQYAATGNLAMKTAAEFYCTGLEGVELLDDNDLGFQVLNSYGLGYRWTNSTSDKQSYLERVLAGAATLHENRWDGNIPAYWSWE----NPSQRPEWERAVNVDMIMNMEIMLWA--HVNGGDDHDEDVEGHADLTWLDIVRDDNSTNHVADYDPDTGEFVETGTYQGYTDDSTWTRGQAWAVYGYVMIYRYLAMPRFLERSIGLLEYFDSNLPD---DLVPPSDFDAPVSATSNGKDSSATAIVASASIELFLSTDDAAYLIKGQNYLSALLVADYYLPDATDGYQSILRRATAAWGDPEVGATFGDYFLLECMFRYINLAP 1608
            FT YT+E G+W+             W SG + G+FWY  A + N   +  AE +  G+       DND GFQ+ NS+GLGY      SD   Y + ++ GA+TL + R++ +I A+ SW     NP++ P     VN+D +MNME++LW   H N  +   +    HAD TW   VR++ ST HV  Y P +GE V+  T+QG+  +STW+RGQAW+VY Y M YRY  + R LERSI   EYF  +      DLVP SDFDAP+    N +DSSATAIVASA IEL+  T    YL   Q  L++L    Y   D  + YQSIL + +  WG+PEVG  FGDYF +E ++R+   AP
Sbjct:   63 FTAYTNEAGKWQHEYSKN-------WCSGFIPGIFWYLNALSNNGQWQQYAEHWTEGVRSRAYATDNDTGFQIFNSFGLGYTMGKKPSD--DYKQVLIDGASTLVKQRYNKDIGAFRSWRQGISNPTRLPF---EVNIDQLMNMELVLWVGKHANKPE-FTKMAISHADKTWEHGVRENGSTYHVVSYSP-SGEVVKKRTHQGWKTESTWSRGQAWSVYAYAMYYRYTGLERMLERSIKSYEYFIESTKQQTQDLVPYSDFDAPID-DDNPRDSSATAIVASALIELYKITQQEKYLNDAQQMLASLSTPKYLAMD--NNYQSILLKGSEKWGEPEVGTIFGDYFFIEALYRWQQWAP 403
[Close]
BLAST of mRNA_P-littoralis_Contig155.17.2 vs. uniprot
Match: UPI001F1B9B3F (glycoside hydrolase family 88 protein n=1 Tax=Vibrio hippocampi TaxID=654686 RepID=UPI001F1B9B3F)

HSP 1 Score: 251 bits (641), Expect = 5.660e-72
Identity = 150/358 (41.90%), Postives = 204/358 (56.98%), Query Frame = 1 
Query:  559 VFTDYTDEDGQWETTKENGDPIGKEVWTSGMVAGMFWYQYAATGNLAMKTAAEFYCTGLEGVELLDDNDLGFQVLNSYGLGYRWTNSTSDKQSYLERVLAGAATLHENRWDGNIPAYWSW----ENPSQRPEWERAVNVDMIMNMEIMLWAHVNGGD-DHDEDVEGHADLTWLDIVRDDNSTNHVADYDPDTGEFVETGTYQGYTDDSTWTRGQAWAVYGYVMIYRYLAMPRFLERSIGLLEYFDS---NLPDDLVPPSDFDAPVSATSNGKDSSATAIVASASIELFLSTDDAAYLIKGQNYLSALLVADYYLPDATDGYQSILRRATAAWGDPEVGATFGDYFLLECMFRYINLAP 1608
             FT YTD DG+WE   +         W SG V G+FWY  A T + + +  AEF+  G+       DND GFQV +S+GLGY     TSD   Y + +  GA TL   R++ +I A+ SW    +NP+  P     VN+D +MNME++LW   N    ++ +    HAD TW   VRD+ ST HV  Y+ D G      T+QG+  DSTW+RGQAW+VY Y M YR+  + R LERSI   +YF S      +DLVP SDFDAP+    N KD+SATA+VAS  +EL+  T D  YL   +  L +L   +Y   +    YQ+IL++ +  WG+PEVG  FGDYF +E ++R+   +P
Sbjct:   61 TFTAYTDVDGEWEQEPDRN-------WCSGFVPGIFWYLNAMTADQSWQKKAEFWTEGVRSRAYATDNDTGFQVFDSFGLGYTIGGVTSD--DYKQVLKDGANTLVTERYNKDIGAFRSWNQRIDNPTTLPF---EVNIDQLMNMELVLWVGANADKPEYTQMAVSHADKTWQHGVRDNGSTYHVVSYNLD-GSVDSKRTHQGWQTDSTWSRGQAWSVYAYAMYYRFTGLERMLERSIKSYDYFLSATQQQTNDLVPYSDFDAPIDVR-NPKDTSATAVVASGLLELYHITKDEKYLNDAEAMLISLAKPEYLARETE--YQAILKKGSEKWGEPEVGTIFGDYFFIEALYRWKQWSP 402
[Close]
BLAST of mRNA_P-littoralis_Contig155.17.2 vs. uniprot
Match: UPI00200F5605 (glycoside hydrolase family 88 protein n=1 Tax=Agarivorans sp. TSD2052 TaxID=2937286 RepID=UPI00200F5605)

HSP 1 Score: 249 bits (636), Expect = 2.490e-71
Identity = 147/355 (41.41%), Postives = 204/355 (57.46%), Query Frame = 1 
Query:  562 FTDYTDEDGQWETTKENGDPIGKEVWTSGMVAGMFWYQYAATGNLAMKTAAEFYCTGLEGVELLDDNDLGFQVLNSYGLGYRWT-NSTSDKQSYLERVLAGAATLHENRWDGNIPAYWSWENPSQRPE-WERAVNVDMIMNMEIMLWAHVNGGD-DHDEDVEGHADLTWLDIVRDDNSTNHVADYDPDTGEFVETGTYQGYTDDSTWTRGQAWAVYGYVMIYRYLAMPRFLERSIGLLEYFDSNLP---DDLVPPSDFDAPVSATSNGKDSSATAIVASASIELFLSTDDAAYLIKGQNYLSALLVADYYLPDATDGYQSILRRATAAWGDPEVGATFGDYFLLECMFRYINLAP 1608
            FT YTD DGQW T  +         W SG V G+FWY  A T +   +  A+F+  G+       DND GFQ+ +S+GLGY    N+T D   Y + ++ GA T+ E R++ NI  + SW   ++ P      VN+D +MNME++LW   N    D+ E    HAD TW   +R + ST HV  Y  D G+ V+  T+QG+  DSTW+RGQAW+VY Y M YRY  + R LERSI   EYF         D +P +DFDAP+    N +DSSATAIVASA +EL+  T++  YL+  ++ L++L   ++   D    YQSIL + +  WG+ EVG  FGDYF +E ++R+   +P
Sbjct:   57 FTAYTDSDGQWITEPDRN-------WCSGFVPGIFWYLNALTNDEVWQQRAKFWTDGVRSRAYATDNDTGFQIFDSFGLGYTLGGNATPD---YKKVLIGGANTMVEQRYNKNIGTFRSWRQGAKNPTILPFEVNIDQLMNMELILWVGQNADKPDYTEMAISHADKTWEHNLRKNASTYHVVGYGLD-GKVVDKRTHQGWKADSTWSRGQAWSVYAYAMYYRYTGLERMLERSIKSYEYFIEATKLQTQDFIPYADFDAPID-DKNPRDSSATAIVASALLELYKITNEEKYLVDAESMLTSLATPEFLAMDPE--YQSILLKGSEKWGEEEVGTIFGDYFFIEALYRWQQWSP 397
[Close]
BLAST of mRNA_P-littoralis_Contig155.17.2 vs. uniprot
Match: A0A6H5JQR3_9PHAE (GH88 protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JQR3_9PHAE)

HSP 1 Score: 246 bits (628), Expect = 3.530e-71
Identity = 146/312 (46.79%), Postives = 186/312 (59.62%), Query Frame = 1 
Query:  727 TGLEGVELLDDNDLGFQVLNSYGLGYRWTNSTSDKQSYLERVLAGAATLHENRWDGNIPAYWSWENPSQRPEWERAVNVDMIMNMEIMLWAHVNGGDDHDEDVEGHADLTWLDIVRDDNSTNHVADYDPDTGEFVETGTYQGYTDDSTWTRGQAWAVYGYVMIYRYLAMPRFLERSIGLLEYFDSNLPDDLVPPSDFDAPVSATSNGKDSSATAIVASASIELFLSTDDAAYLIKGQNYLSALLVADYYLPD-ATDGYQSILRRATAAWGDPEVG----ATFG------DYFLLECMFRYINLAPSILLFEE 1629
            TGLE VE +DDND+G Q LNS+G  +R  N++     Y  R  A A TL+  R+D NIPA+WSW NP   P+WER VNVD+I+N EI+LWA VNGG                      N +   A    D G     G YQG+ DDSTW+RGQAWA+YG+ M++RYL   RFLE +I  L YF  +LPDD VP +DFDAPV +  N KDSS TAIV SA +ELF    + +YL K Q +LS+LL++  Y    ATDG+Q+ILR +  AWGD  VG     TF         F +    RY+ +APS++L +E
Sbjct:   10 TGLEEVERMDDNDVGLQTLNSFGQVHRLVNASH----YHARTRAAAQTLYNLRYDENIPAFWSWANPKNEPQWERVVNVDVIINTEIVLWAAVNGGKA--------------------NYSAAAARARADLG-----GAYQGWQDDSTWSRGQAWAMYGFTMVHRYLKKQRFLEYAINTLSYFIDSLPDDNVPYADFDAPVDSD-NPKDSSVTAIVTSALLELFELIGEPSYLEKAQEFLSSLLLSSTYFDSLATDGWQAILRNSAPAWGDEAVGPSPRTTFSWNRWVSGIFNIAEQVRYMTMAPSMILRDE 291
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig155.17.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5KCI0_9PHAE2.880e-23151.76GH88 protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 T... [more]
D8LHN8_ECTSI1.930e-16169.41Unsaturated glucuronyl hydrolase, family GH88 n=1 ... [more]
D7FUJ9_ECTSI3.720e-15060.46Unsaturated glucuronyl hydrolase, family GH88 n=3 ... [more]
A0A6H5JQV0_9PHAE2.620e-12560.60GH88 protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 T... [more]
D7FQV4_ECTSI1.970e-12362.12Unsaturated glucuronyl hydrolase, family GH88 n=1 ... [more]
A0A6N6ZAI7_9BACT6.970e-7739.35Putative unsaturated glucuronyl hydrolase n=1 Tax=... [more]
R9PSV9_AGAAL1.080e-7242.74Putative unsaturated glucuronyl hydrolase n=4 Tax=... [more]
UPI001F1B9B3F5.660e-7241.90glycoside hydrolase family 88 protein n=1 Tax=Vibr... [more]
UPI00200F56052.490e-7141.41glycoside hydrolase family 88 protein n=1 Tax=Agar... [more]
A0A6H5JQR3_9PHAE3.530e-7146.79GH88 protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 T... [more]

Pages

back to top
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig155contigP-littoralis_Contig155:39267..68571 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start0
Seed ortholog2880.D8LHN8
PFAMsGlyco_hydro_88
Model size2443
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons18
Evalue3.17e-162
EggNOG OGs2CYCX@1|root,2S3MN@2759|Eukaryota
DescriptionGlycosyl Hydrolase Family 88
Cds size2442
COG categoryS
Relationships

The following CDS feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesTypePosition
1680789740.1575642-CDS-P-littoralis_Contig155:39266..393481680789740.1575642-CDS-P-littoralis_Contig155:39266..39348Pylaiella littoralis U1_48CDSP-littoralis_Contig155 39267..39348 +
1680789740.1695888-CDS-P-littoralis_Contig155:48563..487121680789740.1695888-CDS-P-littoralis_Contig155:48563..48712Pylaiella littoralis U1_48CDSP-littoralis_Contig155 48564..48712 +
1680789740.181049-CDS-P-littoralis_Contig155:51254..515251680789740.181049-CDS-P-littoralis_Contig155:51254..51525Pylaiella littoralis U1_48CDSP-littoralis_Contig155 51255..51525 +
1680789740.1890407-CDS-P-littoralis_Contig155:54814..549561680789740.1890407-CDS-P-littoralis_Contig155:54814..54956Pylaiella littoralis U1_48CDSP-littoralis_Contig155 54815..54956 +
1680789740.1996443-CDS-P-littoralis_Contig155:55808..558691680789740.1996443-CDS-P-littoralis_Contig155:55808..55869Pylaiella littoralis U1_48CDSP-littoralis_Contig155 55809..55869 +
1680789740.213741-CDS-P-littoralis_Contig155:56273..563451680789740.213741-CDS-P-littoralis_Contig155:56273..56345Pylaiella littoralis U1_48CDSP-littoralis_Contig155 56274..56345 +
1680789740.2219934-CDS-P-littoralis_Contig155:57174..572881680789740.2219934-CDS-P-littoralis_Contig155:57174..57288Pylaiella littoralis U1_48CDSP-littoralis_Contig155 57175..57288 +
1680789740.2304213-CDS-P-littoralis_Contig155:57793..579421680789740.2304213-CDS-P-littoralis_Contig155:57793..57942Pylaiella littoralis U1_48CDSP-littoralis_Contig155 57794..57942 +
1680789740.2394128-CDS-P-littoralis_Contig155:59195..592931680789740.2394128-CDS-P-littoralis_Contig155:59195..59293Pylaiella littoralis U1_48CDSP-littoralis_Contig155 59196..59293 +
1680789740.2542763-CDS-P-littoralis_Contig155:59708..598381680789740.2542763-CDS-P-littoralis_Contig155:59708..59838Pylaiella littoralis U1_48CDSP-littoralis_Contig155 59709..59838 +
1680789740.266031-CDS-P-littoralis_Contig155:60335..604751680789740.266031-CDS-P-littoralis_Contig155:60335..60475Pylaiella littoralis U1_48CDSP-littoralis_Contig155 60336..60475 +
1680789740.276411-CDS-P-littoralis_Contig155:60748..609241680789740.276411-CDS-P-littoralis_Contig155:60748..60924Pylaiella littoralis U1_48CDSP-littoralis_Contig155 60749..60924 +
1680789740.2853553-CDS-P-littoralis_Contig155:62175..622491680789740.2853553-CDS-P-littoralis_Contig155:62175..62249Pylaiella littoralis U1_48CDSP-littoralis_Contig155 62176..62249 +
1680789740.2952132-CDS-P-littoralis_Contig155:63137..633151680789740.2952132-CDS-P-littoralis_Contig155:63137..63315Pylaiella littoralis U1_48CDSP-littoralis_Contig155 63138..63315 +
1680789740.3044152-CDS-P-littoralis_Contig155:64015..642551680789740.3044152-CDS-P-littoralis_Contig155:64015..64255Pylaiella littoralis U1_48CDSP-littoralis_Contig155 64016..64255 +
1680789740.3143384-CDS-P-littoralis_Contig155:65353..654731680789740.3143384-CDS-P-littoralis_Contig155:65353..65473Pylaiella littoralis U1_48CDSP-littoralis_Contig155 65354..65473 +
1680789740.325204-CDS-P-littoralis_Contig155:67832..679481680789740.325204-CDS-P-littoralis_Contig155:67832..67948Pylaiella littoralis U1_48CDSP-littoralis_Contig155 67833..67948 +
1680789740.333948-CDS-P-littoralis_Contig155:68441..685711680789740.333948-CDS-P-littoralis_Contig155:68441..68571Pylaiella littoralis U1_48CDSP-littoralis_Contig155 68442..68571 +


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig155.17.2prot_P-littoralis_Contig155.17.2Pylaiella littoralis U1_48polypeptideP-littoralis_Contig155 39267..68571 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig155.17.2

>prot_P-littoralis_Contig155.17.2 ID=prot_P-littoralis_Contig155.17.2|Name=mRNA_P-littoralis_Contig155.17.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=814bp
VHVCEGGRDRQNLREAADEVLVLLLCQAPSSAPAVTPREISTRYPTTQTE
EQDILLETQDRRNSERSKAQRQTRQAQQHFAPDRSQSLYSMRENGRRSRT
GETPAATRVTRPAAVRAAKKGRGGGRRAGAGAAALCLGWSSVLLGGVWVA
DVVRADDSLNVVVSGAFDFAGDQLTVMNEEVLIEEGVFTDYTDEDGQWET
TKENGDPIGKEVWTSGMVAGMFWYQYAATGNLAMKTAAEFYCTGLEGVEL
LDDNDLGFQVLNSYGLGYRWTNSTSDKQSYLERVLAGAATLHENRWDGNI
PAYWSWENPSQRPEWERAVNVDMIMNMEIMLWAHVNGGDDHDEDVEGHAD
LTWLDIVRDDNSTNHVADYDPDTGEFVETGTYQGYTDDSTWTRGQAWAVY
GYVMIYRYLAMPRFLERSIGLLEYFDSNLPDDLVPPSDFDAPVSATSNGK
DSSATAIVASASIELFLSTDDAAYLIKGQNYLSALLVADYYLPDATDGYQ
SILRRATAAWGDPEVGATFGDYFLLECMFRYINLAPSILLFEEDAVDVVG
VASTARRRRLEEAQGEEEEEEEDEETEPRRLQQVLLGGEFCAISVSGVVV
AFADSGCVPVAPDFSVLESGTTPAPVGADATPSPTAGSRGEETVDTPAPS
SPVVAATFAPLVVGMTMPPTTPAPTAAPATATPVAEGETPAPIGFTETPV
LLPTPGGQNAETMAPLNTAGGSPAPTAPEIIATAEPAADTTAGASLEFGA
LELNHDVDLSYLDAASTVVVRFSVDLENTSNTPATLSLQNADGDVLETDV
TAPDGGWQPGSNK*
back to top

mRNA from alignment at P-littoralis_Contig155:39267..68571+

Legend: CDSpolypeptide
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig155.17.2 ID=mRNA_P-littoralis_Contig155.17.2|Name=mRNA_P-littoralis_Contig155.17.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=29305bp|location=Sequence derived from alignment at P-littoralis_Contig155:39267..68571+ (Pylaiella littoralis U1_48)
GTGCACGTGTGTGAAGGTGGGCGCGATCGGCAAAATCTCCGCGAAGCTGC
CGACGAGGTGCTAGTGTTGTTACTCTGCCAAGGTGTGTCCCGGTTACCTT
GTATCATGAGAGTCACAGTGATCGTTGCGCCTTTGTTGCTTCTGTACAGC
AGCAACAAAGTTTGTTGATACCTCCTTGAGACTCGGTTCGGCTTGACAGA
ACATGTACTGATGTGTACTTGTACTGGGAAGGAAAAGTATGATTTATTTC
GTCGTGGTGCCCGTGTGTTTATGTTCTTTTTTATTTTGTGTAGTGTTTGG
ACCGCTACCGCACCAACCGGAGGCGAGCAACCGAGGTTCTCTTCTCTTTC
GTCTGCTTTTACGCCGTGCTGTGTGTGTGCGTGTGTGTGTGAGCTGGCTG
GCCGGCTCGCCTCTTCGGGTATGCTCAACAAAACAGAATCAAATTTTTGG
GAAGAGATGCTGTACAGAGCGAGGGAGAGACGGAGAAGGCATCATGCCTG
ATCTACCTCTGTACACCACATAAAGCAGTACGGTCGACGTATCGCGTATG
GCAGCTTTTGCCATGCTGCTGCAGTTCTCCAAAGCATACTGCTGTAACAA
TTTGGCATTTTCACTCAAAAGTCATGTCACATGTACAGCAACAGCACTAA
GGGCTGGATGGGCGGACGGATGGCTGTAGTTGCAGACCGCTCGAATTGAC
GTCTTTTTTGTTTTCCACGGGAGTCGTTTACATGAGAATTTAAATTTTAT
CGATGTATTTCGTTCTAATTCTGTACAAACAGGCCATCCAATAAAACCAG
CTCTTGAAACACAAAAACTATCCGATACTCTGCATGCACTCATGTTTGTG
TATGCAGTGTGTATCGGCTATGTTTTCGCCATGATCGATGACTGATCATG
TCATCTTGCGCCGCTGGACAACCACCCATGACGTCAAATCCACGACGTGA
TCATATCTCTACCTCTCTGCTTCGAAACACGTGATACTTTGTGCGTTGAG
TACGAGATTATACGAAGGTCTCCAAAAGAAGATCAGAAAAAACGTGTCCT
AGACTAAATAAAGGGCGTCTGGTATAAGATACGGAGTATCTGGCGGATTC
TATGCATATATACTGCTGCTGCTGTTGTAGCAAAAAACGAAGGAAGAGAA
GGCCACGCCGGCTTCTAAGGCGAGCAACTTGATGCTGTAGACCTGAAATG
CAGCATTGCTCGTCCTTGCGTTCTTGCAAAATAACAACCTGCTGCTAAAT
ACTCGTACCCCGTACAGTACATATATAAGTGTAGTGTAAACTACCCGTAC
CCGCTGTTGTGACACGAGCACCGCAGTCACCTGAAAAGTCCAACTGCGGA
ATGGAAACGAATGAAATACGATAGCAGTCCAACAAACAAACAAATACGGA
ATCAACCATGGACATCATGGAAAGTCCATGGGATGGGAAACAAGAACACA
AAACAGCAGGCGAATCTCGGCCGACGAAACGAGATCCTGCCGTCAGAACA
GCAGTACTGCTGTACAAAATACGTGCTGTTGCTCCTGCGGATGCTGTGCT
GCCGCTGCTCTATGCTTCGAATTTGTTGTTGTTGTTGTTGTTGATTCTCA
CATTAGCTCACTACCGCCGCAGTCTAGCCCGTGGTCACAAACCAGGCACA
TATCGTGCTAGGAGGAAAAAAATAAAATAAAATAAATGGATTATGATCAC
CCACGGCAGTTATTCAAATCAGATATGGTACCGTTGGGGTACCATTTGTG
GTGCCCAAAGTACCAAACAAAATACAGAAAAAAATAACAGGTTCGAAAGA
AAAAACAAAAAATCGGAAACAGTACGACAAACAAAAAATAACCAAGACGA
ACCTCAACCATCACCATATACTTCGAAGTACTTCGTACTTCGTACATCGA
ACCAGGGCCCAGGGCCATGACAGACCAAGGCAAAGGCAAACCAGGCCGAT
GGTCCAGTAACTAAACAAATATGATCAATAGACGAAAGACAAAAAAATAA
AAAAGAAGAAGATACAGGGAGAGCACAAAGACTGAGGGAGTGCACTCGTA
CACAAACACAACAAACAGGCCGCCAAACAAAGAGGAAGCAGGGGAAAGAA
AAGGGAAAAGAAAAAAAAGAGACGAAGAGGAATTACAGCAGTACGTACAT
GCTGTCGAAGTATTTCACAACCAAATTCGAAGCACTACGAGCAGTACGGG
ACGGCAGACCAAATTCGACCACCTTCTGAGTACATGATTCTTGAGTACCG
GTATGCACTTGAGAACTCTGATGCATATTATACAACATTCAATGTATGCT
CTTGTAGCAGCATAGAAGTTCATTCTTGTGAAGAGTAGAAGACTTTCCTG
CGAGACACTTGCGCAGAGCAGGAGAACGAAACCCCGTCTGGCGCGGAATA
ATTTTTTATAGCTGGTATAACATTGTAATGATAATGATGCCACATACGGC
AGTACAAAGAGGATGCCACAAATGTTTCAGCGTTTCTAAGGACACAGATT
TACCGGGTTCTCGAGCATGAAGGGAGAGAAAGCATGGATCATTGTTGTGA
ACGATCAGCTACTTTGTGCAACCGAAAATTCCATACTCCTGTCTGTGCGT
TGCTGCATGACTCCTGTTGTATTATACGGAGTATCATATGAGGACACACT
GCTTTAAATACTTCGAACAAGTATTCAAATTAACACACACAAGTTGTGAT
GAGTGAGAAGTCCTGTTTTTCATGAGCTCTTCCCTTTCACGTTTTCGTTA
CGTGCGTATGTTCGAAGAAAAAAAAATGTTTTTTACTTGTAGTATACCGG
TAGTATACTGCTTCCGTGCTAAACTTCAATCTAAATTTTAAATTCTTGAA
ATTTTGTGGAAATTTCGAAGTTTTGAAATTCTGAAAGTTCATACTTTAAA
TTTCAACAAATTTAAAAGTAAAGGTGGGCTCCGCTCGCTGCCGGCCTTAG
GGCCGGCGGCTCGCCTAGCGCATCGTAATCAGCTCCCCATGATAAGGGGT
GGGAGACACGAACGCATTTTTCGCATTTTTCGGGAGTGTCGGGCGGCCAA
GGGCCGAATGGACGGACAGGAGACGAAGGCTCATCCGTGAGACTAAGACA
GAGATGCAAGATAGCACGCCTGATTGCTCACCCCCCTTGTTACATTGCGC
GAAGATTGGTTCACAATTTACAGCAGCAATTGTTGACAAAGTGAGGCCGA
CATCGGCGCTACTAGACACTCACCACGCGGATGAAGAACTCGAAGACGTT
ATTTGCTGGTGACAGCTGTACGCACAGCCTCTACTGGTGGGCGGTATTGT
ACGCCCTGTACTAGCAGTGAAAAGCTATGACGCAATGGAACCTAAATGAA
AAGAAAGCTCGGAATCGTTTTGCTGGCGACAGCCGTGCGTACCGCCTTTG
CTGGTGCGCCATTGGACGCCCTCTACTGAGGCCCACTCTTATGGTAGAGC
CGAAAACTGGAATCCAAGGGTTTCACATGAGGAACTGGAATCCAAATTCC
AGGCCCGGAAAATATTTCTATCTTATGGGGGTTGTTTTCGGCCGAAACTG
GAAAATATTTTCCAATTCTCCGGATTCCAGGCGACTCGCCTGGAATCTGC
CCTCGGATTCCAGGCCAAATGACCTGGATTCCAGGCCTGGAATCCGTCGC
GCGCGCGCAGCCACGAGGTTCCGCCGCAGTGGTTCACAGCACACAACAAG
CACAAATACAAATAACCGAGCACGCAAACACACTGTCCAGGAGCAGGTAC
CAAAGCGACGTGCGATCCTGGCCGTGCTGGCGATAACGCTCGCCGTTCTG
CGCCATCAGCAGCACTTTATCGAAAATAGCCCAAACCGCCTGCCGTCCAT
CCGGCAACCCCATCTGATTTCCAATCGCTGCCCAAATTTTCCAGTTCTCC
CATAAAGTTGGCACCAGTCTGATTGTCCGACTTGGAATATCAGGCTTGGA
AAATGCTTTTCCAAGTCGAGAAATTCCAGCTGCGCATCTACCATAAGATT
GGGCCTGACAAGTGTAAAGCTAGGACGAGGAAATAAAGGCCGATGGGAGA
TGACAAAGACATGACGCGTCCATGACTCTCTTATACTTCGAAGTATTTCA
TTATGTACACTTTGCCATACCACAAGAAATTGTTTATCCGAAGAAACCTA
CAGACACTGTTGATATTTATAATAATGTAGAACATGTTTCGGAAACGATC
ACTCGGAAGGTTGTTGTTGTTGAATCTCAATTTTTTAGGCCCCATCAGCG
GTAGTGGGATGTTTGCTGTGTCACACTTAAGAAAAAAAAATGAAAAAAAC
TGTCTGGTTCGCTTTCAAAACTGACGTCTAATAAATTGCCCCGAAAAAAA
AAATTCTCCTTCGGCTCCATTTTTTTTTCGCCGCTGTCCCGAACTTGTTT
TTGTGGGGCACCTCGCCAATCGACTCCGCTTGGCCGATTAAGGGGGGGGG
TAGAGCCACTCAGAATATCAATCAGAGAAAACTGGCTGACAGGAGGATGC
CAAAACTCCTCAAAAATCTTGAAGTTGCTCATGAAAGCCCATATTTTGTA
CACCTATTAGTCGATTGCATTGCCGAACTTGTGTATTCTGACCATGTATT
CGTGACCCCCGATCCAAAATTACCTTAGGTCGCAGTCTGCAGAGCTTCGA
TCAACATGTGGAACGTATGCCCGGTGAGGGGATATTTGATAGTAATTCCA
AGTGCAACCCCAAGTTGTCCCCGCTTTCTTGCATAACCTTTGAAGGGGCA
CAAGTAGCGCAGAAAATTTTGTATTTCATTTCTGACTTCGGAAACGTGTT
CAGCAATGCTACACCCATCATCCCTGAAATTTTCATACGATTCGTAGGGA
GTTACAGTTTCCTTGGGGGCCCCGCAGAGGCGAATTATACCCACTGAATC
GTCAATAACTCACCACCAGAATGGCCAAATAAAATAAAAATAATATTTTC
GTAATCCGCATAACTTATCATAATCGTGTGCAAATTGTCAGAGCTCAGCC
GTGGATGGTTCGTTCATAATCCTCGTTTAAAAAAATCTGCAGCTGTTCAC
CGCGGATGGCGCCATTAGCTCATCGCCAAAATCTAGCCCGTGGTCACAAA
AAGTGCTGAGCCCCAGGAAGATAAAAAAACGGAAAGAAACTACAAGGGAA
TACCCAAGAAAGACCGAAGAAGATACACCTTTCAACGTGGTGTGCATCAC
TGAACAACAGCAGTCACAGCAGTAATACCAACAGCTAACGTACTTCCAGC
GGCGGTTCAGTTGGCTACAACATCGTGTTCAGTCTCCTCCCGCCCCACAT
GTACTTCGTAACTAATCAGTGCTGCCTGCAAGGTCTTCTCCACTGATTCG
TGACTTCATGAAGGTCTATCATAGCGCCCCCTCCCCTTCTTAATTTGCAC
GAAGTTGGCGTCGTCAAACAGTAGTTAAGTTGTTGACCCGGTAGAGCCCG
ACATCGGCACTACCTCACCCACCCTCAAAAAAACGATGGACGGAGGTATT
GCTGGTCCACAACGCCATCTGGTGCGTCATTGTACGGCCTCTGCTGGCAA
GTAGAATCTAGACACCTACGAGGAAACAACTACACAGAAGACGGGAGATT
GCGAAGGCAGAAGTGACCCTCCTCATCATCCTCGTCCTATGTACATACCA
CTCCGACCGGAAAGTCCATGGGATGGGAAATAAGTGACTCGCGAATGTTG
AGGGTACTCGGGGTACTTCGCATACCTCGCCCTGAACGCGAAAAACGAGA
TTTTTCACTCCATTTTTGTTGTTGTGGTTCATGCGTGTTTTGGCCAGACG
TTCATACCCCTAATAATTCTGAAATACTGAGTGAGATAGTCTTCGACGAA
TAAAAATAGAAACGAGCCCGAAACACAGAAGTTTACTGCTGTAGTCCAAA
AAAAAGAGACAAAAAAAATCGGTAAAATAAATGACGAAAAAAGAGGATGC
GATACCGGGGCTCGAACCCGCGTCTAAAAATTCGTTGATGGTGAATGGTT
GTGATGCGTTTCTTCCAAAGGGTATGGAAAAGACCATGCCCTTCGGTTAT
TTCTTCCGTACCGGCCCCTTATTTCCGGTCGGAGTGGTAAACCTTTCGGC
AGGCAGGAGTGTATTGTTTTTGCCACCCTACCATAACGAGTATGGTACTT
CGTAGTCCGTCCCATAAAACTCATTTGAAATCGTTTATCATGTACCTTGT
AGAACGAAACATGTGATGAATGAATTCAGACACGAACGTTGAGTTTAGTC
ACAGCTGCGTTCACCTTGTTCTAATCGTATCGTTGTTGTGCTCTGTTTGC
CTCAGAGCTAGCCGCTACTACACATACCTGTGGTGGTGTAAATGCACGCA
ATATGTACAAGGTCTCTTTATTTTAGTGAAGTTGAGGAGAAAATTCGTTG
CGGATGTGTCACGGGAGCTGGCGTGTAGAGTCCCCACATCCCGTCTGAAC
CATCATTTTCTTTTTACTTACCGTATTCTGCACAAAATACCACACCCGCA
TAAGATACCACACCCCCCCCACAATACCACACCCCGGTGGTAATTTTGGG
CGTATTTTTCAGACCAGTGATTTATCACCGGGGCTACACAAGATACCACA
CCCCGGTGATACCACAGGTTACGCCGCATACATTCACGGAGCCCCTCTCT
CTATCACCGGGGGTGATACAGCATCTTGCCCCGTGGGCATCACACACACA
CACCCTCTGTACCGTACGGGGGGAAACATGAAGACCTCAGAGAACATGAA
CGGTGAGGGAGAGCAGAATACCGCAACAAGTGCCCCCGGTTCTTCGACAA
CTGCTTCGACCGCAGCAGTACAGGCGCCACAGCAGATCACAACATTCTTT
CCATCCGAGCGCACTTCTACACAAGCGACTCCTTCTTCGGCTCCACCTGC
TGCTGTTGCTGATCTAATAGTAGGGTGCGGTGGCAGCGGTTCAACTCTAC
AAGCAGTGTTATCATACCCCCTTTTTATCACACCCCCGAACACACTCTTT
GGGTGTTCCGACGTGTTATTACACCCCATTTATATCACACCCCCTTTTTT
ATCACACCCCCAAACCCCCCCTGTGCGTGTTCGGATGTGCTACCACACCC
CCTGGTTTATCACACCCCCTGAGGGGCTCCTGCGAGCTGGACTTTATTAC
CGGGCTACACAAGATACCACACACCCCCACAATACAACACCCGGTGATAA
TATTTTTGAAGCCCAAAATGTTATCGCCGGGGTGTGGTATCTTGTGTAGA
ATACGGTACTGGTGTTGAGTGTAGTTGCAGCTGCGTTTACCTTCTTCTAT
CGTACGTGTTGTGCTGGGTGGTGGGTCGCAGATACATGCAATTTGTATGT
TGAATGTGTGTATACGAAGCACAGCAGTACACATGCATCGTATGGCAAAC
GACATACGGGTATTATATGCAGCAGTCAGCAACAAACTCACTTTGAGCAC
ATGCAACATGCAGCTATTCAGGCAGTGTGGTGCAGCAGTACAGCAGTTCG
ATCTCTTTAGCTAAGCAAGCAGAAGTCTAGCAGTAGTAGCAGATATCTTT
GGAGAAAATGAGGAGAAAATTCGTTGGGCGAATGTGTCACGGGACTGATG
GAAAAAAAGAATTCGATCGCTTATTGGTTAAGCGTCGGATCTGGGAGCGG
CGAAGCGTCGGAGGCAGTCTCAGTTCCGGCTGATGAAGCTCCAGTAGAAG
CTTCAGCAGCCAGCATTTGCCCTTGACAGGCGCTGATGTATTTTGATTTC
AGATATCCGAGGAAAGAGTGACGATTTTTCGGATTAAGTATTCACGATCA
TAGGTGGTACTCCGGAGTATATTAGTACTGCTGTGTACTGCTGTGCAGTT
CAGTATAATATCGTACCTATCATATGGAAGAATCGAAGGTGAAACACAAC
ACATCAATTAATACTAGAAGTATAGTACGTCAATACTGCAATACTACTGC
TGTCTGCCAGGTATCTCTCAAGTACTGTTCAGCTCCCCTGGTAGCAGTTT
GTGTGAAACGCATACATATGAGACGCATTCACTTCAAGGTTAGCTTTTGC
TGAATCTTGTTTTTGGTTCACTTTTCAAGCGTTTCTCCGGCTGTTCTCCA
TTGGCAGGTGCAATGTATTTATGATATTCATTCGACAGCAGACAGCGGAT
TGCTCGTACTGTACTGTTGTGTGTGATGTCTTCACAATAATCTGTACCGG
TACGCGAAAGTAATTTTTTTCGGCCGAACGCCTCTCTTTGTCAATAGTCA
ATACAAGTACAAGTATGGCTGTGGCGTGTTCGAGACGGCTGCAGATTTTT
TTTTTTAATCTCTCCAGGCGAGGGTCTGGATTAGATATGGCGACGAACGC
AAATGATAGGATACATCTACCAAGTGTCTGTAACTCTTCAGATAATGTAC
CGTTGCAGCTCCCCTGAGGGCATCCGGCAGGCTCCACAAGACAATTTATG
AGCTCAACCTGCCGATTTCGGGCCAATGAGAGCGTGCGTGGTCATGTCAT
GGAAACATTTCACATCACAAACCGTGCGAAAAGGTCCGGTTCTCAACTCC
TGATTGGACAAGAGATCGGGAACGGATTTTGGTTCTCTTTTAGTTTGTTC
CCGCCCGCGCCACGCGCGCGCAGGTAATGCGAGCTCGTCGATGCTTCTGT
TGGGTCATTCGGGCTGCCCTTGGGTCCTAGCAGCCATCCGTGTCCTCAGG
GTTCGAGTTAGGGTTTGGGTTCGGTTGGGTTGGGGTGTGTCGGGGTCCGT
CGGATTAGTAGGGTAGGTCTGGGTTCAAAGAAAGCTGCCACAGAAAAAAA
AGGGAACGCTGTCGGCATCAAAGCCACGTCTCGTGGTTAGCAGTACAGCG
TAGCCCGTTTTGGGTAATGCCGCCACTTCCTCCCCACCGACTCGCCGTGC
ACAGGCGAATTTTCCAGAATTTTCACCCTAACTCGAAGCTCAACATCAAG
CTCAAAACATCCTTTCGTACCATCGGTATTCCGTGTTCGATGGCATGAAA
AAAGAAAAGGAGGCGGAAGCCTCTCCGTGGGAAACTCGGGCGCTTGCCCC
ATCACGAAGCAGCAGCTGGGAGTACAAATCAGCAGAAAAAGAGGATGGTA
GACGTTAGCCCCCTTTTTCCTTCTAACCCGTCCTCTTTCACAACAAAATT
AAGGCCACTCTGGGGGGGGCACCGTCCCAGTATCGATGAGTCCCGTTATT
GTATTTATTATTTTTTGTTGCTCCAACGGTATCAATTTTTCTTCCAACTT
CAGAAATAACAAATCCCTCGCGATGCCCCCCCTTGAACTGCTGGTAGCCC
CCAGCTCTGCACCTGCCGTAACGCCTCGAGAAATAAGTACCAGATACCCC
ACCACACAAACGGAGGAACAAGATATTTTACTGGAAACACAAGACAGAAG
GAACAGCGAAAGAAGCAAGGCACAGCGCCAAACAAGACAGGCACAGGTTA
GGAGATATAGCCACCGCCGTTGCAGCCCCCATGAGGGTAGCAGGATCGTA
AGTTCGTCACGCACACACTAACGTCCAGATTAGTGGGTTCCGCAAACCCT
CCTAGGGAAGGGAATTTGAAGGAGGAATCTTCCTGCTGTACTGTACGACC
CCCGGTTTGAATACCGATACCAGGTGCATGTCAGTGACTGGGAAGACGGC
AAGCTATTACACGGCGATGTCAATGCAAGTACTTACTCTCTCGATCCTCG
TGCAGAGAATCAGGTATATATGATATGTACTTACAGCACGTGATGGTTTT
GTGAAATAAAAAAATAGATTGGCGAAGGCGAAAGAACAGCCATCTAACGT
GCGCCTGGGTGTGTAAGGCAGCATCTATCTCTTCGAACTACGCCTCGTGC
AGCTCACAGAACCCGATGAAGGCGGGCTCACTTCAAAAATCACAGGCGGC
AAATCTGTGGTACCTCGTACGTGGTATGTCGCAAGGACCTGGATCCTAGA
CACTCTTTCTTAGTCACGTAAGTGCCTCTGGGAGCCTTTGTGCGATGGTA
GGTTCGTACTAAAGATAGAGAGTTTGGAAACCTAGAATATGCAGGCGTCT
GTCGAAAGTATTCAGAGCTCCTCCAACCTGTGCCCAGGTGGCCTCAACTG
CGACCCACCAGATGCTATGATACTTAGCAGTAGACATAGCTCCCCTGAAG
TTATCAGGCCTAACAAGACCAATTGGGGTCCGTCCTGTGTGACACGTGAC
ACATCATGTGGTGGCATGGACAGTCTATGTACGTTTCTGCTGTGAAAAGG
CGAGAGCTACGACAAGCATTCAACCTCAAGATTCCCTGAATTTACCTTGG
CCTTAATTGGGCTCAGTGCATGCGGTGAAGGTTGGCCGATGACATGAGCG
TATATGATATGAGTGACTAGTGTCGGCTATGGTGTTGATTTGGAACTGCC
GAAGATGTTTGTGGCTCTGCAGAGTACCTCTGTAGCGATTAGCGATGTCT
CGACATTTCCATCGAAAAACCGTTGCGATCTCTGCGGCTGACTACTCATC
CGATAAGTGACAATTTCCCGTGGTCACAGGCCTACCTACCACCCAAACAG
GGGTATGAAATCCGACTCGATGAAACAGACTCCGAAAAACCTACAAGTAC
AAAAAGACGCTCTTAAGAGAATTTTTTTTTTTCACAGGAGAGGTTCCATT
GCACCAGCAGGTTCTATTGCACCAGCAGGTAGTCGAAAACACGGTCAAAT
TACGATCAGAATCAGATGCCCCAAGTTGTCCGTGCGGAAATCAGGCGCCA
TCGAGACTTGCGCAGGTAGAAGCGTTTTTCTGGCAGTCGCACGATATGTG
CTTGATGGATGTTGTCATGGTTTGCTTAATGATCCTGCCGTTTTTGCAGT
TCCCTTCGCGGTACTCATACGATACGTGGGCGATTACTTTGCCAGCATGA
ATGAACACAGCAGCAATTCGACTCGCAAAAACAAGTGCGAAGTCGTGGAG
AGAGAGGAAAGGGATAATCAATCAAATTTTTCTTGCGATACAGGAGTAAA
TCATTTGAAGTGAGCACCGCAAAAGGAAGTTGGAAGGGAGGAAAAAAAAG
GAAAGAATTTGGAGGAAAAAAAATATCCAGTGCCGACCAACCTTCCTCCG
GTGTGAGCCCCGCGGGTGTTTGTTTCCCTGTTGTACCAGAAGGTGTACGC
GAGCGCCCAGAGAGCAATGGGGCAACAACACACACGCATAGACCGTCTGT
TTTCAGTAGGCAAAAAATATATGTTTCGAAATGTTTTCTTACAGTAAGTA
CGCGAGAAGATTCGTGTGTGCATCTCCTCCGGCAAGGACAGCGGAAAAAA
CCCGAAGGTAGAAAAAAATAGGCCGTGCATGCTCTGTACTGCTATGATAT
GTAGATGCATCACATTTACCTCTAAATCAGTATGTACAGCACTTGGAAGT
ACTTGCCTCGGAGGACGAAGGGCAGCAGTATCGACCTCCCTTTCTTGCAC
GGGGGCAGGACAAATCACGAACACGATCACGTAATACGAAGCATACTTAT
TTATGCTAACCTGCAACAAGTGGTGTGAACGCAAGCGTGAGACGTGATCA
CCGGATACATACTGTTGTCGGCTGTTTTCACTTCATTTGCCATCTGGGCT
GCCAAGCACACGAACTGCGTTGACTTTCCCGAACCGCGCCTATTTTTTTA
TGTTTTTGATGCTGTCCTCTGAAGGAGTGAAGGGGCATGGTAACGCTGTG
TTTTCAATACAAAAACGTTCAAGAAGGAGACTGAGTACTCACTACACCTT
TGTGCTCCGTGTGCTTGCTTGCTTGGTTTGTCTTATTTTTTTAGTGCATG
AGCAGAGATCGGAGCGCTTTTTCCTGCGAAAGACAGTACACACCCACACA
CACACATGGACACCTTTTCCTTTTAAGCGGTTTTCCTTTTAACCGGGGCT
TTTTTCTATTATTATTCTCCCTCCTCACCCACTCCCACCTAATCCCACCC
CCTGCCTCCCCGCACGCTCGAACGGATCCGGCCAGCAGCAACACTTCGCA
CCCGATAGATCACAGAGCTTATATAGCATGCGAGAAAATGGTCGCCGATC
ACGGACAGGAGAGACGCCCGCGGCCACGAGAGTGACACGACCAGCCGCTG
TGCGAGCAGCAAAAAAAGGAAGAGGGGGAGGAAGGAGAGCGGGAGCGGGA
GCCGCAGCGCTCTGCCTGGGTTGGAGCTCCGTGCTCCTGGGAGGCGTTTG
GGTGGCGGATGTTGTCCGCGCGGACGACTCCCTCAATGTTGTCGTCAGCG
GCGCATTCGGTGAGAAAGAGGAGTTTTGCGATGCAGCAGTAGTATCATTT
TGTACGATAGGACTCGTTTCTACTCTGTCAGTGAGTCGTTGTTTCAGTGA
TGTTGTGACGGCATAATATGAGGTGATGTAATCGAGTGTAAAGTAGGCCA
AAATCGTTCAATCTCGGGACATCTTGTAGGCCGGCGCTGTCAACCACGGG
TCGTGAGTTCGAATACCGGCGGTGAACTTTTTTATTTCTTCTCGTAAACG
ACAGGAAAGTGGGAAGTGCATGTGTTGCGAGTAGATAATAAAGTTCGATT
CAAACAACAAAAAATGGCGAGAAAAAAGGGACGTTCGAACCATGTTCGCC
GTAAGTAGTAGTGCAAACACCGCAGAAAGAAAACTAGAGGACAAACTAAA
ATAAAAAGTAAAAATCATGTATTGACTTTCCTTCTGTGTTGTGACCAACC
CCGGCTAGTCCGCCCAACTATTAAATAAACCGTGTGTTGACTTTGCTGCT
GTTGTGACTAAGCCTGGCTGGTGCGCCCAACTTGTGCCCGAAGGTGTATG
ATAGGCTGGCGTCCGGAATACCTGGTAGATGAGAGGACAACACACCACAT
ACATAGATGAGGATGCGAGGGCCAAAACACGCATCCGCAGTATGAGCCAC
ACACACCGCAACAGGAGGGCGGAGAATAATATAATGGTACAGTTCTGTGT
GACTCCGGCTGATGCGCCCGACATACCTAGACTAGCGCCCAGAATCGGTG
GCAGACGCCCCCCCCCCCTCATACACATACATGCACACAGCAGAAGCGGG
GCACAGTAGCAAACCAGTGCTGAACCGCATATCATAGCACTGACGTATTC
AGCGAGGCACACGAAATATTCGTCCATTCGACGGCATTTGGTACCATACA
CAGCAGCAGCAGCAGCAGCAGATAACGCGGGTTGTAGCATAGCGATGCGC
TATTGACACAGCAGCGGTATCTCCCTGCATCCACACACGCACACACAACG
AGAAAAAAAGAGAGAAAGAGAGATGGAGCGTCATGCCAGGTGCATGAACA
CATGTGGGGAGGTTCTTGACTGTACAAGACGTGCCGCCGCTACTGCTGCT
GCTGCTTCACCTCACCATTCCGCGGAAGTGTGAAGCCCAAGTCTTTAATT
GTTTCGTTGTCGTAAGTTAAGTGGTACACCCGCTGTTTCACTGTCACGAC
CATGACAAGCAATGATGATACCGGGTATTGATTGAACACCTTTCTCCGCC
TGCCAACCACCACTACTTCTACTACTACTACTACTACTACTGCCACCACT
GATCCTACTACTCGTTCTACTGCTACGAAATCATGATACAAGCAACAACT
TTTTGTTGTTGTTGTCCCGGACAGATGGGGCATGATTCGCTCTTCTATTC
CAATTTCCAACCGGAATGATGAAAGACACCGTCGTGCTAAATATCAAACA
CGCAGCTGTGCAACAACACTTCCATACTGGTTTACAGAACTCCTCTGCGA
ACTGGAGGTTTGGTAGTGTGTGTCGGAGCACGTCTGCGCGCTGCACGGCA
TCACGGCGGTACCTGTGTGCACGCTTTGAGATGCGTGGCGTGATGTTGCG
TGGCTTGTCCACAACCAACCGTATCGACGATATTTTAGGGGTCTTGCTGC
ATGATTCTCATCTTCTCGTCCTGAACACCGAGAGCACCAAACGAAATCAA
CAGCCTGAGACAAAGACGTCACGACACTTACGACCGGTCCCACCTCGGAC
GACACCAGTCGTTTCCAGACAAATCCAACTTTTAGAGAGGGTTTCGTAAT
GCGTAATATTGTACCACGCCCATCAATTATCTCTCAGTGTTCCCTGACTT
GTCACTTTCACGGCGTATCTGTCGGGTCCTGGGCGTTTCTTTCCTTCCAG
GAGCGGTTTATTTTGTATGGCGGTGTGGTGTGGTGTGGTGTGGTGTGGTG
TGGCGTGGGTGGGTGGATGGGTGGGTCGAGTTCAAAGTCAAAGACCCTAT
ATACAATATTTTTTGTTATATCTAGTAGTTTTATGAACGCCCACCCACAA
CGAACGGGGTTGTCTTGAATTTTTTGTCCTTATGTGTGTGTGTTTACATC
CCATCTTTTTTTGGGCGCGAGTCTACACCTTCGGTGCATGCCGGTCTGGC
GTCGTTGCTTTAAGTGCTTGAATTTTCTCCGTCTCGGCGCTGCGGGTTTC
ATTGCCGCGTTTTTTTCAGCGGCGATGAAACCCGCAGGAGACCCGTAGGC
GCGCGCTCCCGCGCATCCGTGTGGGTACAGCATCGCCGGACGCCCGTGGC
GCGCGTCGTCGCGGCCTTTCAAGTGGCCGCCGGCTCTGGCTCTCTTGACG
GGGATGCTATTCCATCGAACAAAAGCCAACAGGGTCATTGGAAGACTCTC
GCGCTTGTCACAGCATGACCTTGATTTTCGACCAGGTTATTTTGGTAAAT
GATGACCGTATTTGGAATCGCGAAAACCAAAGGAGTCTCTCGAGAGATTT
GTTTGCACACAGACACGCACACTCACATATACACACACGCGCTATGGCGC
ACACACGCGCATTCTTGCTCACACCCACACATCCAGGTGTTCATTGCCCG
CGTACGCACAGCAGCCGTTCGGTCAGATACACATACGATCAGTATCCGAC
TTTTCGATCAGTATCCGTTCAATCGGATTTATATTTGATGTGCTAGATTG
TATCATATGATATCCGAATCTTCAAAGGGAATCCCTGCAGAAGAGCGCGT
TACTTCTTGCAGTCCGTTGAGTCAACTGTTCGGCAGATATGGGGGCACTG
GGGACGAACCCTACTCATCGGTTCGTCAATACCAGAGTCCTCCTACATCA
TGCAAGTATAATACCGTACAGGGATGTACATCTACTGGCCAAAAGTAATG
TTGAGTGAGTAAATGATGGCTATTTATGTTTTGTTTGTGCGTTTTTGTGT
GCGTATGGTGAACAAGTGCTGGGACGTCTAAGAACCGTGGGTTGGCCGAA
CCGCTTTGTCCGTTGCCTTAATGATCAAAAGGCCTTGCATATCCTTACAT
GTTGGTATTTAAAGTAAGGTAGGGGACATTTTGTTGTCATGTGTATGTAT
TATACAATGGTGTATGTATGTATGTACGTGTTGTTTTTGTGAAACGGAAA
AAAGAGGTTCGTCTTCGAATGATGTAGAATCAAGCTCGTCTTCGTACGAT
ATAGGAACAACCACTCCTGAAATAGTAACTGAAATATTTGACAATCCATT
TTTTTTGCTTCGCGTGTGTTGGTTGGGTCGGGTGCTGTGTCGTCGTAGAC
TTTGCGGGAGATCAGCTGACGGTGATGAATGAGGAAGTTCTGATAGAGGA
GGGAGTGTTCACCGACTACACCGACGAGGACGGACAGTGGGAGACCACAA
AGGAGAACGGCGACCCGATCGGAAAAGAAGTGTGGACCAGGTGAAACTAC
CTCGAGTAGTTGCATTTCTGTGTTCGATGTTGGTGTTGGTGTTGGTGTCG
GTGTTGGTGCCGCTGAAGCTCCTGATGATGCGGGGGTGTTCATGCTTGTG
TTGATGACACGCCCACCGCTGTTTTTCTTTTTCTTTTCTTTTGCAACACA
GCCGAGCTGGGCAGGTCGTTGAAGCAGGTCTGATCTCAACTACTCCGGGT
TTTCTGGGGCGTACATTGTCAAGTCAATGTATTGCCTGTGTCTCGTGGTT
CCATGAGTTTTTTTCTCGTCATAATTTGCCTCTCCTGTGGACAGCGGCAT
CCCGTCACTTTTCCGTGCGATTCACCATCTCGGATGTATGTATGCATGCA
TGTATGCATATTTTATGTACCGGCGTGTATGCATGCATGTATGTAGGCAT
GTATGCGTGCATGCACTTGTATTGATTGTGTGCATGTACAAAATGCCATG
AATGTGTGGATGTATGTATGTATGCATGGATTGATGTACAAGTATGCATA
TTTTTTATGTACCAAATATGTACTCCGTATTATGCATGTATGCATGTGTG
TATGGGGTACCAGGTATTGTTCTTTGTATTGAGTACATGTACCAGGTGTG
TGTATGAATGCATGTGTACGAGTGAGTGCATGTATCATGTCCACACTTTG
TATGCCTATATGCATGTGCTGCTGTGTGTACGGTGTGTACGTATATTTTT
GATTTTAGTACAGTCTATATTTGTATTTTATTCATCCTCGCCGTTGTCCT
CGATTTTGTTTTGCAAAACTCTCTGCGCTCCCCCCCCCCTGCCGGCCACC
TCGTTTTACTGACACACCTGGTGTTTGCACGTGCGTTCTCAGTGGCATGG
TGGCTGGTATGTTCTGGTACCAGTACGCTGCCACAGGCAACCTGGCGATG
AAGGTGAGGTCCCAAACCCTCGACTTTTGATTCGGCCGGCGTTCTGCTGG
CAGGCAAAATGCCTCGATAGTCGGTACATCCCCTTTTCGTTGCCGCCACT
GTTTGCATGACGAAACCCGCTGTTGTCGTTCTTGTTGTTGTTCGTGGTGG
TGGTGGTGGTTGTGTCGGTGTCGTTTGTGTGTGAGCGTGTGTTCAGAGTA
GGATTGGGCGGTAACTTTGATAGGGTATGCTGGCGTGGCCTTGTGTTGGT
CCTCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTAAACTTGTGGTG
TTTTTGCTGTTACATGGTGCCATCGTTGCTACTGGTGCTGGTGGCTGACC
CCGCCGCCGCTGACGCTTTCTTTGTGATGATGTTATTGCTCGTTTGTTTT
TGCCCAGACCGCGGCGGAGTTTTACTGCACGGGTCTCGAGGGGGTGGAGC
TCCTTGATGATAACGACCTAGGCTTCCAGGTACATCAGCAATATCAAAGC
ACGCATATTTTGATGCCTCAACCCCCCCCCCCCACACACACACACACACA
CGCCCCGTCCCCTCCTCCCCCTCCTTCTTTTCCAAGAGTTGTACAGTGTG
TGTGTGTTTTCTGAGCCATCCTCGTCTGTGCCCCTCTTCCTCCTCCTTTT
CCATGAGTTGTACAGTGTGTGCGTGTGTGTGTTTGCCGGACCATCCTTGT
CTGTGTCTCTCCGTTTCCGCTTGGTCTACGTTTCTATCGTGCTCTCCCTC
TGTCTATCATTCCTGAGAAACACAAGCTTGCCGTGTGATGTATGCATACG
GTACGAATGAGTGTAAATACAGCAGTACACAGCAGTCGTGGTTCTACTCA
CCATGATGAGAGTACTGCTGTATCTCACATCGTGAGGCGGCGAAGAAGGC
ATTCAGGCCTCTGCTATTTCCAGGCTCACGCTACGCTTCGAAGTATCACA
ACTTTATTTCGGGCTGATATTTGATCTGATCCGATGTTGACATGACAAAA
CAAATGTTGTGAGACCGGTTGTTCCTTGGCTGACGTACACGTACCGGTGT
ATATTTACATGGACATGTGCAGCATTTACATGTGATACATACATACATAT
GCATGTACGCATGTTCATGCATCACAAAACTAAACACATTCCGTATCTTG
AGATACATGGTCTTTTGGCTGCGACGCACATACATGTACATATATTACTT
CGAAGTATATCATACGTGTGCATATGTATATATGCAGGTATGCACACATA
TTGTACACACACATGCACGCACAAACACACAAACACACATGGCGTCGTGA
TGCCACAGGTGCTGAACTCGTACGGCCTGGGCTACCGATGGACCAATTCA
ACCTCGGACAAGCAGAGCTACCTGGAGAGGGTGCTCGCAGGGGCGGCTAC
GCTTCACGAGAACAGATGGGACGTGAGTCTCGCCCATCGGCGTTGTTGTG
CTCTTCTTTTCGCCACTTCGTGTACAAGTACATCGTTTTTGTTAAATTTT
AATTTTTTGCCTCTCTCCCTCTCAAAATTTACTTGTTGAGATGGCGTTCG
AAAATGATCGGCCTGTTTCTCTTCCTGTCTCTTTCTCTCTCTCTTTCTCT
CTCTCTTTCTCTCTCTCTTTCTCTCTCTCTTTCTCTCTCTCTCTCTCGCT
CTCATGCACGTGAAAACGTGCAAATATTTGTTTGTAGTTTCAAAGATATA
TCCAAGATGAGTTTACAGCCTGTTTTGCGCCGGGGTACGAGTTTTCGTTC
TTGGTATCAGCATTCGCGGGTGGAACTACTACAATGGCCTTAACCTGTCT
GGCTGCCCGCCCGCCTGCCTGCCTACCTGCCTGGCTTCCTGTATCTCCGT
GTGTGTCTTGTGTGTTGTGGGTGCGTGCGCGTCTGTGCTGTGATAATTGC
CACCCAAATCACGGGAAAAAAAAACAGGGGAATATCCCTGCGTACTGGTC
CTGGGAAAACCCTAGCCAGAGGCCGGAGTGGGAACGCGCGGTGAACGTGG
ACATGATCATGAACATGGAGATCATGCTCTGGGCGCATGTCAACGGAGGG
GACGATCACGACGAGGACGTGGAAGGGTAAGGAGTACCCTCGCACGATAG
GACAAGAGCGGAGTGGAACGAAACATATCTTGAGGTCAAACTTTCATTTT
ACATGCGTACTGCTTGTAGCGGGAAAAAATTGAAGGAAATTTGTTTCACC
CATCGCTCTAGACCGGTTCTTGTCGTCGTTGGTCTTGAGCCTTTGTTGCC
GGAATTTTTTCTCTTTTTCGGTCTTGAACGGTTGTCCAGATCTAATGGGG
GGATAATCTGCTGGAAATCGGAAATGAAAATCGGGAGGGTCGTGAATATA
TTTCAATCCCAGGACAATTGGGCAATTATCCTGTGTGTTGGGGAGCTCCG
AAATAATTGGGGAAAGCCTTTCTGGAAGGCTTTCCAGCACTGTACACAGT
CTCGCCAGTCGCTGTCGGGAGAACAGGAAGCTGCCAGTTGTTTGTGTGCC
TCTCCCAACCCCTCCCTGTGTGCGTGGCTGTGTTCGGAAGACCCACCAGC
AGAGCAGTATTGTGTTGGGATATCGGAAGGTCTCTTGGCTGTGGCAGCAG
CAGTCAATCGCCGTCTGGCAGCGCCAGGTTCTGATTTGAGAGAGTGGTGG
TAGTTGTTGTTGTTTTGGTTGTCGTGCTGTTGGTGTTAAGTTATTAGGTC
ACCAAGAGACAGTCTAGCCCGTGGTCTTAAACCAGGCACACGAATATATG
CATCTATCTCGTGTTTGAGGAAACATTTTGCTCCCAAGAAGTTCGAAGAA
CAAAGAGAAAGTGTTATACAATGACTCAGATGTTTACGTAGCAATCGAAA
ATGATGGACGTGGGCAGCTATGACGTGGCGGGAGCTTTGTGTGATAATTG
CTCTGCGTCCCCTTGCATGTCATGATGGGTGTCTGGGATTCTTCATACAT
TCCGTGACGGGGAGTGGTTCGTGAAAAAGGACCTCGTACATATGATCACA
TCGTATTTTCGGAGTTCCTTCTTCGGCGTTCCGTTCCATGATGTCCAGCA
TATCCTGGACTACAAAATCCGCTGACCATAAGGAGTCGGTGTGATGGAGG
ACAGAGTGACATGGGATGAAAAAGAAACGTACTGCTGTATCCTAACCGCC
CCACCTTGCCTGTTGCCGTATGATATCCCTCTCGTTCTCCCCCCCCCTCT
CTCTCTGTCTTTCTGTCTCTCCCTCCCTCCCTCCCTCCCTCCCTCCCTCC
CTCCCCCTTTCTCCCTCTCTCTCTGTACACAAACGTCTCTCTATATTTAT
CTCTCTCTGCGTGTGTGTGTGCGTCGCAGTCACGCCGACTTGACCTGGCT
GGACATTGTCCGCGACGACAACAGCACAAACCACGTGGCGGACTACGATC
CCGATACGGGGGAATTCGTCGAAACAGGTGCGTGCGTTGTGCGTTGTGCG
ATGTGCGGGGTTAAGTTGCAGCGGTGACATTTTTTTACAATCGCAGGCTG
TCATGACATTTATCGTTTGGTTTGTCTATCGCTGCCTGTACTGACTTGTG
ATATTCGCCTCCGTGTGGTTGCGGCTTTTTCCAAACATATCCATTTAGCC
CGGCCGGCCTCCTGTCCTGCTGCTGTGCATACATACACGTATTTTCCTTC
CTTTCTCTTTTTCGAAGCGAACGAGAACGTTCTAGCTGCTAGACATCCAA
GAATAGGAGACACTCCGTATACTTCGAAGTACATGATACGGTACTGGATT
CAAAACAAACGACAAGATACGAAGTACCAGTAATCATTACCCTGTCCCTG
CTGTGCCCTCTCAACGTGGTGTACTCCCCTGGCACCCGGCAGGGACTTAC
CAGGGCTACACTGACGACTCCACGTGGACGAGAGGGCAGGCTTGGGCCGT
GTACGGCTACGTGATGATCTACCGGTACCTGGCAATGCCGAGGTTCCTCG
AGAGGTCGATCGGGCTCTTGGAGTAAGTTTTTTTTTTTTTTACATAATTT
GTACGAGTATGATATGATGCCTGATTTTATACTTCGTATCTCACGATTCA
GCCAATGTGTGCGTGGCAGGTCCACGATCAAGATTTTCCAGGGATCTGCA
ACGACGGTACATTTTTTTTTTATGAGTCACGGAAAGCCAAGGAGATGCAC
AACACACTTCTTTTTTTTTGGCTTCGCTGCTTATCCACATTATTGATCCT
CGGTTAGAGAGAGAGACCAACACACTAGTGTCTTCGCAAGGAAAAAAAAA
AGAAGGCATTTTCCCAAGCTTTTCCCCTATTTTGTCCTTCCATCAATCTC
TCGATTTTTGGAACACCCTTCAACCGAAGATTTCTGCATGATAACATGTG
TGCAATTTGTTTGTGCCACGTATGAAACGGTATCCTCTTTCGATTTTGAG
GAGAAAAAGCCCAATTGCCGATTTCGCGTCCTCCAGAGCCCTGATGCGCA
TTTCTGCTGTTTATTTCAGGTACTTCGACAGCAACCTTCCCGACGATCTC
GTGCCCCCCTCCGACTTCGACGCCCCCGTGTCGGCCACCTCGAACGGAAA
AGACAGCTCCGCCACGGCCATCGTGGCGTCTGCCTCGATAGAACTGTTCC
TGTCTACCGGTGCGTTGCATGACACACACACACACATACTAGCGTGCGTG
CATGGCTGGCGTCTGTCATGCACCATGGGCAAGGTTCTGTCCTCCTAGCG
GGTATTGTGAATCTGTTCGTTGATGGCGTTGGACTGCTAGGCATGACGGT
GGTGTTGGATGAGATGTGGTGTTGTCGGGGCTTTTCTTTTCTTTCCAAAC
AAATTTCCAGCGTTCATCCAACCCCCACCCAACGCCCCCTTTTCTCTACG
ATTGTTTGCCAACTTTTTTCGTCCTACTCAAGACGACGCTGCCTACCTGA
TCAAGGGCCAAAATTACTTGTCGGCTTTGCTTGTGGCGGACTACTACCTC
CCCGACGCCACCGATGGGTACCAGTCTATCCTCAGAAGGGCGACGGCGGC
GTGGGGTGACCCCGAAGTCGGAGCCACGTTTGGGGATTACTTTTTGCTCG
AGTGCATGGTGAGGGGTGTCAGGAGCGGATGGGTGGGTGAGGGGGGGCGA
GGGGAGGGGGGGGGGGGCGAGGAGGAAAGTGGCTTAGGGAAGGGGCCGGG
CGGTATGATTGTTTGTTTTTTTCTCGATTTCCGTCGCTGTATTCTGCTTC
AAGATAAGTCCAGGTTTTGAGGATATGGTTCTGATGTGTGGTCAACCTTG
TGGGCTGGTGGAGCAACCGTAAGTATAATGATTTACAGAAGTTCGGGCCG
ATTGGCTCGCGGTTCGAGAACACCTGTCGCGCCTCTCTCACCAACACCGC
GCAAATCCTACCGATTCGTTGTTGCCGTGTACCTATTGCAGCCCTATCAG
CGCCGCGCACAGGCTGGAATACCGATTTGTTTTGGTTTTAAGTACAGCTA
CTATCGGAAGTCTCTCACCACGGCCGAAATGCTTCCGGTTTCGTTGGTTT
TAGATGCGCACTTATCCTACGGCTCCCACCACCGCGTAAATCCGATCCCA
CGCGTAAAAACGTGGTGTTAGTTGTCCGCTCTTTGGCGAACGTCTCGTGG
GAGGGGTGTTCGCCATTTTTCAGCAGCGTTTTTTATCTTGCCTTGGTGTG
TCCCCCTCCCCCCCCTTAATCACACACACGTTGTTATAGATATCGTAGTG
CCTTGTCGTTCCCGCTTGCTGCCTGCGGCTTCCGCGGGTGGGCGGAAATG
CGAACAAGTCGAAAGGCTCAAACCGTGCTGAAGCGCATGGCTACATCAGT
AGTACGAAGCAGGAAACACACAAGTCATATCATACTCCGAGTATGTTTTT
TTTTCTAAGCAATGACCGTCGCATACGAAAGAAAGCTAGTTTCAAAGGCA
AGACGCACATCCCCTAAGCAACCTTATGGCGAATGCGCGTACGGCGCGGA
TGACATGTCATCTGTATGATAGAGTTGGATCACCGACACTAAGCTCGCGA
CGAAACGTGTCGGGTAGAAACAAACCCAGCCTGTGATAGTCCGTGCCGGC
TCCGTCGTTGTACATACTGGATGGGGATGCTTCACAGGGTCCGCGGCAGA
ATGTCCTTGCACACCAGCTATGCACGGTTTTTTGCACCCTCCCCCCTATG
TTCGATTCTACGCCCCCCCCCCCCCCCACTCTTAATCGTTGAATTGCTTG
GTTATTGCTTGGATGCGGTTCAAGACCCGTTGAGTTGTGTTCACGCTCTC
GACCCTTCAACCTCGACCGTTCCTTCGTTCCTTCGTTCATTTTTTTTTTT
TTTTCGCAGTTCAGGTACATTAATCTGGCGCCTTCGATTCTTCTGTTCGA
GGAGGACGCGGTCGATGTGGTGGGCGTGGCAAGGTGCGTACGCAGCCATC
GTCGTCGTCACCCTCCAATGAATATCTCCCTTCCTACTCTCTCTCTCTCT
CTCTCTCTCTCTCTCTCTCTTTCGCTGTCTCTCTATCCGACACACACACG
AATATGTTTCTACTTCGTACAGCTTTTTCCGAGTTTGTCTGTTTTCTCAG
CCACCACAGAAGATATGATATTCCCTCTTTTTTAGGTCTCTGTTATTTCT
TACTTTACATCGTGTGGATGTGTGTTTTCCTCCGAAACACAGCCCGGCAC
ACTTTTTTCTGACACCACGGGCAATATCTTTGGCGATGAGACTGTTGTGA
AGAATCAACAGCAAAGAACGACACGGACCAAAAAGAGAAAAAAAAAGAGA
GCGAGAGGTCACTGCTCGGCTCACCAAATTGTTTTTGATCCACCTTCCGA
CACACTAGTACTTGTTTGTGCCTGGTAGACACGAAGGAAGGTGGCGACCA
CCGCGTGCATCCCGATGCTTCACGTTGCCGCTTGCCCCGTATATGCCGTC
CGTTGTGTGCCGCAGTGTGCCGCTCGGTGGTGCCGTCCCGCGTGTGTGTG
CCTCGCGTCATCCATTTGCGGTGGTTTGATACAACATGTTGCGTGATGAC
TCTGGAAGTACTTCGTGCTTTTTTATTTATTTGATCGCTCTCCCACGTCT
CTTGCTATTATATGCTCTCAGTTTTTCTGCGTTGCAGTATTTTTGTTGCA
CTCTGCTGTTTTTGTTGTTGTTTTGTGACAGCACTTCTCGTAGCCGTTGT
TTGTTTGTTTGTTTGTTTGTTGTTTGTTTGTTTGTCCTGATCCTTTCGTG
TGATACATCTTGAGATTGCGATTGTTTGTGTTTTATGATATGTTTGTGTG
CGGTCTTACGATACCTCTCAGTACCGCGAGGCGCCGCCGGCTCGAGGAGG
CCCAAGGCGAGGAGGAGGAGGAGGAAGAAGACGAAGAAACTGAGCCTCGC
AGACTGCAGCAGGTCCTGTTGGGAGGGGAGTTCTGCGCGATTTCGGTTTC
TGGAGTGGTGGTGGCGTTTGCGGACTCTGGTTGCGTTCCTGTCGCACCGG
TGAGTTAGAGGAGCAGAGATAATATACGAAACGTTTCGAAACTGCTTGTC
CAGAAGTTGATGTTGATGTTGCTGTTGCTGTTGCTGTTGCTGTCGTTGTC
GTTGTTGTTGTTGTTGTCGTTGTTGTTGTTGTTCTTCTTGTTCTTGTTGC
TGCTGCTGCTGCTATTTGTGTTGTTCACACCCGTATCATACTGCTGTACA
TCCTTACTTAAATCATCCATCGCATGTATGCTCTTGCCCATGCCCTCTTA
ACCAACTGACCTAACTTGTATACGGTGCGCATTTACGACGTACCTGGTAC
GGGCCGACCTGTATGGTATGGTTTGGTTTGGTACGGTATGAAGGGTATGT
GATTTATGGTATAATATGGTATGGTATGGTACGGTACGGCACGAAATGAT
ATGATATGATATGGTGTGGCATGATATGGCATGTTACGGTATGTTCAGGT
GTGATTTGGTATGGTATCATATAGTATGATATGATTAGTATCTCATGACA
TCGTATGGGATGATATGATATACTCTGAGTACTTTGTACTATAGTTCTTT
GAAGTATGATATAATACGGTAAAGATAGGATATGATGTGGTAAGGTATGG
CATGGTATGACAGGATCTGTATGATATGATATCGGCGTGGTTTTGATACG
GTGTGATACATTGTACTCGTACTTCGTATGATATTTTGCGATATTGCAGG
ACTTTTCCGTGCTCGAGTCTGGGACCACCCCCGCTCCTGTCGGGGCCGAC
GCGACCCCGAGCCCCACGGCAGGCTCGCGAGGAGAGGAAACCGTCGACAC
GCCCGCTCCTTCCTCGCCGGTGGTGGCCGCGACCTTTGCCCCCCTGGTCG
TCGGGATGACCATGCCTCCAACGACGCCCGCTCCGACGGCGGCTCCCGCG
ACAGCGACGCCGGTGGCCGAAGGGGAGACGCCTGCTCCGGTGAGCTTTTT
TTTGTTGCGAGGGTATATATAGGGTGTATGGGACAGAGTCGTGTGTGTGT
TGTATATCATACGTGTGTGTGGTTTTTGTTGTTGTTGTCGTTGTTGTGTC
GATGACGGCTGGCTCGTAATTCAAGTTTTCTAATTATTACTTCGTAGATA
GTTTTCTCCCATATTATTTCGTGTAGTGTGAAGTGTGTTGGGGACGCGTG
TCTTCAAGTTGTTGTTTGTCGTGCTTGTTGCTGGTGCTGCTGTTGTAGTC
AAGTGCCTGTCTATGTTGTGAAGCTTGCGGCCATGGGCTTTTTCATGGGC
TTTTTGCTCGTGAGGGTTGGCCGCCACAGAGTTTATTTTTCCTCCAACCG
ACCGCCACGTCCACCCCTCTGCCTGACGAATACGAGACCGTTGCGGTGTA
CCAGTGTGGAGGAGTTCTCCTTTCGTTTTGTCTGTTTTTTTTTCGCTTGT
CTTTTTCGGCGACCGGCGGCGGCGACGACGCAACCCGTGTTGATATATAT
ATTTTTTCCTGCGTGTGCCACATTTTGCTGTACATGCGGGCATGATCTCC
GGTCGTTGTGTTTGTTGTTGCTGTTGTTATCGTTGCTGCTGCTGCTGCTT
CAGTGAATGCTGTTCTGTCAATGTTTGGAGCTGGGTGTCTTTTGTTGTTA
AAAGTCGTTGTTGTCGTTGTTTCACACAGTGTGGTCCCGTCTGCCCGCTG
TGCGGCCGAATCTTCACGGCTTTCCCGCCTCTGCTCTTCGTCGGACTGTA
CTGCTAGTAGAGCTTCGCTTGTGTTACCAGCATGTGATACCAGAGACGCC
GGCGCTTCCTCAGGTACACTCCGCAGCAGTCCTCCAGCAGCAAATACAAT
TACACACACGCCTGGTATGAGGGAGGTAGGTACTTGTTTGTGACTGATGT
GCACCACACAAACCTCTCCTGGACTCCTTTCTCGTACCGTACCGTCGCCC
CACGCCCCCCTCATTTCACACCAAAACCAAACGGAACCGAAACGGAACCG
AAACGGAACCAAACGGGAATCAAACTGGAACCGAACGGGAACGCATCCAA
AACATATGGGACAAAACTGGAACGTGTACGTAAAAAGATTGGATTCACTG
AAACGCCCGTACTGCTGCCGACCCCCGGGGGACAAAACGCGGAAACTATG
GCTCCTTTGAATACTGCGGGCGGCTCTCCAGCCCCGACGGCGCCAGAGAT
AATTGCGGTAAGAGCGGGAAGGCGAAGTGCGACACCAAAGAGTTTTCTTT
TTTTTTCTTTTTTTTTCTTTTTTTTACCGTGCCCTGTTCTTATGTACTCG
AAGGCTACTTCCTGTACATCTTGTGTTGAAAACAACATTATTTATGTGGG
GCCTTTCGAATATCGACGTTTCCAACAGGCCCTTTTCAAGCACCCGATCC
TAAGTGTCGAAACCGAACCGCAGGCTGTTCAGAAAAAAATTTGCGAAAAA
AAAGGAAAAAGTCTCTCCTGTTCCGCTTGGGCGGGTTGACGGTAGACAAC
TTGACATCTATTTTGCGATGGTGTAACCGGTTCGCTCTTCGTCCACCACT
CTCGGACGAATGAAGCCACAGCAATGGTAACGCCATGCCTCGCGAGCTGT
GTTGCTGGTCGCTAGTCTATAGATACCTCGCGGCCTAAGGCGACCACGGC
GGAGGAAAGACCATGCACACAGCTCGCGGGGCATGGCGTTACCATTGCTG
TGGCTTCATTCATTCGAGAGTGGTGGACGAAAGAACAAACCGGTTACACC
AGCGCAAAATGAACGTCAAGTTGTCTACCATCAGCCCGCCCCAGCGGACC
AGGAGATACTTTTTTTTGCTGAAGTTTGGTTTTATATCACCTGCTGTTAG
GTTTTGACACGTAACATCGGGTCCTTCAAAATGGCCTGAGAATGACGTTT
TTGACACACATGGAATGTAGCGAAAATAAAGACTTTTCATTTCTTTTTTC
TTTCTTTTTTGTCGTCGTGCCCTGTTCTTCTGTGCGCTCGGAACATACGC
GTATTGTAAAAGTTGTCAAGTGTGTATACGAAGTATATACTTCCTCTGTA
TCATAACTCTGTGCCGTTATGGGCGCGTAGTCGTTAGGGTACTTACACGT
TGACGTTTAGCCTATGGTCGGGTGCGTTGGAAAGGCAAAAACACATACGG
AGCTGACTAAAAAACAAAACAATAAATCGAAGACCGTGTTACACACTAAA
ATTAGGTCAAAATATGCCCATTTAGGCCCTTTTTTGAGAATATTTTTTTA
GATTTTTTTTGGTGTGGGACCCCCAAGTGTTTTGATTTTAGTGTGGGTGT
CACTATTATACTGGTTTTAGTATAGGGGACGCGTTATGGATGGTTGAGGA
TAGGGGGGGTTAGCTTTAGGGTTGGGATAATTCTTGTAATTTTTGGGGAG
GTTTAGGCTAAGTGCCCCACCCACCGCCCCCCTGGAAAGGGACAAAATAT
GGCCGTTTTGGGGCCGACTCAATGTTTTCCGGCCGTTCTGCCGCATGGTT
CAAGCACCAGCTAAAAAAAAAAGTTCTTGTTGCTAAAAAAACGCCGGAGA
ATTCAACAAAAAAAACGGAAACAGATCGGACACCGTTGAGGGGGCGCAAA
AACATAATGGCACAGACTTATTATACAGAGGAATGTATTTCCTTCTGTAC
GACACAGCACACCCGTACCAAGGAAGCAAGCACCTCGACCCCAGCGGCAC
CACCCAGCAGTGCGTGTTACACACGGTACAGTAGTACCGCTGATCGAAGG
GGCTACCAGGTAGCTTCACCACCACCACCACCACCACCACCACCACCAGC
AACGCGAACACTTGGCGACCGTGACAAAACGCCTGTACGTTTTTTGGCGC
GTCCGTGATAAGTCTCTCGTGACTGGTTATTCATGCTCGCTGGTGTCGCG
ATCGCCCTATTCCCCCTCCCCCCTCCCTCGCTGCGAACAATCCGAAACCA
AAGACGAATCGAACTCAAAATCGAACTCGATCGAAATCGAAATCGAAATC
GAAATCGAAATCGAACTTTCACCGAATGAAAACGAGATGAGACCTCATAC
ATACATCACACATAATTTACGGAGGGAAACTGTTGTAGCCCGCCTCTCCG
ATAGCGACCCAAGGGGCACATCGCCGTGAAGGCGTGACAAATAGCCTTGT
CAACGGGAGGGACATCATGTTGCCGTGCTGAACTGACGTCACGGCCGTGG
CGCGTGGCTGAGGTTCTCTTGATACATCTGCTGCCACAAGTCTCTTTCCC
TGATGGTTGCAACGTGCAGCAGAGTACATGATGGGTAAAGGAGGTAGTAT
AGGAAGCATTGTTTGTCTCTCTCGCTCTCAAAAATAACTGAACGTCTTCT
TGTTCCTCTTGCATGTTCTACCCCCCCCCCCCCCTGTGCGCGCTGCGTTA
CGTATTTTGGTCAGCATCCTTTGCTGCGATTTTGTGTGTAAGTGTAGAGT
GTGTGCCGCTGAAACGAATCAGTAGATGATGACCCCTCCCCCACCCCACC
GCCACCCCCACCCCCTTCTCCCATCCCCTCTCGCTTCAACACTGCTGTGT
CGTGCTTGTGTCGCAGACCGCCGAACCCGCGGCGGATACAACAGCCGGCG
CGAGTCTTGAGTTCGGGGCGCTAGAGCTGAACCACGACGTGGACCTTTCG
TACCTGGACGCAGCATCTACCGTAGTCGTGCGGTGCGTGCGCGTGCATGG
GTGGGGTGGGTGGTGGAGTGGGGTTTATTGAGAATCTGGTTGTAATTGTT
CTTGGCCCGAACCGGCACGAGGACTTTACGAATATCATCTCGTGCGTATC
GACACGGTACGTGTGTGCGGTTGATGTGGTCGCTGGTACTTCGTTTCTGT
AAAGGCTTCTCACGCTGCTTCAGCCGTTTTTCAGTCCCCGCGTTTTCGTG
TTTTGTGCGTTTACAACTCGGCGCGGACCGTTTGGCAACAATCTGTATAG
CTGCTCGTCGTGTTGGAATCGTGTCCATGTCTGTGTACGTGTTCGCAACG
AATCGGGTGAGAAGACTGCCGACACTCTTTTTCAGTATCAATGCGGGGTC
GCCGGTAGGCAGCGGCAGGGTCCGGAGCTCTTGGACTTGCACGTGCACTT
GCATCGTGCATGTTGCTTGCTAACGGTTTGTCTTGTCTCTCTGTCTCTCT
TGTCTCTCCGTCTGCGTGGGTGCAGTTTTTCGGTGGATCTAGAAAATACG
AGCAACACCCCGGCGACGCTGTCGTTGCAGAACGCCGACGGCGACGTGCT
GGAGACCGACGTCACGGCCCCCGATGGTGGCTGGCAACCCGGGAGTAACA
AGTGA
back to top

Coding sequence (CDS) from alignment at P-littoralis_Contig155:39267..68571+

>mRNA_P-littoralis_Contig155.17.2 ID=mRNA_P-littoralis_Contig155.17.2|Name=mRNA_P-littoralis_Contig155.17.2|organism=Pylaiella littoralis U1_48|type=CDS|length=2442bp|location=Sequence derived from alignment at P-littoralis_Contig155:39267..68571+ (Pylaiella littoralis U1_48)
GTGCACGTGTGTGAAGGTGGGCGCGATCGGCAAAATCTCCGCGAAGCTGC
CGACGAGGTGCTAGTGTTGTTACTCTGCCAAGCCCCCAGCTCTGCACCTG
CCGTAACGCCTCGAGAAATAAGTACCAGATACCCCACCACACAAACGGAG
GAACAAGATATTTTACTGGAAACACAAGACAGAAGGAACAGCGAAAGAAG
CAAGGCACAGCGCCAAACAAGACAGGCACAGCAACACTTCGCACCCGATA
GATCACAGAGCTTATATAGCATGCGAGAAAATGGTCGCCGATCACGGACA
GGAGAGACGCCCGCGGCCACGAGAGTGACACGACCAGCCGCTGTGCGAGC
AGCAAAAAAAGGAAGAGGGGGAGGAAGGAGAGCGGGAGCGGGAGCCGCAG
CGCTCTGCCTGGGTTGGAGCTCCGTGCTCCTGGGAGGCGTTTGGGTGGCG
GATGTTGTCCGCGCGGACGACTCCCTCAATGTTGTCGTCAGCGGCGCATT
CGACTTTGCGGGAGATCAGCTGACGGTGATGAATGAGGAAGTTCTGATAG
AGGAGGGAGTGTTCACCGACTACACCGACGAGGACGGACAGTGGGAGACC
ACAAAGGAGAACGGCGACCCGATCGGAAAAGAAGTGTGGACCAGTGGCAT
GGTGGCTGGTATGTTCTGGTACCAGTACGCTGCCACAGGCAACCTGGCGA
TGAAGACCGCGGCGGAGTTTTACTGCACGGGTCTCGAGGGGGTGGAGCTC
CTTGATGATAACGACCTAGGCTTCCAGGTGCTGAACTCGTACGGCCTGGG
CTACCGATGGACCAATTCAACCTCGGACAAGCAGAGCTACCTGGAGAGGG
TGCTCGCAGGGGCGGCTACGCTTCACGAGAACAGATGGGACGGGAATATC
CCTGCGTACTGGTCCTGGGAAAACCCTAGCCAGAGGCCGGAGTGGGAACG
CGCGGTGAACGTGGACATGATCATGAACATGGAGATCATGCTCTGGGCGC
ATGTCAACGGAGGGGACGATCACGACGAGGACGTGGAAGGTCACGCCGAC
TTGACCTGGCTGGACATTGTCCGCGACGACAACAGCACAAACCACGTGGC
GGACTACGATCCCGATACGGGGGAATTCGTCGAAACAGGGACTTACCAGG
GCTACACTGACGACTCCACGTGGACGAGAGGGCAGGCTTGGGCCGTGTAC
GGCTACGTGATGATCTACCGGTACCTGGCAATGCCGAGGTTCCTCGAGAG
GTCGATCGGGCTCTTGGAGTACTTCGACAGCAACCTTCCCGACGATCTCG
TGCCCCCCTCCGACTTCGACGCCCCCGTGTCGGCCACCTCGAACGGAAAA
GACAGCTCCGCCACGGCCATCGTGGCGTCTGCCTCGATAGAACTGTTCCT
GTCTACCGACGACGCTGCCTACCTGATCAAGGGCCAAAATTACTTGTCGG
CTTTGCTTGTGGCGGACTACTACCTCCCCGACGCCACCGATGGGTACCAG
TCTATCCTCAGAAGGGCGACGGCGGCGTGGGGTGACCCCGAAGTCGGAGC
CACGTTTGGGGATTACTTTTTGCTCGAGTGCATGTTCAGGTACATTAATC
TGGCGCCTTCGATTCTTCTGTTCGAGGAGGACGCGGTCGATGTGGTGGGC
GTGGCAAGTACCGCGAGGCGCCGCCGGCTCGAGGAGGCCCAAGGCGAGGA
GGAGGAGGAGGAAGAAGACGAAGAAACTGAGCCTCGCAGACTGCAGCAGG
TCCTGTTGGGAGGGGAGTTCTGCGCGATTTCGGTTTCTGGAGTGGTGGTG
GCGTTTGCGGACTCTGGTTGCGTTCCTGTCGCACCGGACTTTTCCGTGCT
CGAGTCTGGGACCACCCCCGCTCCTGTCGGGGCCGACGCGACCCCGAGCC
CCACGGCAGGCTCGCGAGGAGAGGAAACCGTCGACACGCCCGCTCCTTCC
TCGCCGGTGGTGGCCGCGACCTTTGCCCCCCTGGTCGTCGGGATGACCAT
GCCTCCAACGACGCCCGCTCCGACGGCGGCTCCCGCGACAGCGACGCCGG
TGGCCGAAGGGGAGACGCCTGCTCCGATTGGATTCACTGAAACGCCCGTA
CTGCTGCCGACCCCCGGGGGACAAAACGCGGAAACTATGGCTCCTTTGAA
TACTGCGGGCGGCTCTCCAGCCCCGACGGCGCCAGAGATAATTGCGACCG
CCGAACCCGCGGCGGATACAACAGCCGGCGCGAGTCTTGAGTTCGGGGCG
CTAGAGCTGAACCACGACGTGGACCTTTCGTACCTGGACGCAGCATCTAC
CGTAGTCGTGCGTTTTTCGGTGGATCTAGAAAATACGAGCAACACCCCGG
CGACGCTGTCGTTGCAGAACGCCGACGGCGACGTGCTGGAGACCGACGTC
ACGGCCCCCGATGGTGGCTGGCAACCCGGGAGTAACAAGTGA
back to top