mRNA_P-littoralis_Contig13.165.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig13.165.1
Unique NamemRNA_P-littoralis_Contig13.165.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig13.165.1 vs. uniprot
Match: D7FLZ1_ECTSI (EF-hand domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FLZ1_ECTSI)

HSP 1 Score: 815 bits (2106), Expect = 2.640e-284
Identity = 428/514 (83.27%), Postives = 452/514 (87.94%), Query Frame = 2 
Query:  467 QVEEQPVFDLPKEWKELVSTLCLRTTFEPAELADLFQRFRQLAAGTKEYLTAREFRRTVRRNFGIMNEEWVKKYFKAFDRDHRQATIYYVQPGTIDFQEYVMGFAGMARVLTDKKAHSLIGLSTGSNIVRSGRNARLFWDGPPRRVAVIKKWKDPDVAAKAGEEQKLVKWLQSQDLAVLVDPSEDHELGPDGKELGPRFMPEVGRFDPGSLSTQTDFIVCLGGDGTVLKAAQYFDDSTPIPPTLAFGLGSLGFLAPFSPSQCQSMITRVLEAYRRPISVTLRTRLRGEVYSRKGQLERVFYSLNEFIVNRGISGVLSTLEVFVDGQLVTTAQGDGLIVASPSGSTAYNISAGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPDTARADGWMSHDATEAVTMKKGTYVKLSTAAIPLPTVNQHELDGDWFQSIRDKLNWNLRTLQTPYHEDVGDRSLDLNDKLSENQSPPTTNHFQP--RFFALPKP-PQDPNGTPNGDSPRGSPI 1999
            QVEE PV+DLPKEWK LVSTLCLRT FEPAELADLFQRFRQLA GTKEYLTA EFRRTVRRNFGIMNEEWVKKYFKAFDR+H          GTIDFQEYVMGFAGMARVLTDKKAHSLIGLSTGSNIVRSGR+ARLFWDGPPRRVAVIKKWKDP VAAK    +KLV WLQSQ L VLVDP+ED+ELG DG+ +GP FMPEVGRFDPG L+TQTDFI+CLGGDGTVLKAAQYFDDSTPIPPTLAFGLGSLGFLAPF+PSQCQSMI RVL+A+RRPISVTLRTRLRGEVYSR+GQLERVFYSLNEFIVNRGISGVLSTLEVFVDG+LVTTAQGDGLIVASPSGSTAYNIS GGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPDTARADGWM HDATEAV MKKGT+VKLSTA+IPLPTVNQ ELDGDWFQSIRDKLNWNLRTLQTPYHE    +S DL +  S ++S           RFF LP    +D +G+  GDSP  SPI
Sbjct:   11 QVEEHPVYDLPKEWKTLVSTLCLRTNFEPAELADLFQRFRQLA-GTKEYLTAGEFRRTVRRNFGIMNEEWVKKYFKAFDRNHS---------GTIDFQEYVMGFAGMARVLTDKKAHSLIGLSTGSNIVRSGRSARLFWDGPPRRVAVIKKWKDPVVAAKT---EKLVHWLQSQGLTVLVDPTEDNELGDDGEAIGPVFMPEVGRFDPGHLATQTDFIICLGGDGTVLKAAQYFDDSTPIPPTLAFGLGSLGFLAPFNPSQCQSMIKRVLDAFRRPISVTLRTRLRGEVYSREGQLERVFYSLNEFIVNRGISGVLSTLEVFVDGELVTTAQGDGLIVASPSGSTAYNISVGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPDTARADGWMCHDATEAVVMKKGTFVKLSTASIPLPTVNQRELDGDWFQSIRDKLNWNLRTLQTPYHEH---QSSDLVEDQSTHRSXXXXXXXXXXTRFFTLPTSRAKDESGSSKGDSPPSSPI 508
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BLAST of mRNA_P-littoralis_Contig13.165.1 vs. uniprot
Match: A0A835Z9J6_9STRA (ATP-NAD kinase-like domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z9J6_9STRA)

HSP 1 Score: 597 bits (1540), Expect = 7.450e-199
Identity = 311/444 (70.05%), Postives = 356/444 (80.18%), Query Frame = 2 
Query:  503 EWKELVSTLCLRTTFEPAELADLFQRFRQLAAGTKEYLTAREFRRTVRRNFGIMNEEWVKKYFKAFDRDHRQATIYYVQPGTIDFQEYVMGFAGMARVLTDKKAHSLIGLSTGSNIVRSGRNARLFWDGPPRRVAVIKKWKDPDVAAKAGEEQKLVKWLQ-SQDLAVLVDPSEDHELGPDGKELGPRFMPEVGRFDPGSLSTQTDFIVCLGGDGTVLKAAQYFDDSTPIPPTLAFGLGSLGFLAPFSPSQCQSMITRVLEAYRRPISVTLRTRLRGEVYSRKGQLERVFYSLNEFIVNRGISGVLSTLEVFVDGQLVTTAQGDGLIVASPSGSTAYNISAGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPDTARADGWMSHDATEAVTMKKGTYVKLSTAAIPLPTVNQHELDGDWFQSIRDKLNWNLRTLQTP 1831
            +W ++   L LRT F P EL DL+Q FR++A G+KEYL+  EFRRT++RNFGIM EEW  KYF+AFDR+           GTIDF EYVMGFA MARVLTDKKA SLIGLSTG+NIVRSGR+ARLFWD PPRRVAVIKKW+D +VA +  +   LV WLQ  + L VL+DPSED    P       RF+P V RFDP  L+ Q DF+V LGGDGT LKAA YFDD+ PIPP LA GLGSLGFLAPFS    ++MI RVL A   P++ TLRTRLRG+VYSR G L+  FYSLNEFIVNRG+SGVLSTLEV+VDGQLVTTAQGDGLIVA+PSGSTAYNISAGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIP+TARADGWMS+DAT +V M+KG+YV+LSTA +P PT+N   LDGDWFQSIR+KL+WN+RT+Q P
Sbjct:   70 DWAQITKALKLRTNFTPEELEDLWQSFREIA-GSKEYLSRDEFRRTIKRNFGIMKEEWATKYFRAFDRN---------DSGTIDFPEYVMGFAAMARVLTDKKAQSLIGLSTGANIVRSGRDARLFWDHPPRRVAVIKKWRDKEVARRTAD---LVDWLQRDKGLKVLLDPSEDPLTDP-----AQRFLPHVARFDPRHLAEQVDFMVTLGGDGTALKAASYFDDAHPIPPALALGLGSLGFLAPFSMRDARAMIERVLHADEEPMACTLRTRLRGDVYSRTGTLQHTFYSLNEFIVNRGLSGVLSTLEVYVDGQLVTTAQGDGLIVATPSGSTAYNISAGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPETARADGWMSYDATASVAMEKGSYVRLSTAQMPFPTLNLTPLDGDWFQSIREKLHWNVRTMQKP 495
[Close]
BLAST of mRNA_P-littoralis_Contig13.165.1 vs. uniprot
Match: A0A6H5K7L6_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5K7L6_9PHAE)

HSP 1 Score: 383 bits (983), Expect = 5.640e-121
Identity = 207/250 (82.80%), Postives = 219/250 (87.60%), Query Frame = 2 
Query: 1259 MITRVLEAYRRPISVTLRTRLRGEVYSRKGQLERVFYSLNEFIVNRGISGVLSTLEVFVDGQLVTTAQGDGLIVASPSGSTAYNISAGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPDTARADGWMSHDATEAVTMKKGTYVKLSTAAIPLPTVNQHELDGDWFQSIRDKLNWNLRTLQTPYHEDVGDRSLDLNDKLSENQSPPTT--NHFQPRFFALPKP-PQDPNGTPNGDSPRGSPI 1999
            MI RVLEA+RRPISVTLRTRLRGEVYSR+GQLERVFYSLNEFIVNRGISGVLSTLEVFVDG+LVTTAQGDGLIVASPSGSTAYNISAGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPDTARADGWMSHDATEAV MKKGT+VKLSTA+IPLPTVNQ ELDGDWFQSIRDKLNWNLRTLQTPYHE    +S DL +  S +Q  P+   N    RFF LP    +D +G+  GDSP  SPI
Sbjct:    1 MIKRVLEAFRRPISVTLRTRLRGEVYSREGQLERVFYSLNEFIVNRGISGVLSTLEVFVDGELVTTAQGDGLIVASPSGSTAYNISAGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPDTARADGWMSHDATEAVVMKKGTFVKLSTASIPLPTVNQRELDGDWFQSIRDKLNWNLRTLQTPYHEH---QSSDLVEDQSTHQFSPSAAANPSPTRFFTLPTSRAKDKSGSSKGDSPPSSPI 247
[Close]
BLAST of mRNA_P-littoralis_Contig13.165.1 vs. uniprot
Match: I0YL16_COCSC (ATP-NAD kinase n=2 Tax=Coccomyxa TaxID=41891 RepID=I0YL16_COCSC)

HSP 1 Score: 236 bits (601), Expect = 1.180e-65
Identity = 132/318 (41.51%), Postives = 190/318 (59.75%), Query Frame = 2 
Query:  863 RNARLFWD-GPPRRVAVIKKWKDPDVAAKAGEEQKLVKWLQSQDLAVLVDPSEDHELGPDGKELGPRFMPEVGRFDPGSLSTQTDFIVCLGGDGTVLKAAQYFDDSTPIPPTLAFGLGSLGFLAPFSPSQCQSMITRVLEAYRRPISVTLRTRLRGEVYSRKGQLERVFYSLNEFIVNRGISGVLSTLEVFVDGQLVTTAQGDGLIVASPSGSTAYNISAGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPDTARADGWMSHDATEAVTMKKGTYVKLSTAAIPLPTVNQHELDGDWFQSIRDKLNWNL 1813
            R A + WD G P+ V ++KK    + +AK  E   +  WL S+ L VLV+           + +  +  PE G F+P     + DF V LGGDGTVL  A  F +  P+PP  +F +G+LGFL PF  +  Q  + RVL A   P+  TLRTR R E++ R G++  V + LNE +++RG S  +  LE++VDG  +TT + DGLI+A+PSGSTAY++S+GG MV+P VP  L+TPIAPHSLSFRP++   +S+I + +P T+R+    S D      M  G+ ++ +T+   LP +N   LD DW+  I  KL WN+
Sbjct:   14 RRAFIVWDDGGPKSVFIVKKPHSLEASAKMKE---IGDWLTSKGLNVLVE-----------RSVHMKEFPEFGCFEP--RHNEVDFCVTLGGDGTVLHIASLFTEDEPLPPIASFAMGTLGFLTPFDAADFQECLQRVLTATELPVFCTLRTRKRCELF-RDGEVHAVHHVLNECLIDRGSSPSMVRLELYVDGHHITTVRADGLIIATPSGSTAYSLSSGGPMVAPSVPCALLTPIAPHSLSFRPLVVPEASDIEIHLPATSRSHARASFDGRNTQRMMAGSSMRCTTSLCALPVINLAPLDNDWYDGIVQKLKWNV 314
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BLAST of mRNA_P-littoralis_Contig13.165.1 vs. uniprot
Match: A0A7J7QA65_9CHLO (ATP-NAD kinase-like domain-containing protein n=1 Tax=Scenedesmus sp. NREL 46B-D3 TaxID=2650976 RepID=A0A7J7QA65_9CHLO)

HSP 1 Score: 243 bits (621), Expect = 3.710e-65
Identity = 136/327 (41.59%), Postives = 195/327 (59.63%), Query Frame = 2 
Query:  836 TGSNIVRSGRNARLFWD-GPPRRVAVIKKWKDPDVAAKAGEEQKLVKWLQSQD-LAVLVDPSEDHELGPDGKELGPRFMPEVGRFDPGSLSTQTDFIVCLGGDGTVLKAAQYFDDSTPIPPTLAFGLGSLGFLAPFSPSQCQSMITRVLEAYRRPISVTLRTRLRGEVYSRKGQLERVFYSLNEFIVNRGISGVLSTLEVFVDGQLVTTAQGDGLIVASPSGSTAYNISAGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPDTARADGWMSHDATEAVTMKKGTYVKLSTAAIPLPTVNQHELDGDWFQSIRDKLNWN 1810
            T S  +R  R A + W+ G P+RV ++KK     V A A + +++  WLQ Q  L V V+           + +  +  P+   FD  + ST  DF + LGGDGTVL  A  F    P+PP + F +G+LGFL PF  +Q ++ + RVL A R P+  TLRTR R  V +  G L RV + LNE +++RG       LEV++DG  VT A+ DGLI+A+PSGSTAY++SAGG MV+P VP TL+TP++PHSLSFRP++   ++++ +R+P  AR+    S D    + +++G  V   T+  PLP +N   LD DW++ I  KL WN
Sbjct:  247 TDSAALRLRRRAMVVWEQGGPKRVLIVKK----PVPAAAAQLEEMADWLQEQQGLQVFVE-----------RAVHQQEFPQFPPFD--AASTDIDFAITLGGDGTVLYLASLFTGDVPLPPVMCFAMGTLGFLTPFDAAQYRACLQRVLAANREPLYCTLRTRKRCAVLNSAGDLLRVHHILNECVIDRGAFPSSVFLEVYIDGGFVTAAEADGLIIATPSGSTAYSMSAGGSMVAPSVPCTLLTPLSPHSLSFRPLIIPENADLLIRLPPNARSHARASFDGKHPMRIQRGGSVHFQTSLCPLPLINIGSLDRDWYEGITHKLKWN 556
[Close]
BLAST of mRNA_P-littoralis_Contig13.165.1 vs. uniprot
Match: A0A5J4XIL8_9CHLO (Poly(P) ATP NAD n=1 Tax=Trebouxia sp. A1-2 TaxID=2608996 RepID=A0A5J4XIL8_9CHLO)

HSP 1 Score: 238 bits (608), Expect = 6.900e-65
Identity = 136/323 (42.11%), Postives = 191/323 (59.13%), Query Frame = 2 
Query:  863 RNARLFWDGP-PRRVAVIKKWKDPDVAAKAGEEQKLVKWLQSQDLAVLVDPSEDHELGPDGKELGPRFMPEVGRFDPGSLSTQTDFIVCLGGDGTVLKAAQYFDDSTPIPPTLAFGLGSLGFLAPFSPSQCQSMITRVLEAYRRPISVTLRTRLRGEVYSRKGQLERVFYSLNEFIVNRGISGVLSTLEVFVDGQLVTTAQGDGLIVASPSGSTAYNISAGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPDTARADGWMSHDATEAVTMKKGTYVKLSTAAIPLPTVNQHELDGDWFQSIRDKLNWNLRTLQT 1828
            R A + W+   P+ V ++KK       AK  E   +  W Q + + VLV+           K +     PE   FD  +     DF + LGGDGTVL     F + TP+PP ++F +G+LGFL PF     +  + RVL A + P+  TLRTR R EVY  +GQL+RV + LNE +++RG S  + TLE +VDG  +TT Q DGLI+A+PSGSTAY++SAGG MV+P VP TL+TPIAPHSLSFRP++   SSEI + +P +AR+    S D    + M + + ++ +T+   LP +N   LD DW++ I  KL WN+   +T
Sbjct:   99 RRAHIMWENDGPQTVFIVKKTGSAKTTAKLKE---IATW-QKKGIRVLVE-----------KPVHRTEFPEYDAFD--AEDDDVDFCISLGGDGTVLHLTSLFVEDTPLPPVISFSMGTLGFLTPFDAGDFKPCLGRVLAANQDPVFCTLRTRKRCEVYW-EGQLQRVHHVLNECLIDRGASPNMVTLEAYVDGHHITTVQADGLIIATPSGSTAYSLSAGGPMVAPSVPGTLLTPIAPHSLSFRPLVVPESSEIEIHLPPSARSHARASFDGRHTLRMLRDSSIRCTTSLCALPMINMGYLDRDWYEGIVQKLKWNVPIRET 403
[Close]
BLAST of mRNA_P-littoralis_Contig13.165.1 vs. uniprot
Match: A0A5B8MVF2_9CHLO (ATP-NAD kinase n=1 Tax=Chloropicon primus TaxID=1764295 RepID=A0A5B8MVF2_9CHLO)

HSP 1 Score: 235 bits (600), Expect = 8.850e-65
Identity = 135/337 (40.06%), Postives = 198/337 (58.75%), Query Frame = 2 
Query:  863 RNARLFWDGPPRRVAVIKKWKDPDVAAKAGEEQKLVKWLQSQDLAVLVDPSEDHELGPDGKELGPRFMPEVGRFDPGSLSTQTDFIVCLGGDGTVLKAA------QYF----DDSTPIPPTLAFGLGSLGFLAPFSPSQCQSMITRVLEAYR-RPISVTLRTRLRGEVYSRKGQLERVFYSLNEFIVNRGISGVLSTLEVFVDGQLVTTAQGDGLIVASPSGSTAYNISAGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPDTARADGWMSHDATEAVTMKKGTYVKLSTAAIPLPTVNQHELDGDWFQSIRDKLNWNLRTLQTPYHE 1840
            R A   W+ PPR+V  +KK  D +V+AK+ E   +  WL  + L V ++P           +    F  E  ++ P   S   DF V  GGDGT+L  A      +Y+    +D  P+PP ++FG+GSLGF+  F   + + ++ +V+EA   + +  TLRTRL   V +R+G ++ ++  LNE ++++G S  L  +++ VDGQ VTT QGDGLI+++PSGST YN++ GG MV+P VP  L+TPIAP +LSFRP++   SS+I V IP TAR DG    D  +   +K G  V + T+  PLP ++    D DWF SI +KL+WN+R  Q P  E
Sbjct:   76 RRAAFRWEKPPRKVLFVKKIGDAEVSAKSRE---MASWLLDKGLDVYIEPE---------AKATQEFPSECKQWRPQDTSVDIDFGVVAGGDGTLLHFADLLGENEYYRSSGNDLRPLPPCVSFGMGSLGFMTNFKAERYKEILGQVVEACEGKEVYTTLRTRLSCMVKTREGTVKPIYSCLNECVIDKGQSPGLGKMDLLVDGQPVTTVQGDGLIISTPSGSTGYNLAVGGAMVAPSVPCMLLTPIAPSTLSFRPVIIPESSKIEVSIPSTARTDGRAIFDGHKMEVLKHGESVIVETSKFPLPVIHAAPHDHDWFDSIIEKLHWNVRIQQKPLPE 400
[Close]
BLAST of mRNA_P-littoralis_Contig13.165.1 vs. uniprot
Match: A0A250WRL8_9CHLO (Uncharacterized protein n=1 Tax=Chlamydomonas eustigma TaxID=1157962 RepID=A0A250WRL8_9CHLO)

HSP 1 Score: 233 bits (593), Expect = 1.150e-63
Identity = 131/324 (40.43%), Postives = 194/324 (59.88%), Query Frame = 2 
Query:  863 RNARLFWD-GPPRRVAVIKKWKDPDVAAKAGEEQKLVKWLQSQDLAVLVDPSEDHELGPDGKELGPRFMPEVGRFDPGSLSTQTDFIVCLGGDGTVLKAAQYFDDSTPIPPTLAFGLGSLGFLAPFSPSQCQSMITRVLEAYRRPISVTLRTRLRGEVYSRKGQLERVFYSLNEFIVNRGISGVLSTLEVFVDGQLVTTAQGDGLIVASPSGSTAYNISAGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPDTARADGWMSHDATEAVTMKKGTYVKLSTAAIPLPTVNQHELDGDWFQSIRDKLNWNLRTLQTP 1831
            R A L W+ G P  + ++KK   P  +A + + Q + +WLQ++ +  LV+P            +     P+       ++S+  D  + LGGDGTVL  A  FD   P+PP ++F +G+LGFL PF   + + ++ RVL A + P+  TLRTRLR E+ + KG+++ V   LNE +V+RG     + L+VFVD   +TT + DGLI+A+PSGSTAY++SAGG +++P VP T++TPIAP SLSFRPI+   SS I+V++PD A+    +S D   A  + KG+ V +     PLP +N   LD DW++ I  KL WNL   + P
Sbjct:   92 RRALLCWEKGSPSNILLVKK---PKNSAASQQMQLISEWLQARGMIPLVEPL-----------VHANEFPQFQALSSDNISS-VDLCITLGGDGTVLHLASLFDIDEPLPPVMSFSMGTLGFLTPFDVKKFEPLLERVLAANQNPLYCTLRTRLRCEIRT-KGKVQAVHSVLNEVVVDRGAYPGPAVLDVFVDKTYLTTVEADGLIIATPSGSTAYSMSAGGSLIAPSVPCTILTPIAPLSLSFRPIVVPESSSISVQLPDDAKCTTRISFDGRSATRLPKGSSVVVEGTRNPLPMINSLPLDSDWYEGITQKLKWNLSLRRVP 399
[Close]
BLAST of mRNA_P-littoralis_Contig13.165.1 vs. uniprot
Match: A0A061RMW6_9CHLO (NAD+ kinase n=2 Tax=Tetraselmis sp. GSL018 TaxID=582737 RepID=A0A061RMW6_9CHLO)

HSP 1 Score: 231 bits (589), Expect = 4.790e-63
Identity = 133/318 (41.82%), Postives = 191/318 (60.06%), Query Frame = 2 
Query:  863 RNARLFWD-GPPRRVAVIKKWKDPDVAAKAGEEQKLVKWLQSQDLAVLVDPSEDHELGPDGKELGPRFMPEVGRFDPGSLSTQTDFIVCLGGDGTVLKAAQYFDDSTPIPPTLAFGLGSLGFLAPFSPSQCQSMITRVLEA-YRRPISVTLRTRLRGEVYSRKGQLERVFYSLNEFIVNRGISGVLSTLEVFVDGQLVTTAQGDGLIVASPSGSTAYNISAGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPDTARADGWMSHDATEAVTMKKGTYVKLSTAAIPLPTVNQHELDGDWFQSIRDKLNWN 1810
            R A L W+   PR + ++KK    D +AK  E   + +WL S+   V+V+ S  H+L     E  P  MP   R + G    Q D  V LGGDGTVL  A  F    P+PP ++F +G+LGFL PF     ++ ++RVL A    P+  TLRTR   +VYS +G+L  V + LNE +++RG    +  LE FVD + VTT Q DGLI+A+PSGSTAY++S GG +V+P VP +L+TP+APHSLSFRP++   SS+I + +P+ +    W S D   ++ +  G+ ++  T+  P+P VN  +LD DW++ I  KL WN
Sbjct:   97 RRAHLIWEPDQPRNILLVKKQGSEDASAKLWE---ISQWLLSKGYNVMVEESV-HQL-----EF-PTLMPYHPRDNGGC--EQVDLCVSLGGDGTVLHMASLFGCDDPLPPAVSFAMGTLGFLTPFDAEDFKATLSRVLAAGVSNPVFCTLRTRKTCKVYSPQGELRSVHHVLNECLIDRGPVPAMIKLEXFVDDEHVTTVQADGLIIATPSGSTAYSLSVGGAVVAPSVPCSLLTPVAPHSLSFRPLVLPESSDIVIHLPEDSSRCAWASFDGRCSMELAPGSSIQCFTSECPMPVVNLGKLDHDWYEGITQKLKWN 402
[Close]
BLAST of mRNA_P-littoralis_Contig13.165.1 vs. uniprot
Match: A8IB90_CHLRE (Predicted protein n=1 Tax=Chlamydomonas reinhardtii TaxID=3055 RepID=A8IB90_CHLRE)

HSP 1 Score: 227 bits (579), Expect = 4.550e-62
Identity = 126/315 (40.00%), Postives = 182/315 (57.78%), Query Frame = 2 
Query:  887 GPPRRVAVIKKWKDPDVAAKAGEEQKLVKWLQSQDLAVLVDPSEDHELGPDGKELGPRFMPEVGRFDPGSLSTQTDFIVCLGGDGTVLKAAQYFDDSTPIPPTLAFGLGSLGFLAPFSPSQCQSMITRVLEAYRRPISVTLRTRLRGEVYSRKGQLERVFYSLNEFIVNRGISGVLSTLEVFVDGQLVTTAQGDGLIVASPSGSTAYNISAGGCMVSPLVPATLITPIAPHSLSFRPILTSASSEITVRIPDTARADGWMSHDATEAVTMKKGTYVKLSTAAIPLPTVNQHELDGDWFQSIRDKLNWNLRTLQTP 1831
            G P +V ++KK K+P  AAK    + +  WL ++ + V V+           + +      E   FDP     + DF + LGGDGTVL  A  F++  P+PP L F +GSLGFL PF  +     + RVL+   +P+  TLRTR R EV   +GQL  V + LNE +++RG       LE+F+DG  VT  + DGLI+++PSGSTAY++SAGG +V+P VP T++TPIAP SLSFRP++   SS I V +P   R+    S D    + +++GT +  +T+  PLP ++   +D DW++ I  KL WN    Q P
Sbjct:   81 GSPSKVLIVKKPKNPAAAAKL---KAIGDWLTARGIQVFVE-----------RVVWATEFKEFSVFDPRYNQEEIDFCITLGGDGTVLYMASLFEEDQPLPPVLCFAMGSLGFLTPFDAAHFAPTLERVLDTASQPLFCTLRTRKRCEVVH-EGQLVEVHHVLNECVLDRGAFPGAVLLEIFIDGSYVTNVEADGLIISTPSGSTAYSMSAGGPVVAPSVPCTVLTPIAPLSLSFRPVVIPESSSICVHLPTCVRSHARASFDGKRTMRVRRGTSIFFTTSLCPLPVISLGRMDTDWYEGITSKLKWNQAIRQLP 380
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig13.165.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FLZ1_ECTSI2.640e-28483.27EF-hand domain-containing protein n=1 Tax=Ectocarp... [more]
A0A835Z9J6_9STRA7.450e-19970.05ATP-NAD kinase-like domain-containing protein n=1 ... [more]
A0A6H5K7L6_9PHAE5.640e-12182.80Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA... [more]
I0YL16_COCSC1.180e-6541.51ATP-NAD kinase n=2 Tax=Coccomyxa TaxID=41891 RepID... [more]
A0A7J7QA65_9CHLO3.710e-6541.59ATP-NAD kinase-like domain-containing protein n=1 ... [more]
A0A5J4XIL8_9CHLO6.900e-6542.11Poly(P) ATP NAD n=1 Tax=Trebouxia sp. A1-2 TaxID=2... [more]
A0A5B8MVF2_9CHLO8.850e-6540.06ATP-NAD kinase n=1 Tax=Chloropicon primus TaxID=17... [more]
A0A250WRL8_9CHLO1.150e-6340.43Uncharacterized protein n=1 Tax=Chlamydomonas eust... [more]
A0A061RMW6_9CHLO4.790e-6341.82NAD+ kinase n=2 Tax=Tetraselmis sp. GSL018 TaxID=5... [more]
A8IB90_CHLRE4.550e-6240.00Predicted protein n=1 Tax=Chlamydomonas reinhardti... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig13contigP-littoralis_Contig13:832078..856527 -
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
Start1
Seed ortholog2880.D7FLZ1
PFAMsNAD_kinase
Model size3622
Max annot lvl2759|Eukaryota
KEGG rclassRC00002,RC00078
KEGG koko:K00858
KEGG ReactionR00104
KEGG Pathwayko00760,ko01100,map00760,map01100
Hectar predicted targeting categorymitochondrion
Exons11
Evalue2.4e-293
EggNOG OGsCOG0061@1|root,KOG2178@2759|Eukaryota
Ec32 ortholog descriptionATP-NAD kinase, PpnK-type, all-beta
Ec32 orthologEc-22_000250.1
EC2.7.1.23
DescriptionNADP biosynthetic process
Cds size1944
COG categoryG
BRITEko00000,ko00001,ko01000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig13.165.1prot_P-littoralis_Contig13.165.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig13 833698..856469 -


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

Feature NameUnique NameSpeciesTypePosition
1680789585.358523-UTR-P-littoralis_Contig13:832077..8336971680789585.358523-UTR-P-littoralis_Contig13:832077..833697Pylaiella littoralis U1_48UTRP-littoralis_Contig13 832078..833697 -
1680789585.4898968-UTR-P-littoralis_Contig13:856469..8565271680789585.4898968-UTR-P-littoralis_Contig13:856469..856527Pylaiella littoralis U1_48UTRP-littoralis_Contig13 856470..856527 -


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

Feature NameUnique NameSpeciesTypePosition
1680789585.3689775-CDS-P-littoralis_Contig13:833697..8339521680789585.3689775-CDS-P-littoralis_Contig13:833697..833952Pylaiella littoralis U1_48CDSP-littoralis_Contig13 833698..833952 -
1680789585.3810043-CDS-P-littoralis_Contig13:834846..8349661680789585.3810043-CDS-P-littoralis_Contig13:834846..834966Pylaiella littoralis U1_48CDSP-littoralis_Contig13 834847..834966 -
1680789585.3912597-CDS-P-littoralis_Contig13:835286..8354871680789585.3912597-CDS-P-littoralis_Contig13:835286..835487Pylaiella littoralis U1_48CDSP-littoralis_Contig13 835287..835487 -
1680789585.4016287-CDS-P-littoralis_Contig13:836132..8362891680789585.4016287-CDS-P-littoralis_Contig13:836132..836289Pylaiella littoralis U1_48CDSP-littoralis_Contig13 836133..836289 -
1680789585.4129412-CDS-P-littoralis_Contig13:837090..8372201680789585.4129412-CDS-P-littoralis_Contig13:837090..837220Pylaiella littoralis U1_48CDSP-littoralis_Contig13 837091..837220 -
1680789585.4256349-CDS-P-littoralis_Contig13:837940..8381201680789585.4256349-CDS-P-littoralis_Contig13:837940..838120Pylaiella littoralis U1_48CDSP-littoralis_Contig13 837941..838120 -
1680789585.4356484-CDS-P-littoralis_Contig13:838789..8388931680789585.4356484-CDS-P-littoralis_Contig13:838789..838893Pylaiella littoralis U1_48CDSP-littoralis_Contig13 838790..838893 -
1680789585.4465759-CDS-P-littoralis_Contig13:840536..8406501680789585.4465759-CDS-P-littoralis_Contig13:840536..840650Pylaiella littoralis U1_48CDSP-littoralis_Contig13 840537..840650 -
1680789585.454976-CDS-P-littoralis_Contig13:840957..8411021680789585.454976-CDS-P-littoralis_Contig13:840957..841102Pylaiella littoralis U1_48CDSP-littoralis_Contig13 840958..841102 -
1680789585.4662433-CDS-P-littoralis_Contig13:848296..8487451680789585.4662433-CDS-P-littoralis_Contig13:848296..848745Pylaiella littoralis U1_48CDSP-littoralis_Contig13 848297..848745 -
1680789585.4803843-CDS-P-littoralis_Contig13:856380..8564691680789585.4803843-CDS-P-littoralis_Contig13:856380..856469Pylaiella littoralis U1_48CDSP-littoralis_Contig13 856381..856469 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig13.165.1

>prot_P-littoralis_Contig13.165.1 ID=prot_P-littoralis_Contig13.165.1|Name=mRNA_P-littoralis_Contig13.165.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=648bp
MRPLLRRARDSWTLSGAGRWLRPPQVVVLRQNYHPPGYDSKGKQNSPDDG
APTSLPTAKPPPPPPPPPPPPLGSVGQQQPAEGREGADQNPTDTAAANTG
GGGSGIIEGARGGGGVRRDGEDGDGLDTPVVYGALGQVEEQPVFDLPKEW
KELVSTLCLRTTFEPAELADLFQRFRQLAAGTKEYLTAREFRRTVRRNFG
IMNEEWVKKYFKAFDRDHRQATIYYVQPGTIDFQEYVMGFAGMARVLTDK
KAHSLIGLSTGSNIVRSGRNARLFWDGPPRRVAVIKKWKDPDVAAKAGEE
QKLVKWLQSQDLAVLVDPSEDHELGPDGKELGPRFMPEVGRFDPGSLSTQ
TDFIVCLGGDGTVLKAAQYFDDSTPIPPTLAFGLGSLGFLAPFSPSQCQS
MITRVLEAYRRPISVTLRTRLRGEVYSRKGQLERVFYSLNEFIVNRGISG
VLSTLEVFVDGQLVTTAQGDGLIVASPSGSTAYNISAGGCMVSPLVPATL
ITPIAPHSLSFRPILTSASSEITVRIPDTARADGWMSHDATEAVTMKKGT
YVKLSTAAIPLPTVNQHELDGDWFQSIRDKLNWNLRTLQTPYHEDVGDRS
LDLNDKLSENQSPPTTNHFQPRFFALPKPPQDPNGTPNGDSPRGSPI*
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mRNA from alignment at P-littoralis_Contig13:832078..856527-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig13.165.1 ID=mRNA_P-littoralis_Contig13.165.1|Name=mRNA_P-littoralis_Contig13.165.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=24450bp|location=Sequence derived from alignment at P-littoralis_Contig13:832078..856527- (Pylaiella littoralis U1_48)
TTGTGCTCGACACGTATACTACACCGGTCGCAGGTGCTCGGGGGAGAAAC
CGGAGGCGATGAGGCCGCTCTTGAGACGTGCTCGGGATTCCTGGACGTTG
AGCGGGGCAGGACGATGGCTGAGACCTCCGCAGGTAGTCGTGTTGAGGTG
AGTGGATCGATGTGTATGCATTATTTACCGTATATTTTGTAGCAAACTGA
TCCAGCAGCAGCAGCAGCAGCAGCAGAACAGGTTCCAGTGCAGCAGGTGA
TCTCGTTGGCGTCCTTCCGGTATGACCTGTCGCACACCCCCCCTGCCGCC
CCCCTCCTGCGAGTACTTAGATATCAGTTTGGAGACACAGCACGGTGGTC
TGTATATACGAGATTGGACACTCCACTGGCTGTTATTGGAAAACGACAGG
TGGAGTGCAGCAGCAGCAGTAACATTCAATATTCAACAGCAGCTGTTGTT
GTCGTCCCAGCAGCACCGGCTGCCAGCAGCACCGGCTGCAACCTCCTGCT
GCTCTGCTCCTGCGGAGCGGATGGATTTATGTCTGCAGACCTAGATGCCC
ACAACGATACCGTGATCGGTACGGGATACGGGACATGGGGCATGGGACAT
TCTGCTGTTGGTTGAGCACGGACGCCGCACCTGTGAGCATCTCGTATCCC
GTCAGCCAAAGCACACCACCACCCAAACTTGAATTTAAAATTTAACAGCA
GCACCAGCACCAGCAGCACCAGCAGTACGAGTACTGCTGTACCGGTCGGT
AGTCACACCGCTCCGTTCTAACGGTGCGACCTCTCCTTCTATTTTTTAAC
ACAGCACGACACTCGTACCATGTAACTGCCGTTGGTGGAAACACAGCAGT
TTGTCGTTTGATCGAGATCCAGCAGTAGATTTATACTTTTAACACATTGA
TGTATTGGGAAGTTAAAAAACAAAAATGTATAAAACTCGATTTATAGGTC
GGAAGAACATACCTCAACCATTGTCGCTACTACTGTACGTCACTTTTTCG
CGAGTGTAGCAGGCTTTGTGCCCTGGGATATAAATTTCACCCTACATGAA
AAATGCGAATTACCGCATCTTCCGCATGAACATAATGGAAGACCGATGCT
TAAACCAATACACAAGAGAATTATCGATCAAACCTCTCCATGTCCCTGCC
CACACTGAAGCCAATACAGTCCAAATCACTCGATGAAAGCATCGGGGCGC
CCGATCGCTGTGTGGCACACGGTAAGGTACCCACAGACACACCAGAACAC
CACACAACCACAGGACATGGGTTACTCTACGTTGGAAATCCAAAATGCAC
ACATAAAAGCTCTAGATAAAAACTGCGATTGGAACTTGGAACTTGGAACT
GGGAATTCCTCAGGATTCCACGTTCCAAGTTCCAGTCGTTCTGTCTCGGA
TAAAAAAAGGGTAAAAAAATGTGCACTGGAACATGGAAACATGGAACCTG
AATTTGGCGACAAGCCCAAGCGACCCTGCTGCTGTCGTGCGTGGCCTTTG
AGTTTTTGGCAGTTGTTATTTTTCCTTTCAACACCGCACGCACGTACCGA
CGCACATGCATCGCCATATATCGCACAGCAGTAAAGGTAGAGCACGCAAA
CACACACGCAAACGGCACACACATCAGAGCACCCCATTGCAATAGCTTTT
GTTTTTGACCGGCCAAAGTAGCAGGCTTGAGGGCTGTCTTGAACAAGAGT
CGGATGAACAAAATGGAGGGACGTAATCTATATTTGTTGTGTTCTGCTGT
TGGTCGTTGTTACAGAGAGAAAGAAAAAGAAAGCGCTTTCTGGTATCAGA
ACCTTATTTTCCCCAGTTCCTAGTTCCATGTGGGCTAGTGGGCAATTTTA
AGGAACGAGATGATTAAAATTATTTCAGGGCTTGGAACTGGAAAAAGGGA
ACTCCGACGGCGGCAGGACTTTCCAGGAAATTTTATAATTATTGTTGGCC
AATGAGAGAGGAATTCGCAGTTCCAAGTTCCTAGTTCCAGTCGCATTTTT
TCATCTAATACAGGCCCTAATACCCGCCCTCAACCAAACAAGGCAAGCAC
CGCAGAGGGAAGTGGAAAAGAAAAAAAAAAAACTCATGTGTTGATTTCCC
CCTGTGTGACCCCAGTTGGAGCGTCGACCTACCCGAAAGTGGTAAGAGTG
GCGTCCAATTAAAGGGACGACAACACACACACACTCCCTGTATCTTCTTC
TTTTTTATTTTGTTTTTGTCTTCCGTCTATTGATCATATAGTTACTGGAC
CATCGCCCTGGTTTGCCTTTGCCTTGGTCTGTCATGGCCCTGGGCCCTGG
TTCGATGTACGAAGTAGTTATTGTTGTTGGTTCTCACATTGGCTCACTAC
CGCCGCAGTCTAGCCCGTGGTCACAAGCCAGGCACATATCGTGCTAGGAG
GGGAAAAAAAAAAAAGTAGTAGTATATGGTTATGGTTGAGGTTTGTCTTG
GTTATTTTTTGTCGTACTGTTTCCAATTTTTGTTTTTTCTTTCGAACCTG
TTATTTTTTTTCTGTATTTTGTGTGGTACTTTGGCCACCACAGATGGTAC
CCCAACGGTACCATATCTGATTTGACTGCTGTGGGTGATCATAGTCCATT
TATTTTATTATATTTTTTTCCTCCTAGCACGAAATGTGCCTGATTTGTGA
CCACGGGCTAGACTGCGGCGGTAGTGAGCTAATGTGAGAATCAACAACAA
CAACACACACACAAGTCACAATGTCTATGGTTGCACTCCGACTTGACGCT
GCAGACAGACGCTGTTGATGCAGAAGGAGCGGCAATCCCGCAGACTTTGA
TAGCCCCGTTTCTATCTGTTCAGGAGTGAGTGAGCTTTACATCAGTAGCA
GCAGCAGCAACACAACAGCAACGCCATCATCGTGCTCTGCATCATCTGTA
CCCCATCATCTGTGCCCTGCTCACCGGCTCTCGCAGGAGCTCATGTGTCC
ACTGCTCTACCGGTCTCCGCTCGGCCCCCGTTTGCGTGGCTTGTGTCTTG
TCTATCCTTGTGTGTGTTGCTGTTGTTGTTCATCTGCTGTTGTTGTTGAT
TCTCACATTAGGTCGTGTGTTCGTGTTTGTGTGTGTGTGTTTGTGTGGCA
CGTGTTTTGTGCTGCTGTGCGTGTGTTGTGGTGTGGTGTGGTGTGTGTGA
ATAGACCCGAACAAAAAGCGATGTATATTTTCAGTTGGGGCTTTCGAGCC
CCAACTCGCTTTTGCTGGTCGCTACACCGCTTTGGAATGTAGCCCCGCTT
GATTAGCGCTCACATACAAAACTCGTTACGCCGATTTTTTTGGTCGTAAG
GGCGGAAACATCGCTCTTCCTGAGTTTTATACTCGGAGTATATGTCTAGT
AGTACATGAGGGCCCGGATTAGCGGTCGAGCAGAAAAACGAAATTCAGTA
GCGAAAACGAAAACGAAATTAGGCTCTGATTGGTCGGAACAAAATAATGA
AAGAGGCGTGTTTTCGTTTCAACGCCCTCCGGAGAGGCGTTCCTTCGTTT
TCGATTTCGCAAAAATAAAGTACTTTGGACCTTTATTTTTGTGAATCGAA
AACGAAATTCGACATGGAAGGCTTGTTGGCGGGGATGCTTCAGCCCTGCG
AGGCACACCCGGTTGACCTTTGCCCAGCAGACAAGCTCATATGCTGACTG
ATATCTCGCCACACAAGGGACGACATTCCCTACCAACTGGATGTCTAGAG
AGATGAGCTTACGTAGCGTCAACTAGAAATGCCCAAGGTTTGAGCAGTGG
GGTGTCAACCAGGACGGGAAAAAAGTTTTCAATCTACCCACGATGACCCG
CTCGTGCTCTGAGCCGATTTTGGGGTAAGTTTTGGAAGCAGCCAAGTTCA
CGTTTTCACTGATAACTCAGCGAAATATGGACGAGATTCCCTACCATCTG
CGTCTCCAGAGAGGTTGATCTACTGTCCATCGGGACAGTCCAAAGTTTGG
GGCAGCGGGGTCTCAAGCGTGACGGGAAGCAAGCCACCAGTCAATGCAAA
AGTTCAAACAACAAGCAGTCGATTTTGCCTCCTTCGTAAGAGAGAGGGCT
GCTTCCCGAGACTTGTTGTTCGTCGTGTTTGACGTGGCGGTGCTTCGAGC
CTCAGCTTTTTCCGATACAGGGTAGACATATCTCTGTATCGGTGCGGTTG
ATGAGGGATTTCGTCAGGATTTGGGCAAGATACCAGTGAAAACGTCAACA
CTGCCGCAGCTCGAAGAGTCAACGCAAATGGCGTTGCTCTCGTTCATCCC
CTCCTCTCCAGGACCCTGGTTACAGGTCCGTTGTCACAACCCGAACAAAA
AAACAAAAAAAGAGCCCTGTTTGTTGGTACGCAACAGTTCGTTTTCCTGG
TTTGTTGTTTTCGTTCTGCAGACCCCTGCTTTTCGTTTTTTTTTGTCCGC
CGTCAACCCCCGCTCTGATAGAGCGGCTGTGGATCGTATGAATACCCTCT
CTTGCCGGTGGTGCGTATCCATCGCCTTTGCCTCAGAAGGCGTTTTTTTA
GTGAGACGTTGGAGTGTCAGTATTGCGTGGGTCCCCCTTCCGTCGTGCGG
ACAAGCCACTGCTGTATCATTATTTTATACGAGACTTATGTCAGACTGCT
GTACAGTAGGAGGTTTGATAAACGAAGTCCATTATTGCTTTGCTTTTTTT
TTGTTTTTTCTAACCAGGTTCAACTTCAGTACATCTGCAGGTACGGCAGT
TCTGCTGTAACTCAGCAGGTCGCACAAATAAGCAGTGCAGCAGTAGACCT
GTATTAAACGTGAAACTCGGCAATTTATGTGAATCGGCCCTACAGCAGGA
CCGACCAAAAACGCCGTGAACCGAGTTTTATGTCGGGGGGATAATCCATC
AGAAAATCAATGTACCTTGCGTAAGGATCCAGGGACAATAGATTGTTGAG
AGGCACAGATTTTGTAACAGCGAAGGGGCCCTGACAATCACACACTGGGT
ACCTCACACCGGTAGGAAGGCGTCGGGAAAGAGGAAAACTGTTGGTGAGA
CCGTTTCTTTCGGCTCTGTTATTTGGTCCTGTGCTTTTTCTCCTGAGGTA
CCCCCCCCAATAACAGAGAGCCCAAACGGTTGAAAAATCTACTTCTCGAG
CACAACAGGAGACAGCACCAAGCAGAACTCGACCCCGAGGACACCAATCG
AAACTAGTACTGTTGGAGGCTACGCTCCAGTGTTCACATGTTGGCCACAG
GAAATTTGGTGGGTGTGAGTTTTGGCTGTGGCGAGGTTTCGGCGGCGGAG
CGAGTTGAGGTAGGAAATCCGGTGGAAAAAAAACGCTGTCCGAGCCTGTT
TTTTGGCAGGAAAAACAGGAGCAAAGTCTGTCATTTCGTTTCATCTGTTT
TTCCAACTCCAACACACACCGCCGCCGAAATCTCGCCACAGCCCGAACCC
ACTGCCACCAAACATCCTGTGGCCAACTTGAGAAGATGGGAGCACACGAT
CCATCAGGTTTGATCGGCATCTGTGTCCCAGGAGTCGAGTTATGGCTGGT
GCTGTCGCATTATGTGTCCGACAGGGCTGTTTGCGGGTGGGGGGGGGTAG
GGGGGTTCTCTGGTTGGATTCTTGTAGGGGGGTCAAAACGCCAGACCAAA
ATAACGTTGGCCTTAAGAAACAGCCTTATCGCACACAGCGGCGGGGCTTT
CTGTACACGCATATCACATGTCGACCTCCAATCTCCAACATAAATATCAA
GATAAATTTTTCAAACACTCTAAAATCAAGTCAAAACTGCTTATTTTGAT
AAGGCTCAGACAAGGACTGTTGTCCGTGCGTGCGCGATCGCCTAGTTCCG
GTCAGGAATGTCATGTAGCCTCGTTTGCGTCGGCGCGTTCAGATCTACTG
CTGGGGCCTAGATATCGAAGGTCGCAGCAGTGGCTCAAAAAGTCCGCAAA
CTGGACAGATTCCAAACAACATCTTCTACTCTGTCTGCTGTGCACGCCAG
ATACCCCAACCTCCTGAACTACGGGTCGACAGCAGTAGCTTATGCCACTG
GCTACCTCGGACAAACCGCAGTTCAGAAGATTGGTGTCAATGGCGCCGAG
TACAGTTGCGTCGAACGTTTAGTGCAGTCCGGATTGCGAAGTTTTTCAGG
GATCCTGCGGAGTTTTTGAGCCACTGCTGCGACCTTCGATATGGAAGCTC
CAGCGGCAGATATGAACGCGCAGACGCACGCATGGCTACTTCATGACGTT
CTTCCTGATCGGAACTAGGCGATCGCGCACGCACGGACGAGAGCCCTCAT
TTGAACCATGTCAAAATAAGCTCTTTTGACTTGGGTAAAGACTGAAAATG
ACCTTTCAGATCAAAAATGAGTTGTTCCCTGAGTTATTTTTCACCGCCCA
AACAACTTGTAACCAACTTTGGTGGTCCGGTCTATTCGGAGAAGAACCTT
CTCGCTCTCTCTATATCTCTCACTCTCTCTCTATCTCTCTCTCTCTCTGT
CTTTCTCTCCCCGCGAGCGCCACCACGAGCGCTCGTGCCAGCACGATATC
ACACACCACACATCAAACACCGCCCACTTTATACCGTACACCCAACACCC
GGACACACGCGCCCTAGTGGGCAGGCACCATCAAGCTTGGCGAGAGCGGT
GCGCAAGGCACAGATAAATGTAAAGGGCGCACATGCGTCATGACGACCAG
ACCGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGTAACGGGGGC
GGGCCCAGAAAGCGTATTTTGCTCGCTTGTCGCTGCTCTTATGCTTGTGT
TTTCATGTGTATGAGAGGTTCGGCGGGATCTTTGTTCGCCGTTCTTTCTC
TTGTGCTGCATCGCAGCTATGGGGCGAGCTCGTGCTCATCCTCGCCCATG
ACGTTATGGCGTGTGTGCTGGGATGTCGACGCTTCTCCTCTTGTCTTGGT
CGGCGGTGTTCTGATGTTCTATTATTGTTGATTCTCATAAACCAGGCACA
TGGAAAATCACACACCACGTACCATACCGCCGTGGTCACCAAAGAGAAAA
ACAGACACTTTCATATTATCGGGTGCCTATGTATTAATTGAGTGATTTTG
ACTGTTTTGAGTTCAGTATCGGGCAGGGACATGAAGGGGCTCAACAGATG
AAGACCCATCTACTACGTCGGTTTTAGAGTGCGTCTTTCAATGCCCCCTC
CGTGCTAAAGTAGCGAATATTCGCATTTTTCGTAGAGTATGAGTTTTATA
TCGGATGCCGAAATCGCCGAAAAGTTGACGGAGCAACAATGGTTGGAATA
TTTCTCCTCCCCATTGATTGAGCTATGCTAGTGCCTAGTACTTTCGTATG
ATGTTTTCAGATATTTCGTCGTTGTTGCGACGAGAATCCAGACAAAAAAA
AATTCAGCCAGCAGTATGTGATCCTCCGTTGAACTGAGGAGAAGGCGTCG
TCTACCTGGGACACGGCAAGTTTTGTGTCTCGACATTGCATGAAAACCTC
ATAATAAAATGCATCGGTGCCAGGCACAGCAGAAGTCGTTGTGGCATTTT
CCCTGTAAAAAACATAAACAATTCATGAACGCCGCAGCAGCAGCAGTACA
GCAGTACCACAACCTCAAACCGGGGGGGGACCAAGGGGGTGCCGTGGCGT
GGCGAAAAACGGGCGCGCGAGCGGCTTTTTCTTCCCCCCCCTAATCTGTC
TCTAGAAGGATGTGCGTGGGCAATGGTCCAATTTCTACTTCGTGATTACG
AAGGCAAGCAACCTTTGCGTACGCCGACCCCCCTCTCCCCCCCCCCCCCC
CCCCACCCCAACCCGCGTTCACCCTCACGCAGACAAAACTACCACCCACC
AGGCTACGACAGCAAAGGGAAGCAAAACTCGCCTGACGATGGGGCTCCGA
CATCCCTCCCGACAGCGAAACCCCCGCCGCCGCCGCCGCCGCCGCCACCA
CCGCCACTGGGCTCGGTGGGGCAGCAGCAACCAGCAGAGGGGAGGGAGGG
GGCGGACCAAAATCCCACAGACACAGCAGCAGCAAACACGGGGGGGGGGG
GTAGCGGGATAATTGAAGGGGCGCGGGGAGGGGGGGGGGTCCGGCGGGAT
GGCGAGGATGGCGACGGTTTAGACACGCCCGTTGTTTACGGCGCTCTGGG
GCAGGTGGAGGAGCAGCCGGTGTTCGACCTTCCGAAAGAGTGGAAGGAGC
TGGTGTCGACTCTGTGTCTCAGGACAACCTTCGAGCCGGCGGAGCTTGCG
GACTTGTTCCAGAGGTTTAGGCAGCTGGCGGGTAAGTGAGAGAGGGAGAG
GGAGAGAGGGAGAGAGGGCGAGAGGGAGAGGGGGAGAGAGAGATTAGCGC
CCGTAACAGCAGTGCGTGAGATCAGCAGTCAAGTCCACCCGCCGCAATAT
GTTTCTTTATGACGCATATATGATACAGTGGGGGTCCCGATATAGCGGCA
CCTAGTGCCAACGGGAAATTTTGCCGCTATTCAGAGGAGGCCGCTACTCC
CAGATAACGGCACTATGCCGCCATATCGGGTAAACTTGCCTCACACGTGA
AAGCAACAGCATTATTCTCTTCCGACGGTGTCATGCGTGTCCCATAGTGG
ATCGTAGTACACATGATATGTAGTACTGTTGTACTGCTCTGAACAGTGGT
GCAGCAGCACAGCATCCTTGAACGCCGAGTGCATCTGGACACGACGCATG
CATGTGGGCAAATAGCAGAGTATAAAGCAGTACTGCTGCACTGCGGTGGT
CTTTCAGTGTACGTTCTCATTTTATTGTTTTCTTCCGGCGGATACAATTT
AAAATCCTTTCTGAAACGATGGGAGCTATCGGTTTAACGTTTGGCATGAG
GCAAGTATCTCCATCCGCGCACGGTATGATGCGTGAGCAGTAGTGGCGGC
AACTGGTGTGTGTTGCGGGCTGTTTGTGCGCGTGCACAGCAGGCAGGGGG
ATCCCGCAAGTGCATAGCGTCCGATATAGCTAGGGTTATGCCGCTATATC
GGGGTGCAGTCGTGCCACGAGGTTTTGGTACCGCTATATCGGACATTTCG
CTATTCAAGGCGCCGCTATATCGGGACCCCCGCTGTACTTGTATTTATTT
TTCACTATGGCGGCGGCTATATCGTGCCGTTAGATCATCGTGTTTCGGTT
CGGGGTGGGTGGAGAACCAGGTCCCGCAAGGGGACTGGTCGCTTCGCGTA
TAGTTGTGTGAGTTGTTTGTCCTTTGGGTCAGACACCCATGGGGCAGTTG
CATCTACACCGACCGTGAGATGTGACATCTACATCGTGACTGCTTGTCTC
TGAAAACGGTGGCCGCACACAGAACAGAAAATTGGAACTGGCTCATGAGC
TACGTATTCTTGTCATACGTTGTTGTTGTTGTTGATTCTCACATTACCTC
ACTACCGCCGCAGTCTAGCCCGTGGTCACAAACCAGGCACATATCGTGCT
AGGAGGAAAAAAATAAAATAAAATAAATGAACTATGATCACCCACAGTCA
AATCAGATTTGGTAACGTTGGGGTATCATCTGTGGTGGCCAAAGTACCAA
ACAAAATACAGAAAAAAAATAACAGCTTCGAAAGAAAAAACACAAATTGG
AAACAGTACGACAAACAAAAAATAACCAAGACAAACCTCAACCATAACCA
TATACTTCGAAGTACTTCGTACATCGAACCAGGGCCCAGGGCCATGACAG
ACCAAGGCAAAGACAAACCAGGGCGATGTGTATCCATGTGCGATAAAAAA
GGGCAAGAACGCACAGCGTGCCACCGAAGCCCGCCTCAGATGCGGTCCTT
AGGGGGATGGATGCAGCCCGTCCGCACCTTCGTGTACATCACGGCGCCCC
CTCGCGCTTGGTGCAATCAATGTATGCCTGCCTCGTCGGTGGAAACCCGA
TGGTGCTCTGTCCCGGCCCTGTGTGATTGGAAGGGATGCGTGGTTCATGG
TCAAATGTCCAGGTCAAATGACTATTTGCTAGGCACGCAACGAATGGGTA
CTCCCCCCCCTCTCTTACGGCTTTTCTCTCCCCCCCCCCTTTATTTGTCT
CGAAAGGGACGCATGCGCAGTCAATGGTCACGTGACTACGGTATTGTAAG
GCAATCAGCAAATGAGTACCCCCCCCCCTCCGTATGATTTTTTCTCCCCC
CCCCCCATTTTATCTGTCTCGAAAGGGGTGCACGCGTGGTCAATGGTCGA
ATGACTACTGCAAGGCAAAGCAGCGAAGCAGGCAATTGGGCACACGCAAA
TCTATTGGTCGAACGACGTAGGGCAAGCAATATTTGAGTGCACGCACCTA
CCCTCCCTTTCCGTGCGCCCGCTCCGGTACGAGCAGAATATTTTATTGTC
TTGTGTTGGCATTCGATCTATTCTGGACGTCAGTCTACACATCCTGTGGT
TTACTTCGTATGTTGGTTCATCAGCCGGGGGTCACACGGGAGGGAGGCCA
ACCCACAGGAGTTTTTTTTGCTTTTGTTTTTGTCGTTTTTCTTGCAAACA
GCGGAAAATGAATGGTAATTACCGATGAGAAGAAGAACGAAATATATTTG
TGAGAAAACAATGAACAAACAAGGACCGACATGAAACAGAGCAAACAAAA
CAACCACGAAACACGAAACAAGAAAACGCAATAGCGAAAGAAAGGAAGAA
CGATGGAACAACCAGTAAGCAACGGACAACGACCACAACAGCAATCGTAC
GACGGCGCCAGTAAGCAAACAAAATAAAGTGCTTCGAATTGCAGTTTTCC
TGGGACGGTAGTGGGAAATGGAGAGGAATGAGTGTCACCAGTGCGCTCCA
TGAAAAAATGTTCAAAAAGGGGAAAGGCAAACAAATAATGCGATTTTCGA
ACCGCGAAAAGCGCTAAGCGGTACAATGTTCAAAAGGGGAAAGGCAAACA
AAGAATGCGGTATAATATTCAAAAGGGGAAAGGCAAACAAAGAATGCGAT
TTTCGAACCGCGAAAAGCGCTAAGCGGTACAATGTTCAAAAGGGGAAAGG
CAAACAAAGAATGCGGTATAATATTCAAAAGGCGAAAGGCAAACAAAGAA
TGCGGTATGATGTTCAAATGGGGAAAGGCAAACAAAGAATGCGGTATAAT
GTTCAAGAGGGGAAAGGCAAACAAAGAATGCGGTAAAATGTTCAAGAGGA
GACAGGCAAACAAATAATGCGGTATAATATTCAAGAGGGGAGAGGCAAAC
AAAGAATGCGGGATAATGTTCAAGAGGGGAAAGGCAAACAAAGAATGCGG
TATAATGTCCAAGAGGAGACAGGCAAACAAATAATGCGGTATAATGTTCA
AGAGGGGAAAGGCAAACAAAGAATGCGGTATAATGTTCAAAAGGGGAAAG
GCAAACAAAGAATGCGGTATAATATTCAAAAAGGGGAGAGGCAAACAAAG
AATGCGGTACAATGTTCAAAAGGGGAAAGGCAAACAAAGAATGCGGGATA
ATGTTCAAAAGGGAAGAGGCAAACAAATAATGCGGTATAATATTCAAAAG
GGGAGAGGCAAATAAAGAATGGGGGATAATGTTCAAAAGGGGTAAGGCAA
ACAAACAATGCGGTAGAATGTTCAAAAGGAGAAAGGCAAACAAAGAATGC
GGTACAATGTTCCAAAGGTGAAAGGCAAACAAAGAATGCGGTAGAATATC
CAAAAGGGGAAAGGCAAACAAAGAATGCGGTATAATATTCAAAAGGGTAG
AGGCAAACAAAGAATGCGGTAAAATGTTCCAAAGGGGAAAGGCAAACAAA
GAATGCGGGATAATGTCCAAAAGGGAAGAGGCAAACAAAGAATGCGGTAT
AATGTTCCAAAGGGGAAAGGCAAACAAAGAATGCGGTATAATGTTCAAAA
GGGGAAAGGCAAACAAAGAATGCGGAATAATGTTCGAAAGGGAAGAGGCA
AACAAAGAATGAGGTATAATGTTCAAAAGGGGAAAGGCAAACAAAGAATG
CGGGATAATGTTCAAAAGGGGAAAGGCAAACAAAGAATGCGGGATAATGT
TCAAGAGGGGAGAGGCAAACAAAGAATGCGGTATAATGTTCCAAAGGGGA
CAGGCAAACAAAGAATGCGGTATAATGTTCAAAAGGGGAAAGGCAAACAA
AGAATGCGGTATAATATTCGAAACGGGAGAGGCAAACAAAGAATGAGGTA
GAATTTTCCAAAGGGGAGAGGCAAACAAAGAATGCGGGATAATTTTCAAA
AGGGAAGAGGCAAACAAAGAATGCGGGATAATGTTCAAGAGGGGAGAGGC
AAACAAAGAATGCGGGATAATTTTCCAAAGGGGAAAGGCAAACAAAGAAT
GCGGTACAATGTTCAAAAGGGGTAAGGCAAACAAAGAATGCGGTACAATG
TTCAAGAGAGAAAGGCAAACAACGAATACGGTACAATGTTCAAGAGGGGC
AAGGCAAACAAATAATGCGGTGTAATGTTCAAGAGGGGAGAGGCAAACAA
ATAATGCGGGATAATGTTCAAAAGGGGAAAGGCAAACAAAGAATGCGGTA
GAATGTTCGAAAGGGGAAAGGCAAGCAAAGAATGCGGTACAATGTTTGAA
AGGGGAAAGGCAAACAAAGAGTGCGGTATAATGTCCAAAAGGGAAAAGCC
AAACAAAGAATGCGGTATAATATTCAAAAGGGGAGAGGCAAACAAAGAAT
GCGGTATAATGTTCGAAAGGGGAAAGGCAAACAAAGAATGCGGTATAATG
TTCCAAAGGGGACAGGCAAACAAAGAATGCGGTATAATGTTCAAAAGGGG
AAAGGCAAACAAAGAATGCGGTATAATATTCGAAACGGGAGAGGCAAACA
AAGAATGAGGTAGAATTTTCCAAAGGGGAGAGGCAAACAAAGAATGCGGG
ATAATTTTCGAAAGGGAAGAGGCAAACAAAGAATGCGGGATAATGTTCAA
GAGGGGAGAGGCAAACAAAGAATGCGGGATAATTTTCCAAAGGGGAAAGG
CAAACAAAGAATGCGGTACAATGTTCAAAAGGGGTAAGGCAAACAAAGAA
TGCGGTACAATGTTCAAGAGGGGCAAGGCAAACAAATAATGCGGTGTAAT
GTTCAAGAGGGGAGAGGAAAACAAATAATGCGGGATAATGTTCAAAAGGG
GAAAGGCAAACAAAGAATGCGGTAGAATGTTCGAAAGGGGAAAGGCAAGC
AAAGAATGCGGTACAATGTTTGAAAGGGGAAAGGCAAACAAAGAGTGCGG
TATAATGTCCAAAAGGGAAAAGCCAAACAAAGAATGCGGTATAATATTCA
AAAGGGGAGAGGCAAACAAAGAATGCGGTATAATGTTCAAAAGGGGAAAG
GCAAACAAAGAATGCGGGATAATTTTCCAAAGGGGAAAGGCAAACAAAGA
ATGCGGTACAATGTTCAAAAGGGGTAAGGCAAACAAAGAATGCGGTACAA
TGTTCAAGAGAGAAAGGCAAACAACGAATATGGTACAATGTTCAAGAGGG
GCAAGGCAAACAAATAGTGCGGTGTAATGTTCAAGAGGGGAGAGGCAAAC
AAATAATGCGGGATAATGTTCAAAAGGGGAAAGGCAAACAAAGAATGCGG
TAGAATGTTCGAAAGGGGAAAGGCAAGCAAAGAATGCGGTACAATGTTTG
AAAGGGGAAAGGCAAACAAAGAGTGCGGTATAATGTCCAAAAGGGAAAAG
CCAAACAAAGAATGCGGTATAATATTCTAAAGGGGAGAGGCAAACAAAGA
ATGCGGTATAATGTTCAAAAGGGGAAAGGCAAACAAAGAATGCGGGAGAA
TGTTCAACAGGGAAGAGGCAAACAAAGAATGCGGTACAATGTTCAAAAGG
TGAAAGGCAATCAAAGAATGCGGTTTATTTTTCAAAAGGGGACAGGCAAA
CAAAGAATGCGTTATATTTTTCGAAAGGGGACAGGCAAACAAAGAATGCG
GTATAATGTTCGAAAGGTGAAAGGCTAACAAAGAATGCGGGATAATGTCC
ACAAGGGGAGAGGCAAACAAAGAATGCGGGGTAATGTCCAAAAGGGGAAA
GGCAAACAAAGAATGCGGTAGAATGTTCAAAAGGGGTAAGGCAAACAAAG
AATGCGGGATAACGTTCCAAAGGGGACAGGCAAATAAAGAATGCGGTAAA
ATGTTCAAGAGGGGACAGGTAAACAAAGAATGCGGTACAATGTTCCAAAG
GGGACAGGCAAACAAAGAATGCGGCATAATGTTCAAAAGGGGAAAGGCAA
ACAAAGAATGCGGGATAATATTCTAAAGGGGAGAGGCAAACAAAGAATGC
GGGATTATGTTCAAGAGGGGAGAGGCAAACAAAGAATGAGGTAAAATGTT
GAAAAGTTGAAAGGCAAACAAAGAATGCGGTAAAATGTTCAAGAGGACAC
AGGCAAACAAATAATGCGGTATAATGTTCAAGAGGGGAAAGGCAAACAAG
GAATGCGGTATAATGTTCTAGAGGGGAGAGGCAAACAAAGAATGCGGTAT
AATGTTCAAAAGGGGAGAGGCAAACAAAGAATGCGGGATAATGTCAAAAG
GGGAGAGGCAAACAAAGAATGCGGGATAATGTTCAAAAGGGAAGAGGCAA
ACAAAGAATGCGATACAATGTTCAAAAGGTGAAAGGCAAACAAACAATGC
GGGGTAATGTCCAAAAGGGGAAAGGCAAACAAAGAATGCGGTATAATGTT
CAAAAGGGGAAAGGCAAACAAAGAATGCGGTATAATGTTCAAAAGGGGAC
AGGCAAACAAAGAATGCGGTAGAATGTTCGAAAGGGGACAGGCAAACAAA
GAATGCGGTACAATGTCCAAAAGGTGAAAGGCAATCAAAGAATGCGGTAT
ATTTTTCAAAAGGGGACAGGCAAACAAAGAATGCGGTATATTTTTCGAAA
GGGGACAGGCAAACAAAGAATGCGGTAGAATGTTCCAAAGGGGAAAGGCA
AACAAAGAATCCGGGGTAATGTCCAAAAGGGGAAAGGCAAACAAAGAATG
CGGTATAATGTTCCAAAGGGGAAAGGCAAACAAAGAATGCGGTAGAATGT
TCAAAAGGGGTAAGGCAAACAAAGAATGCGGTATAATTTTCAAGAGGGGA
AAAGCAAACAAAGAATGAGGTATAATGTTCAAGAGGGGTAAGGCAAACAA
AGAATGCGGTATAATGTTCAAGAGGGGAAAAGCAAACAAAGAATGAGGTA
TAATGTTCAAGAGGGGTAAGGCAAACAAAGAATGCGGTATAATTTTCAAA
AGGGGAAAAGCAAACAAAGAATGCGGTATAATGTTCGAAAGGGCAAAGGC
AAACAAAGAATGCGGTATAATGTTCAAGAAGGGAAAGGCAAACAAAGAAT
GAGGTATAATGTTCGAAAGGGAAAAGCCAAACAAAGAATGCGGGGTAATG
TCCAAAAGGGGAAAGGCAAACAAAGAATGCGAATTTGAACCACGAAGAGC
GCCAAACGGTACCCATACCCAAGCGACAACCAACAAACAACCAGCGATGC
AAACGTGGTGATACCCTAATGTGAGCAGGAACGAAGGAGTATCTCACCGC
CAGGGAATTCCGCCGCACGGTGCGGCGCAACTTCGGCATCATGAACGAGG
AGTGGGTGAAGAAGTACTTCAAAGCTTTCGACCGGGATCACAGGCAAGCG
ACCATATATTACGTACAGCCGTAGCCATCGGCCAGAACGTACCGGGGTGT
CTGCATTCGCCCCCCCCCCCCCCCCCCTCTTCCATATGCTTCATTCTGCA
ATGTACCATCGACTTCCAGGAGGCCGTGATGGGGTCCGCCGGCCATGATC
CAAGTACTCGCGGCATACATGTCCCCCCCCTCCTCATATTTTTCATGCTG
TATTGTACCATCGAGTTTCAGGAGGCCGCGATGGGGTCCGCCGGCCATGA
CCCCAAGTGCTTACATGCCAGCACACCCTCCCCCCCCCCCCCCCTCCCCT
CTTCCGTTGGAATTGTTTGTGCTGCAGCGGCACCATTGATTTCCAGGAGT
ATGTGATGGGGTTCGCCGGCATGGCCCGAGTGCTAACCGACAAGAAAGCT
CACTCCTTGATAGGCTTGTCAACTGGCTCCAATATCGTAAGGTCAGTATC
ACTCTCAATGTTGTTGTTGGTGTTGGTGTTGGTGGTGGTGGTGGTGGTGT
TGGTGTTGGTTGGTGTTGGTACTGGTGTTGGTGTTGGTGTGGGTGTTGGT
GTTGGTGCTGGTGGTGTTGTTGGTGTTGGTGTTGGTGTTGGTGTTGGTGT
TGGTGTTTTTGGTGTTGGTGTTGGTGTTGGTGCTGGTGCTGGTGTTGGTG
TTGGTGTTGGTGTTGGTGGTGGTGTTGTTGGTGTTGTTGTTGTTGCTATT
TCTGGTCTTGTTCTCGTTAGTTGTTGGTGATTGCTGTTGCTGTTGTTGCT
GTTGCTGTTGCTCTTTTCCTTGCTGCTACTGTTGGTGTTGTTGGTGATTG
CTGTTGCTGTTGCTCTTTTCCTTCCTGCTACTGTTGGTGTTGTTGGTGAT
TGCTGTTGCTGTTGCTCTTTTCCTTGCTGCTACTGTTGGTGTTGTTGGTG
GTGTTGGTGTTCTCGCTGCTGTTCTTCTATTCAGAATAAAGACAATTCCG
ACCTCTATCCGTTACAGAACCTCCTCATCTGACCTCCATCCGGTACAGTA
CCTCTATGTTCCATGTTCGGACCTCCATTCAGTACATCAGTATAGCACAG
CAGTACAGTACCTCCATGTCCCGTACTTTCCAACCAACTCAACTGATGAG
AAACGACTTCCTTACAGCAGACAAGGTACATTTTTCTGCTTGTTTTTTGG
TATCTTCTTTCTACTTTTTTGGTTGCGTAAAAAACCACGCCCTCCTTGGG
TGCTGCTCTAAAACACGCCACCTTCGGTGCTGCTATGAAACACGCCCGCC
TTCGGTGCTGCTCTAAAACACGCCCTCCTTCTCGCTGCTCTATTTTTACG
TATACTTGTAATCTCACAATTCCATGTTATTTTAGGTGTGTATCATATCG
CCTCCCTCATACCGAAAACTTTATTGTAATGGGTAGCATGTGTCAGATCG
CCAAAAGACGCAAGGAAGGGTCGACGCCAATATGTCCTCCTTCGGAAGCG
TTCTGCTAGCTTTTGGTTTGTGACCACGGGCGAAAACATGTTTCGCGACG
ACCTTCTGTGACACGGAGCAGGTGCCGCAAAACCCTTGACGCTTGCATCG
GTATGCAATCATTGCCCTTCAGGCTGGGATGCATACACGCGGGTTGAACA
CGTCTACGACACGCTGGCGTAGTGCTGTTATTCGTGTATGTAGTCATCCC
ATCCTTCACGCTAAGGTGTTTTAAGGTTGGGCGCACCAGCCGGGTTCACG
GCAGACAGGAACGTGTGTGTGTAGTCATCCCATCTATTTTGGACGCCGAC
CTTCACCTTAGGGTGTTTAAGGTTAGGCGCACCAGCCGGGGTCACGACAG
ACAGCAACGTGTGTGTGCGTGTGTGTTGCCATCCTTTATATTTTGAACGC
CAGTCTACACCTTCCGGTGTTCGTTACTGCTGTAGTCGCACCAACCGGGG
TCTCGACAGACAGGAGGAAGGAAGGAAGGAAGGAAGGTCAACCAACACAG
GAGTTTTATTGCTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGCTGTTG
TGGAAACAAGAAAACCAAGAATGAAACCAAAAAAAACTAGAAACTAGTGA
TCATGATCATCTCACTGTTTCGAATAACGAACAGGTCGGGGAGAAATGCC
CGTCTGTTCTGGGACGGACCCCCCCGAAGAGTGGCGGTAATCAAGAAATG
GAAGGATCCCGACGTGGCGGCAAAGGCAGGCGAGGAACGTGGATGACTGG
ATGGTTTTCTTCCTGTAGCCGGGCTGATGGTTTTGTTCTTGTTCTTGTTC
TTGTTCTTGTTCTTGTTCTTGTTCTTGCTCTTGCTCTTGCTCTTGCTCTT
GCTGTTGTCCTGTACCTTACAATCCGCACCTCTCGGCGAGAGATGGGTAT
AACAGCGCCAGAGAGGCGGGCGGTTGAAATAGCATGCCTGCTGCAATTGT
CAACTTTTCAGAAAAATGTGCTTGAGGTGGCTGCCATGGCAAGAGCTGCC
CCCCACCCCCCGCCCATCCCCGTGCAAACCTAGGACGGTCACTGTGAAAG
TCCAGGCGGTCATGGTGGATGGACCCCAGCGATGGTCAGTGGTCCAACCC
GACGGACGCAATCGAATAAATCACCCCCCCCGGCAATACTTGAACGCCTC
CTGGGAAAACTCAGACGAACCTGTGATAATGCAATCATACCTACCGTCAT
ACGAGTTGATCTCCGTTTCGCCAATTAATTGAAAGCATGCTACGCATCAC
ATCATACAAACAAAAGTTCAGGAAAACTCGTGAAGTCCCTGCGATAGCTG
CATGCTTAATGACTAATCCCCTCCTCGCCCCATAACCCTCCTCCTCCCGC
CGCCGCCGCCGCCGCCGTCAAAACTTGAACGAACGTCCGCTGCTGCAAAA
ACTTCAGAGAAGCTCGTGAAGTGGCTGCAGTCGCAGGACCTGGCCGTCCT
GGTGGATCCCAGCGAAGACCACGAGTTGGGTCCCGACGGCAAGGAGCTGG
GACCGCGGTTCATGCCAGAAGTCGGGAGGTTCGACCCCGGCAGCCTCTCG
ACTCAGACGGACTTCATCGTGTGCTTGGGCGGGGATGGTGAGGATGTTGT
TATTCGGTGGCTCTGATGAGTGCATCATGGTGAGATGGTGATGCATGGCG
ATGCTGTCGATGCCGCCGCTTATTTTTTTTTTCTGGTGCTGGTGCTGGTG
CTGGTGCTGGTGCTGGTGCCGTGGGTGTTTAGCTCTTGCAAGCCAGTTTT
GTGTGCGTCCTCGTCGCTCTCTCGTCTTTATCGACGTGGGTGGTCTTCCG
TCGTGGGGCGTTGGGCTGGGGAGGTACAGATTGAGGATTCTCTTGGAAAA
AGCTTTTGATGCATGGTGACGAGGTGTAGCATCCTGCGTCTGTCTCTCTG
TCTCTCTGTCTCTCTGTCTCTCTCTCTGTCTCTCTCTGTCTGTCTCTCTC
TGTCTCTCTCTCTGTCTCTCTGTCTGTGTGGTGCGTGTAAGCGTTCTTGT
CGCCCTCTCAATCCGTGAGCCCCTCTTCCATTTTTTTTATTTTTGTGAAT
CGCAGGGGCCGTGCGTCTGCTCTTTCTTTCCAATTGATTGTTCAAACCAA
CGATGCCCGTAACCCTTCTTTCATTATTTTTACCAATATCTCCTCAGAAA
ATTCCTTCTTCATTAAATATCGGTAGTACCACCTCTTTTGCTTACAGTGT
CACCCACGCCATGGTCGTTGCATCTTTAGTGCCCCCGCGATTGATCGGTG
TGTACACGTGCGTGCGTGTTCTTTTCTTCTTTGATTTCCTATTTTTTTGG
GGGGCAGGTACGGTTCTGAAAGCGGCGCAATATTTCGACGATTCGACACC
TATTCCGCCGACTCTGGCGTTCGGGCTGGGCTCCCTGGGCTTCCTGGCTC
CGTTTAGCCCTTCACAGTGTCAGTCTATGATCACGAGGTACGGTTGGTCC
TTCAGTGTCAATATATATTGGTTGTGAGGCTCATGTTTCCTTCACAGCAG
TGCCAATCTACGTCTCGGCTATGGGGTGGTTCAAGCCTTCACAGCAGCGT
AAAAGTTTGATCGTGAAGGCAAGAGACGGCTGCTGCTGCTGCTGTGCGTT
TGTGCACGCGAAGACTCTATTATTCATGATGCTGTTGTTGTTGTTGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTCGTTT
TTATTGCTGTTGCTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTGTTACACCGCCCGTCGGCGAAAATCAATTCCGGATTCATGGTTGATG
GGACACGAATATGGTTTTGAATTTCCCACCCGCCGTGTGGCTGTGGCTGT
GGATATACCAGTGCGGATATACACATGATTTGCGCGATTTGTCCCCGCGT
CCCCAGCACAGCAGTACGTGGGCAGTACGGGAAATCTTTCGGCAATAACC
TAAGGCTCCGGCACAGGAGAAAAATCGAACCTCTGGCACAGCAATGCAAG
CGTTTGTAGTGCAGGGTGTGATAGGACACAAAGTGTCAGAGATTATGAAG
CGCCCCATTTGTTTTTTGTCCTTTATGTATGGAAGATGCGCTCGGTTGAA
ATTGCTAAACTGCGTTTAACCTCGGGTATTGTTTTCCGCCAGTTGGGATC
GGCTGGTACATACATACACATGATGGCGCGGCACCTCGTGACGCCGTTCG
TGCTTGTCCCATGCCCACCCTCGTATGCATACGTCCAGGGTGTTGGAGGC
CTACAGAAGACCCATCTCCGTGACGCTAAGGACGCGGCTGCGGGGCGAGG
TGTACAGCCGAAAGGGGCAGCTCGAGAGGGTCTTCTACTCCCTGAACGAG
TTCATCGTGAACAGAGGCATTTCGGGGGTGCTCAGCACTCTGGAGGTGAC
TTGATTTGAAACCGAGATAACTCTCTCTCTCTCTACTCATATTATACCTC
ATCGTGAATGGCAGCAAAAACTTTTTATGTTTCAGCCACCGCACAGCCTG
CAGAATGAGTTTACCGAACCTCTTCACGTACAGAAAAAAGCGGCATATGA
GTACATGAGGAGGATTGCACAGCTTTTTCTCTTGAGCCATACCGGTTAGG
GTTTATGTACATTTGAGCACTGCTGTACTAGAGGCGAACCAAGAGTTTTT
GTTTTTTTCGTGAAGACACCCGGCCGGCACAACAGTTGAATTTAGTCTCC
GTCCGCTGATATGATAGCAGCAGTGGAACGGTCTATCGAAAGAGTACCGT
AACTTTCTCTCCATCTTCCATACGGACAAAGCACGCGGTCGCTTGTCGAA
GCCACCTCGACCATACCACTTTCCCACCCCACCTCATCAAAACGTCAAAA
CGTCAGAAGCGTAAAAACAAAAACGTTAAAAAAAACGTAAGGAATCGTAA
AAAAAAAAACGCTGCTCCCTACCGACCGAAAGGGATGCGTGCCCAAAGGT
CGAATGGCTGGGGGGGTGCAAGCAACAGATCGGTACCCCCCCCCCCCCCT
TAATACCATTCCACCCTACCCCACGCCAACCCACCGCCAGGTATTCGTAG
ACGGGCAGCTGGTGACCACGGCGCAGGGGGACGGCCTGATCGTGGCGTCC
CCTTCGGGCTCCACGGCGTACAATATTTCGGCGGGGGGCTGCATGGTGTC
GCCTCTGGTGCCAGCCACCCTCATCACGCCGATTGCGCCGCATTCGCTGT
CGTTTCGTCCCATCCTCACGTCGGCATCTTCGGAGATCACGGTACGGCAC
GGCAGCGGTTGAAGGCGCGTTGGCCGTTGTTGTTGTTGCTGATGTTGCTG
TTGTTGTTCTTCTTGTCCTTGTTTTTGTTCTTGTTCTTGCTCTTGCTCTT
GTTGCTCTTGTTCTTGTTCTTATTCTTGTCCTTGTTCTTGTTGATAGTGA
CGTCGCTTTTGACAGCAATCTTTTTTGCTGCTGCTGCTGATGTCACGACT
GTCACTGCAAACGCCGAATTTGGTCGTCTCTCATTGCCCGTCTGCCGTTT
GGGTGTGCCGCTCCCTGGCTGATGTCGTCTACCCAACCTAACGGCAACAA
CATTCATGAAGGTGCGCATACCGGACACGGCACGAGCGGACGGGTGGATG
TCCCACGATGCGACCGAAGCGGTCACGATGAAGAAGGGAACATACGTCAA
GCTCTCCACAGCAGCCATTCCTCTGCCCACGGTGAGTCTCGCCCTAGGTC
GGTCCCGGACAAAGTCTTGCGCTTTTTTGATGTGATGGTAGAAACAAAGA
CGGCACTTATTGTAGGCTGTTGGCGGTAGAGAAGCACGTGTGTTCCTCTC
TCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTC
TCTCTCTCTCTCTCTCTTTCTCTCTCTCTCTGTTGTGTATGACACTCGGG
TACTTGCACCAATATTCCAGCTCATTCGTTTTACCTCCTCCCCCTTCCCC
GCCCCCTCTTTTTCGCTGTTGTTCGCCTTGGTCGACCAGATTAACCAGCT
CGAGCTATACCTAATATATCCGCTCAGTTGTCTGAGCCTCCACCCGCGTG
TGTTGCTGTTTGTTCGTCTAATCGGCCAACAAAGGTTAACCAGCACGAGC
TAGCTAAGTATTACCGCTCATTTTTCGAAGCCCCACCACACCACACCCCA
CCAGCGTGCGTTGCTGTTTGTCCATCTTGGTCGACCGACAAAGGTTGCGG
TAACCAGCACAAGCTATTCTTGCCGCTCATTCCCCGTCCCCCCCTCCCTC
TTCGTTTTGTTTTGCTGTTCGTTTTGGTCGACCGACCAGGTTTAACTACG
TAGCACGAGCGAACATTACCGTTCAGTTTTCCAAGCCCCTCTCCCTTCTT
GCCATTCGACTTGGTCAACCACGTTACGCAGCACGAGCTAACATTTCCGC
TCATTTTTCTAACCCCCCCCACACACCCACACACCCACCTCCCTCCTTCT
TGGTGTTCGCCTCGGTCAACCACGTTACGCAGCATGATCTCATATGACGT
CTCATTATTCTCTCTCCCCTTTTCCACTCGCGGTTGTCGCCGGTTGTTCG
CCTCGGCCTCGGCCTACCGACGAAGGTTAACCAGCACGAGCTCGATGGCG
ACTGGTTCCAGAGCATCCGCGACAAACTCAACTGGAATCTCCGCACGCTG
CAAACCCCCTATCATGAAGACGTTGGAGACCGGTCTCTGGATCTAAACGA
CAAGCTTTCCGAAAACCAGTCCCCGCCGACGACGAACCATTTCCAGCCGC
GTTTTTTTGCGCTGCCGAAACCTCCGCAGGACCCGAATGGAACTCCAAAT
GGGGATTCTCCCCGGGGTTCGCCGATATGAACCCCCGCGGGTTATTTATT
GTTCGACAGACTGAAGTAGCGCGCTGTCAACTTGTCAATCTCTGACGGAG
AACCCGAATGGAACTCCAAGGGAGGGTTTTTTCCAGGGGTTCGCCGATAC
AACCCCCCGGTTATTTTTTCTGTTATCGACAAAAAGCATCACAACACCGT
TGGACGTTGTTATCGTACCGAAGGAGGGCTGTCACATTGTTTTTTGTGCT
TGAGCCTTTGAGTTAACGGTTCTTCAATGGGCAGCAGTAACGAACAACCA
GTTGTTCCCTGGCGGGCTGTATGTCAGACAGACAAGCACCGTTGCGTGAT
TTATGGTTGTGAGCTATTCCCAATAAATGTATCGCAATTACGGTATTGGC
GGCGAAGGCACACGTGAGTAGAAACGGCCGGTCGGCACTCGTATCTTACA
GTGGAAAGCATAAAACGACTTTTTTTTTTCGGTGCTTGGTACTGGTACTT
TAGGGTGTAGGATTCCGCCGAAGTCTCGATTTTTCGTACGCCCAGAGTTT
CCCCGCCCTCCGAGTTCGGCATCGATGCCCACTGGTTCGCTCGTGAATGT
CGTTTTATCGCCTTTTGCGTTCTTCTGTTGAAAATAAGACGCCTTTGCAT
GCATATACCTTTCTTCATCGCACCTTTTTTTTTGTCATTTTTGGGTGGGT
TGGGCTCCTTATGGGAGGGGTTTCCTGCTTGGGAGAGATTCGGTGAGCGT
TGTGTTTTCCTCTGTAGAGAATAATACGGCTTTGTTTGAATGGCTTTGAA
TGAATACCTTCCTTCATTGCACCTTGTTGTTTTTTTTTGGGGTGGGTTGG
TTGGTGGGTTGGGCTCTTCATGGGAGGGGTTTCCTGTGTGTGGAGTTTCA
GTGAACGTTTTGTTTGTGCGTTTTCCCGTGCACCTCGCTCGCTGTGAGGC
GTCAAGCTCGTGGCTCGCCCAAAGCGCGTGTGCTGTTGAGGCGGTGGGTC
TGCTGCTGAGGTGTTGTGCTGTGGGCGTGGTCGTGGCAACGGCGTTGGGA
TCACATGCTGGGTGTCTCGTGCGTTGAGCGTTGAAAAGGTGGGTGACCGA
GGCGGTTGAATCGTGATCACATTGTGGTCGGTCGTGATGTGGGTGCATGG
TCTCACCGGTGACGGACAGTTAGTTGCCGGGAATTTTTGGGGCGGTTTGG
GGCGCTTGTACTATTATGAACACTTTTTTTGTACAGACTTCGTGTTGTTC
TCGTTTTTTTTGTGGTGGCTCGAGGCGAAAGGACCTCTTCGTCGTTTCCC
TATTTATTTGCCTTCCTGTGGTTGCTGCTGAGGAGGAGCTCTAGCACTTG
GCAGCAGCCATATGGCCTATTTCCATTCCTTCGCCCAGCTCTTCTTTCCT
ACAGTAGTCGTCGACATACATACGAAGTGTTCGTCATGTGTTGAGTAATC
CTTATCCTACATGCACGCATCACAAGGAAATTCTCAAGAGAAGCATAATC
TTCTGTGCGCATCAAGGGCCGAGAGTTTACATATAATGTAGTCCCTGCTC
GTTTTTTTTTTCAGTGAACGAACGGGTGTGACTGTGACCGCATAATGAGG
AAAAACTTGTCCTCCTCCCCTCGAAATGGGAAAGTGGGTGTCCAATCAAG
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Coding sequence (CDS) from alignment at P-littoralis_Contig13:832078..856527-

>mRNA_P-littoralis_Contig13.165.1 ID=mRNA_P-littoralis_Contig13.165.1|Name=mRNA_P-littoralis_Contig13.165.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1944bp|location=Sequence derived from alignment at P-littoralis_Contig13:832078..856527- (Pylaiella littoralis U1_48)
ATGAGGCCGCTCTTGAGACGTGCTCGGGATTCCTGGACGTTGAGCGGGGC
AGGACGATGGCTGAGACCTCCGCAGGTAGTCGTGTTGAGACAAAACTACC
ACCCACCAGGCTACGACAGCAAAGGGAAGCAAAACTCGCCTGACGATGGG
GCTCCGACATCCCTCCCGACAGCGAAACCCCCGCCGCCGCCGCCGCCGCC
GCCACCACCGCCACTGGGCTCGGTGGGGCAGCAGCAACCAGCAGAGGGGA
GGGAGGGGGCGGACCAAAATCCCACAGACACAGCAGCAGCAAACACGGGG
GGGGGGGGTAGCGGGATAATTGAAGGGGCGCGGGGAGGGGGGGGGGTCCG
GCGGGATGGCGAGGATGGCGACGGTTTAGACACGCCCGTTGTTTACGGCG
CTCTGGGGCAGGTGGAGGAGCAGCCGGTGTTCGACCTTCCGAAAGAGTGG
AAGGAGCTGGTGTCGACTCTGTGTCTCAGGACAACCTTCGAGCCGGCGGA
GCTTGCGGACTTGTTCCAGAGGTTTAGGCAGCTGGCGGCAGGAACGAAGG
AGTATCTCACCGCCAGGGAATTCCGCCGCACGGTGCGGCGCAACTTCGGC
ATCATGAACGAGGAGTGGGTGAAGAAGTACTTCAAAGCTTTCGACCGGGA
TCACAGGCAAGCGACCATATATTACGTACAGCCCGGCACCATTGATTTCC
AGGAGTATGTGATGGGGTTCGCCGGCATGGCCCGAGTGCTAACCGACAAG
AAAGCTCACTCCTTGATAGGCTTGTCAACTGGCTCCAATATCGTAAGGTC
GGGGAGAAATGCCCGTCTGTTCTGGGACGGACCCCCCCGAAGAGTGGCGG
TAATCAAGAAATGGAAGGATCCCGACGTGGCGGCAAAGGCAGGCGAGGAA
CAGAAGCTCGTGAAGTGGCTGCAGTCGCAGGACCTGGCCGTCCTGGTGGA
TCCCAGCGAAGACCACGAGTTGGGTCCCGACGGCAAGGAGCTGGGACCGC
GGTTCATGCCAGAAGTCGGGAGGTTCGACCCCGGCAGCCTCTCGACTCAG
ACGGACTTCATCGTGTGCTTGGGCGGGGATGGTACGGTTCTGAAAGCGGC
GCAATATTTCGACGATTCGACACCTATTCCGCCGACTCTGGCGTTCGGGC
TGGGCTCCCTGGGCTTCCTGGCTCCGTTTAGCCCTTCACAGTGTCAGTCT
ATGATCACGAGGGTGTTGGAGGCCTACAGAAGACCCATCTCCGTGACGCT
AAGGACGCGGCTGCGGGGCGAGGTGTACAGCCGAAAGGGGCAGCTCGAGA
GGGTCTTCTACTCCCTGAACGAGTTCATCGTGAACAGAGGCATTTCGGGG
GTGCTCAGCACTCTGGAGGTATTCGTAGACGGGCAGCTGGTGACCACGGC
GCAGGGGGACGGCCTGATCGTGGCGTCCCCTTCGGGCTCCACGGCGTACA
ATATTTCGGCGGGGGGCTGCATGGTGTCGCCTCTGGTGCCAGCCACCCTC
ATCACGCCGATTGCGCCGCATTCGCTGTCGTTTCGTCCCATCCTCACGTC
GGCATCTTCGGAGATCACGGTGCGCATACCGGACACGGCACGAGCGGACG
GGTGGATGTCCCACGATGCGACCGAAGCGGTCACGATGAAGAAGGGAACA
TACGTCAAGCTCTCCACAGCAGCCATTCCTCTGCCCACGGTTAACCAGCA
CGAGCTCGATGGCGACTGGTTCCAGAGCATCCGCGACAAACTCAACTGGA
ATCTCCGCACGCTGCAAACCCCCTATCATGAAGACGTTGGAGACCGGTCT
CTGGATCTAAACGACAAGCTTTCCGAAAACCAGTCCCCGCCGACGACGAA
CCATTTCCAGCCGCGTTTTTTTGCGCTGCCGAAACCTCCGCAGGACCCGA
ATGGAACTCCAAATGGGGATTCTCCCCGGGGTTCGCCGATATGA
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