mRNA_P-lacustris_contig10.87.1 (mRNA) Pleurocladia lacustris SAG_25_93

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

Overview
NamemRNA_P-lacustris_contig10.87.1
Unique NamemRNA_P-lacustris_contig10.87.1
TypemRNA
OrganismPleurocladia lacustris SAG_25_93 (Pleurocladia lacustris SAG_25_93)
Homology
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BLAST of mRNA_P-lacustris_contig10.87.1 vs. uniprot
Match: A0A6H5LQU7_9PHAE (Methyltransf_11 domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5LQU7_9PHAE)

HSP 1 Score: 565 bits (1457), Expect = 2.030e-195
Identity = 294/406 (72.41%), Postives = 317/406 (78.08%), Query Frame = 1 
Query:    1 MKAVSGVHALWAGMCIFSPSHAFVPLSFGSMLGWVEGFDGRMAFRFDDAVGVACRKTCAFTGNGCGIGAGKRYAQVSGXXXXXXXXXXXVRMGLRTAAKNAWKRVRGRETGAERSPEELKRGIANFYDKSSGAWIDMWGEHMHHGYYVQGNKPKNMEDHRAAQRFMVSRSLEWAGVEEGGAAPKTGVDIGCGVGGSSRQISRRYGTSMTGISLSPLQVERAKALSEAAGLADKCMFQVADALETPFKDNSFDLVWSMESGEHMPYKPKFVRELARICAPGGRVLVVTWCHRDLKVEDGETELTSQEEKHLARINKAFYLPRWCSTADYVKYFEDEGLVGVKRADWTENIQQPFWPAVLRSSVSLKGVVSLLKSGPVTIRAAMAMVLMVQGYKKGLVKFVLITGKKP 1218
            MK    VHALWAG C  SP HAFVP S     G     DGR A  FD    V     CA+   G   G G+R A  S              MGLR+AA+N WKR RG   G  RS  ELK GIANFYDKSSG W +MWGEHMHHGYYVQG KPKNME HRAAQRFM+ RSLEWAGVEEGGAAPKTGVDIGCGVGGSSR ISRRYGT+MTGISLSP+QVERAK LSEAAGL DKC FQVADAL TPF  +SFDLVWSMESGEHMPYKPKFV ELARICAPGGRVLVVTWCHRDL  E+GETELT +EEK LA+INKA+YLPRWCST+DYVKYFEDEGLV +KRADWT+NIQ  FWPAV+RSSVS +G+V LLKSGPVTIR A+AM+LMV+GYK+GLVKF LITGKKP
Sbjct:    1 MKTAVPVHALWAGFCALSPCHAFVPSSSLPSFGDHSVVDGRTAASFDRHGHV---HDCAYGAAGSARGKGRRRAAPS-----RARAQGDASMGLRSAAENTWKRARGGGKGKTRSDGELKEGIANFYDKSSGIWEEMWGEHMHHGYYVQGVKPKNMEHHRAAQRFMIGRSLEWAGVEEGGAAPKTGVDIGCGVGGSSRAISRRYGTNMTGISLSPVQVERAKNLSEAAGLGDKCKFQVADALNTPFDTDSFDLVWSMESGEHMPYKPKFVGELARICAPGGRVLVVTWCHRDL--EEGETELTPKEEKLLAKINKAYYLPRWCSTSDYVKYFEDEGLVDIKRADWTDNIQN-FWPAVIRSSVSFQGIVGLLKSGPVTIRGAVAMLLMVRGYKRGLVKFALITGKKP 395
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BLAST of mRNA_P-lacustris_contig10.87.1 vs. uniprot
Match: A0A836C920_9STRA (Gamma-tocopherol methyltransferase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836C920_9STRA)

HSP 1 Score: 394 bits (1012), Expect = 3.350e-129
Identity = 195/318 (61.32%), Postives = 247/318 (77.67%), Query Frame = 1 
Query:  268 VRMGLRTAAKNAWKRVRGRETGAERSPEELKRGIANFYDKSSGAWIDMWGEHMHHGYYVQGNKPKNMEDHRAAQRFMVSRSLEWAGVE-EGGAAPKTGVDIGCGVGGSSRQISRRYGTSMTGISLSPLQVERAKALSEAAGLADKCMFQVADALETPFKDNSFDLVWSMESGEHMPYKPKFVRELARICAPGGRVLVVTWCHRDLKVEDGETELTSQEEKHLARINKAFYLPRWCSTADYVKYFEDEGLVGVKRADWTENIQQPFWPAVLRSSVSLKGVVSLLKSGPVTIRAAMAMVLMVQGYKKGLVKFVLITGKKP 1218
            ++MG RTA  +A  +V+      ERS  ELK GIANFYDKSSG W  +WGEHMHHGYY +  +P+++E+H+AAQ  M+ +SLEWAGV  +  + PKTGVD+GCG+GGSSR I+R++GT M GI+LSP Q  RA  L+  AGLADKC FQVADALE PF+DNSFDL+WSMESGEHMP K +FV ELAR+CAPGGRVL+VTWCHRDL  E+GE  L  +E++ LA INKA+YLP+WCS ADYV Y ++ GL  V+R DWT+ IQ  FWPAV++SS+S +G+  L+++GP  IR A+AM+LMV+G+K  LVKF LIT +KP
Sbjct:    1 MQMGARTAVSSAVTKVQLLGRNRERSRAELKDGIANFYDKSSGLWESIWGEHMHHGYYEE--QPQSLEEHKAAQVAMIDKSLEWAGVGVDAASTPKTGVDVGCGIGGSSRHIARKWGTKMQGITLSPKQCARANELAAEAGLADKCSFQVADALEQPFEDNSFDLIWSMESGEHMPLKQQFVGELARVCAPGGRVLIVTWCHRDL--EEGEESLKPKEQRLLAAINKAYYLPKWCSVADYVTYCQEAGLTDVRRDDWTDKIQY-FWPAVIKSSLSGRGIRGLVRAGPGIIRGALAMLLMVRGFKLNLVKFGLITARKP 313
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BLAST of mRNA_P-lacustris_contig10.87.1 vs. uniprot
Match: A0A6S9IJ58_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6S9IJ58_HETAK)

HSP 1 Score: 373 bits (957), Expect = 1.310e-120
Identity = 191/318 (60.06%), Postives = 236/318 (74.21%), Query Frame = 1 
Query:  268 VRMGLRTAAKNAWKRVRGRETGAERSPEELKRGIANFYDKSSGAWIDMWGEHMHHGYYVQGNKPKNMEDHRAAQRFMVSRSLEWAGVEEGGAAPKTGVDIGCGVGGSSRQISRRYGTSMTGISLSPLQVERAKALSEAAGLADKCMFQVADALETPFKDNSFDLVWSMESGEHMPYKPKFVRELARICAPGGRVLVVTWCHRDLKVEDGETELTSQEEKHLARINKAFYLPRWCSTADYVKYFEDEGLVGVKRADWTENIQQPFWPAVLRSSV-SLKGVVSLLKSGPVTIRAAMAMVLMVQGYKKGLVKFVLITGKKP 1218
            ++MG+R+     +K+V G    +ER+ +ELK GIA FYD SSG W D+WGEHMHHGYY +G K     DH+ AQ  M++RSL+WAGV +        VD+GCG+GGSSR I+RRYG   TGI+LSP+Q  RA ALSEA GL D+C FQVADAL  PF++NSFDL+WSMESGEHMP K KFV+ LAR+CAPGG+VLVVTWCHRDL  E GE  LT +EE+ L RINKA+YLPRWCS ADYV Y E  GL  +K ADWT+ IQ  FWPAV+RS++ S +    +L+SGP T+R A+AM+ M+QGY +GL+KF LIT  KP
Sbjct:   39 LKMGVRSTLAKPFKKVFG---SSERTDKELKDGIAGFYDASSGVWEDVWGEHMHHGYYPEGVKV----DHKEAQIDMINRSLDWAGVVKADNV----VDVGCGIGGSSRHIARRYGGRTTGITLSPVQAARATALSEAQGLGDRCRFQVADALNMPFEENSFDLIWSMESGEHMPEKEKFVQGLARVCAPGGKVLVVTWCHRDL--EPGEAGLTPKEERLLNRINKAYYLPRWCSVADYVAYAEAAGLADIKTADWTDRIQA-FWPAVVRSALGSPRNFWGMLRSGPKTVRGALAMLWMIQGYNRGLIKFGLITATKP 342
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BLAST of mRNA_P-lacustris_contig10.87.1 vs. uniprot
Match: A0A7S4J028_9STRA (Hypothetical protein n=1 Tax=Odontella aurita TaxID=265563 RepID=A0A7S4J028_9STRA)

HSP 1 Score: 356 bits (914), Expect = 3.470e-114
Identity = 183/319 (57.37%), Postives = 228/319 (71.47%), Query Frame = 1 
Query:  268 VRMGLRTAAKNAWKRVRGRETGAERSPEELKRGIANFYDKSSGAWIDMWGEHMHHGYYVQGNKPKNMEDHRAAQRFMVSRSLEWAGVEEGG--AAPKTGVDIGCGVGGSSRQISRRYGTSMTGISLSPLQVERAKALSEAAGLADKCMFQVADALETPFKDNSFDLVWSMESGEHMPYKPKFVRELARICAPGGRVLVVTWCHRDLKVEDGETELTSQEEKHLARINKAFYLPRWCSTADYVKYFEDEGLVGVKRADWTENIQQPFWPAVLRSSVSLKGVVSLLKSGPVTIRAAMAMVLMVQGYKKGLVKFVLITGKKP 1218
            ++MG+ +AA+    RVR      ER+ E+LK GIA FYD+SS  W D+WGEHMHHGYYV    P++  DH  AQ  M+  SL+WAGV   G    P   VD+GCG+GGSSR I+R+YG S  GI+LSP Q +R   L+   GLAD+C F+VADAL+ PF D  FDLVWS ESGEHMP K KFV EL R+ APGGR+++VTWCHRDL  E+GE  LT +EEK LA+IN+A+YLPRWCS  DYVK  E+ G VG+KR DW+  I  PFW AV++SS+SLK VV L+KSG  TIR A AM LM++G+  GL+KF +IT +KP
Sbjct:   47 LQMGVGSAAR----RVRDSVLSKERNREDLKIGIAGFYDRSSKLWEDIWGEHMHHGYYV----PEDRTDHIQAQIDMIDESLKWAGVPNEGEPGTPSKVVDVGCGIGGSSRHIARKYGASTKGITLSPYQAQRGNELASEQGLADQCEFRVADALDMPFHDEEFDLVWSFESGEHMPDKTKFVDELCRVVAPGGRIILVTWCHRDL--EEGEESLTKKEEKLLAKINRAYYLPRWCSVDDYVKLLEERGAVGIKRDDWSYTIA-PFWKAVIKSSLSLKSVVGLMKSGFSTIRGAYAMFLMLKGFNMGLIKFGMITCQKP 354
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BLAST of mRNA_P-lacustris_contig10.87.1 vs. uniprot
Match: A0A2V0P4Y4_9CHLO (Gamma-tocopherol methyltransferase n=1 Tax=Raphidocelis subcapitata TaxID=307507 RepID=A0A2V0P4Y4_9CHLO)

HSP 1 Score: 350 bits (898), Expect = 5.000e-112
Identity = 171/289 (59.17%), Postives = 214/289 (74.05%), Query Frame = 1 
Query:  352 ELKRGIANFYDKSSGAWIDMWGEHMHHGYYVQGNKPKNMEDHRAAQRFMVSRSLEWAGVEEGGAAPKTGVDIGCGVGGSSRQISRRYGTSMTGISLSPLQVERAKALSEAAGLADKCMFQVADALETPFKDNSFDLVWSMESGEHMPYKPKFVRELARICAPGGRVLVVTWCHRDLKVEDGETELTSQEEKHLARINKAFYLPRWCSTADYVKYFEDEGLVGVKRADWTENIQQPFWPAVLRSSVSLKGVVSLLKSGPVTIRAAMAMVLMVQGYKKGLVKFVLITGKKP 1218
            +LK+GIA FYD+SSG W ++WGEHMHHGYY  G  PK+ +    AQ  M+  +L+WAG+EEG   PKT VD+GCG+GGSSR I+R+YG +  GI+LSP+Q  RA A+SE AGL DKC FQVADAL+ PF D SFDLVWS+ESGEHMP KP FVRELAR+ APGGRV++VTWCHR L    GE  L  +E+  L RI +A+YLP WCS ADY + FE EGL G+K  DW+  +  PFW  V+RS+++ KG+  L K+G  TI+ A+ M LM QG++ GLVKFVLIT +KP
Sbjct:   58 DLKQGIAQFYDESSGLWEEVWGEHMHHGYYPAGGPPKSNQQ---AQIDMIEETLKWAGMEEG-RPPKTMVDVGCGIGGSSRHIARKYGCTAKGITLSPVQAARANAISEKAGLGDKCSFQVADALQQPFPDGSFDLVWSLESGEHMPDKPAFVRELARVTAPGGRVIIVTWCHRVLA--PGEAGLKPEEQSLLDRICEAYYLPAWCSIADYQRLFEAEGLTGIKTTDWSNEVA-PFWGEVIRSALTTKGIAGLFKAGWTTIKGALVMPLMAQGFRMGLVKFVLITAQKP 339
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BLAST of mRNA_P-lacustris_contig10.87.1 vs. uniprot
Match: A0A0D2MKE8_9CHLO (Methyltransferase type 11 n=1 Tax=Monoraphidium neglectum TaxID=145388 RepID=A0A0D2MKE8_9CHLO)

HSP 1 Score: 348 bits (893), Expect = 2.440e-111
Identity = 173/295 (58.64%), Postives = 215/295 (72.88%), Query Frame = 1 
Query:  349 EELKRGIANFYDKSSGAWIDMWGEHMHHGYYVQGNKPKNMEDHRAAQRFMVSRSLEWAGVEEGGAAPKTGVDIGCGVGGSSRQISRRYGTSMTGISLSPLQVERAKALSEAAGLADKCMFQVADALETPFKDNSFDLVWSMESGEHMPYKPKFVRELARICAPGGRVLVVTWCHRDLKVEDGETELTSQEE-----KHLARINKAFYLPRWCSTADYVKYFEDEGLVGVKRADWTENIQQPFWPAVLRSSVSLKGVVSLLKSGPVTIRAAMAMVLMVQGYKKGLVKFVLITGKKP 1218
            ++LK+GIA FYD+SSG W ++WGEHMHHGYY  G  PK+ +    AQ  M+  +L WAGV+     PKT VD+GCG+GGSSR I+R+YG +  GI+LSP+Q  RA A+SE AGL DKC FQVADAL  PF D SFDLVWS+ESGEHMP KP+FVRELAR+CAPGGRV++VTWCHR L  + GE  L ++E        L RI +A+YLP WCS ADY + FE EGLV VK ADW+  +  PFW  V+RS+++ KG+  L K+G  TI+ A+ M LM QG++ GLVKFVLIT KKP
Sbjct:   50 DDLKKGIATFYDESSGLWEEVWGEHMHHGYYPAGGAPKSNQQ---AQIDMIEETLSWAGVDT---PPKTMVDVGCGIGGSSRHIARKYGCTAKGITLSPVQAARANAISEKAGLGDKCSFQVADALHQPFDDGSFDLVWSLESGEHMPNKPQFVRELARVCAPGGRVIIVTWCHRVL--QPGEERLNAEELVGALLSLLDRICEAYYLPAWCSIADYQRLFEAEGLVDVKTADWSNEVA-PFWTEVIRSALTTKGIAGLFKAGWTTIKGALVMPLMAQGFRMGLVKFVLITAKKP 335
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BLAST of mRNA_P-lacustris_contig10.87.1 vs. uniprot
Match: A0A2G3AFP9_CAPAN (Tocopherol O-methyltransferase, chloroplastic n=6 Tax=Solanoideae TaxID=424551 RepID=A0A2G3AFP9_CAPAN)

HSP 1 Score: 343 bits (879), Expect = 9.040e-109
Identity = 168/291 (57.73%), Postives = 219/291 (75.26%), Query Frame = 1 
Query:  349 EELKRGIANFYDKSSGAWIDMWGEHMHHGYYVQGNKPKNMEDHRAAQRFMVSRSLEWAGVEEGGAAPKTG-VDIGCGVGGSSRQISRRYGTSMTGISLSPLQVERAKALSEAAGLADKCMFQVADALETPFKDNSFDLVWSMESGEHMPYKPKFVRELARICAPGGRVLVVTWCHRDLKVEDGETELTSQEEKHLARINKAFYLPRWCSTADYVKYFEDEGLVGVKRADWTENIQQPFWPAVLRSSVSLKGVVSLLKSGPVTIRAAMAMVLMVQGYKKGLVKFVLITGKKP 1218
            +ELK+GIA+ YD+SSG W D+WG+HMHHGYY + N    + DHRAAQ  M+ ++L++A + E  A   T  VD+GCG+GGSSR ++++YG +  GI+LSP+Q ERA+AL+ A GL DK  FQVADAL  PF D  FDLVWSMESGEHMP K KFV ELAR+ APGG +++VTWCHRDL     E  LT +E++ L +I KAFYLP WCSTADYVK  +   L  +K ADW+EN+  PFWPAV++S+++ KG  S+L+SG  TI+AA+AM LM++GYKKGL+KF +IT +KP
Sbjct:   82 QELKKGIADLYDESSGIWEDIWGDHMHHGYY-EPNSSVELSDHRAAQIRMIEQALKFADLNEDPAKKPTSIVDVGCGIGGSSRYLAKKYGATAKGITLSPVQAERAQALAAAQGLGDKVSFQVADALNQPFPDGQFDLVWSMESGEHMPDKEKFVGELARVAAPGGTIILVTWCHRDLS--PSEESLTPEEKQLLNKICKAFYLPAWCSTADYVKLLQSNSLRDIKAADWSENVA-PFWPAVIKSALTWKGFTSVLRSGWKTIKAALAMPLMIEGYKKGLIKFAIITCRKP 368
[Close]
BLAST of mRNA_P-lacustris_contig10.87.1 vs. uniprot
Match: A0A3Q7HRN3_SOLLC (Methyltransf_11 domain-containing protein n=19 Tax=Solanum TaxID=4107 RepID=A0A3Q7HRN3_SOLLC)

HSP 1 Score: 341 bits (875), Expect = 1.690e-107
Identity = 168/294 (57.14%), Postives = 220/294 (74.83%), Query Frame = 1 
Query:  349 EELKRGIANFYDKSSGAWIDMWGEHMHHGYYVQGNKPKN---MEDHRAAQRFMVSRSLEWAGVEEGGAAPKTG-VDIGCGVGGSSRQISRRYGTSMTGISLSPLQVERAKALSEAAGLADKCMFQVADALETPFKDNSFDLVWSMESGEHMPYKPKFVRELARICAPGGRVLVVTWCHRDLKVEDGETELTSQEEKHLARINKAFYLPRWCSTADYVKYFEDEGLVGVKRADWTENIQQPFWPAVLRSSVSLKGVVSLLKSGPVTIRAAMAMVLMVQGYKKGLVKFVLITGKKP 1218
            +ELK+GIA+ YD+SSG W D+WG+HMHHGYY    +PK+   + DHRAAQ  M+ ++L +A + E  A   T  VD+GCG+GGSSR ++++YG +  GI+LSP+Q ERA+AL++A GL DK  FQVADAL  PF D  FDLVWSMESGEHMP K KFV ELAR+ APGG +++VTWCHRDL     E  LT +E++ L +I KAFYLP WCSTADYVK  +   L  +K  DW+EN+  PFWPAV++S+++ KG  S+L+SG  TI+AA+AM LM++GYKKGL+KF +IT +KP
Sbjct:  130 QELKKGIADLYDESSGIWEDIWGDHMHHGYY----EPKSSVELSDHRAAQIRMIEQALSFAAISEDPAKKPTSIVDVGCGIGGSSRYLAKKYGATAKGITLSPVQAERAQALADAQGLGDKVSFQVADALNQPFPDGQFDLVWSMESGEHMPNKEKFVGELARVAAPGGTIILVTWCHRDLS--PSEESLTPEEKELLNKICKAFYLPAWCSTADYVKLLQSNSLQDIKAEDWSENVA-PFWPAVIKSALTWKGFTSVLRSGWKTIKAALAMPLMIEGYKKGLIKFAIITCRKP 416
[Close]
BLAST of mRNA_P-lacustris_contig10.87.1 vs. uniprot
Match: A0A1Y1HH78_KLENI (S-adenosyl-L-methionine dependent methyltransferases n=1 Tax=Klebsormidium nitens TaxID=105231 RepID=A0A1Y1HH78_KLENI)

HSP 1 Score: 339 bits (869), Expect = 2.380e-107
Identity = 170/297 (57.24%), Postives = 211/297 (71.04%), Query Frame = 1 
Query:  328 TGAERSPEELKRGIANFYDKSSGAWIDMWGEHMHHGYYVQGNKPKNMEDHRAAQRFMVSRSLEWAGVEEGGA-APKTGVDIGCGVGGSSRQISRRYGTSMTGISLSPLQVERAKALSEAAGLADKCMFQVADALETPFKDNSFDLVWSMESGEHMPYKPKFVRELARICAPGGRVLVVTWCHRDLKVEDGETELTSQEEKHLARINKAFYLPRWCSTADYVKYFEDEGLVGVKRADWTENIQQPFWPAVLRSSVSLKGVVSLLKSGPVTIRAAMAMVLMVQGYKKGLVKFVLITGKK 1215
            T  ER+  EL  GIA FYD+SSG W ++WGEHMHHGYY +G K    +DHR AQ  M+  +L+WAG    G  APKT VD+GCG+GGSSR +SR++G  +TGI+LSP+Q  RA AL+   GLADK  FQVADAL  PF D  FDLVWSMESGEHMP K KFV EL R+ APGGR+++VTWCHRDL    GET L S E   LA+I  A+YLP WCS ADY++  +  GL  V   DW+E +  PFWPAV+ S++S +G++ L KSG  TI+ A AM LM+QG+ +GL+KF LI+G K
Sbjct:   72 TVPERTVPELNEGIAGFYDESSGVWEEIWGEHMHHGYYPKGEK----KDHREAQIDMIEETLKWAGATGAGTPAPKTVVDVGCGIGGSSRYLSRKFGAKVTGITLSPVQAARAGALARQQGLADKVSFQVADALNQPFDDGQFDLVWSMESGEHMPDKTKFVNELIRVAAPGGRIIIVTWCHRDLA--PGETGLQSDELDLLAKICDAYYLPAWCSAADYIRIAKAAGLQNVISDDWSERVT-PFWPAVMASALSWRGLLGLAKSGWTTIKGAFAMALMIQGFSRGLIKFALISGTK 361
[Close]
BLAST of mRNA_P-lacustris_contig10.87.1 vs. uniprot
Match: A0A2C9VI00_MANES (Methyltransf_11 domain-containing protein n=1 Tax=Manihot esculenta TaxID=3983 RepID=A0A2C9VI00_MANES)

HSP 1 Score: 338 bits (866), Expect = 4.200e-107
Identity = 167/300 (55.67%), Postives = 215/300 (71.67%), Query Frame = 1 
Query:  325 ETGAERSPEELKRGIANFYDKSSGAWIDMWGEHMHHGYYVQGNK-PKNMEDHRAAQRFMVSRSLEWAGVEEGGAA-PKTGVDIGCGVGGSSRQISRRYGTSMTGISLSPLQVERAKALSEAAGLADKCMFQVADALETPFKDNSFDLVWSMESGEHMPYKPKFVRELARICAPGGRVLVVTWCHRDLKVEDGETELTSQEEKHLARINKAFYLPRWCSTADYVKYFEDEGLVGVKRADWTENIQQPFWPAVLRSSVSLKGVVSLLKSGPVTIRAAMAMVLMVQGYKKGLVKFVLITGKKP 1218
            E  A+     LK+GIA  YD+SSG W D+WG+HMHHG+Y    +   ++ DHRAAQ  M+  +L + GV E     PKT VD+GCG+GGSSR +++++G    GISLSP+QVERA +L+   GLADK  FQVADAL+ PF D  FDLVWSMESGEHMP K KFV ELAR+ APGGR+++VTWCHR+L     E  L   E++HL +I  A+YLP WCS ADYV+  E   L  +K ADW++N+  PFWPAV+RS+++ KG+ SLL+SG  TIR A+ M LM+QGYKKGL+KF +IT +KP
Sbjct:   53 EMDADARVSVLKKGIAELYDESSGLWEDLWGDHMHHGFYDPDVEVSSSISDHRAAQIRMIEEALRFGGVSEDPQKWPKTVVDVGCGIGGSSRYLAKKFGAHCQGISLSPVQVERANSLAAVEGLADKVSFQVADALDQPFPDGQFDLVWSMESGEHMPNKRKFVSELARVAAPGGRIIIVTWCHRNLS--PSEESLQKWEQEHLKKICDAYYLPEWCSAADYVEILESLSLQDIKTADWSQNVA-PFWPAVIRSALTWKGLTSLLRSGMKTIRGALVMPLMIQGYKKGLIKFAIITCRKP 349
The following BLAST results are available for this feature:
BLAST of mRNA_P-lacustris_contig10.87.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5LQU7_9PHAE2.030e-19572.41Methyltransf_11 domain-containing protein n=2 Tax=... [more]
A0A836C920_9STRA3.350e-12961.32Gamma-tocopherol methyltransferase n=1 Tax=Tribone... [more]
A0A6S9IJ58_HETAK1.310e-12060.06Hypothetical protein n=1 Tax=Heterosigma akashiwo ... [more]
A0A7S4J028_9STRA3.470e-11457.37Hypothetical protein n=1 Tax=Odontella aurita TaxI... [more]
A0A2V0P4Y4_9CHLO5.000e-11259.17Gamma-tocopherol methyltransferase n=1 Tax=Raphido... [more]
A0A0D2MKE8_9CHLO2.440e-11158.64Methyltransferase type 11 n=1 Tax=Monoraphidium ne... [more]
A0A2G3AFP9_CAPAN9.040e-10957.73Tocopherol O-methyltransferase, chloroplastic n=6 ... [more]
A0A3Q7HRN3_SOLLC1.690e-10757.14Methyltransf_11 domain-containing protein n=19 Tax... [more]
A0A1Y1HH78_KLENI2.380e-10757.24S-adenosyl-L-methionine dependent methyltransferas... [more]
A0A2C9VI00_MANES4.200e-10755.67Methyltransf_11 domain-containing protein n=1 Tax=... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-lacustris_contig10contigP-lacustris_contig10:274766..299154 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
OGS1.0 of Pleurocladia lacustris SAG_25_932021-02-24
Properties
Property NameValue
Taxonomic scopeEukaryota
Seed ortholog score572.4
Seed ortholog evalue1.7e-160
Seed eggNOG ortholog2880.D8LHY0
Preferred nameTMT
KEGG rclassRC00003,RC01662
KEGG koko:K05928
KEGG ReactionR07236,R07504,R10491,R10492
KEGG Pathwayko00130,ko01100,ko01110,map00130,map01100,map01110
KEGG ModuleM00112
Hectar predicted targeting categorysignal peptide
GOsGO:0003674,GO:0003824,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0006766,GO:0006775,GO:0008150,GO:0008152,GO:0008168,GO:0008171,GO:0009058,GO:0009110,GO:0009507,GO:0009536,GO:0009987,GO:0010189,GO:0016740,GO:0016741,GO:0018130,GO:0032259,GO:0042360,GO:0042362,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0044237,GO:0044249,GO:0044281,GO:0044283,GO:0044424,GO:0044444,GO:0044464,GO:0046483,GO:0050342,GO:0071704,GO:1901360,GO:1901362,GO:1901576,GO:1901615,GO:1901617
EggNOG free text desc.sterol 24-C-methyltransferase activity
EggNOG OGsCOG0500@1,KOG1269@2759
Ec32 ortholog descriptionGamma-tocopherol methyltransferase
Ec32 orthologEc-18_000910.1
EC2.1.1.95
COG Functional cat.Q
Best tax levelEukaryota
Best eggNOG OGNA|NA|NA
BRITEko00000,ko00001,ko00002,ko01000
Exons12
Model size2057
Cds size1227
Stop1
Start1
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1622815258.6112924-CDS-P-lacustris_contig10:274765..2748581622815258.6112924-CDS-P-lacustris_contig10:274765..274858Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 274766..274858 +
1693493436.0891376-CDS-P-lacustris_contig10:274765..2748581693493436.0891376-CDS-P-lacustris_contig10:274765..274858Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 274766..274858 +
1622815258.6224165-CDS-P-lacustris_contig10:276341..2763981622815258.6224165-CDS-P-lacustris_contig10:276341..276398Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 276342..276398 +
1693493436.1100788-CDS-P-lacustris_contig10:276341..2763981693493436.1100788-CDS-P-lacustris_contig10:276341..276398Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 276342..276398 +
1622815258.6353774-CDS-P-lacustris_contig10:278645..2788391622815258.6353774-CDS-P-lacustris_contig10:278645..278839Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 278646..278839 +
1693493436.1237612-CDS-P-lacustris_contig10:278645..2788391693493436.1237612-CDS-P-lacustris_contig10:278645..278839Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 278646..278839 +
1622815258.6477265-CDS-P-lacustris_contig10:279957..2800921622815258.6477265-CDS-P-lacustris_contig10:279957..280092Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 279958..280092 +
1693493436.1336703-CDS-P-lacustris_contig10:279957..2800921693493436.1336703-CDS-P-lacustris_contig10:279957..280092Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 279958..280092 +
1622815258.6574864-CDS-P-lacustris_contig10:281894..2819831622815258.6574864-CDS-P-lacustris_contig10:281894..281983Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 281895..281983 +
1693493436.1428597-CDS-P-lacustris_contig10:281894..2819831693493436.1428597-CDS-P-lacustris_contig10:281894..281983Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 281895..281983 +
1622815258.6796098-CDS-P-lacustris_contig10:288484..2885671622815258.6796098-CDS-P-lacustris_contig10:288484..288567Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 288485..288567 +
1693493436.1526065-CDS-P-lacustris_contig10:288484..2885671693493436.1526065-CDS-P-lacustris_contig10:288484..288567Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 288485..288567 +
1622815258.6926804-CDS-P-lacustris_contig10:288935..2889951622815258.6926804-CDS-P-lacustris_contig10:288935..288995Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 288936..288995 +
1693493436.1627545-CDS-P-lacustris_contig10:288935..2889951693493436.1627545-CDS-P-lacustris_contig10:288935..288995Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 288936..288995 +
1622815258.7036905-CDS-P-lacustris_contig10:291814..2919061622815258.7036905-CDS-P-lacustris_contig10:291814..291906Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 291815..291906 +
1693493436.180502-CDS-P-lacustris_contig10:291814..2919061693493436.180502-CDS-P-lacustris_contig10:291814..291906Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 291815..291906 +
1622815258.7161229-CDS-P-lacustris_contig10:292729..2928611622815258.7161229-CDS-P-lacustris_contig10:292729..292861Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 292730..292861 +
1693493436.19265-CDS-P-lacustris_contig10:292729..2928611693493436.19265-CDS-P-lacustris_contig10:292729..292861Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 292730..292861 +
1622815258.7256913-CDS-P-lacustris_contig10:295384..2954991622815258.7256913-CDS-P-lacustris_contig10:295384..295499Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 295385..295499 +
1693493436.207007-CDS-P-lacustris_contig10:295384..2954991693493436.207007-CDS-P-lacustris_contig10:295384..295499Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 295385..295499 +
1622815258.7351007-CDS-P-lacustris_contig10:296949..2970541622815258.7351007-CDS-P-lacustris_contig10:296949..297054Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 296950..297054 +
1693493436.2148688-CDS-P-lacustris_contig10:296949..2970541693493436.2148688-CDS-P-lacustris_contig10:296949..297054Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 296950..297054 +
1622815258.7446249-CDS-P-lacustris_contig10:298252..2983241622815258.7446249-CDS-P-lacustris_contig10:298252..298324Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 298253..298324 +
1693493436.2249465-CDS-P-lacustris_contig10:298252..2983241693493436.2249465-CDS-P-lacustris_contig10:298252..298324Pleurocladia lacustris SAG_25_93CDSP-lacustris_contig10 298253..298324 +


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

Feature NameUnique NameSpeciesTypePosition
1622815258.7540958-UTR-P-lacustris_contig10:298324..2991541622815258.7540958-UTR-P-lacustris_contig10:298324..299154Pleurocladia lacustris SAG_25_93UTRP-lacustris_contig10 298325..299154 +
1693493436.2342436-UTR-P-lacustris_contig10:298324..2991541693493436.2342436-UTR-P-lacustris_contig10:298324..299154Pleurocladia lacustris SAG_25_93UTRP-lacustris_contig10 298325..299154 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-lacustris_contig10.87.1prot_P-lacustris_contig10.87.1Pleurocladia lacustris SAG_25_93polypeptideP-lacustris_contig10 274766..298324 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-lacustris_contig10.87.1

>prot_P-lacustris_contig10.87.1 ID=prot_P-lacustris_contig10.87.1|Name=mRNA_P-lacustris_contig10.87.1|organism=Pleurocladia lacustris SAG_25_93|type=polypeptide|length=409bp
MKAVSGVHALWAGMCIFSPSHAFVPLSFGSMLGWVEGFDGRMAFRFDDAV
GVACRKTCAFTGNGCGIGAGKRYAQVSGRGRGRSGAGVGVRMGLRTAAKN
AWKRVRGRETGAERSPEELKRGIANFYDKSSGAWIDMWGEHMHHGYYVQG
NKPKNMEDHRAAQRFMVSRSLEWAGVEEGGAAPKTGVDIGCGVGGSSRQI
SRRYGTSMTGISLSPLQVERAKALSEAAGLADKCMFQVADALETPFKDNS
FDLVWSMESGEHMPYKPKFVRELARICAPGGRVLVVTWCHRDLKVEDGET
ELTSQEEKHLARINKAFYLPRWCSTADYVKYFEDEGLVGVKRADWTENIQ
QPFWPAVLRSSVSLKGVVSLLKSGPVTIRAAMAMVLMVQGYKKGLVKFVL
ITGKKPLP*
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mRNA from alignment at P-lacustris_contig10:274766..299154+

Legend: CDSpolypeptideUTR
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-lacustris_contig10.87.1 ID=mRNA_P-lacustris_contig10.87.1|Name=mRNA_P-lacustris_contig10.87.1|organism=Pleurocladia lacustris SAG_25_93|type=mRNA|length=24389bp|location=Sequence derived from alignment at P-lacustris_contig10:274766..299154+ (Pleurocladia lacustris SAG_25_93)
ATGAAGGCTGTATCAGGAGTGCACGCGCTATGGGCAGGAATGTGCATTTT
TTCGCCTTCCCACGCCTTTGTGCCATTGTCCTTTGGGAGCATGGTAAGTA
CAGCAGTACGTACGGGTATTTTTATTTTTCGTTCGAGGGCGATGTGCATG
TTTAGGCGCCTGCCTCCCTTTGTTCATTCGTTGGCGTCATCGTCACGTGT
GTGTGTTGTGAGCAATTCTCTTGCTCACGAAAATCAGTTCCGCTCGTGCC
CACGAGTGCTTCATTCCAAAGACGGAAATATTCGTCCCAACTCCCTTCGA
AATGTTGGTTTGGCATTATCATTATCTCTGGAATGTCTGTCGAAATGCGG
CGTGACTTCGTAACTACACTGTATAGAGCGTCAAGTGCTTAACCCTCTTA
GGACGCAACGTTAAATATTAAAATTGAGCAATAAATCAGAAAAAACGATG
TTGGGTGTTCATTGGACAATGCCGACAGTTCCAGTCATGGGCGCAGGGGG
AACCCAGCCTGAACACCTTTCCTACTCTGTACTCAAAAAGCCTATCATTT
GTCCCCTCGACGCGGTGACGAATGATAGGCTTTTTACATTGCCAAAAAGC
GCAGCGTCCTTGTCAATAAATCTTGAAATTTGGAAGATTTATCCACCAAG
ATTTTGTTTCACTTTTTATGGGCACAAATGTTCCAAATATTTGGCACCCA
AGATTTGCAGAAGGCCAGAAAGTTGCCTTTTCTGCAAATCTTGGCCCAAG
ATTTGCAGATGGGAGCAGCTCTATTGTACAAATCTTGGAGAGAGCGGCGG
GATTTGTAGGCTCTGCAGACTTCAGTCACCCAAAATCATCGACTACGCCA
TGGAATCTGAACGTGGCACACTCGTAGAAGTTTCATAACCACCCTAGAGG
CATGCTCTCGACGCTGCGAGTGCGGATGCCGGCAAAAACTAAGGCAGGCG
GTCGCAAAAAAATAGTTTTCGCCTCGCACCTGCACACGTATGCTCTTCAA
CCAAGAATTACAACGCTCCAGCCGAGAGCGAACGACAATGTTTCTCGTAT
CTCACTCCGCAGGAGCCGCAGGAGGTGACGTATCGAGGTCAAACCTTCAA
TGATGTCATGTCCATTGACTGCTCTGTTTCGGATGCAAGTGGCTTGGTTG
TGCGCCGATTCTATCGAGAGATAACAGCATCGCTGCGACGCAACCTGTCC
ATATCAGCCGTTGAAGGCCAAAAAAAGGAATACTCCATTTCCCAGTGTAA
AAACAGGCCGGGGAAACTTCGCCCAAAAAGAGATCGGTTGTGTGCAACGT
TTCCATCTCTTGATCTGAGCAAGCCACAGCCAACCCACTAGCACACGAAA
GAGATCACCGAGTATAGTCAACAACGTCAAAGGTTTGACCTCGATGCGCT
AACGTCGAAACGAGAAATGAGAAGCGGTGTCGTAGCTCTCGGCTTGAGAT
GTTCTGCTGCCGTTGGAAATGCTTTTTTCCTTCTTCGAGCGAAAAACAGC
GACCAAGATCATTTTTTTGTGCACGCCCTGGCTGTTGTTCGCTACTATCA
GCTGCTGAAGCGTCAAAGCGGTACAGCTGGGATGGGTTGAAGGCTTTGAT
GGTCGCATGGCGTTCCGTTTTGATGACGCTGTGGTTGGTTTTGTGGACGA
AGTGATGGAACACCTTGAACAGTAAGCTGTGCGAGGAGACATACGTCACA
TCCAAGATCCGCCGAAACAAGATTGGTTCCCCATAAAAAGCGGTATCAAA
TCTTGGAGTTCAGAAAGTTCGCACACAAATCTCCTCGATAAATTCAAGAT
TTGTTGACGACATTTTGTTCCCATAAAGACCGGTGTAAAGCATAGTTTTT
TGGGATCTCGAGCAATTGAGGAGCGAGACCTCAAGCTTCAAGCTCAAGGC
CTCTCAGTAGGTCCTTGTACTTGCCCGTAAGTCTCTCTTGCGATACGGCC
CCTGGTTGCGACGTTCACCAAGGCACACCTCGACGCGGCGCAACTTCGGA
AAAAAAATGGGGACAAAAACCCCGCGTCCCAAAGGGGTCAAGGGTCTCAA
GCACTTGGTGCTTAAGAGTGACTGACTGTAGGCGAGAGGGTCGAGCCAAC
GACTGTTCCCTGGTCAGGCCACGTAACATAAATTCAACGGCCCCGACGTT
TCCAACCGCCACCGCTTTTGTCGCCACCGCTTTTGTCATGGCAATTCCTC
TGGAACATGTAGCTACTGTACCCTATCGCCGACGCTGACGTTGATGATGT
TCCCGCTCATGTTTCGGATGTCAAATGTCACCTGCTACAGCAGTATTCCG
TTTCACGAGCAATATGGGATGCGAGCATATTTTGTGGTTGAATGGCTGAG
ACGTGTTTCTAAAAACTGAAGGGGACATCGGTACTCTCTTGTGGAGCTAC
CCCGTTGCAATCGTCGTTCCACCGGGCTGGCCAACAGAGGCACCCACCCC
GACTCTCCACACCCGGGTTGCGCGGCATGAAACGAAAAAAGATGTGTCAA
GAAAATGAGAACCCCCCCAATTGCTTGGTTTATTTTATTTGGCCCCCTTA
CCCACACTTCAAGTGAGCAGTTGCACGAGAGGCAATCTCCAGGCGGTTGC
TCGGCGTCCGAAGAGTGCACAAAATCGACCAGCGCTTGGAGACAGCATAG
ATATGCCATCAAAGAAGCCATGCTTGCCCGCCCGAATTTTGGATCAGCAC
TTCCTCCCAAGTTCCCCAGGCAGCTGAGACCTGTCTCGTGTTGTGTACCA
GACAGCTGAAGATATCAGCCCCAAAACGAAACTTCAGCGCGTTGCGCGGC
GACTCTAGACAACCCCACGCAGGCTTGCGATGACGTCAACGTGTTGGTTT
TTCCTCACAGATTCTTGAGCAGCCCGCCCGAATTTTGGATCACAGCCACA
GCCGGAGCTGTTGAGGAAAAGCTGCACCTCCCGGTGGGAATTTGGGCCCG
CGGGGGGATCCGCACAATCGTATTTTGGTCGCAAAAATAAAATAGAAGCG
ATTTTTTGTGCTACGTGCAACCCGGGTGTCCATGTCTCGCCATCGTCCCT
CACCTTACGCCCCTCTCTGAACCCACGAGAGCCTCTGATAAAATCGGCCT
CTCCATTAGTATCATCGGCGGCATTAAAAGTATTACAGTATATTTACTGC
TACGGGAACACTGCCGTGTACTGTAGCGTCAGTCACAGCGGGCTGAGAAC
ACAGGCACTTCCTGAACCGTGGCCTCGTGGTTGGGCATCCCCTGAGGTCT
TGCAAAAACAACACCGCCAGTTGAGTCAAGTTCAAAGACTCTCTCCAGTA
TATTCAATCGTGAAAGAGACGGGGGCGACGGTGATGGTGATGGTGATGGT
GATGTGGTCACACGGAAGAAAGGGTAAGGCTTCCTTTCCCCGAACCTCTT
CAGTATTGTCGCAAGAAATAGAAAATACAAGTAGGCGGTTGCTTCATTCC
AACGTCCCCAACGTTCCCGGATTTATGTCTGCAGTAGTAGCATTTTTTTT
TTTTTCGCGTCTTCATTTTTTTTTTTATTCGTTTTTTGTTTTTTTCCATA
TCAATATCTTCCATTCTACTCAACCCATACCATTTTGCTCTGTGCCATAT
CATTTGCTCTGTGATACTCCATTTTACCCTGCACCAACTCATCTCCTTCT
GCACCAAGCGATCGTCTGACCCTATTTTTTTTTTTTTTTTTTGGCCATCT
CATCTGGTCTGGATGTGAGCCTTCTTTAAACCTTTCGGCGATGTGGAGGG
TGGCATTCAGCCGGGATCACACGGAAGGGTTCCTCTTCCTGAGGCCCCCC
ACCTGCCCTCCCGCGGTTCATGCCTTCATACTCTCGCCATCACACCATGT
TTGTTCATCTTTTCTGCTTGTCCTTGTCAGGGTGTCGCCTGTAGAAAAAC
TTGTGCTTTTACCGGGAATGGATGTGGAATTGGAGCTGGGAAGCGGTATG
CGCAGGTCTCCGGGAGAGGTAGAGGCAGGAGCGGGGCAGGAGTCGGCGTT
AGGATGGGGCTGCGCACCGCAGCCAAGAACGCCTGGAAGCGTGTGCGTGG
CCGGGAGACGGGTGCGGAACGAAGGTCGGTGTCGGTGTTTGTGAGAGTGT
TGTATTGTATTGTATCAAGTGCATGTAATGTACCTGTTGTGCGTTTTTTG
TGGGCGTTTTTGTTTCTCTCCGTGGATAAGGCGTCGTCCAACGTCGTCCA
ACATCACAAGATAACCTGAAAGCGTCGGCCGAAACTAGAAACCACAATAG
TGCTGACATCGACAGTCCCGTCTTGACAGTCCCGTCTTGACAGTCCCGTC
TTGGGGGCGTAAGGCCGTACGGTACGGATGACTGTTTTTTTGCAAATAGC
GACCGCCGCCCTCGTTGTCCTCTTGTCCTCTTGGCTGAGGCTTGAAAACA
ACCATCAAACCATCAGTTCGAGTGGACCCAAACCAAGATTGGCGTGTGTG
TACATACCACCACCGCGATGTGTTCACTCTCCCTACACTGACTTGAGCTA
GTGACTGATCCAGTGGTATTGGTCACTTGGGAACTCATCTGAACGACCCC
CTCACGTTCTGGCCCCCTATTTTACGTGCATACAGTCATATGTTCGTAGA
TGCTCGTAGAGGTTCGTGGAAATCGTAGAGACTCAAACGAGGTCAACGAG
AGTTTGGCACCACGATTTCACGATTTCTTGTGACGTTCCGCCTTGCGTTG
CAACCGTTTTAGGTCTTTCTTGTCGCCGCCGCCGAACAAGAGCTGTTGCG
ACAACTAACCCTAACCCTTGTACATTCGTGTAGAAAGTAGTATAAGGTGA
GGGAAAGCTCGGTACCGTCACCGTTTCTCGCCCAGAAGAATTGGACGCAA
AATGTGTGGTGCTTTTTTTTGCTATGTGAAAATGAGAATGACAAAAAATC
ACAACACTAACAGAGGCGAAAAATTGAAAAATTGAAAAGAGAAGGAAGGC
ATGTTTTCGCGTAAGGCTTTTGAACCTCTGCCGCACTCACTCCCGACGTT
GCTCCACGATGCTCTCTCTATCTTTCTGCTGCTGTGGCGCGGGGCAACGT
GAAGCTAACCGAGCTCCCTCCTCCCCGCCCGAGTCTTCACGAAACGCCTT
TCCATCTCGTACACCCTTGACGTCTAATGCTCTCTTTACCGTTCGGTCTG
TCTGTCGTGTTGTGGCGCGAAATGCGACTGTGCGCGATGCAGTCCCGAGG
AGCTCAAGAGGGGCATTGCCAACTTCTACGATAAGTCTTCCGGTGCGTGG
ATAGATATGTGGGGCGAACACATGCACCACGGCTACTATGTCCAAGGGAA
CAAACCCAAGAACATGGAGGATCACAGGTTTGTATGATACACGGTAGGCG
GTAGAGGGGGCGGGGCGGCTTTTCGGTGGGCTCGTTGGAATTGATTCTCG
CTGCGTGTGAGGACAAAGGACAAAGGACAGGCCGAACCCGGAAAGCAGGT
CCGCCAAAATAACCAAACACGCCTACATGTTATCGCTCTGCGGACCGTTC
GGGTCCATTTTATTTTGTGTACCTTTTTTAGGTAAGTCAGCCTGTGACCA
CGGGAACTGACCGCGTCAAGTGTTGGATTTGTACGGAGAGATTGCGACGG
AAGGAGGTACTGGATAGAGAGACCGGGATGGTTTTTAATGTGAAGACAAC
AACAACAACAACAACAACATGCACACATGCACACATGCACGGCTGTGTGA
AAAGGGTCAATGTAGTTTTTTCTCCTATAGCATCCAAACTGGTGCAATGA
GAGGTCACGACAAGATCAGATATACACCTCCATGGTATGGTATGGTATGG
TATGTATGGTGTGGCTGGTATATATAGCACGTACATACGTCAATAGCGGA
GTTCTCAACGGGACGAGTGCCTCGAACGGTACGTGTATAGTACTTGTAGT
TGTTATGGAATGATCTCACTGTTGGAAAGAGCGCGTCAAGAACGTTCCAG
AGCGTTGCGAAGACGCGTCTTTCCCTCGCGTTGGTTTACCATTGGCTTAT
CGTTTACTTAGCGTTTACTTATCGTTTACTTAGCGTTTACTTAGCGTTTA
CTTAGCGTTGGTTCACTGTTGGCACCGTGGTGGCTGTGAAGATCGCACCC
AACGGTGTCATTAGAAAGCACTTCCCTATATTGTGCCGGTACGGTGGAAC
ACCTTCAAACCAAAGCTGACGACGTGGCATGCCCTAGCGAGCACGTCCAC
ACGTCCACGATGTATTGCACGCAACGTTCCCAAGAACATGTCATGATATG
GGATAAAGCAACGGCCTGGTGTATGTTCACTTTGATGATGGAGGTCGCTT
GTGTGTTTGGACTATTGATGGGGTTACGGTTAGAGGTTAGAGTTTTGTGG
GCATAATGGACGGCATGCTTGGTGCTGTGCAAGGGCTGCCGCTGCAAGGC
TTGCCCAAGACTTTGATGCGTCTGACGTGATCGCTGATTCCGCGACCCCG
CTTGAAAGCACGAACTCTTTTTTCCTTCTTTCTTTTCCTCTTCCTCTTGG
TGATCCTCTTCGTGCTTTGTTCCTCAGAAAAAAGCGGAAAGGGCCGACCA
CCATGTCAATGATGTCATGACATCATGATGCCACTCGTCTTTTCGTCTTT
TCCCCTCACGCGTTTTGTACTTCGTGTGTCTTTTCCGCCTAGTCGTTAGT
TGGGAATAATCTCTAATCTCCCCCTTCTCCCATCTTCTTGTCACCCTTCG
TTCCTTCGTTTCTTCTTGTCCTAGTCTTTTTTTTTTTTCGACACCTCGCC
TTATTGTTTTATTGTTTTATTGTTTTATTGTTTTATTGTTTTATTGTTTT
ATTGTTTTATTGTTTTATTGTTTTATTGTTTTATTGTTTTATTGTTTTAT
TGTTTGTCATCATTGCCATGATCATGATCAATGATCATGATCATGATCAT
GATCATCCGTCAGTTTTTTTTTTTTTTTTTTCTTTTCTTTTGCGTTTGGT
TTTTTTTTTTGTCTTTCTTTCTCATCATGTTGCTTGCTTTTTTTTTGCTA
GATTCCTCTCGTTTGTTTTCTTATTTTTTTCCTTGTGGTTTTATGTGACA
TGTAGCGTCGGTTGATCATTGTATTTCACACTCTTTGCCATGCTGTATCA
CTCCATGTAAAACGTTTCGTGCTCCCCAGGGCAGCCCAGAGGTTCATGGT
CAGCCGATCGCTGGAGTGGGCCGGAGTGGAGGAAGGTGGTGCAGCCCCCA
AGACTGGAGTCGACATTGGTGAGTGAGTTACTAAGTGACTGAAGCAAGCA
TCACCAGCATATATTACCAAGTCAAAGTTTAAGACAGCTACTGGAGCATA
TTACCATCATCACGATCAAGAGCATATGTGGCATCAGCGAAACCCTTCAA
CATTTTTTCGACACCGTCCATCAAGAGGATTCTGGTATGTCTAATGTCTA
TCCATTGTGTACTTACAGTATTGCTCTCTCGTTCAATTTGGCGTCGACAC
CGCTGAATGAGTGCCTCAACAGATCATAAGACACCTCCAAGACCGGCCTA
TCCTCTATGGTACATGGGTCGTGGAGTTGAAAACATTGGTACATGTTTCA
TGGGAAGTTGTATTTCCGTAGGCATATGTGATTGTGACTGTATTGTCATG
GCTGACCCATCTATTCACGAGAAACTCGAGGCCAAGCATCGACGGCCGCG
ATTCTCTGTCATCGCCAGAGGTCAGGAGTTGATTGATGGAAGGCAATCAT
GCAAGATCCCAGGGTTATTCACTGTCTGGAGTGTTTTTACGGACCGGACC
GGAATCCGGTCCGGAACCAGTGAGGCCCGTGACAGTGTCCAACAAAAATA
TCTGGTCCGGTCCGATCACGGATATTTGAAAAATATTCGGTCGGGCCCGT
GCGGGAAGCGTCCACGGATGGTCCGGTCCGGTCCAGTCCGTGAAGGTTCC
CAATAATCTGTGCGAGCGGATTCTTTTGCGGTCCGGATTGTGTTACACCG
TTAACAATCCACGGATGATTCAACAGAATCCGCGGTTTGTCCGACATAAT
CCGTGGATTTTTCCAAAAGGAGTCACGGTTCCCGAGCTTTCACTGTTCTA
TGTCCCGCAGTAAACAGCGACACACATCAACACTCACGTCCGCTCACGGT
CCACATACGTGCACACATGCGTGCACACACCGAGCGCTCTCTGTCTGTGC
ACACCCTCCATCAGATTCTGCGTTGACAGCACCAGCTGCGAAGCAGAGAA
ATGATTTTCCGGTCTAGGTTTCGTTTACAATAACCATTGGCAGAGGACGA
CACCCGACCGTGTCGAGATGATCATGTTCCTCAGGTCGAACCCGCATCTT
ATTCCAGGAATTAAGAAGTTGGAGAGTGAGTTGTCGAAACTGCTTGCAGC
CCAGTATGCTGGAAATGCTGCGGCTGTCCAAGCTCTCTTGCGGGAGAGCA
AGTGGTTGTCGAAATCGACTCTGACTCGGTGTAGCTGGGATGTCTTCGGG
CATAGTGGTCTCTTGTGTAGCGAGTGATGGATACACAAGCGCCCGGGGCT
ACCTATACTATTACCACTGGTATTGGATCAACAACAGTAACGCTGTTGCA
CGTGTTGCAGGAACATATGGATGGAGGAGGCGTTTCGACGAAGTATAAGA
GGCGTTTCGATGATTTTTCTTTGCTTTTGCCATTTGCTTGGGCTTTTTCG
CCCAAGATGCCTCAGATGGTGTCAACGCCGGCCTCCACGCACAGCACAAC
ATACACACAACTCCGTTTCCGGCAAAGCTACCCAACGTACAAGAAATCGC
AGGTACCGTAGTCCGCCAGTTGGTTCGGATATCCGTACGTTTTGGCGGAT
TTTCTCCGACGGTGCACAGTCGCCAAGTCCACGGTTTAGAAAATCCGGAG
CGTGAAAAATCCGTGCGACGGATTTCTCCGGTTTGGGTCTGTTCCGTGAC
GTTTTTCAAACGAAAATATCCCGTCCGAAAATATCCGGTCCGAAAATATC
CGGTCCGGTCCGATCACGGATATTTCAAGAATATCCGGTCAGGTCCGTGA
GGTAAGTGTCCACGGATAATCAGGTCTGGTCCGATTCGTGACATTTCCAA
AAATATAAATCCGGCTTCGGTCCGGTCCGTGATGGTGTCCGAGAAGAATG
ACCGGATTGAAAGAAACAAGAAACCGTGAGTAACCCCGAAAAATCCCACA
TCGAGCGATGTTGTGAGCTCACCGAAATTCCAACTTACGTCCAACCGTCA
GACGGTTTCGAGGGTTCCAACTGAGTGCATTTCATTTGTTTTGTCCTGAC
GCGTTAGTGTGTTCTGGAGCGGATAGCTTCAATCTCTTTGTGGAGGGAAT
AGCTCCAGGCTCTTTCTGGAACGAATAGCTCCAGTCTCTCCGACGGAAAT
TGGGCGACACACTCAAAACGATACCCCGACCCTTGTCGGATCAGCTCTCG
AAAGCTGATCTCAAGCTAGAGCGCAGATCTCCCGACACCTCGAGCATGGC
TAGGTAGGGAATCGAAAATGGTGGCCTGTCGCCAAGTTGCAGCAGCTTAC
TCGAACTGTGGCGGACAAGCGGGCAACCCTCGTCGTACAATAGTAATGTA
ATGTTTTGTGCTGTTTTTCGCGCAAGAAAAAAGTTATCCGACACTTAGCT
GTCCCTTTGTTCTTGTTGTTGTCTTCACATTAAACTCGTATGTCAGTTGC
TAATCCCAACATCTAGCAAAAGACTCTCGGCCCGTGGTAACAAAAATGCT
AGAGCCATCAGAGGATCCAAAGAGCACGCACCTAAGCAAGAAAAGGGTAC
ACAAGCCCGACGAGGTACACCTAAAATCCCTGCAGCGTAACATGCGTGCG
CAAGGCTGAAACTACTACACGTCCGTAATCCTCATTCGACTGCAGCAGCA
TCCCCCTATACTTTACCAACGTGAATGTTTGCCGACTACAGCGTATTGCT
GTCTGGAGTGCTGTCTGTACAAAAACACCGTGGTAGGCATGGAAATAAGA
AGCTGGGGCACGCAGCTGCTGTCTAAAGTGCTGCCAGAATGCGTCCATGG
ACACACAGCAGTGAAAAAGAACAACAACAAAGAGCCATCATTGAAATTGA
CAATCGCCCGAATCTATCCTCGCCTGTGTTAGGTACAGCGGTGCAAACAT
CGACACTGATTAGGAATCGTTCCACATTCGCATTGAAGGGGTCTTCCACG
ATGCAGGTGCACAATTAAGGCACCCGGGTTATCCGCGCCATCTCTCCCGC
GTCTCTCTACAAAACCAGTGACGTCATCACACACACCCAACACCTATATT
CAGGGGGGGAAAACGAAGATAATTGACAACACATAATGTTTGTCCAGTCG
GTTCCTCGCTTTCTCCCTTGTTGCATTTAGGGTTCTTGGTCTGAACAATA
AAAATTTTCGCGCCGAAGGGGTCAACCAGCCTAATCTTCAGTTCGTTGCC
ACCTGCTCCCTCCTCCTTGGATGGCGAAGCCAGGTTACTGAGACATTACA
TCTCCCTCTAGCAAACCTAGGGCAGTGCAGTGTCCGTCCACCTTTCTGGT
GGTGTCTGCCTCCGCGCACAAGAATATGACGGGCATTGCTGCCTACGCCG
ACGGCCATAAAGGCCCGCGCATCTGTACTTTTGTACCTAACACACCAGTG
CCGACCCAGCTTTACCACTAAGCACGCCTCGCGGCGGGTGCGCAGTGGCA
AGAAGGTATCGGTCCCTTGAGGGTGAGTCTAGCCTTGCTCGCTAGAAAGA
CCCCCCCTCGCAACGGGCCATGCCTAGGCAATAGCCTTGCCGAAGCAGCG
AGGGGAAGAAGGGCTTTTAGACTACTGTACAAAAAAAAAGTCACTCCGAC
ACTGTCTCTAGACTATGAAAAAAAACTCACTCCGACACCGTCTCTATACT
ATATGTACAGCACTCGGGGTGTCGCCCATATCGTTGTATGCATCCTCCGC
GCGTAGCATCCTTCGACCACTCTTCCTCTCACTCGTCTGTCTGCGTTTCG
GATGACTGCTTGCTGTTGTTTGCACTCACGACTGACTGCTGTTTTAGTGC
AGCAGCTCATCTTGCCGTGCTTTCTCTCCAGAAAAATAACGGGTAATAAA
AAAAACGCCGATCAATTATTTATAACAAGGTATAATCTTCTGTTTCTTGT
TTTTTGCGAACAATTAATTCCTTCGTACAATATCAGCTTCACTCGGTCTG
CTGTTTGTGGGGAGCAGTCTATCTCGCCTGTGAAGAGTTCTCTCTACGGA
TTGATGGAACTCATCCCAACTAGTGAAACCCGCCAACGAACACACATGCT
CCGAGGCTGCCTTGTCTCCTCTCTCGCTGTCTCTCGTCCTCCACCACCTT
TCTTCTTCTTTTGGCGAGCGATTAATTTCAGGGTACTCGTCGGTACCATT
TTTTTAGGCGGCACAAGTTTAGGCGGTACCGCAACATGACGGAAATATTT
AGACGGTACGCGGTTTCTCGTTTTACGGCGGGACCGCCTTCGGCGGTTCC
CGGTACCACCAAATACGGCGGTATTTTTCAGGCGGTTTGCAATTTGACGG
GACCGCCTTCGGCGGTTTCCGGTACCACCAAAATTCGGCGGTATTTTTCA
GGCGGTTTGCAATTTGACGGGACCGCCTTGGGCGGTTCCCGGTATCACCA
AAATACGGCGGTACCCCGCCGACGGTATTAAACCACGATGTGCCGCCGTG
GTACATGCACGTGCGCACGCACAAGTGTGTCCGGTGAAACTAAAAGCACC
TCGTAAATCAAAATGGTTTTGAGTTTGGAGAGACAACACCACACCAAAAC
AAAAAACAAAAAAACAAAAAACAGCAGCAAGGAATGCGATGAACCGGCAT
CAAGACAAGAAAACAAAATAACACCATCGGCAGGGACGCCCCGCACAGAG
CTATTCGTGACGGTGTGCCTTGTGGAACAAGCTACGGTCAATCGGCTACT
GCTGTAGATTGAATGCCCCTGCTGCGCAGCCGTGGACGCTGCAATCTAGA
CTACAATATAAGTTCAATCGAAGTGTTGGCTCGCTTCTCCTGTGCAGCCT
GAGACTCCGCTGCACTTTTGGCGGTCTTAGCGCGGGCCTCCGCCACCGCA
GAGTCGAAGGCTTGGACCTCGACAAGCAAGTGCTTGTTGAGCCGGATCAG
CATCATGCGCTCGACCTTGTGCGAAAGCATGTTGCTGCGAAGGGCGCCGA
TGAGGTGAGCGAGCGCTGAAAAGTTGCGCTCAGCCTGGCAGCTGGTGGCC
TCAATCCCAAGGTGCAACCGAGCGATAAACGCCAGGTAGGGCATTTCCAG
GTGGGGATTGAACTCCAGTTCTTCGCGTGCGGAGGTTTAGTATGTAACAT
ATGGACTACCTGCCCTCTGGCGGTACTGTTTTGCCGGTACTACGATGTGC
CGGTACTGTTTTGCCGGTACTACGATGTGCCGGTACCTTTTGCCGGTATG
CGATATGCCGGTATTTTTTCGGCGGTCCCGGGAAGACCATAAAACAGCGG
TATTTTTTTGGCGGACTGCGATATGCCGGTACTTTTTTGGCGGGAAACGG
GAAGCGATTTTACGGCGGTACCGCCTTCGGCGGTTCCCGGTACCACCTAA
ATACGGCGGTACTCCCGGCAGTACCGGGACCGCCCAAATTCCGGCAAAAA
TAACGACGGGAAAAATACCGACGAGTACCCTGATTAATTTCTCGGTGCCT
CCACGGCCAGACTGGCTCTAGAATCCTCTGGGTCGAACATTCTTCGATCA
CTCTTTACTTCCACAATCGTCTGCGCTTCGGTGGAGTGTGATTGACTGCT
TGCTTTCGCTCACACTTTCGACTGACTGCTGTAGCAGCTCTCATGCGCGG
CTCGTGCTCTCTCAGAGCTCTCTAGAAAACGTAGAATAGCAACGAAAAAC
AACATCGACTCGTCAAATTTGCACGAACTCTGTCTTTTTGCCGAGCAATT
TTACAATTTACTGTAGTTGTCTGTGCTTCCACCAGCAAAACTGGCTCTAC
ACTCTAATTCTGCTGTTGTTCACGCTTTCGACTGACTGCTTGTAGCAGCT
CTCGCGTCCTGTAGGTACTTGCTGCATTCTTCAGTCTACCTCGCCTGTTC
GTTACGGATTGGCCTCATCCAGCGGGATTTGGGTCCATCCGGACGATCTG
CGACTCATCCGGGAGGATCACCACCCCGCAGCCCATTCGAACCCGTCAGC
CCATCAGGGAGGACTTACTTCTTGATCTATCTTCGTTTGTTTACCGACTT
TACCGACCTTGTTCATCCGTTTTTCTATGTGTGAACAACATAAACTTCGG
CTTCTAGAGCTGCACTGAAGGCTTTGTATGCCAAGGGAAGCAAACAAGTG
CTACACGAAGTGAGTTCCCTCAGTCTGCTTTTTTTCTGGGTGTGATAGTC
TTTGGTTTTTATTTTGTGTACTATTATTGGGTGTTCGGTTTTTCACCTCT
TACAGAAGTTTGTGTACATATATACTCCAGTAATGAACATCAGGTTCATG
GCGACAAAAATTGTCATGTTTTATTCATTTTGGTACAAACGTGACAATGC
TCAGCCGAATGGCAAAGATAAACGGATACAAAAAATATAAAATAGCAGGT
GGTGCTCATTACAAAATACCGAATACGTCATAAAAAACCGCTCGCTCCAG
ACTAGCAACGACGACGAAACTCGTCGCGTTGCTTTATCAACTGATTAATT
GATAATGAATTAATTTTTGATAATTGATCATTGATTAATTGATTATTGAT
GAATTGATTTTTGATTCAGGTTGCGGTGTTGGGGGATCCTCTCGACAGAT
CAGCAGGAGGTACGGCACCAGCATGACCGGCATCTCGCTGTCCCCGTTGC
AGGTAAGTCAAGTCAAGTCAAGTCAAGTCACGTCAAGTCAAGTCAAGTCA
AGTCACGAGCAGTGACGCACTCCAATCGTAGCTCTCCAACATCACATCTC
ACCTCTCACATGTCAAATCTTGAATATTGAATCGTTCACCTCTCCAGTCT
CGAATGCAATTGCTGTCGCGAGTACATACCACAACAACGGCAGTGAATCA
GAGGCTTCAACTGCGTTGACGGGTTGATATCGGCACACCTCTTGCTTGGC
TGTGTGCTGGTCCCCCATTATTGGGCTATTTGCGTCCTCGGCAATTGGTG
TTTGTATTTGGGGTTACCTTTGTCTTTCGTACTCCGTATTTGTTTTTCAT
TTTTGTCACTATTTTCGCAGGTGGAGAGAGCGAAAGCGCTTTCAGAGGCG
GCTGGCCTTGCAGACAAGTGCATGTTTCAGGTAAATACAACAACACACCC
CGTCACCCGGTTGGGCACTATGTAAATGAAGCCATTGCTTATCTACATTG
GACGTCATATCAACAGATAGAGATGGTTTAGTTTTGTTTTGTAAGGCCGT
TTCTTATAGAGGCACATTCTCAGCGAAAAAGAGCAAAATCCGATATCCGT
CTTTTTTCACCTGGGCGGAACTGCTGCGTTTGTTTTAGCGATCGGATTTC
AAATCAGATTTTGGGCGTCATGGCCCGAGGTCACACGTACCAATTCCGTG
AATGTCAGGGCACCGATCGCAACCAAACTACTTTGAACGTGTGATCCATG
TCTGTGGGCGTGGCAGTTGTGAGGGGCATGGGCATTGTGTGTGGCAAGAG
CTCGGTGGTGATGCAGAATGAATCCGTTTAATTTTTTTTTACCTGCGCCT
GTGGGCAGCAACAGCAGCACAAACAGCACACCCTGTCACCCGGTTCTCAG
CCGCTGGGGTACAGATCGCAACCAAACTACCTCGAACGTGTGATCCATTG
TGATATCTGTGAGGGTGCGTGCGTTGATATGTACAGGCACGGGCTGGCGT
GGTTTTGATGTAACGCTAGGTTCGTGTTGTAGTTGTATCTAGGCATCCCG
TGCATGGTCTTAGTATCTTGGGAGTAGATTGTGGTTGAGGGGCTCCGCGT
GTGGAAGGATTTGCTCCGCATACGTAGTTGCTTACTCCGCCGTTGGCTGC
TCTTGCTTTTTTTTTACTTTCATGTCATGTCATATCATGTCATATCGTAT
CACACACTGAGAAGCGAGGCGCCTACTTGCTTTCCGCATGGTAATCTGTG
TCGTTTCGGTTTTTTTTTCTACAAAATACAAAAAATTACCATCTCTATCT
TTCGTCGTCTAGGATTGATATTGCAACGGATTAATTCATATAGTGACTAT
ATTGTTTCTCTGCTGATCCTGGCCCAACTACGATGATAACTCCCGTGTGA
GTACCAGACTCAACAAGGCAATTTGGTAGTCATCTTGTGTGTCGGATTGT
AGTCATGGGAGGGTAGAGGGAGTGTGTGGGGTACGGGTTCTAGTGTGTGA
GCTTACATATGTGGTAGGTTCTAGTGTGTGAGGTTACATATGTGGTAGCG
GGGTTGCGTGTGTGACAGCATGACAGCAGTTATTGGTTGTGACCACCAGT
CTTGTGCCAGTATCAATGTGGTATATGCATACGTGATGAAGCGTCTCAGT
CGCTTCATCATCGGGCAGGAGCAATCATGTTACAGTAGCGGCCACGATTC
AAGAGAAATGATGTAAGAGATACGATTTAAGAGAGTCATTTTGGCTCGGC
CCGGCCACATTAATTTCAATACATTACCTATCCCGATTTAAGAGGAAAAT
AGGGCCTCTGCCCGACCCTCTCTTGAATCGTGGCCGCTACCGTAATAGAA
CCATGCCCAGGTATGAAGTAGTCTTTGTGGACGTCTCAATTCGTACGTCA
ATCGTGAACTCATCATCATCCACACACACACACCTACGATTGATGATTGA
TGATTGATGATGCAAGAAGAGCAAGGAATAGCTTGTTGTCCACACATCAA
AACCTACCTGAGGTGGTTACTACAGTAGCACAACGGCTCAAACGTTTAGA
GTCCTGATTCTGGAAGCGAAACATTCATGTTTTTATCGCCATGTTTTTTT
TTTTGGGACCGAATCAACGGCTATTCCAAAAACCACGCGAGGTATGGGGT
AACTCAGGCGAATGAAAACTCTTGCTGCATCTATCCCGATTCTTATTCGG
TCGGGGTCTTTCGTGGGACAGCAAAAGTGTATGCCGTCTTGACGAAGAAG
CTGTAACCTGCACACACGTTTTTTTCCGAATCAGTTGCAAGTTGTTGTTG
TGTCCAGGTTCAAtttTTTTTTTTTTTTTTTGTCCTACTTGCAAGGGACA
TATACAGTATCGGTTTTAATGCTTCCCCTTGCTGTTTCGATGGTCAATGG
TATTGTGAACTATGCCATGATTCATCGCTAATATTTCCACGGGTCCATTT
GGGGCGGATTCAGGTGGTATATCATATCGAAATCTCAAAAGAATATAATA
TGCTGAGTTTAAAGTACAAGTAGATAAGAGTAGTGGTATGCAATTGTATG
AAAAAGAAAAAACCATTCCGTCAGAGAGCTTGACGTTGAGAATAGCAGCA
ACAACCACCAATATTGCCGGTCCAACCTTCCGAACCCAGGGACAAAACTG
CATCGCGTAGTGTTTGGGTGGCATGTTACGGTCAGAAAGGAAGGTGTATA
AGCAACAAAGAACCCACGAGCGATGTTTGCTATTTTTGCTATTTTTTTGC
CTTTTTGATCCCCGCGTATGAATGGGGAAAATATTGTCAGAAAACGCCAC
CGCTACTTGGACGCGTTTATGCTGCAGCCATCAATTGCTTGTTTAAATCG
AATCAGCACCATAGCATACCACCTAATTTCGGTGTCATCTACGCTACCTC
GGGGGACCAATCTGCAGACGTTTTATTGTAATTCTTTATTTTTCTCCAAA
ATACAAAATAAACCCATCTTTCTAAAAAAATGTCCATTAATGTAACTGTT
CCGATACAGCGGTGTAATTCTGTTTCGTTTCGGTTTTGTAACTGTTCGAA
TGCAGCGGCAACCGGCAACCGGCAACCAGCCACCGATGCTTGAAATGAAA
AGCGTCTGTTTCTGTAAAGGAGTCTGTCGATCGACGACGCTGATGCTAGC
CCCAGCCCCAGCCGTGTTGCTGCTCCCGATGTTGATGATGGCAGTGCTGT
TGTTGATGATGGTGCTGTTTCGTTGTTTCCGCTTTTCGCCCTTGACCAGG
TGGCCGATGCCTTGGAGACTCCCTTTAAGGACAACTCGTTCGACCTCGTG
TGGAGCATGGAGAGCGGCGAACACATGCCTTACAAGCCCAAGTGAGCTAC
ATGCACTATAGTATCGTGTTTTCCCTGTTTTGTTGAGAATGAGGTTGTAT
TTGGCGCTCCACATCGGTAAAAGCTTAGTGTTCTTGGAGAACTCTCGGTC
GCCCCGGTGGTGTAGTTGATAACCTCGTGACGTCCCAGTTTCTAGGTCGC
GAGGCCAAGCTTTTGGCGAGCTCAAGCACCAGGTTTGCCTGGAAGGAACG
TGAAGGTAAAGGTGGAAAACAAAAAACATTAGCAAAAACAAAAGCAAAAA
TGAACTCTTGTGTCGCCTTCGTCCCCCTGTGTAACTCCGGCGGGTACGTC
CAAACATGCTACAAAGGTATAACTCTTACTTCACAACAAAGCAGATAGGA
TGACAATACACAAACACGAACCAAAGAAGTTTGCCTCTAGTGTATCGTGT
ACTAACGCCCAGGGCGAATCTGCGATGGTTTCATGGTGTGTATGGCATAC
CAGTGTTTCTGCGAAGGCCTCCCCGTAGTCACACAGACAGCAGTGATAAC
TACCTTTTTTCTTTTTTTTTTTAAGCACAATTCACCGTCTTTTTCGTTCC
TTCCTTTTTTTCCTTCGGTGTGTTCTCAATTTTCAAAAGAAAAACGCACA
TAACTTTAGAGAAAGGCTACCATCTGGGAGGTCCCCCACAGACGGGTGTT
GAAATTTCCATAGTCTTTACAAGGATGGTTGGAATGATTTGACTTATTTT
TGTATATTTTTCTTTCCCCTTTATTCTTGCCGTCTTCTGTCCTCTTCTGT
CTTCTGCTCTCTCACGCATGATGTGCCTTCTTTTGTCGCCTGAATTGCGC
CCCACCCCCCAAAGGTTTGTGCGAGAACTGGCACGCATCTGCGcCCCTGG
TGGGCGCGTACTCGTTGTGACCTGGTGCCACCGTGATTTAAAAGTAGAGG
ACGGGGAGACAGAGCTAACCTCACAAGAAGAGAAGCATCTCGCACGGTGA
GCAACAAGTACTCCGTTTACACTGTTGTTGCGCGTGTACGCGTTCTCAGA
AGCTCGTCGGTAGGTGTGTGAGAATCGCCGTGATATGAAAGATTGATAGG
GCGGGGCTAAGTTAAAGTCAACCGTTGGGCTGAAGCTCTCGACACTTCCC
GAACGGAATAAATCGATGTGAAATACATGTCTTTTTTTTTTTCTTTTCTT
TTTTCCCCTTTTTCAATAAAAAGATGACATGATGACATTCGTAACCGCCG
TAATCACCGTGTCCGTCCCTCGCTGTTTGTACGTTGTGTACCTTGTGTAC
CTGGTGTATCTTATGTTGTGTACCTTGTGTATCTTATGTTGTGTACCTTG
TCTACTTGTGTACATTGTCTACCTTGTGTACCTTGTAATGCCTTACCGAT
GGTCTTGCCTGATTGAATATATAGTTTCTGAGAAAGACGTTTGCAGCAGC
TATTGCAGCTATTGCAGCTATTGCCGCTATTGATATTGCCCTATTCCCCT
CACTCCCCTCCCCTTATTGCCCTATGCCCAATTGGGCTATTTCCCCATCC
GCCTCTCACATATCATGTATTATGTATCATGTATCATGTATCATGGGAAG
GGTGCAATACACGCATAAAGTTGTTGGTACAGTACACGCACAGAGTTGTT
GGTATGCATGCGATCATGTGATGTATCTTGTACAGAGTCGATATTGCCTG
TGAGCTGCTGTGAGTGATATTTTCTGCTTTTTTCTCCTAAGAGTGAAAAC
CGTCGGCTTCGCATCGACTATTTTTTTGCGAAACGGAATTAATGATTAAG
GGAGATGACATGACATGGCATTTCAAGAAAATTTAGAACCTAATGCTGAG
TGGAGATGAGGTGAGATGGCCACGCAGGTGCCCGGGCGCGTGCGACTTCT
TTCTTCTTCACGTGAAAATGCACTTAAGAGTTAACGCACGAGTTAACGCA
AGAGTTAACGCAAGAGTTAACGCAAGAGTTAACCCGTAGCTTCCCGGGCG
GGTGCGGCTTCTTCTTGTTCTTGATGTGAAAATACACACAAAAGTAATAT
TTCATTTATTGGCCCTATTTCTGTTTACACCCCGTCAACCTGTCAGCCAC
GGTATGATGTGATACGATGTGATATCACGAGAATAGACACGAGAGCACGC
ATTTGGTCAGTCGGCCCTCTCACTGCCATTGTCACGGCTGTCTCTTCCAG
CACACCAGCACACCAGTCAAGAAGTGCTTTCTGGTCCTTCGCTTTCGAAC
ACAAGAGGGCTGATGCTTAGGCTTATGCAATACCAGCAATGCCATCAACG
CCAGCGTTTCAGCGTTCAGCCTGTGTTTGCCGGCTTTCGAACGAACTGGC
CCCTTTTTTACTTTTGTGACCGCCTTTTTTTTTTTCTTTTTTCTTTTTCC
AAGACCCATCGACTCTGTTTCTCTGGAACTCTCGCCCCTCCCCTCTCTCC
TACCTGGTCCCGCGTTGTTTACCAGTAGTAGCAGCAAAGCCGGGTGGGTT
TAAAACCTCTCTCATACCATATATCCCTCATTCTTCACCCTTCATGAGGT
GGATCGCAATAACATTGTAGTGGTCAAGGTCACTCGTGGTGCTTTTGCGG
TCCACACGGTATCATTGGTATTCCTACCAAATCCAGCATGGCATAGCGGC
GCGTCAGCACCAGATTCCTCCTGTCGCTGTTCTTCCAGCGAGGAAGGAAC
CTTCTACGAATTTTGATCGGCTAAAGTGAGATTTGCGATGTAGTTTTTCG
TGGACTTTTTTGCCTCTTTCTGTCACCCTCTCCAGCCATCATCACCACCG
CCACCACGCGGCGAACAACAGCATTTATTTGTCTTCCAAAAACCCAAAAA
ATAAAAATTAATAAACTATTCTACCAATCGAGCAACCAAACAACAAAACA
AACAAAACAAAAAACTATTCTTGTGTTATATTTGTCTGCTGTCATTGCGT
TGCGCGTGTTGTGTTCGTCTTTTATTGTATCTTCATTTTGCAGTATCGCG
GGTTGTGTTCGCTTTCTTGCTTCGAAGTATCATACCTGTTGTCGTACGTT
CGTAAATTAGTGCATTTCTTTCTCTCTCTTGCATTGGGGGCGACGCACAC
TTTTGGTAAGGCTGGGACCCACTCCTTTTCTAAATCCTGTTTGGCGTGTA
CCTGGTTGTTTATCTTGGGATCCATTAGACTAACAACGCAATCATTAGCG
TTTGGTTCGCTTCCATTCGCTAAATGGTGTGACTTTTGACCCATGGCACG
ACCAGTTTCTCCACGATGTTTAAGCCATTTCTCGAAGAGAAATTCTTGTG
CGCGAAACCCCGGGTTGACAGGTGGATTTCAACGTAGCTCGTTCAGCTGT
GCAGCTACTTTCCAGAGGAGGCAAGGCCGTTGCGGCCGCTTCCACGGCAA
TACACGCGTAAATCGAGCTAGTGTGTTTGAATTGCGATGGATACCAAGAT
CAGGTTACTGTATATCAAATAATGCATTGATGGTGCGTTGCAACTCTTTG
TCCATCACGAACGAAACAGGATCAACAAGGCATTTTACCTGCCCCGATGG
TGCTCGACCGCCGACTATGTCAAGTACTTCGAAGACGAGGGGCTTGTCGG
CGTCAAGAGGGCGGACTGGACAGAAAACATCCAGGTCCGTTTCTTGAACT
CGTTTTGCGATAAGATTATTGTGAGAAAACTTCGCAACAGGGAACGCTGC
TCTTGGTCGTGCAACATTGTTACTTATTTTTTTGTTTTGTTTTGTTTTGT
TACGCGTCGTGAGCGTTTTGCAACAGTAGGAATAGGTTGGGCGTTGGTAT
CGTAGCCAAGGAGCAAAGGTTCGATATATAGATGTTGTCCCCTGTGTCCT
CAAAGTTCCATATGACGCTGCCAATCGCTGTTGATATGACGCTGCCAATC
GTTGTTGTGCTAGATTGGTTGGCAATTTTAGTCGTTCTAAGGGATGGTAT
GGGCAGGATAAGCAAAAAAAAAGAGCATATTTTAGCATATTTTAGCATAT
TTTAGCATATTTTAGCATATTTTAGCATATTTTGTTTTTTGGTTGTCCTG
GTGTCGTAATGCCAAGCCAAGCACCAATCAGATAGATGTGAAAGTAGTAC
AAGGAAAACGGTGGATGGCGCCATCGTTATCCACGAGCTTCCAAGTGCGC
TTTCCATCCCATCCCATCCCATCCCATCCCATCCATCCCATCCCATCCCA
TCCCGTCCCGACCAATTCCGTCCCATCCCCTGGACCGTACCACTTTTTTT
TTTTTCGGTGACCGTACCTTACCGTAGCACCTCATACGTTCTGTTCTGTT
CCTGTAGTTCTATTTGCTCGTTTACGACATGTATACACGTGTATCCATTG
CCATGTCTGAACTCTCGGTGTTTTGAGGTGGATATTTTCCTCTCAAGGCC
GTTTGTTTCGTCTGTTGCCCGATTGAGAACATGATGTGCCCTCGAAAAAT
TGTCAGTCGAGGGCTAGTTTGTTATTGTCGGCGGGCTGGAAGAAAGGCGC
TAAGGTCCGTTGGCGGGGTAATGGCTTGCACAGATCCATCTAGCACAGCT
TTTGAGTTTTCAGAATCGAGTGTTTTTGCAAGGTACCTAGCATCCCACGT
CGGAGAGAGTGTTGGTGTCGAATCTACGGAGATATCTTCTTAGTATGGAA
GTGTGTATAAAGTTCCGGCGAGCAAAGCCTGTACAAAGTTGATACCGGAA
TAATTCGTAATATCTACGACTGTCGTCGTGAAGATCTTTGATCAAGAATG
GACAGACGTTAACTTGTCGATTTCGCTTGCTTCGTCTAGGTAGGTGATGG
CAGATGGCACAACATGGCAGATAGCAGATTGCAAGAGTTGAGAAGCGACA
CTCTCCTCATGTTTCGCGGCGTGGCACCAGGGTAGACTTACTACCCTACT
TCACCCGGCAAGTTTGTCAGAATCGTTCTCCGAATGTTTTTTTTTCTTTT
GGCTTTTCAGCGACCTTCTTTTTTTTGCCCTCTGTCAGACCGTTTTTGAA
CCACCGTTCTCTGCCATCAGCCATCTGTACTTTCTCTTCTTCAACTCGCT
CCGTGAAACCGTCGAAACTATCGTCCGTTTTGAGCAGCCCTTCTGGCCGG
CCGTTCTCCGATCTTCGGTTTCGCTGAAAGGCGTGGTGAGCCTGCTCAAG
TCTGGCCCTGTGACAATCCGTGCGGCGATGGCCATGGTGGTGAGATCCAT
TCCACGAATCGTTCTTCGGACTTTGTTTGGGACCCTTCCACGAACCGTTC
TTTGTTAACCTTTTGGTCAAATGTCCTGGAACGGGGGTTGGTTCTTCTGC
GAACTTTAGCCTTGGCGAGAACTGTCCAGAGGGACTGACTGATATCAAAA
CCACCACGAGTTGCGAGACAGACGGTTCCGTTTCGTACCCAGAGGCCGCC
AATGTTAGCTGCAAATGCGTGGACGGGTGTACTTTTGCTGCTGACACACT
GAATACGATCCGAACCGGTCCACTACGGTAGTACTGCATAAAATACAGCT
CGGAGGGGTGAGATTCCCATGATACCAGCGGTACAATGGTCCTCTCAACA
GCAGTATTGAGAACTACACTGGCAGAAATATTTTGTTTTTTGTTTTTTGG
ATAGTCATCCTATCTCCACGGAAGACGTCCGCTTCAGTTGAACCACGACG
GATGATCAAGGGTGCTGAGATAGCAGCAGAGATCGGAACGAGTGTTTAGT
GTTCAGTAAATGACAACAACCTCTCCGTTAAATCTACCTCCGGATTGAAC
CTCATCTCGTCTTGTCGATGTGTCGTCTACAAATACTCTCCCCCTCCTCT
ATTGTTTTACATGTACGAAAATGAAATAACAGATGATAAAATAAATTGGG
CTGAAGAAATATAAACAAATAAGCACGACGAGGAGGAGAGAGACAGAAAG
ACACAGCCCAGTGATGTTGCTATTGGCCAACGAGTCAGCCGGTAGAGACA
CATCTCTCTCTCTCTATGTTCTTTTGTTATTTGCTATCATCCCATCTAAA
CTGGCCTATTCTGGACGTCGGTTTTCACTTTTCGATGCTCTTGATTGGCT
GACGCATCTGTAGGGGTCACACAGGAGGAAGGCCACATGTAAGACTTTTC
TTTCTTCAGGACCATAGGAAACCGAATCGAATTCTTCGAACATTAGAACG
CATCGCGAATACGTAATAGTTCGTGCACTTGCTTACGTTTTTTGCTAACT
AACTGACGTAGAGATGTCACCTACTTAAGGCTCGGCACCCGTCCAGGGCA
CCCGTTTCGCAGCCCTACCCCCACATTCCATCCTCACCCGGATCCTTCCG
CTCGGCGGCCTCCCCCTCCTACCGGCCCTTGGGGAAACGCCTGCGACGCG
ATGTCCGTCTTTATTTTTGCGTCCGCCGTGTGCGCAGTTGATGGTTCAAG
GGTACAAGAAGGGTCTGGTGAAGTTCGTCCTCATTACGGGCAAGAAGCCG
TTGCCGTAGAAACAAAGAGCTTAGATAGTTTGTCTCTAGTTTTTCTCAAA
CAAACGACGGGCATGCCACTGGGCCATCCACCCCGACACTAAACACCCTA
CATCACACCATCAAGGCGCGTGTAGTTTAGATTGTCGGCAAGCATGCATG
TTTGGGTTATGATTTTGGTGTTGTTGGTGGAATAAGGTTAAGGTTGTCGT
ATCCTTGTCTTCGGAAGGGAGCTGTTGGCTGCCTCGTGGATCTTTGCGTC
GTTTTCTCATTGTCTACTACTATATAAGTCCAAGGTGCGCCTACGGTACG
CATGGTACGGCTGCCTTTTACATTATGACTTCTGTCCTTCAGAGGCGTTT
GTTAGTGTACTCAAAATTGAGTTGGAAATGACGGCGAGCATCCCACGATG
CGAGCGCGTAGCTGGGACTGGGACGCGGTACAGCACGTATGGCACGGCCT
TGAAAACGGCGCCATAATTCAGACTCTGTCGACTTCGTTGGTAGGATTTT
TGGCAAGATTGAATAAGTACCCCGTAGTTGCCGGCGGTGTTCACGTGTTC
CCCAATCAAACGGCTTCGTTGGGAGTGTCTCGTGAGCGAGGGCTGACAGG
CGCTCCCTTCGCCTCATTGAAACGTTGAAGAAACATGGATTGATCTCGGT
GACACCCTCACCCCTCACTTGTCACTTCAAACTGGATGGTATGAGTCAAT
GATGCAGGCCAGATGCAGCTTGGAAGCGCATCTCAACCCGACGGCTGCCC
TTAGAGCTCCGGAGTCGTGCCCCAACACATTTGAGGGGAATAGCGGACGC
AGTTTCAAGCCCCTGGTACTGGGTAGCTGGTTGTTTCAG
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Coding sequence (CDS) from alignment at P-lacustris_contig10:274766..299154+

>mRNA_P-lacustris_contig10.87.1 ID=mRNA_P-lacustris_contig10.87.1|Name=mRNA_P-lacustris_contig10.87.1|organism=Pleurocladia lacustris SAG_25_93|type=CDS|length=2454bp|location=Sequence derived from alignment at P-lacustris_contig10:274766..299154+ (Pleurocladia lacustris SAG_25_93)
ATGAAGGCTGTATCAGGAGTGCACGCGCTATGGGCAGGAATGTGCATTTT
TTCGCCTTCCCACGCCTTTGTGCCATTGTCCTTTGGGAGCATGATGAAGG
CTGTATCAGGAGTGCACGCGCTATGGGCAGGAATGTGCATTTTTTCGCCT
TCCCACGCCTTTGTGCCATTGTCCTTTGGGAGCATGCTGGGATGGGTTGA
AGGCTTTGATGGTCGCATGGCGTTCCGTTTTGATGACGCTGTGCTGGGAT
GGGTTGAAGGCTTTGATGGTCGCATGGCGTTCCGTTTTGATGACGCTGTG
GGTGTCGCCTGTAGAAAAACTTGTGCTTTTACCGGGAATGGATGTGGAAT
TGGAGCTGGGAAGCGGTATGCGCAGGTCTCCGGGAGAGGTAGAGGCAGGA
GCGGGGCAGGAGTCGGCGTTAGGATGGGGCTGCGCACCGCAGCCAAGAAC
GCCTGGAAGCGTGTGCGTGGCCGGGAGACGGGTGCGGAACGAAGGGTGTC
GCCTGTAGAAAAACTTGTGCTTTTACCGGGAATGGATGTGGAATTGGAGC
TGGGAAGCGGTATGCGCAGGTCTCCGGGAGAGGTAGAGGCAGGAGCGGGG
CAGGAGTCGGCGTTAGGATGGGGCTGCGCACCGCAGCCAAGAACGCCTGG
AAGCGTGTGCGTGGCCGGGAGACGGGTGCGGAACGAAGTCCCGAGGAGCT
CAAGAGGGGCATTGCCAACTTCTACGATAAGTCTTCCGGTGCGTGGATAG
ATATGTGGGGCGAACACATGCACCACGGCTACTATGTCCAAGGGAACAAA
CCCAAGAACATGGAGGATCACAGTCCCGAGGAGCTCAAGAGGGGCATTGC
CAACTTCTACGATAAGTCTTCCGGTGCGTGGATAGATATGTGGGGCGAAC
ACATGCACCACGGCTACTATGTCCAAGGGAACAAACCCAAGAACATGGAG
GATCACAGGGCAGCCCAGAGGTTCATGGTCAGCCGATCGCTGGAGTGGGC
CGGAGTGGAGGAAGGTGGTGCAGCCCCCAAGACTGGAGTCGACATTGGGC
AGCCCAGAGGTTCATGGTCAGCCGATCGCTGGAGTGGGCCGGAGTGGAGG
AAGGTGGTGCAGCCCCCAAGACTGGAGTCGACATTGGTTGCGGTGTTGGG
GGATCCTCTCGACAGATCAGCAGGAGGTACGGCACCAGCATGACCGGCAT
CTCGCTGTCCCCGTTGCAGGTTGCGGTGTTGGGGGATCCTCTCGACAGAT
CAGCAGGAGGTACGGCACCAGCATGACCGGCATCTCGCTGTCCCCGTTGC
AGGTGGAGAGAGCGAAAGCGCTTTCAGAGGCGGCTGGCCTTGCAGACAAG
TGCATGTTTCAGGTGGAGAGAGCGAAAGCGCTTTCAGAGGCGGCTGGCCT
TGCAGACAAGTGCATGTTTCAGGTGGCCGATGCCTTGGAGACTCCCTTTA
AGGACAACTCGTTCGACCTCGTGTGGAGCATGGAGAGCGGCGAACACATG
CCTTACAAGCCCAAGTGGCCGATGCCTTGGAGACTCCCTTTAAGGACAAC
TCGTTCGACCTCGTGTGGAGCATGGAGAGCGGCGAACACATGCCTTACAA
GCCCAAGTTTGTGCGAGAACTGGCACGCATCTGCGcCCCTGGTGGGCGCG
TACTCGTTGTGACCTGGTGCCACCGTGATTTAAAAGTAGAGGACGGGGAG
ACAGAGCTAACCTCACAAGAAGAGAAGCATCTCGCACGGTTTGTGCGAGA
ACTGGCACGCATCTGCGcCCCTGGTGGGCGCGTACTCGTTGTGACCTGGT
GCCACCGTGATTTAAAAGTAGAGGACGGGGAGACAGAGCTAACCTCACAA
GAAGAGAAGCATCTCGCACGGATCAACAAGGCATTTTACCTGCCCCGATG
GTGCTCGACCGCCGACTATGTCAAGTACTTCGAAGACGAGGGGCTTGTCG
GCGTCAAGAGGGCGGACTGGACAGAAAACATCCAGGATCAACAAGGCATT
TTACCTGCCCCGATGGTGCTCGACCGCCGACTATGTCAAGTACTTCGAAG
ACGAGGGGCTTGTCGGCGTCAAGAGGGCGGACTGGACAGAAAACATCCAG
CAGCCCTTCTGGCCGGCCGTTCTCCGATCTTCGGTTTCGCTGAAAGGCGT
GGTGAGCCTGCTCAAGTCTGGCCCTGTGACAATCCGTGCGGCGATGGCCA
TGGTGCAGCCCTTCTGGCCGGCCGTTCTCCGATCTTCGGTTTCGCTGAAA
GGCGTGGTGAGCCTGCTCAAGTCTGGCCCTGTGACAATCCGTGCGGCGAT
GGCCATGGTGTTGATGGTTCAAGGGTACAAGAAGGGTCTGGTGAAGTTCG
TCCTCATTACGGGCAAGAAGCCGTTGCCGTAGTTGATGGTTCAAGGGTAC
AAGAAGGGTCTGGTGAAGTTCGTCCTCATTACGGGCAAGAAGCCGTTGCC
GTAG
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