mRNA_D-herbacea_F_contig106.638.1 (mRNA) Desmarestia herbacea DmunF female

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

Overview
NamemRNA_D-herbacea_F_contig106.638.1
Unique NamemRNA_D-herbacea_F_contig106.638.1
TypemRNA
OrganismDesmarestia herbacea DmunF female (Desmarestia herbacea DmunF female)
Homology
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BLAST of mRNA_D-herbacea_F_contig106.638.1 vs. uniprot
Match: D8LB53_ECTSI (Glutamine amidotransferase type-2 domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LB53_ECTSI)

HSP 1 Score: 545 bits (1405), Expect = 9.000e-194
Identity = 249/300 (83.00%), Postives = 272/300 (90.67%), Query Frame = 3 
Query:  228 MCQLMGMQANTPTDFCFSFRGFRERGGRTGRHVDGWGVGFFEGKGFRNFCDSLPSALSPVANLICNYPIKTRTVIAHVRMATHGQVRLENVHPFSRELWGSYWVFAHNGDVPSAKNPSRSGLF-KSKTTRYRPVGDTDSETVFCYFLNRLLDAFPEGPPSMADVYGELKRLWKEMCRDSGVIFNFLLGHNGDTLFAGCWPGARPGSETWNSLYFTVREFPFTTCRLVDDDCEVDFNTVTSPNDRVAVIATAPLTTNEIWCEMARGDLLAFHGGQPFSSAEDFRHHLKANVPDMLVRSPTA 1124
            MCQLMGMQANTPTDFCFSFRGFRERGGRTGRHVDGWGV FFEGKGFRNFCDSLPSALSP+ANLICNYPIKTRTVIAHVRMAT G+VRLENVHPFSRELWGSYW+FAHNGDVPSAK+P+   LF ++K+ RY PVGDTDSE VFC+FLNRLLDAFP  PP+MADV+ ELKRLWKE+C +SGVIFNFLLG  GDTLFAGCWPGARPGSE WNSLY+TVREFPFTTC+L+DDDCEVDFNTVT+P+DRVAVIATAPLTTNE+WCEMA+GDLLAFHGGQPFSS +DFR  L+    D+ V S   
Sbjct:    1 MCQLMGMQANTPTDFCFSFRGFRERGGRTGRHVDGWGVAFFEGKGFRNFCDSLPSALSPIANLICNYPIKTRTVIAHVRMATQGKVRLENVHPFSRELWGSYWIFAHNGDVPSAKDPATRALFLQTKSKRYTPVGDTDSEAVFCFFLNRLLDAFPHAPPNMADVFVELKRLWKELCSESGVIFNFLLGQGGDTLFAGCWPGARPGSEVWNSLYYTVREFPFTTCQLIDDDCEVDFNTVTTPSDRVAVIATAPLTTNEVWCEMAKGDLLAFHGGQPFSSPDDFRRQLRTKAVDISVCSDAG 300
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BLAST of mRNA_D-herbacea_F_contig106.638.1 vs. uniprot
Match: A0A7S1J865_9EUGL (Hypothetical protein n=1 Tax=Eutreptiella gymnastica TaxID=73025 RepID=A0A7S1J865_9EUGL)

HSP 1 Score: 327 bits (839), Expect = 1.070e-107
Identity = 155/279 (55.56%), Postives = 195/279 (69.89%), Query Frame = 3 
Query:  228 MCQLMGMQANTPTDFCFSFRGFRERGGRTGRHVDGWGVGFFEGKGFRNFCDSLPSALSPVANLICNYPIKTRTVIAHVRMATHGQVRLENVHPFSRELWGSYWVFAHNGDVPSAKNPSRSGLFKSKTTRYRPVGDTDSETVFCYFLNRLLDAFPEG-PPSMADVYGELKRLWKEMC-RDSGVIFNFLLGHNGDTLFAGCWPGARPGSETWNSLYFTVREFPFTTCRLVDDDCEVDFNTVTSPNDRVAVIATAPLTTNEIWCEMARGDLLAFHGGQPFSS 1058
            MCQL+GM  NTPTDFCFSFRGF ER G T  H DGWGV F+EG+G R+F D LP+A SPVA L+ +YPIKT  +I+H+R AT G + L NVHPF+RELWG YW FAHNGD+     P          + YR VGDTDSE  F Y LN L+  +P G PP+ AD+Y  ++ L++++C R+ G IFNFLL  +G  L  GCWPG+RPGS  +N L++ VRE+PF+  +L D DC +DF+ VT+P+DRVAVIAT PLT NE W EM +G+L  F  G+P  S
Sbjct:   15 MCQLLGMNCNTPTDFCFSFRGFAERAGHTDVHKDGWGVAFYEGRGLRSFLDVLPAASSPVAKLVRDYPIKTLNMISHIRYATCGSLDLHNVHPFNRELWGKYWTFAHNGDL----GPETRRFLAKSVSPYRAVGDTDSEAAFVYILNELVKLYPNGTPPTTADLYLSVQSLFRQICEREEGCIFNFLLC-DGVDLIVGCWPGSRPGSTVYNGLHYIVREYPFSHAQLADCDCGIDFSEVTTPDDRVAVIATKPLTENETWTEMQKGELFVFRDGRPLRS 288
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BLAST of mRNA_D-herbacea_F_contig106.638.1 vs. uniprot
Match: A0A7S3PDV2_9STRA (Hypothetical protein n=1 Tax=Amphora coffeiformis TaxID=265554 RepID=A0A7S3PDV2_9STRA)

HSP 1 Score: 301 bits (772), Expect = 2.210e-96
Identity = 151/284 (53.17%), Postives = 188/284 (66.20%), Query Frame = 3 
Query:  228 MCQLMGMQANTPTDFCFSFRGFRERGGRTGRHVDGWGVGFFEGKGFRNFCDSLPSALSPVANLICNYPIKTRTVIAHVRMATHGQVRLENVHPFSRELWGSYWVFAHNGDVP-----SAKNPSRSGLFKSKTTRYRPVGDTDSETVFCYFLNRLLDAFPEGPPSMADVYGELKRLWKEMCRD--SGVIFNFLLGHNGDTLFAGCWPGARPGSETWNSLYFTVREFPFTTCRLVDDDCEVDFNTVTSPNDRVAVIATAPLTTNEIWCEMARGDLLAFHGGQPFSS 1058
            MCQL+GM    PTDF FS +GF  RGG T +H  GWG   +EG+G R F D+LP+  SP+A LI NY I+T  ++AH+R AT G+V LENVHPFSRELWG  W FAHNG+VP     SA N    G  K K   + PVGDTDSE VFC  LN L   FPEG P++  ++  L  + +E+  D  +  IFNFLLG    T+FA  WPGARPGSE WN L++ +RE PF+T +L+D D  +DF TVT+P DRVAVI T PLT    W EM RG+LL F+ G+ +S+
Sbjct:    1 MCQLLGMNCAAPTDFSFSLKGFCRRGGATDKHSHGWGTAIYEGRGLRCFHDTLPACKSPIAELIQNYSIRTYNMMAHIRYATQGEVSLENVHPFSRELWGIQWSFAHNGEVPMFTNVSADNVPLLGWTKCKDLHFSPVGDTDSEAVFCAILNALKAEFPEGLPTLPVLHEFLSYVCEEITHDHSNDTIFNFLLGCGQYTMFAYSWPGARPGSEVWNGLHYIIREPPFSTAKLLDVDYTIDFRTVTTPQDRVAVITTKPLTEEPGWREMKRGELLMFNRGKCYST 284
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BLAST of mRNA_D-herbacea_F_contig106.638.1 vs. uniprot
Match: A0A7S2UCJ0_9STRA (Hypothetical protein n=1 Tax=Attheya septentrionalis TaxID=420275 RepID=A0A7S2UCJ0_9STRA)

HSP 1 Score: 303 bits (776), Expect = 1.900e-95
Identity = 152/287 (52.96%), Postives = 183/287 (63.76%), Query Frame = 3 
Query:  228 MCQLMGMQANTPTDFCFSFRGFRERGGRTGRHVDGWGVGFFEGKGFRNFCDSLPSALSPVANLICNYPIKTRTVIAHVRMATHGQVRLENVHPFSRELWGSYWVFAHNGDVPSAKNPSRS-----GLFKSKTTRYRPVGDTDSETVFCYFLNRLLDAFPEGPPSMADVYGELKRLWKEMCRDS--GVIFNFLLGHNGDTLFAGCWPGARPGSETWNSLYFTVREFPFTTCRLVDDDCEVDFNTVTSPNDRVAVIATAPLTTNEIWCEMARGDLLAFHGGQPFSSAED 1067
            MCQL+GM   TPTDF FSFRGF +RGG T +H  GWG+  +EG+G R F D LP+A SPVA L+  YP+KT  ++AH+R AT G V LENVHPF RE+WG  W FAHNG+VP   N         G    + T Y PVGDTDSE  FC  LN L   F    P++  +Y  ++R   E+  D+    I NFLLG    TLFA  WPGARPGS+ WN LY+T+R  PF+T +L D D  VDF+ VT+P DRVAVIAT+PLT NE W E  RG LL F  G P+S   D
Sbjct:    1 MCQLLGMNCATPTDFTFSFRGFAKRGGETDKHEHGWGLAVYEGRGLRTFLDPLPAAKSPVAELVERYPMKTLNMLAHIRYATQGGVNLENVHPFQREMWGIQWSFAHNGEVPKYVNKECKDYPLLGRTNRRQTFYHPVGDTDSEATFCAILNGLRAEFTT-LPTLPVLYETIQRFCSEIVSDNEESTILNFLLGCGQYTLFAYSWPGARPGSQVWNGLYYTIRRPPFSTAKLTDVDYAVDFSQVTTPKDRVAVIATSPLTVNEEWTEFKRGQLLMFDNGHPYSELYD 286
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BLAST of mRNA_D-herbacea_F_contig106.638.1 vs. uniprot
Match: A0A7S2P4J9_9STRA (Hypothetical protein n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2P4J9_9STRA)

HSP 1 Score: 288 bits (736), Expect = 1.990e-90
Identity = 162/330 (49.09%), Postives = 194/330 (58.79%), Query Frame = 3 
Query:  204 TRFRRCCNMCQLMGMQANTPTDFCFSFRGFRERGGRTGRHVDGWGVGFFEGKGFRNFCDSLPSALSPVANLICNYPIKTRTVIAHVRMATHGQVRLENVHPFSRELWGSYWVFAHNGDVPS----AKNPSRSGLFKSKTTRYRPVGDTDSETVFCYFLNRLLDAFPEGPPSMADVYGELKRLWKEMCRDS-------------GVIFNFLLGHNGDTLFAGCWPGARPGSETWNSLYFTVREFPFTTCRLVDDDCEVDFNTVTSPNDRVAVIATAPLTTNEIWCEMARGDLLAFHGGQPFSSAEDFR------HHLKANVPDMLVRSPTA 1124
            TR     NMCQL+GM   TPTDF FSF GFR+RGG T +H DGWG  F+EG+G R F DS  +A SP+A+LI NYPIKT  ++AH+R AT G V LENVHPF RE+WG  + FAHNGDVP       +P    +   KT  Y PVGDTDSE VFC  LN L   F +  P+M  +Y  +  L KE+  D+               IFN LLG      FA  WPGARPGS  WN L +TVR+ PF T +L D D  VDFN VT+ +D VAVIAT PLT NE W E  RG+L+ F  G P S+ +D        H L++ V   L     A
Sbjct:   82 TRTNTRLNMCQLLGMNCATPTDFVFSFSGFRQRGGLTDKHSDGWGCIFYEGRGVRAFHDSSAAAESPIADLISNYPIKTLNMLAHIRYATTGAVALENVHPFQREMWGIIFSFAHNGDVPKFGKDRMHPWIGDVRGEKT--YNPVGDTDSEAVFCAILNALRAKF-KTLPTMPVLYDAIAALCKEIVTDTCGSTEEDSRNPDDPPIFNMLLGVGQHVQFAYSWPGARPGSTCWNGLCYTVRKPPFATAKLSDMDYSVDFNAVTTESDCVAVIATTPLTNNEQWVEFERGELVLFDNGLPHSAIDDIARVEEKGHGLQSRVLQKLPLPKAA 408
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BLAST of mRNA_D-herbacea_F_contig106.638.1 vs. uniprot
Match: A0A7C1XUX6_9GAMM (Class II glutamine amidotransferase n=3 Tax=Gammaproteobacteria bacterium TaxID=1913989 RepID=A0A7C1XUX6_9GAMM)

HSP 1 Score: 277 bits (708), Expect = 1.270e-88
Identity = 140/273 (51.28%), Postives = 176/273 (64.47%), Query Frame = 3 
Query:  228 MCQLMGMQANTPTDFCFSFRGFRERGGRTGRHVDGWGVGFFEGKGFRNFCDSLPSALSPVANLICNYPIKTRTVIAHVRMATHGQVRLENVHPFSRELWGSYWVFAHNGDVPSAKNPSRSGLFKSKTTRYRPVGDTDSETVFCYFLNRLLDAFPEGPPSMADVYGELKRLWKEMCRDSGVIFNFLLGHNGDTLFAGCWPGARPGSETWNSLYFTVREFPFTTCRLVDDDCEVDFNTVTSPNDRVAVIATAPLTTNEIWCEMARGDLLAFHGGQ 1046
            MCQL+GM  N PTD CFSF GFR RGGRT  H DGWG+ FFE +G R F D  PSA S +A L+ +YPI++  VIAH+R ATHG V L+N HPF RELWG YWVFAHNG++     P+  G       R+RPVGDTDSE  FC+ LN L   +P+  P+   +   L+++   + R    +FNFLL  NG+ LFA C             L + +R+ PF T  L+D+D  VDFN  T+P+DRVA+IAT PLT NE W +MARG+LLAFH G+
Sbjct:    1 MCQLLGMNCNVPTDICFSFEGFRARGGRTDLHSDGWGIAFFEDQGCRLFLDDKPSAKSAIAELVRDYPIRSLNVIAHIRKATHGHVALQNTHPFQRELWGRYWVFAHNGELKDF-TPTDKG-------RFRPVGDTDSEAAFCHILNTLQQQYPQQQPTPVKLLKSLRKISNGIVRHG--MFNFLLS-NGELLFAYCA----------TDLNYVLRKAPFCTAHLIDEDVSVDFNEFTTPDDRVALIATLPLTDNENWAKMARGELLAFHHGR 252
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BLAST of mRNA_D-herbacea_F_contig106.638.1 vs. uniprot
Match: A0A4T0UTE4_9NEIS (Class II glutamine amidotransferase n=2 Tax=Crenobacter TaxID=1654931 RepID=A0A4T0UTE4_9NEIS)

HSP 1 Score: 276 bits (706), Expect = 2.550e-88
Identity = 149/274 (54.38%), Postives = 176/274 (64.23%), Query Frame = 3 
Query:  228 MCQLMGMQANTPTDFCFSFRGFRERGGRTGRHVDGWGVGFFEGKGFRNFCDSLPSALSPVANLICNYPIKTRTVIAHVRMATHGQVRLENVHPFSRELWGSYWVFAHNGDVPSAKNPSRSGLFKSKTTRYRPVGDTDSETVFCYFLNRLLDAFPEGPPSMADVYGELKRLWKEMCRDSGVIFNFLLGHNGDTLFAGCWPGARPGSETWNSLYFTVREFPFTTCRLVDDDCEVDFNTVTSPNDRVAVIATAPLTTNEIWCEMARGDLLAFHGGQP 1049
            MCQL+GM  NTPTD  FSF GF  RGG T  H DGWG+ FFEG G R F D  PS+ SPVA+L+  YPIK+  VIAH+R AT G++RLEN HPF RE+WG YW+FAHNGD+ S   P+  G F      YRPVG TDSE  FC+ L  L   +   P + A +Y EL RL +E+ R  GV FNF+L  NG+ LFA C             L+F VR+ PF T  LVDDD  VDF TVT+PNDRVAVIAT PLT NE W  +A G+L+ F  G P
Sbjct:    1 MCQLLGMNCNTPTDILFSFEGFHRRGGLTDHHADGWGIAFFEGPGVRVFLDDKPSSESPVADLVRRYPIKSENVIAHIRKATQGEIRLENCHPFVREMWGRYWIFAHNGDLKSFAPPA--GHF------YRPVGGTDSERAFCHILETLRHKWGAMPETGA-LYAELDRLAREI-RAFGV-FNFMLS-NGELLFAHCS----------THLHFIVRQAPFNTAHLVDDDVSVDFATVTTPNDRVAVIATQPLTDNEAWTALAPGELVLFRDGTP 252
[Close]
BLAST of mRNA_D-herbacea_F_contig106.638.1 vs. uniprot
Match: A0A3B9PL65_9RHOO (Class II glutamine amidotransferase n=2 Tax=Rhodocyclales TaxID=206389 RepID=A0A3B9PL65_9RHOO)

HSP 1 Score: 276 bits (706), Expect = 4.330e-88
Identity = 147/281 (52.31%), Postives = 177/281 (62.99%), Query Frame = 3 
Query:  228 MCQLMGMQANTPTDFCFSFRGFRERGGRTGRHVDGWGVGFFEGKGFRNFCDSLPSALSPVANLICNYPIKTRTVIAHVRMATHGQVRLENVHPFSRELWGSYWVFAHNGDVPSAKNPSRSGLFKSKTTRYRPVGDTDSETVFCYFLNRLLDAFPEGPPSMADVYGELKRLWKEMCRDSGVI--FNFLLGHNGDTLFAGCWPGARPGSETWNSLYFTVREFPFTTCRLVDDDCEVDFNTVTSPNDRVAVIATAPLTTNEIWCEMARGDLLAFHGGQPFSSAE 1064
            MCQL+GM  N PTD CFSF GFR RGG T  H DGWG+ FFEGKG R F D  PSA SPVA L+ +YPI++  VIAH+R AT G+VRLEN HPF RELWG YW+FAHNG++     P  SG       R+ PVG TDSE  FCY L+ L D FP G P+ A+++  L+ L  E+    G +  FNFLL  +GD LFA C           + L + +R+ PF    L D+D  +DFN VT PNDRVAVIAT  LT NE W  +A G+LLAF  G P +  E
Sbjct:    1 MCQLLGMNCNVPTDICFSFTGFRARGGLTDHHRDGWGIAFFEGKGARVFLDPAPSAQSPVAELVKHYPIRSLNVIAHIRKATQGEVRLENTHPFQRELWGRYWIFAHNGNLKHFA-PPLSG-------RFLPVGTTDSERAFCYILDTLADRFPLGTPTAAELHAALRELAAEI----GALGEFNFLLS-DGDWLFAHCS----------SRLSYIIRQAPFPVAHLSDEDLALDFNRVTQPNDRVAVIATTALTDNEDWIAIAPGNLLAFKDGMPVTLGE 258
[Close]
BLAST of mRNA_D-herbacea_F_contig106.638.1 vs. uniprot
Match: A0A127K7L8_9RHOO (Class II glutamine amidotransferase n=3 Tax=Thauera TaxID=33057 RepID=A0A127K7L8_9RHOO)

HSP 1 Score: 275 bits (704), Expect = 8.970e-88
Identity = 146/274 (53.28%), Postives = 177/274 (64.60%), Query Frame = 3 
Query:  228 MCQLMGMQANTPTDFCFSFRGFRERGGRTGRHVDGWGVGFFEGKGFRNFCDSLPSALSPVANLICNYPIKTRTVIAHVRMATHGQVRLENVHPFSRELWGSYWVFAHNGDVPSAKNPSRSGLFKSKTTRYRPVGDTDSETVFCYFLNRLLDAFPEGPPSMADVYGELKRLWKEMCRDSGVIFNFLLGHNGDTLFAGCWPGARPGSETWNSLYFTVREFPFTTCRLVDDDCEVDFNTVTSPNDRVAVIATAPLTTNEIWCEMARGDLLAFHGGQP 1049
            MCQL+GM  N PTD CFSF GFR RGG T  H DGWG+ FFEG G R F D  PSA SPVA L+ +YPI++  VIAH+R AT G+VRLEN HPF RELWG YW+FAHNG++   KN        + T R+ PVG TDSE  FCY L+RL   FP+G   +A+++ EL+ L  E+   S   FNFLL  +GD LFA C           + L + VR+ PF    L D+D  VDFN VT+P DRVAVIAT PLT NE W ++  G+LLAF  G+P
Sbjct:    1 MCQLLGMNCNVPTDICFSFAGFRARGGLTDHHRDGWGIAFFEGAGARVFLDPSPSADSPVAELVKHYPIRSLNVIAHIRKATQGEVRLENTHPFQRELWGRYWIFAHNGNL---KN-----FAPTLTGRFLPVGTTDSELAFCYLLDRLAQRFPQGTRDIAELHAELRVLAIEI--GSHGEFNFLLS-DGDQLFAHCS----------SRLCYIVRKAPFPVAHLADEDLTVDFNEVTTPLDRVAVIATTPLTDNERWTQIVPGNLLAFRDGEP 253
[Close]
BLAST of mRNA_D-herbacea_F_contig106.638.1 vs. uniprot
Match: A0A6N6LCI7_9PROT (Class II glutamine amidotransferase n=2 Tax=Proteobacteria TaxID=1224 RepID=A0A6N6LCI7_9PROT)

HSP 1 Score: 274 bits (701), Expect = 2.460e-87
Identity = 140/276 (50.72%), Postives = 172/276 (62.32%), Query Frame = 3 
Query:  228 MCQLMGMQANTPTDFCFSFRGFRERGGRTGRHVDGWGVGFFEGKGFRNFCDSLPSALSPVANLICNYPIKTRTVIAHVRMATHGQVRLENVHPFSRELWGSYWVFAHNGDVPSAKNPSRSGLFKSKTTRYRPVGDTDSETVFCYFLNRLLDAFPEGPPSMADVYGELKRLWKEMCRDSGVI--FNFLLGHNGDTLFAGCWPGARPGSETWNSLYFTVREFPFTTCRLVDDDCEVDFNTVTSPNDRVAVIATAPLTTNEIWCEMARGDLLAFHGGQP 1049
            MCQL+GM  N PTD CFSF GF+ RGG T  H DGWG+ FFEG+G R F D  PS  SPVA L+ +Y I++  VIAH+R ATHG + LEN HPF RELWG YW+FAHNGD+ +   P+          R+RPVG TDSE  FC  LN L + +P+ PP +A+++  L++L  E+    G    FNFLL  NGDTLFA C           + L + +R+ PF    L D D  +DFN VT+P DRVAVIAT PLT NE W  +  G LL FH G P
Sbjct:    1 MCQLLGMNCNVPTDICFSFTGFQARGGLTDIHQDGWGIAFFEGRGCRMFLDPRPSVESPVAELVRSYAIRSLNVIAHIRKATHGDINLENTHPFMRELWGQYWLFAHNGDLKTYAPPAGG--------RFRPVGTTDSERAFCQILNTLAERYPDAPPPVAELHETLRQLATEI----GAFGEFNFLLS-NGDTLFAHCA----------SRLSYIIRQAPFAEAHLTDQDVTIDFNEVTTPKDRVAVIATTPLTDNEHWQRIPPGTLLTFHDGAP 253
The following BLAST results are available for this feature:
BLAST of mRNA_D-herbacea_F_contig106.638.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 of Desmarestia herbacea DmunF female vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LB53_ECTSI9.000e-19483.00Glutamine amidotransferase type-2 domain-containin... [more]
A0A7S1J865_9EUGL1.070e-10755.56Hypothetical protein n=1 Tax=Eutreptiella gymnasti... [more]
A0A7S3PDV2_9STRA2.210e-9653.17Hypothetical protein n=1 Tax=Amphora coffeiformis ... [more]
A0A7S2UCJ0_9STRA1.900e-9552.96Hypothetical protein n=1 Tax=Attheya septentrional... [more]
A0A7S2P4J9_9STRA1.990e-9049.09Hypothetical protein n=1 Tax=Leptocylindrus danicu... [more]
A0A7C1XUX6_9GAMM1.270e-8851.28Class II glutamine amidotransferase n=3 Tax=Gammap... [more]
A0A4T0UTE4_9NEIS2.550e-8854.38Class II glutamine amidotransferase n=2 Tax=Crenob... [more]
A0A3B9PL65_9RHOO4.330e-8852.31Class II glutamine amidotransferase n=2 Tax=Rhodoc... [more]
A0A127K7L8_9RHOO8.970e-8853.28Class II glutamine amidotransferase n=3 Tax=Thauer... [more]
A0A6N6LCI7_9PROT2.460e-8750.72Class II glutamine amidotransferase n=2 Tax=Proteo... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
D-herbacea_F_contig106contigD-herbacea_F_contig106:834250..854641 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 of Desmarestia herbacea DmunF female vs UniRef902022-09-19
OGS1.0 of Desmarestia herbacea DmunF female2021-02-24
Properties
Property NameValue
Taxonomic scopeEukaryota
Seed ortholog score545.8
Seed ortholog evalue1.2e-152
Seed eggNOG ortholog2880.D8LB53
Hectar predicted targeting categoryother localisation
EggNOG free text desc.Glutamine amidotransferases class-II
EggNOG OGs2RXQT@2759,COG0121@1
Ec32 ortholog descriptionPutative glutamine amidotransferase type 2
Ec32 orthologEc-27_005170.1
COG Functional cat.S
Best tax levelEukaryota
Best eggNOG OGNA|NA|NA
Exons7
Model size1155
Cds size900
Stop1
Start1
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1622927474.1783137-UTR-D-herbacea_F_contig106:834249..8342771622927474.1783137-UTR-D-herbacea_F_contig106:834249..834277Desmarestia herbacea DmunF femaleUTRD-herbacea_F_contig106 834250..834277 -
1690790190.5668497-UTR-D-herbacea_F_contig106:834249..8342771690790190.5668497-UTR-D-herbacea_F_contig106:834249..834277Desmarestia herbacea DmunF femaleUTRD-herbacea_F_contig106 834250..834277 -
1622927474.2703776-UTR-D-herbacea_F_contig106:854414..8546411622927474.2703776-UTR-D-herbacea_F_contig106:854414..854641Desmarestia herbacea DmunF femaleUTRD-herbacea_F_contig106 854415..854641 -
1690790190.6357946-UTR-D-herbacea_F_contig106:854414..8546411690790190.6357946-UTR-D-herbacea_F_contig106:854414..854641Desmarestia herbacea DmunF femaleUTRD-herbacea_F_contig106 854415..854641 -


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

Feature NameUnique NameSpeciesTypePosition
1622927474.1966248-CDS-D-herbacea_F_contig106:834277..8344091622927474.1966248-CDS-D-herbacea_F_contig106:834277..834409Desmarestia herbacea DmunF femaleCDSD-herbacea_F_contig106 834278..834409 -
1690790190.5787675-CDS-D-herbacea_F_contig106:834277..8344091690790190.5787675-CDS-D-herbacea_F_contig106:834277..834409Desmarestia herbacea DmunF femaleCDSD-herbacea_F_contig106 834278..834409 -
1622927474.2054489-CDS-D-herbacea_F_contig106:835160..8352051622927474.2054489-CDS-D-herbacea_F_contig106:835160..835205Desmarestia herbacea DmunF femaleCDSD-herbacea_F_contig106 835161..835205 -
1690790190.5876098-CDS-D-herbacea_F_contig106:835160..8352051690790190.5876098-CDS-D-herbacea_F_contig106:835160..835205Desmarestia herbacea DmunF femaleCDSD-herbacea_F_contig106 835161..835205 -
1622927474.2162066-CDS-D-herbacea_F_contig106:837065..8372021622927474.2162066-CDS-D-herbacea_F_contig106:837065..837202Desmarestia herbacea DmunF femaleCDSD-herbacea_F_contig106 837066..837202 -
1690790190.5983696-CDS-D-herbacea_F_contig106:837065..8372021690790190.5983696-CDS-D-herbacea_F_contig106:837065..837202Desmarestia herbacea DmunF femaleCDSD-herbacea_F_contig106 837066..837202 -
1622927474.2275827-CDS-D-herbacea_F_contig106:837964..8380841622927474.2275827-CDS-D-herbacea_F_contig106:837964..838084Desmarestia herbacea DmunF femaleCDSD-herbacea_F_contig106 837965..838084 -
1690790190.6056552-CDS-D-herbacea_F_contig106:837964..8380841690790190.6056552-CDS-D-herbacea_F_contig106:837964..838084Desmarestia herbacea DmunF femaleCDSD-herbacea_F_contig106 837965..838084 -
1622927474.2418256-CDS-D-herbacea_F_contig106:841501..8416651622927474.2418256-CDS-D-herbacea_F_contig106:841501..841665Desmarestia herbacea DmunF femaleCDSD-herbacea_F_contig106 841502..841665 -
1690790190.6130507-CDS-D-herbacea_F_contig106:841501..8416651690790190.6130507-CDS-D-herbacea_F_contig106:841501..841665Desmarestia herbacea DmunF femaleCDSD-herbacea_F_contig106 841502..841665 -
1622927474.2521598-CDS-D-herbacea_F_contig106:843950..8442281622927474.2521598-CDS-D-herbacea_F_contig106:843950..844228Desmarestia herbacea DmunF femaleCDSD-herbacea_F_contig106 843951..844228 -
1690790190.6204314-CDS-D-herbacea_F_contig106:843950..8442281690790190.6204314-CDS-D-herbacea_F_contig106:843950..844228Desmarestia herbacea DmunF femaleCDSD-herbacea_F_contig106 843951..844228 -
1622927474.2613316-CDS-D-herbacea_F_contig106:854390..8544141622927474.2613316-CDS-D-herbacea_F_contig106:854390..854414Desmarestia herbacea DmunF femaleCDSD-herbacea_F_contig106 854391..854414 -
1690790190.6278777-CDS-D-herbacea_F_contig106:854390..8544141690790190.6278777-CDS-D-herbacea_F_contig106:854390..854414Desmarestia herbacea DmunF femaleCDSD-herbacea_F_contig106 854391..854414 -


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

Feature NameUnique NameSpeciesTypePosition
mRNA_D-herbacea_F_contig106.638.1prot_D-herbacea_F_contig106.638.1Desmarestia herbacea DmunF femalepolypeptideD-herbacea_F_contig106 834278..854414 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_D-herbacea_F_contig106.638.1

>prot_D-herbacea_F_contig106.638.1 ID=prot_D-herbacea_F_contig106.638.1|Name=mRNA_D-herbacea_F_contig106.638.1|organism=Desmarestia herbacea DmunF female|type=polypeptide|length=300bp
MCQLMGMQANTPTDFCFSFRGFRERGGRTGRHVDGWGVGFFEGKGFRNFC
DSLPSALSPVANLICNYPIKTRTVIAHVRMATHGQVRLENVHPFSRELWG
SYWVFAHNGDVPSAKNPSRSGLFKSKTTRYRPVGDTDSETVFCYFLNRLL
DAFPEGPPSMADVYGELKRLWKEMCRDSGVIFNFLLGHNGDTLFAGCWPG
ARPGSETWNSLYFTVREFPFTTCRLVDDDCEVDFNTVTSPNDRVAVIATA
PLTTNEIWCEMARGDLLAFHGGQPFSSAEDFRHHLKANVPDMLVRSPTA*
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mRNA from alignment at D-herbacea_F_contig106:834250..854641-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_D-herbacea_F_contig106.638.1 ID=mRNA_D-herbacea_F_contig106.638.1|Name=mRNA_D-herbacea_F_contig106.638.1|organism=Desmarestia herbacea DmunF female|type=mRNA|length=20392bp|location=Sequence derived from alignment at D-herbacea_F_contig106:834250..854641- (Desmarestia herbacea DmunF female)
CCTCACAATCCGAAGAGAGGCAACAGGCAACATACAAACATATCGCCAGC
AGGTAGCCAAATAGCGGACGCAGCAGGCACAGCAACAGGCACGCACTGGC
TGGCTGCACAGCAACAATTGGCCTGGTCGACTTCTTCGGAAAATTGTGGA
GACGAACAATAACAATTAATTGGCCTGGTTGACTTCTTCGGAAAATTGTG
GGGACGCGCTTTCGGCGCTGTTGCAACATGTGTCAACTCATGGGCATGCA
GGTATGGAAAATATTGCTTTTTGGTGCAGCTACGAAGTACTCGTACCAGT
ACGAACTACTGTCTTGTATACCAATGTACCTGCAGGTAGCTCTACTGTAG
CATTACACTAGACGCTACCACTATTCTTGCCTTTTTGCAGCATGCATCCC
ACCAAACTCTGCCGGGGGTTGACTGGCTTGATATTGATATCTATGATACA
TATGATACTTTGCTCTCTAGCCACGGTTGTGGAACATGGTGCATAGAGCG
TAACGACAAGTGCACATACATGCTGTTGTTGTTGTATTGATTTGACCAGC
ATTGCATATATATACTGAACCCAACCGCCCACGTAAAATTTGTACTCGTA
TGATCCCACTGTCACTAATTGTTCACTCCAATGGTTCTGTGTGTTATGTG
TGTCACAGACTCTCCTTGCATCAGAGGTCCCTTTGTGACCACGGGACCCT
CTACGAGTATCTCTCATGTCTCTATTATGTCATTAGCATAGGAAGAGGAA
GAGGAATCAGTCGTACAATGAAATATGGATATGCTGGATGTCCATCAGTA
AAGAAAGAACGATTTTAACGTTGTTGTTGTCTTTGCCTTAAAGTCGTCCA
TTCTACCTTACGGCATCCAGCAGCGTACTATCCCACGAGGGCCCCTAATA
AGAAGGCCCAAAGCACTTGTATTGACGTGCGTATTGCGAGATAGACACCG
CTTGAATCCCGGATTTCGTTCGTTTTTATCGTACGGCGACAGTAGACTTG
TCAACGATGCTAATTTTCATTTTTCGGGGGGGGGGGGAGGGGTTGTGAAG
TATTTGGGCTCTCGCTGCTCCTCCTTCTGCCTTGTTTTGGGCCTATTTAT
TACGGGCCTCTATAAATACGCGCAAATTACAAAATACCGACGTCTTTGTA
AGAAAAAAAAAAAAAAATACTCGCACAACAGCAACAATGTTCAATCGTAA
TTCCGTGGTCGCGACATGATCACTGTCACGAGGTGCAGAGTGCGGAGGAT
GCAGGTGTGATGATGTGATACGGGAGATGATAAATCGCACTATGTAATAC
CTGGTCCAAGGTTTCTGCGGCTTAGGCCACTGCTTATGGGAAACTAATCT
AACTAAACAAAAATCTTCTCCAAGATTTATTTCACAACCGAAGATCAAGA
TTTACATGTGTCAAGATTTTTGACACAACGCTATGGGATAAAAATCTTCG
ACTCAGAGTAGAGTGGACCTGGGAAAAAATGTGCTGTTGTATGTACTATT
ATTAGTGTGGAGCCTGTCCTCGTGATGATCAGGTGCTATTATACTACTAT
TATTGTATAGAAAAATGGAAACAGCAAACATTTCTGTGCACGTGCGCAAC
AGGAGGTCGTCTGACACGCTACACACTGCTGCTGCAACTACTATGTTCAT
ACTACTGTTGTAGAGAGCTCAACAATCTCACAACATACACGCCGCTACAC
GTGCCTTCAGCGGGAAGCGGATGCGGCATTGCAGTGTGCGACGTCCCAGG
TACCACCGTCTCGCCATGTCGATCATCGAGACACAAGAATCGCAACAGAC
ACGAAAAACGTCGTCCCTCTACGAGTAGCTCTTTGCCTTCGTTGCAGTCG
GGATCAAGCGTTCAATTTTCTAGCACCACTCCCCGCACGTGGGTAACTGG
GTCGAGTCGTGGGTAGCACGGGAGGGCCGCTTCGCTTGACTTGAGCCATC
ACCATCTGCAGTTGTCGTAAACTTGTCATCGAGTTTATTGACAACTGGAG
AACTCAAGTCAAGCAGCTAAACAACCCGCGTGTCCAAGCCAAGACCCGAT
TGAGACAGCTCCCGCATGGGGAGTGCATGGTGCTAAAGTAGAAAAATTGA
ATGATTGACCCCACCGCAAGGATGCCAAAGAGTTCACGGGGCCCTTTCGT
GTCCCTTGCGAGCTTGTACCTGGCTGATCCACATGGTGAGGCATTGGCCC
ACGACGGCGGTGACCCAAAATGTCGCGCACCGCAATGCCGCGCTTTCCGC
TGAAGGTACGTGCAGTTCTCGTATGGTGCGAGCTTGGTCGAACACCTCGG
CCAGGCCCTGCCTCATGATCTATCTACCAATAGGCCAGGGTGGCAACTGC
CACGGTGGTCATGGGTGCCGCGGTCGAGGTACAATCGTCTCCACGCCTGA
TGTCTGGTTCGTTGTAAATCCGCGTTACTACTACAGCCAGTGATTGTACT
CCTTGTACTATCATACTACTGTCTGTGTTGGTGTAGTATACAAATTTGTC
CGCCAGGAGATTTCGATGGGCACTTTGTTTTCGAAATCTCAGCCCAAGAT
TTCCCATATATAGCAACATTTCGGCCATCTCACAATCTTGGCGGAGATTT
CAAGCAACATTTGCTCCTATAGCGAGTGTACAAAAATCTCGTTCTTTGGA
AATCTTCGCTCAGATCAAGATTTTTGTCAACATTATTTTCCCATAAGGGT
CTGTCTTATCAAAGTTTTAAGAATTCAGAATTTTGCAAAATTCAGATTTT
TTTTGCTGAAAATCACCGTTTGTGTCTTATCAAATTTCTCGTCCTTTGAA
CTTACAAGCAAACAATGCCAATCGCACAAGAAACCCAATTGCACCACCGC
AACACGTACACGACGACAACACGCCCACAAAGGACGCAGCAAGCTCTAGT
TGGTTCGCGTACTCATTGCACAGCTCGATACCGCCGGCCTGCTTTACCAG
TTCGGCGATCCGCGAAAATCACAGCATGTTTTTGCTCTTGGCGCGAGCTC
GCGGTACTGTTGTGCTATATTGCAGCTTCTGTGTGGGTCAACTGGGATGC
ATGACACCTCTTCGTTATGTTTGTGATCCTCCTGTGTCGTGTGCCTTGTA
CTGCGACCTTGGGTGCGGCGCTACGGGCTTCGCAGCACCTTGTTCAGTAC
TGTGCTATGTTGCAGCTGCTGGGCGAGTTCCAACAGTCGAGGCGTTTATT
TGCTGAATTGTGAATCCTGAACAAATTAAGTGCTGCTCGACTTCTTTTCT
TCAGCCTTCACAATTCAGGAATTTCTTGCTCTTAACAAACTACGCAGAAA
GGCCGGCCAATCATAGAGTTTCATATGGAGGCGTCTCTTGAATTTTACAA
AATTCTAAATTCTTATAATTTTGGTAAGACAGGCCCTAAGCAGTGGCCTT
ACGCCGCCCCGCTCAATGGAGCGGTTCCAAGATCCATGACCGTGATGTCG
TTCTCGTGTGTCATGTTGAAAGCGTGATTAAAGTGGAGTGTCCTGTTCCA
TGTGTCATCTATATTGTATATGTGTCTCTGTGTCTGTCTGCGTGTGATTT
TTGGAGGACGTTCACGCCGCAGATGATGGCCGGGGTGTAGAGGAAGCTGT
CCACGTGCATGTCCACATCGTTTGATGACAACATCGTTGCTGAGGTTGTT
GTTGTTGTCTTCACATTAAATCGTCCATTCTACCCTACGACATCCAGTAG
CGTACTCAGAGTCTGTACTGGATCTTCCATCCTAGAAACGACAGGTTGGA
GGGAGGGATAGCGTACGTGGCGGTTGCCGTGTTCGAAAGGGTATGGGGAG
GCGAGAGAGAGCGTGGTAATACTCCCTTCGCAAGTCCCCCCGAATTGCGA
TAAATACAGGGTACTATTTGACAAGGCATGGCTCGTGAATGAGATCAAAA
ATCCGTTACTGCTCATCATGCTATCACGGGAGTATGACAACAAAAAATCG
TGTCCGAAATTTCTCCGAATTTTCCGAGAAAAATGTTGTTTGTCAAAAAT
CATGGAGCAACATTAGTTCACATGCCCCCTCTTATTGCCAACACCTCCGC
CGGTGCTCTTCGTGGGCATTGTGGGCATTGAATGATGTGGTTCTCGCCTT
TACCCACGACCGCCATCCGGCACCCGTCCATGCTCACTGCCTCGTCCTTC
CAACAGCATTGTGGTGTTTAATGACTTAACAAGTGGTTGGTCAGTTGCAG
ACAACTTTAGCCAGTTGAACTTAGTTGCGCGCAAGTCAACAGCTTCGCCT
AGCTGTTCCACGAAGACAGACGGTGGGCGGATTGCATTTTTCCTTACAGC
GGGCAGCTAACGCATGCACGTCTAGGTTCGGCGCGGCACCGAACACTACT
ACTCGCTGTACCGTTGTATTGTACTACCATTAATACTACTGTACTACTAC
AGTACTGCGGTCGTAGTCGTTCCTGGAAAAGGGGGTGAAAGCGCGCTCTC
TGGATAACTCCCCGGATCACTGACTGTAGTGACTTGTAAACGTTGTTGGC
AGCGGCAGAGCAAAAATATAGGTTAGTTGAGACAGTGGTAGGCGGGTCGT
TGTCCCTGCACGTGGGTGGTGGCTGCTGAGATCCCTGCTGCTGTGCTGGA
ACCGCTGCTATGTGTTGCTTTCAAACCTTGAAATTCAAGCATGCAATCCC
GGGGATGGTCCTTTTATGTCCCACTAGTCCGCTTTAAGTATTCCGCTTTA
GGGCATGCCTATATAGCAAGGCTAGTTACGGGTTCACGGGTCGGGACGGG
TCGGGACATCTCGTTTTGAAAATCTCACGGGTCGGGACGGGTCGATACAT
TTCAATTTGAAAATCTCACGGGTCGGGACGGGTCGGGACATGTCAATTTG
AAAAATCTCACGGGTCGGGTCGGGTCGGGAACGTCCCGACCCGTAAGAAT
CTCACGGGACCGTCACACCTTATCCCGTACGAAATGGACGGGCGTCCCGT
AGGAAGATGACGGTAACTTACACGGAATCTCACTGGCAAATCTCACGGGA
CGCTAAAATTAAAGGCGAAAAATGACGAAATGAACTCTGTACTAGTTGTG
AAGGGTACAGCTGCGCGTGGTATAAACAAGAGAGCATATCAATACAATGC
TCAACTACTTTTTCCCGTCCGGTCTCGGCGGGCTGAACTTATAGTGAAGA
AGCGCCAGATCGCCGATAGCCGGTGCATGGGGATATGCTTCGCGACGTCC
ACTTTCTTGTGCACGTCGCTTCCGATGCGAACTTCGTTGGTGGAAGATGA
AGGTGCCAGAGGTGCTGCTGGTGATGAGGAAGAACGCACGTTACCAGTCG
TTGCACCGGTAGTTGGAGAATTTGGAGAATTTGACGACGGCGGTCCTGGT
GCACCATCGACAACCTCGACATCTGGAGCACGTGAAGATGTGGCTAACGA
AGCTGACATGTCAATATGTCAATGCAGTACTTGTACCGTGCGTTTGAATG
TACGAGCAGTGCGTATGAGTGTACGGTCAATGTCACGGGACCAGGTGATG
GGAAGAGATGTGGGGGCACCTTGGGCGCGTCTTGAATGATCATGATCATA
TACTATTTCGAAGTATACCGTGCTGATCCTGAGTCAAGCTTTCCCGACGT
GTCCCGTGTCGTTTATTATGTGACATTCGGACGAGACACGTGTATGGGCG
TCCCGTAAGATTCCTACGGTCATTTTATAAATGTCCCGTGAGAATCCTAC
GGGTAGGGACGTTTGGTAAATCTCACGGGTCGGGTCGGGTCGGGTCGGGT
CGGGTCGGGACATGTCAATTTGAAAATCTCACGGGTCGGGACGGGTCGGG
ACAACACCGTCCCGACCCGTCCCGTTACTGTGAGAAAGTCCCGACCCGTG
AAAAACTTTGCTATATAGCCCGCTTTAAGGGGGCCCTCCCAACTTGGGAT
ATATTTTTTTTTTCCGTCACGGCCAAAAAAAAACAAGCAAAAGAGCAGCT
GAATAAGCCTATATCCAAGATAATAACAAATCCAACATTGGACGCCACGG
GAAAGAGTATATCTCTCGAACTACGTACTTATAGGCCCACCTTCGTTTTG
CTACAGAAAGCTGTTATTGAGGAGAATATTTTTGCCTCGAAGGTACAAGC
TCTACGGTACCATCTTCAGAACGAAAAACGCGTACAGGACGAACATACTT
CAAAACACAAGTGACGCTTTTCAAACACAGCATTTTTCGTGGTGGGCGGC
AGGAGATCCCGCTAGAGCTTTCGATAGATAGATCCAGTAGTGTGTGTTGC
CCCCGACATTCGAGACCAAAGGGATAGCGCAGCATGAGAAACACTGTATT
TGGAATCTGTCCCTTGCGCTTTGAAGTATACTGTTCTTGTGGGTGTTTTT
CGTTCCAAATATTGCACCGTAGAGCTCAGGCGCCTGAGAAAAAAATGTCG
TCCCCAACCAAGGCTCTCTGTAGCAAAACGAAGATGGGCCTAGAATGAAA
TTGTTCGAGAGATAACCGCTTTCCCGTGGCGTCCAATGTTGGATTAGTTA
TTATCTTGGATATAGACTGATTCAGCTGCTCTTTTTTTTGGCCGAGACGA
AAAAAAAAGAAAGAAAAAAAAAGTCGAAAGGGCCCACCCCCTAAGCAAAT
GCCTATGTATAGTCCGATGTATCATCTCCCGTATGAAACTACTACAGTAA
GTACTACTGTAGTCCTCACTACTGTAGATGAACTCGCTGTTGTTGTGGAG
CTCTACAGCTCTCTACCGGTATGGTACTGCTACTACTGTGAATCGAATGC
CATCGTAAATTCCGTGGCCATAGCATCATTCATGATCAAGCAAGGTGGAG
GCCTCAGGGAAGAAGAGTTGGACACGACAAAGCTGAATTGCTGAAATGTG
CATTTAAGGGGGGCACTCTGTTGGATAGAAGCAGAAGTCCCGGGTTCAAT
TCCCGACAGGACATTTGTCCTATTAACTTGAGCAGAGAAAGACTGGGTCA
TAATATACAGAGTTGCAGTGGCTTCGGGTTCCATGGTGAACAGTGGTGTC
TGGCGAGGGGCGTTCGCGCCTCGGAGAGACTGGCGGGAAGGGTTTTTGAA
CCCAAATGTTCTTCTTTTGTTCGGTAGAAGCAGCCCACCACTGAACCACT
AAGTCATATTGCGAGAGATACCAGTATACCTTTTGCTGTGGGGTTCAAGG
TGGGATTGTTATTATCTTGGATATGGACTCTGATTTGAAAGGTCACAGGT
GCGTTTTTTTAAGCCAAGCAAAAAAACAACTTTCCAAGTCGGGAGTGTGT
TCGATAGGAGCAGCCCACCACTGAACCACTACAGTAAGTCAGCGTAGTTC
GATAGGAGCAGCCCTCCACTGAACCACTGAGTCAGCGTAGTTCGATAGGA
GCAGCCCACTACTGAACCACTTAGTCAGCGTAGTCAGCGCTGACGTAGTG
GTTCAGTGGTGGCCTGCTTCTATCGAACACACTCCCGACTTGGAATTTTT
TTTTTTTGCTTGGCCTAAAAAAACGCACCTGTGACCTTCAAATCAGTCCA
TATCCAAGATAATAACATTCCCTCCTTGGGCCCCACGGCAAAAGGTATAC
TGGTATCTCTCGCAATATGACACCTTGTGTTGATGGCCACCCGGCTACAG
AAACCTGGTGTTGAGGAGACTAGTTTTGCCTCGAAGGCGTATGCTCTACG
GTACCTTCAGAACGAGAAACGCGTACAGGACAAACATACTTCAAAACACA
AGTGATGATTTTCAAATACAGCGTTTTCTCGTCCTGGGCCAGTACAGTAG
CCGTTACGAGCTTTCTTGGCACTCCTGACATTATTAAGACTGGAATGTAT
GTAGGGTTTTGTATGGTGTTTTTTTTGTTGCTTTCTTGAACTTTTTTGTT
TTTTGCTGTCGTCACCCAAACGCGCGACGAAGCCGCGCTGGGTTCGATCC
TTAGTGTGGGTTGGGGTTGGTTTGGGTTGGGTCGACGCTCAACGCTAATT
TTTATGAGAAAAAGGCACCCAATAGCATAAAGCACCATACAAAATACTAC
CAGGTAGTATATATCAGTCTTAATCTGGTATGTTAGGGGTGCCAACCTCG
TAAAGAGCGCTCTCCTGGGCGGCAAGAGACCCCACTAGAGGTTTCGATAG
ATACGAAGTAGATCTAGTAGTGTTCTGTGTCGTCCCCGACATTCGAGACC
AAAGAGATGGCGTAGCATGAGAAACGCTGTATTTGGTATCTGTCCCATGC
GCTTTGAAGTATACGTTTCTTGTTGGGTGCTTTTCGTGCCAAACAATGCA
CCGTAGAGCTCAGGCGCCTGAGACAAAAAAAAAACTGTCGTCCTCAATGA
AGGCTCTCTTTAACACACCGAGGGTCGTCCTATAAGGAAATCATCGAGAT
ACCAGAAGGTATACACTCTTTCCCGTGGGGATCCAGTGTTGTATTGTTGT
TATCTTGGATATAGACTGATTCAGCTGCTCTTTTTTCGGCCGAGGAGACG
GGGGGGGGGGGAGTGACCAGCGTTGATAGGGCCCCCTTAAGTATCACATT
AGTACAGATATTGATGCCAAGAATTAATACGTGTCGAGAGAGGTGTTGCG
GAGTTTTCTAAGTAGCCTCGAAAAGTCGGGTTTCGTAAAAAAAATGATAA
ACATGCCTACAGTTGTTTGTGGCATCTTAGTACCATTGTGTCATATTGCA
GATGACTCACCACATGTACTTATCGATAGTACCCGGTGTCTACCTCGGAA
GTCCCTCGCTGCCTCCACTTCTCAAAGGAGTGGGGTATGGTAAAGGGATC
AACGTCCTATTGGGCAGGGTGGACCGCAACTGGACCGAGTCCGGCGCGCA
AAGCTATATTAGTCTGGGTTTTTGATAGTGGATGGGCTTCGGCAAATCCT
GCACTAGCCCTTGGGGGGCGACGTTGAACGTTGCCTCTCGGGGTGGTTTC
TATCTTGCAGGACCTATGGCCTCCGAGGCTCTCGCGCTGTAAAAGGCAAC
ATTGTGTTCTACTACAACAAGAGTGATATAATATAAGCTGCAAAAAACAG
CTTTTACACAAAAAAAAAAAAAAAAATCCAGAGCTTAAAAAAAAATAAGA
CAACTGTCAATAAACCTAATCAAGAAAACTGTGGAATTTTGTCAAGTTTA
AGCTTCGTTTTTACCAATATCCGCCGGAAGATACAACAAAAAAAACAGGG
AAAGCGACCACGTATTATGGCTGTTATAGCAACATGTTATAGGAAGATAT
TATTACGAGAGCAAGTCAAGGACTGATTCGGTAAACGAGAGATTGATCGT
TACCGAAGACGACAGACGCTACTATTAATATTATACTGTACACTTTCAAC
CGATTGGATTAAATGAAAGATTACGGTATAACGATGATGTGAAAATGTCA
CACATGCACAGTTACTTCCCGTCCCCCTCCGAAAGATTATTGATCCACCA
GTGCACACGATGATGGGGCCTGTTTCCCAAAATTATCCTGTAGAGCCTGG
GACACCCCAGGGGAGCCACTGCGTTATAACTTTATCTGAGGACCGATAGA
ATCCGCGCGACCGATGTATCACACAGTGAGGTTGACGATTGGTTGTCCCC
TGGCCCCCGAACCAGTTTGGAACGTCACGGCTGATGTCTTTGTAAGAAAA
AAAAATAACGATGAAATGAAAGTCGAAGAGGAACGACGAATGGGAATATC
GAACCCTGTGCGGTGTGCGCGACAAAAACCAAGGCATGTACCGGGGGCAG
GGGCGGGAGGCGCCTCTGTGACCACGGCTTGCACAGACAAACGCGCTGAG
CGTTGACTCTTGTGAGCTGGACTGGAAACTTAAAGTGACGGTTATAATAG
GATACAATGGCTGTCGTTACGCGTAGCCACTTTTGCGTGGTGGGTATTTT
GTAACTAACTGTCGTTAAGTTGTTTGCGTTGGTGTACGGGGGAGGTGCCA
GGTTGCACTGTGTTAGGCGGAGTATTTAGGGCAGTGGGCTGTTCGTGATA
GTGGGGGAGGTGGTGTTGGTGATATTTTGGCAGATAGGGGACAATAAGTG
GCAGCGATTATAGTTTTCAGAGGTGCTTGTGACGGAGTTAAAATCCCTAA
CGCCGATAATAAACTGTTTCTTTTATCCCAACCCCAATTCCCGCGCCCGC
CCTGCTCTTCAACCCTGAGCCCAAACCAAGTCCTTTTCCGTATCCCACAC
CCAACTCTGACAGAAGGCGCCTTTCGAGTTATAGGGGAAGACTGGTCGTT
GTGAACCTGTAACCATATGGACACGCAATTGTTTTTTAGTTGTGGGTGTC
GTTGTGAAATGAAACCGTGGACCACGGCACTGATTTTTTTGTTTTGGATA
TAGCTAGTAGGCCTACCCATCGGCTTAAGATAGAAGCGTGCAAACCAATC
AGCACTCAACCTATTGTATCAATGAGAACTCCCCCCCCCCCCCGTCTCCT
TGACTTATCGCAGGCGAATACCCCTACCGATTTTTGTTTCTCGTTTCGGG
GTTTCCGCGAACGAGGAGGCCGAACAGGCCGGCACGTGGACGGGTGGGGC
GTGGGATTTTTCGAAGGGAAAGGGTTCCGAAATTTCTGCGATTCGCTCCC
CAGCGCGCTCAGTCCCGTGGCGAACCTGATCTGCAACTATCCGATCAAGA
CTCGCACGGTGATCGCCCATGTGAGGATGGCTACCCACGGGCAAGTCCGG
CTGGAGAACGTGCACCCCTTTTCCAGGGAGCTGTGGGGAAGGTATATCCG
CTGACTCTACTTCTGTATATACTTCAAAGTATGCTATTACTGTATTTGTT
TAGTCGTGTTTTCTTTAGGTCACATCTGAGGGACATACTGTATTTGATCA
ATTGGTGTATTTTTTAGGAGACGATACTTTCTACGCTACAACATCTATGA
TAGTAGCGCACTCAAGAGTCTGTACTGATTCTTCCATCCTAGAGAGATTC
GAAATTCCGTGGTCACAAGGTCTGCTGTACGATCTGCATATTCTGGCTCT
GGCCGAAAGATTTTTTTTATTTTTTGTTACGTAAATAATAGTAGTAGTAG
TAGTAGTAGGTAATAGCCTTCCACACGTCAGACAGCTCAGCTCACTACTG
TAGCTCGAGCTATCGTAGCTCCTTTTGAGGGTATCTCCCGGGTGAGCTAT
ACATGTTATATGAGCTACGCATGTCTTGCCCTGGAGGTGAGCTATGGCCA
TAACTCATCCACTCGTGTTTGCCGAGGCTGGGCTACGTACAGGAGATAGA
TGAGCGATGAGCTAGCTCATGAGCTGTCCGACGTGTGTAACCTTCCAAGA
AATTGCTATGTCAAGCGTGATAATAATTAATTAATTTTCATGCCCTTTCG
TGATTTGCATTTTATGTTTTGTGGGGGGGGGTTGTCTCGGACGAAGTCGT
ACAAAGCAAATAGAAGATACGATGGCAAGAAACATGTAGAGATGTGTGTA
CTGCTATGTATTCGGCATGAACAGAGGCCGTTTCAATCATTTCAACCATT
TTTTTCAACCATTTTTGCCGAAGCCAAGGGTTTAGACTAAGAGTATTGTT
GCTGTGTTTTTCGTACTGTTGATTGTGGATTGGGGCCGTTGGTTGTGTGT
CACAAGAGGTTCTTCTTGTCTACCCGTCGCCACCCGCGCTTTTGAGGTTT
GTCGTGCGTGGGGGGCTTCAGCAACGACGACAACCCACCGAGTTTCCCAG
AGAATTTTTCGAGCTACATAGACTATTGCTACTCTCCTACTCCCTCATCC
TTTCCTGCATAACATGTGCTGGATTTTGGTGGGGGGGGGGGGAGAGGGGG
TGGGGGGCACAATTCAACGATCACTTATCGGTGGAGGCTTTTTTGCAAAG
CAACCGCTGCACTGTTAGTGTTGTGGGCCTACGGTACCCTCACATGTATC
CGTCTTGTGTTAACTAAACAATCGTTAAAAAAAAAAACAGGGTTATTACA
CTGTACCTGGTATGGTATCATAGAATAGGATATGTTTTTCGTACTTGAAG
GTGGAAGTTCTAGTGGCTTCACGTCTACGCCCAGCTCCCTGCTGGTGGTA
CCCCGACTTGCCTGCTCACTACAACCGGGCATCGATATGATATTGATATA
AATTATCACCCCTAAATAGACATTACGTGATACAAGTTGATACAACCCCC
CCCCCCCCCCCCCACTAATAACAAATGATTTATGATTCCCTCCCCCCCCC
CCCCCCTCCCTAGCAACAATATGATACTTTCTTATCACTTTTTGGCCCAG
AAAAAATTATGGATATCATATCGTATCGGGGGTGATATATCATGTCGGGT
GATATTGATACCAGGCACTACGGACTACGTGCCTGCCTGCCTGCCTTTCT
GCTGCTTTGCCGCGGAGCCGATGTTATGTTGTGGTGTACTTACAGCAGTA
TCAAGGCATTTTCTGTGTTATCTCGGGTTTTTTTTTAAACATGGTGCTTT
CCGCGCAAATCGTGTACATGTCGTGACGCTGGCGCGATCCGTTAATTAAT
TGGATTCTGTGTTTTCGACCTCTCTTTCGTCGACGTAAGAGTTAGAGCTT
GGGGGGGGGGGGGGGGGCTTTTGAAGTACCGCCTCATCTTTCTTGCTGTA
TGTTGGCGTTTTTGCTTTCGTCGGTACAGCCCCCCCCTCCCTCCACGTGG
AGCGATTAGCGATTTGGGGGGATCGTTTAAGCACAATTTTCCGTAACGCT
TCCTTCCTACCTGCCTTCCTTACTTGCGATAACTACAGTACCTCGTCGAG
CTCCTCCCCCGGCTACGACGTAGCTACGTGTATATTTAAGGGGCTAAGAT
AAAAATGGGGCTACAGTATGGCATCAGGACAATGGGATTCGTGAACACCG
TATGATAGATACCGAGTGCATCTTTTTTTTTGGCGACGCTCCTCCACCTC
TTCCGATTCTCTGACATCAAACAAAGATGGTGTTTGTACTTGAGGCGTGT
GCAATTGAATATGCCCGCCCCCGCGCCCCCCGCCCCGTGTTTATTGCTGT
GACTAAAAAACAAAATGGCGATTAAGCTATTGGGTTTTCGCACACAACGG
CGACGTGCCTTCGGCCAAGAATCCGTCAAGGAGCGGCCTGTTCAAGTCCA
AGACGACGCGGTACAGGCCGGTCGGAGACACGGACAGCGAGACGGTATTC
TGCTACTTCCTCAACCGCCTCTTGGATGCCTTTCCGGAAGGTGATTTGAT
TTGATTGGTTTGGTTTGATTTGGTTTGGTTGGTTGTGTTCTGGTCGCCGT
TGCTTTGATTTGATTTGGTTTGGTTTGACTTGGTTTGGTTTGGTTTGGTT
TGGTTTGATGTGATGTGGTTGGTTGTGTTCTGGTCGCCGTTGCTTTGGTT
TGATTTGATTTGGTTGGTTGTGTTCTGGTCGCCGGTGCTTTGATTTGATT
TGATTTGGCTTGGTTTGATTGGTTGTGTTATGGTCGCTGTTTCGTCTCCG
GCAAACGCAAAAAAAAAAAGCGCAAAGCACGCGGTGGTGCAAGCAGTACT
CAGCGGAAACAACAAGGAAATCGTTATTCCTAGAGCGGGGCGCGCCACCT
ACTCCTTGTAAACTCCTGGTACAAAGTACGTCCCTAAGATGATAACCGAG
TAAACGCTCTGTCTGTGGATGCTTGCAGCATGCCTCCTGTCTGTGTCCAT
GCGCGCCTTCCCGCGGGGGTTCTTTGTGTCGTGCAAGCGCCAGCTCTTTC
GCTGTTTTTGCACTCCGACGTGGCATGTGTGGAACTTTTTTTTTTTTTTT
CGTTTCTTTTTTTTGTGGTTTCTAGAGACAGAGAGAGGCGGTGGGGTTAT
GTTGTGTTATATGATGTGTGATACGTACACGATGTTGAGTATATATATTT
TGTATGTATGTTGTTAAAAAAAACAACTAAAAGGTCAAGAAAACGCAAAA
AAAAAAAAAAAAAAAAGAGAGCTTAAAAAAAAAGAGAACCTCCCAAAACT
TACTATTAACACAGGAAACCGTGGAAATTTGTAATGATTAAGCTACATTT
TTTGCTACATCCGTCAGAGGATAACAAAGAAAAAGAGAAATATATGGCGT
TGCACTCACTACTTTATTTTTGGTGAGATAGGCAGCGCAACAGCTCTCAC
CTTTGGTACGTTTTTTCTCGGGGCGGTTGGTAGTCCTCGTTTTGCATGAA
CAACGTCTTATTTTTGTTTGTGTCGTTGCGAAGTAGATAAAGAGGTATTA
TAATGTGATACCTCGTAGGGCTCATCAGTAGGCGTTGCTTTCAACAACAA
TGAGCACACACACGAGCGTGCAAAAAAACAGTTTCGCGCAAAACAAATGT
GCGGAGGCGTTTTGCAGGAAACCCCGCTTCCGCCATTCCGCTCTGCCTGG
TCGGTGAAACCGTGTGTTTTTTTTTGGGGCGGTTACCATGGATGGTTGTC
GAGTTAGATGATATAGTGCGGGGTGAAGAACCTGACCTCCGCGCAAGTGG
GATGACATCACGTAGTGTATATATGGTAAGGCACTCACGAGGCAGTTACA
TAGTATACCCATGGCTGTCTCTGGAAGTGGCCACACCAGAAAATAAACTG
TTAATTCGAAGCTGTCATCCATATGCAAGAAAGTCCGCCTCACAAGTGGT
TCTTAGCAAAGGATACAAGGGCGCCTGCCGGGCAGTGAACTGCCCGGCAG
GCTCGCAGGATTTTAGGGCGCATGCCAAGGGTGTGAAAGGAAATCCGCAG
GCAACGTGTCGATGGCGTAAACATCGCGCCTGAAGAGTTACACGTACGTG
CTTTCAACGTGCTTTCAACATTAGAGGCGAGACGAAACCCAAGCAGGAGA
CATGGCACTGATAATATTATAGATATAAATTTAATCCCCAAATGATGATA
GGCGTTTCTTGTATCTAAAGCGCAGTTTGCCAATATTCTACGGTCTCCGA
TAGTACTACCGCAGCAGGACTACGATACTACAGTAGTAGTACAGGAGTAC
AGTACGGCCACATCACAGAGTAGAATGATACGCTATAAATGATACCTGTA
GAACAGTACAGGAGTAGTAGTAATAATAGTAGTATAATAATAGTAGTACA
GGAGTAGGACCTGGTGTAGTAGAAGTACCCGTGGTTTCAGAAAAAAAGAC
GACACCATTTTTTTTTTTTTTTCTGTCCCATTTATTATCTTCGCCCTAGT
CTTACTCTAGCTCCATCCCTCTTCGTAACTCAGATCCGGGGTCACATAGT
AGGCGCTCCTCCCTCCTTCCCACTACGGTACGTGCCTACATTTTTATCGC
GAGAAGAGTGCAGCACTTTCTTCCCTCGTCGACTTTCATCGAATTGTGCT
TACTCACGCTCTTCTTGCGGTTTCCGCGACGGAAAATGACACAGAAAAGT
GCCACCGGGAATCGAACCCCCAACTTCCGCCAACAGAGGAAATACCCTAG
CCATTAGACCACTGGGCCACCCCTGCTACATGCGGATTTTAACTCGGGCT
ACAGGGAGTGAGTACAGAGCAAACTTATCAGTACACAGCATAATAATATA
TTGATTGCTGTTATTATTCGTTTTTTGTTTTTTCGCTTTGTTTTTGTTTT
TTCCCCCGGTGGTGTTGTGATGGTATATATAACATGATAATAGTGGTACA
ACAGTCATATATAATATATGCGGAGGTTTCTCCGTTACCTCGCACTGCAT
CTATCTCACACCGTCTCTCTCTATGATAGCTAGCACTCCTCGTGTCACCA
CTTTATTGCCAGCAGGCACTCTGCTGGTCACACTAGCCAGCCCTCCCTTC
TTATGCATCCGCCCTTCCTTTCGTGTATAACATATTGTCTGTATCGTCGT
TTATCTGTTGCTATGAGGCTGTGTGAGTTGTTGCGGTCCAGCCGCAACCC
TCACATTGTAGCTACTGACTGTATCTCATGAAGAACCACAGCGAGTTACC
GGTCGTATATCATACGAACACAAAGGCATTGATTGCTGCAATCGTCCACT
CATCACATCACGCAGGTGCATAGCTATGCAACTAGCAGGGACTCTGCCGG
GCACACCAGCCAGGCCTCCCTTCTTATGCACCCACCCCAGCTAGGAGCGT
AGTCATGATACTACTACTACTACTACTGCCTGTTGTCTGTTGTTGTTGTT
GTTGTAGAGCCTGCAAAATGAATACCCGAACTCTGGCTCTTGTGGTAGAC
CCTTCGTATGATTTTGCGTATCTTGGGGAAGAAAGAAGAGAAACCACCCG
AATCTCCGCGGCTCTTCTCGGCGGGCATCGCGATGCCACCACGATGCCGC
TTGTGTCCAGACGCTAAATAAAACACTCGCTGTAAGTACAGGATTTTGAT
TTGGTGCTCTCTCGTGCGTTTGGGACAATCGTATATAGGTGTACAGCTCA
ACCTTCATGCGAATCGCCGAACACCTCACGGCGCTTCGCGCTTTGCGCAC
ACGATGTCTGCCTGGTCGGTGAAAACCCGACGTGGTCCTGTCCCGGCATA
GTTGGGATGCGAGGGTCTATGGTCATACGACTACGGCCACGGCCATGCAT
AAAATGAGTACACCCCCCCCTCCCCCGCCCGCCTGTTTTTGTTTTTTCTT
TGGCTCTGTTTCTTGACCGGGCTGGATTGCTGTGGTGGTGGTCCCGCACG
CGCGAAGGCCCGCCGAGCATGGCGGACGTGTATGGGGAGTTGAAACGGCT
GTGGAAGGAGATGTGCCGCGACAGTGGAGTGATCTTCAACTTCTTGCTTG
GGCATAACGGAGACACCCTGTTCGCAGGTGCTCTTTTCTTCTTCTTTTTC
GAGTGCCTATTTTTGTTTTTTGTGTGTGTGTGTGTGCAAGCGTGTGCCCA
AGAAGAAGCATAAAGGGTAGAGAGGCTAGGTCACGGCGGTGATATTGAGT
GTAAAAAAAAAATGCGCGAACGAAAAACCAGAGTGCCTCACATGCCCTAC
CCGCCCCCCCCCCCCTTCGTGTAGGGGACCTGGACTTGCCAGAAAGAAGA
AAGAGGTATACCATTAGTTGGGAGCAGGTGGAAGAAGATACACAGATGCG
CCCTTGTGGCACGGCCGAAGAGTAAATATTAAATGTAGAGCTCACATAGT
GGAAGGATGTGAACTGTACAATAAGGAACGAGATGTGTCGGAGGAGGAGG
AGGAGGGGGTGAGGGAAACAGACGAATGTGACATGGAGAAGGTGTGGTAC
ACTTTAGACAACAGCGAGAAAACGATGGCTACCCTAGGAGATAGTTGGTG
GCCACAAAAGGCGAAACAGGAAGGGGATAAGATTAAAGCAAAAGGTTGTT
GTGTAAGATATGGAAAAAAACGTAAAATTGAGCGCGCAAATGTTGGAGGT
GTCTCTGTTAAGAGTAGAAACAGTAGTGCTCCGTCTCGAAAGGGATATGC
GTAGTCAATGGTCAAAATGACTACCTGTCAGGCAAAGCAACAAATGAGTA
CCTCCCCCCCGCCCTGTGTACACGCCCATTCTATAACGTTTCTAGCAAAC
CTTATGCGCCTGTCGGTGGCCTGTTGTTGTTTTTTGCAGGGTGCTGGCCA
GGAGCACGACCCGGCTCTGAGACTTGGAACAGCCTCTACTTTACGGTCCG
AGAATTTCCCTTCACGACTTGTCGGCTAGTAGACGACGACTGCGAGGTGG
ACTTTAACACGGTGACGTCACCGAACGTGAGTAATTAGCCTTGTTTTTTT
GTCTTGTTGAGAGGAGGCGTTTGTTGTTGTTGTTGTTGTTTTTTTTTTCG
AAGGTAGCCTTATTTTGGGGTTTGTGCGGCAAAATAGACACTATTTGTAG
CAGGGGGTTGGGGCAGGGGGTGTGATTACGTGTGTTTGATATAATACCAA
AAAAACAGAAGATTTTGTGGAGGACGTGATTTTTGGGACGTACTTGATAG
AATAATCGATCGACACGCATGGTACCTCCGGAAGATACATCCGCCTACAT
ATATGCTTCGAGTATAGACTATGACCTGAGGATCTCCCTATGATAGCAAG
ACATGTATCCGAAAGATTATGATGCCGGTAAGCAAGGTCCGGAGAGCGTC
TGTGATCTGTGATATGACCGCCCGAGATGATCTCTATTTCTACAACATGT
CGTGGAGGGCTGTCTCCTCGCGTACGCTACACTTGGAAACCTGCTTGCCC
TCGGAAGCGGGCTAATAAAAGACTACTTGCAATAACCAAAAGCAAACAAA
CGAAAATCGTCCTGGGGCGCAATCGCCTGAAAAAACCCGATTTGTTTTGT
CCATGTGATTTCTTCCCAGAGCGACTTGTTTTTTCTTTTTGCATGTGGTC
TATACTACCGCTACACGCTTGGGACGTCCACTATATCGGGGGTTTTGAAT
GTTGGCGACGACGGTTGTCTGACTCGAAAGAAATCCCCCCAAAAAATAGC
ATTGACAAAAGACAAAAAAAAAATCAAGCATTGACAGAAGAGACAAGAGA
GGTAGAAATAATGTATGGCTCGAAAAAAATCCAAAAAGAAAAGAAAACAA
GCATATTGACGAAAACACAGAAAGAGAGATAACGTAGAAGAAAGAAAAAA
AACGGGCGAGGACGTTGTGACTGACATGGCGTCGAGCCAGCGCAGCGCAC
GCCACAACGCAAAAATGAGCCGCCTTACTTTATGATAGCATTTTTGCAGC
TCGTATCTTTAGGAGGAGGTTCGTTTTTATTATATGATTTATATGATAGT
AACAACGTGGGCGGTTGCAGCAGTTCGGAAATTTCTGTCGCTATCACTAC
GATGTATCCCTAATATGCCGAACGTTAACGAGCAACACTGTATATTAGTA
GTAGTATAGAGTCAAAACCTCCCCTAAAGATCCGTACAAAACAAAAACGC
CAAACCTATTGAAAACCTGTTGATTTGATGGAAAATTTATCGTCGTCGCC
CTCGTCGTTTTCCTTCCTTCTCGTGTGAGGTGATTGATGGTTCAATTGGG
ACGCGTCGTTTATGTTTTGTACCGCCTGCTGCTGTGTATTATACCCTTGG
CGGCCCCCCTCTCTTCTTGTTGCTTTTTTCAGCCAAAATGAGTTTTGCGT
TATGGCGGCTGGCTCGCCAGCCTCATATGTCAGGGCTTCATGTTTTGGAA
GGGTGGTTGCGTTTACGAAGCGACTATTAAACAGCTCTGATACGATACCA
TTGCGCTGTTTACTATTATATCTGCTCCTTTTCATCTTTACCTTGTGGAG
TCTTAAGGAGCGCTTACTAATAATGTTCAGACGCCAGCTAGCGGGCATGC
CTGTAAGCACGTTGTATGGGGATCTGCGAACCCGGCCACCACGGGCGCAA
GGTCGGCGTTGCCGCTAGTGTTCGGCTGGATTAGTATTGTATGCTCGTGC
GCTCATGTAAAATAATCGGTGGTGCCAAAAAAAACATTGACGGTTGGGAG
CCTTACTTAATACGGGTAGATTTTTTTTTTCATAAGAGTGATACCGTACT
CACGAAACCTGTGCTTTTGGGTGGCATTGTGTGACGCCAGCTAACCACAC
GCACGGTTGTTGTTGTTGTTGTTGCTGGCGTGGCAGGATCGCGTCGCTGT
CATTGCTACCGCGCCATTGACAACCAACGAGGTACGTCTTTCTCTCTGCC
TGGCGCGTGTGCGTTTGTCTCTAGTGTGAAGTTGTATTGTCGACAGGAGG
AGGTTTTTGCTTTTTTTTGCTTTTTTTGTTTTGTCGATGTCATCAGCATG
ACGTAGTGTTAAGAGTGAAGCATAACATGTCGTATATTGTTGTTGTTATT
GGTGGTGGCGTTGTTTTTGTCAACCATTGTCAATGGTCTAGTGGTTAGGG
TGTTCGCCTCTGTTGGCGGAAGTTGGGGGTTCGATCCCCGGTTTCACTTT
TGTGTGCCATCTTTCGTCGCGGAAAACGCGAGAGCGTGAGTAAGCACAAT
TCGATAAAAGTCGACGAGGGAAGAAAGTGCTGCACTCTTCTCGCGACAAA
AATGTAGGCACGTACCGTAGTGGGAAGGCGGGAGGAGCGCCTGCTATGTG
ACCCCGGGTCTGAGTTAAAAATAATGATGGAGCCAGAGAAAGAATAGGGC
AAAGATAATAAATGGGACGGAAAAAAAAAAAAAATGTGGTTGTTTTTGTT
GTCAACCATTAACAGCAGCTGTATTGCTGTACTCTGCACAGACAGAGTGC
CCAGTATACGTGTCATGCTTAGTTAGGGACTGTCGATCGTGTTGCTTCAA
ATTAAACGGTATCATCGCGGCACCACTCTGAACTGTGGGCCTTGCCTGCT
GTGTCTGTGCTCTATTTTGCAAATCAACCACTATTGTTGTTTTTTTTTTG
GCGCGAATGAATTATTTATTTATTTTTGGCAGATTTGGTGCGAGATGGCT
CGGGGAGACCTCCTGGCGTTCCACGGAGGCCAACCTTTCTCCAGCGCCGA
GGATTTCAGACATCACCTTAAGGCCAACGTTCCTGACATGCTCGTCCGCT
CCCCTACCGCCTAAGAGCATTTTTTTTTTTTTTTTAGTGGAG
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Coding sequence (CDS) from alignment at D-herbacea_F_contig106:834250..854641-

>mRNA_D-herbacea_F_contig106.638.1 ID=mRNA_D-herbacea_F_contig106.638.1|Name=mRNA_D-herbacea_F_contig106.638.1|organism=Desmarestia herbacea DmunF female|type=CDS|length=1800bp|location=Sequence derived from alignment at D-herbacea_F_contig106:834250..854641- (Desmarestia herbacea DmunF female)
ATGTGTCAACTCATGGGCATGCAGATGTGTCAACTCATGGGCATGCAGGC
GAATACCCCTACCGATTTTTGTTTCTCGTTTCGGGGTTTCCGCGAACGAG
GAGGCCGAACAGGCCGGCACGTGGACGGGTGGGGCGTGGGATTTTTCGAA
GGGAAAGGGTTCCGAAATTTCTGCGATTCGCTCCCCAGCGCGCTCAGTCC
CGTGGCGAACCTGATCTGCAACTATCCGATCAAGACTCGCACGGTGATCG
CCCATGTGAGGATGGCTACCCACGGGCAAGTCCGGCTGGAGAACGTGCAC
CCCTTTTCCAGGGAGCTGTGGGGAAGGCGAATACCCCTACCGATTTTTGT
TTCTCGTTTCGGGGTTTCCGCGAACGAGGAGGCCGAACAGGCCGGCACGT
GGACGGGTGGGGCGTGGGATTTTTCGAAGGGAAAGGGTTCCGAAATTTCT
GCGATTCGCTCCCCAGCGCGCTCAGTCCCGTGGCGAACCTGATCTGCAAC
TATCCGATCAAGACTCGCACGGTGATCGCCCATGTGAGGATGGCTACCCA
CGGGCAAGTCCGGCTGGAGAACGTGCACCCCTTTTCCAGGGAGCTGTGGG
GAAGCTATTGGGTTTTCGCACACAACGGCGACGTGCCTTCGGCCAAGAAT
CCGTCAAGGAGCGGCCTGTTCAAGTCCAAGACGACGCGGTACAGGCCGGT
CGGAGACACGGACAGCGAGACGGTATTCTGCTACTTCCTCAACCGCCTCT
TGGATGCCTTTCCGGAAGCTATTGGGTTTTCGCACACAACGGCGACGTGC
CTTCGGCCAAGAATCCGTCAAGGAGCGGCCTGTTCAAGTCCAAGACGACG
CGGTACAGGCCGGTCGGAGACACGGACAGCGAGACGGTATTCTGCTACTT
CCTCAACCGCCTCTTGGATGCCTTTCCGGAAGGCCCGCCGAGCATGGCGG
ACGTGTATGGGGAGTTGAAACGGCTGTGGAAGGAGATGTGCCGCGACAGT
GGAGTGATCTTCAACTTCTTGCTTGGGCATAACGGAGACACCCTGTTCGC
AGGCCCGCCGAGCATGGCGGACGTGTATGGGGAGTTGAAACGGCTGTGGA
AGGAGATGTGCCGCGACAGTGGAGTGATCTTCAACTTCTTGCTTGGGCAT
AACGGAGACACCCTGTTCGCAGGGTGCTGGCCAGGAGCACGACCCGGCTC
TGAGACTTGGAACAGCCTCTACTTTACGGTCCGAGAATTTCCCTTCACGA
CTTGTCGGCTAGTAGACGACGACTGCGAGGTGGACTTTAACACGGTGACG
TCACCGAACGGTGCTGGCCAGGAGCACGACCCGGCTCTGAGACTTGGAAC
AGCCTCTACTTTACGGTCCGAGAATTTCCCTTCACGACTTGTCGGCTAGT
AGACGACGACTGCGAGGTGGACTTTAACACGGTGACGTCACCGAACGATC
GCGTCGCTGTCATTGCTACCGCGCCATTGACAACCAACGAGGATCGCGTC
GCTGTCATTGCTACCGCGCCATTGACAACCAACGAGATTTGGTGCGAGAT
GGCTCGGGGAGACCTCCTGGCGTTCCACGGAGGCCAACCTTTCTCCAGCG
CCGAGGATTTCAGACATCACCTTAAGGCCAACGTTCCTGACATGCTCGTC
CGCTCCCCTACCGCCTAAATTTGGTGCGAGATGGCTCGGGGAGACCTCCT
GGCGTTCCACGGAGGCCAACCTTTCTCCAGCGCCGAGGATTTCAGACATC
ACCTTAAGGCCAACGTTCCTGACATGCTCGTCCGCTCCCCTACCGCCTAA
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