limkain- partial, maker-scaffold194_size270518-snap-gene-1.22 (gene) Tigriopus kingsejongensis

Overview


Name	limkain- partial
Unique Name	maker-scaffold194_size270518-snap-gene-1.22
Type	gene
Organism	Tigriopus kingsejongensis (Tigriopus kingsejongensis)

Associated RNAi Experiments

Nothing found

Homology

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BLAST of limkain- partial vs. L. salmonis genes
Match: EMLSAG00000000930 (supercontig:LSalAtl2s:LSalAtl2s1162:109395:117096:1 gene:EMLSAG00000000930 transcript:EMLSAT00000000930 description:"maker-LSalAtl2s1162-snap-gene-1.20")

HSP 1 Score: 57.7658 bits (138), Expect = 1.570e-8
Identity = 57/250 (22.80%), Postives = 106/250 (42.40%), Query Frame = 0

Query:  643 LPNVLTTLDKLKEQLTLAMKVHNNNIHHASLLYCLHATCSTENIQDLIKVVPPEQGGVPLEQLLVAL---GITETVVGINGTLFIRPRGKQHSLE-----SYPDSKPPP------LATLERKFLQILEKAPYHRIAWETDFVEMFFAENKVKLSEVCRSFGGISATLEKLSGTFALIGTKRNSELILSFGYQKKIFLIALRKVLAGQESFKAGLPLDPDDLGSLYEKRMKKPFQINAFGLCSVDDMLGAI 878
            LP +   L  L + + + +K H  ++  AS++ C +A    E   D          GVP+E LL  +    I   V G+     ++    ++S       SY     PP      L+   R+ + +L+ +P  R+ +   F+  +      +       +  +    E L     ++G    + + LS   Q K F+  + ++L  Q S +  +    D++ SLYE    + F+I+ +G+C V+D+LG I
Sbjct:  273 LPLINIRLSLLSKNMRVLLKSHGGSVPLASIVQCYNADYELEIDVD---------NGVPMEHLLSCIKEISIHYGVSGVKKVTLMKSFNTEYSCSHLNNISYNGLTTPPAPLAGQLSLFSRELVDLLKISPGCRMPFHK-FIPTYHHHFGRQCRVADYGYTKLKDLFEALPNVVQILGEGSRAIITLSHRSQVKRFISDILRILKNQTSKQFLV----DEIKSLYEGEFGQLFKISNYGVCHVEDLLGEI 508

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BLAST of limkain- partial vs. SwissProt
Match: gi|387942524|sp|E1BP74.2|MARF1_BOVIN (RecName: Full=Meiosis regulator and mRNA stability factor 1; AltName: Full=Limkain-b1; AltName: Full=Meiosis arrest female protein 1)

HSP 1 Score: 149.058 bits (375), Expect = 1.033e-34
Identity = 91/281 (32.38%), Postives = 155/281 (55.16%), Query Frame = 0

Query:   64 LGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDYNKRGSFMGLTRAMSRT-HSMSPARELKSRPIATVRGIAAQGS 343
            L  +GVFWDI+NC +P G+SAT VV ++R     +G  E EF+ VCD+++   ++I ELN  QV+V H+  + KN+AD+KLRQ++R+F +     +T+V++S D++F  +LSD R R G  +IL+H   A+EA+   A+    F   + D+P +          T L V NLP  +D   +++  RL  +     C  K+ N     A+L+F +   A +AL  ++   +  N I V +  + S +  T++ + T   +   ++LK+  +  ++ I+   S
Sbjct:  348 LPPIGVFWDIENCSVPSGRSATAVVQRIRE-KFFKGHREAEFICVCDISKENKEVIQELNNCQVTVAHINATAKNAADDKLRQSLRRFANTHTAPATVVLVSTDVNFALELSDLRHRHGFHIILVHKNQASEALLHHANELIRFEEFISDLPPRLPLKMPC--HTLLYVYNLPANKD--GKSISNRLRRLS--DNCGGKVLNITGCSAILRFINRDSAERALKRMENEDVFGNRIVVSFTPKSSELCETKSSNATADKVKSPKKLKNPKLCLIKDISESPS 621

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BLAST of limkain- partial vs. SwissProt
Match: gi|387942516|sp|B2GUN4.1|MARF1_XENTR (RecName: Full=Meiosis regulator and mRNA stability factor 1; AltName: Full=Limkain-b1; AltName: Full=Meiosis arrest female protein 1 homolog)

HSP 1 Score: 144.436 bits (363), Expect = 2.738e-33
Identity = 87/265 (32.83%), Postives = 142/265 (53.58%), Query Frame = 0

Query:   63 GLGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDYNKRGSFMGLTR--AMSRTHSMSPAR 325
             L  +GVFWDI+NC +P G+SA  VV ++R     +G  E EF+ VCD+++   ++I ELN  QV+V H+  + KN+AD+KLRQ++R+F D     +T+V++S D++F  +LSD R R    +IL+H   A+EA+   A     F   + D+P +        Q T L V NLP  +D   +++  RL  +     C  K+ +     A+L+F +   A +A   ++   +  N I V +  R   +  T+   +S   + SP +
Sbjct:  336 NLPPIGVFWDIENCSVPSGRSAVTVVKRIRER-LFKGHREAEFICVCDISKENKEVIEELNNCQVTVAHINATAKNAADDKLRQSLRRFADTHTSPATVVLVSTDVNFALELSDLRHRHSFHIILIHKNQASEALLHHAHELIHFEEFISDLPPRLPIKMQQCQ-TLLYVYNLPTNRDA--KSISNRLRRLSD--NCGGKVMSISGTSAILRFANQESAERAQKRMENEDVFGNRITVSFTPRNKEVNETKNSCVSNEKAKSPKK 594

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BLAST of limkain- partial vs. SwissProt
Match: gi|387912929|sp|Q9Y4F3.6|MARF1_HUMAN (RecName: Full=Meiosis regulator and mRNA stability factor 1; AltName: Full=Limkain-b1; AltName: Full=Meiosis arrest female protein 1)

HSP 1 Score: 142.124 bits (357), Expect = 1.298e-32
Identity = 88/281 (31.32%), Postives = 152/281 (54.09%), Query Frame = 0

Query:   64 LGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDYNKRGSFMGLTRAMSR-THSMSPARELKSRPIATVRGIAAQGS 343
            L  +GVFWDI+NC +P G+SAT VV ++R     +G  E EF+ VCD+++   ++I ELN  QV+V H+  + KN+AD+KLRQ++R+F +     +T+V++S D++F  +LSD R R G  +IL+H   A+EA+   A+    F   + D+P +          T L V NLP  +D   ++V  RL  +     C  K+ +     A+L+F +   A +A   ++   +  N I V +  +   +  T++ +     +   ++LK+  +  ++  + Q S
Sbjct:  350 LPPIGVFWDIENCSVPSGRSATAVVQRIRE-KFFKGHREAEFICVCDISKENKEVIQELNNCQVTVAHINATAKNAADDKLRQSLRRFANTHTAPATVVLVSTDVNFALELSDLRHRHGFHIILVHKNQASEALLHHANELIRFEEFISDLPPRLPLKMPQCH-TLLYVYNLPANKD--GKSVSNRLRRLSD--NCGGKVLSITGCSAILRFINQDSAERAQKRMENEDVFGNRIIVSFTPKNRELCETKSSNAIADKVKSPKKLKNPKLCLIKDASEQSS 624

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BLAST of limkain- partial vs. SwissProt
Match: gi|387942515|sp|E1BZ85.1|MARF1_CHICK (RecName: Full=Meiosis regulator and mRNA stability factor 1; AltName: Full=Limkain-b1; AltName: Full=Meiosis arrest female protein 1 homolog)

HSP 1 Score: 142.124 bits (357), Expect = 1.365e-32
Identity = 84/251 (33.47%), Postives = 139/251 (55.38%), Query Frame = 0

Query:   64 LGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDYNKRGSFMGLTRA 314
            L  +GVFWDI+NC +P G+SA  VV ++R     +G  E EF+ VCD+++   ++I ELN  QV+V H+  + KN+AD+KLRQ++R+F D     +T+V++S D++F  +LSD R R G ++IL+H   A+EA+   A     F   + D+P +      +   T L V NLP  +D   ++V  RL  +     C  K+ +     A+L+F +   A +A   ++   +  N I V +  +   +  T++
Sbjct:  342 LPPIGVFWDIENCSVPTGRSAVAVVQRIRE-KFFKGHREAEFICVCDISKENKEVIQELNNCQVTVAHINATAKNAADDKLRQSLRRFADTHTAPATVVLVSTDVNFALELSDLRHRHGFRIILVHKNQASEALLHHAHELVCFEEFISDLPPRLPLKMPACH-TLLYVYNLPTNRD--SKSVSNRLRRLSD--NCGGKVLSISGSSAILRFLNQESAERAWKRMENEDVFGNRIVVSFAPKNKELNETKS 586

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BLAST of limkain- partial vs. SwissProt
Match: gi|387912901|sp|Q8BJ34.3|MARF1_MOUSE (RecName: Full=Meiosis regulator and mRNA stability factor 1; AltName: Full=Limkain-b1; AltName: Full=Meiosis arrest female protein 1)

HSP 1 Score: 139.813 bits (351), Expect = 6.363e-32
Identity = 94/300 (31.33%), Postives = 152/300 (50.67%), Query Frame = 0

Query:    7 ISLANWTGT-GISARVLAITHTSGTGTPFHTPCPLIAPNSAVRTTMEPASMSCSTPPGLGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDYNKR 305
            I + N  GT G+      +  TS   T      P +A    V  T+ P             +GVFWDI+NC +P G+SAT VV ++R     +G  E EF+ VCD+++   ++I ELN  QV+V H+  + KN+AD+KLRQ++R+F +     +T+V++S D++F  +LSD R R G  +IL+H   A+EA+   A+    F   + D+P +          T L V NLP  +D   +++  RL  +     C  K+ +     A+L+F +   A +A   ++   +  N I V +  +
Sbjct:  304 IPVCNGCGTKGMEKETSLLLATSLGKTASKFGSPEVAVTGQVLETLPP-------------IGVFWDIENCSVPSGRSATTVVQRIRE-KFFRGHREAEFICVCDISKENKEVIQELNNCQVTVAHINATAKNAADDKLRQSLRRFANTHTAPATVVLVSTDVNFALELSDLRHRHGFHIILVHKNQASEALLHHANQLIRFEEFISDLPPRLPLKIPQCH-TLLYVYNLPANKD--GKSISNRLRRLSD--NCGGKVLSITGCSAILRFINQDSAERAQKRMENEDVFGNRIIVSFTPK 584

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BLAST of limkain- partial vs. SwissProt
Match: gi|387912882|sp|Q8VIG2.2|MARF1_RAT (RecName: Full=Meiosis regulator and mRNA stability factor 1; AltName: Full=Limkain-b1; AltName: Full=Meiosis arrest female protein 1)

HSP 1 Score: 139.813 bits (351), Expect = 7.614e-32
Identity = 82/242 (33.88%), Postives = 135/242 (55.79%), Query Frame = 0

Query:   64 LGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDYNKR 305
            L  +GVFWDI+NC +P G+SAT VV ++R     +G  E EF+ VCD+++   ++I ELN  QV+V H+  + KN+AD+KLRQ++R+F +     +T+V++S D++F  +LSD R R G  +IL+H   A+EA+   A+    F   + D+P +          T L V NLP  +D   +++  RL  +     C  K+ +     A+L+F +   A +A   ++   +  N I V +  +
Sbjct:  348 LPPIGVFWDIENCSVPSGRSATTVVQRIRE-KFFRGHREAEFICVCDISKENKEVIQELNNCQVTVAHINATAKNAADDKLRQSLRRFANTHTAPATVVLVSTDVNFALELSDLRHRHGFHIILVHKNQASEALLHHANQLIRFEEFISDLPPRLPLKIPC--HTLLYVYNLPANKD--GKSISNRLRRLSD--NCGGKVLSITGCSAILRFINQDSAERAQKRMENEDVFGNRIIVSFTPK 582

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BLAST of limkain- partial vs. nr
Match: gi|1069668127|ref|XP_018313845.1| (PREDICTED: meiosis arrest female protein 1 homolog isoform X2 [Trachymyrmex zeteki])

HSP 1 Score: 172.555 bits (436), Expect = 1.826e-39
Identity = 122/362 (33.70%), Postives = 196/362 (54.14%), Query Frame = 0

Query:    7 ISLANWTGTGISARV---LAITHTSGTGTPFHTPCPLIAPNSAVRTTMEPASMSCSTPPGLGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDYNKR----------GSFMGLTRAMSRTHSMSPARELKSRPI-ATVRGIAAQGSLPNPKQQSRTN 354
            I L N +G+ I ++    L+ +H           C L+  +S       PA MS ST   L  +GVFWDI+NC +P G+SA  V   +R      G  E EF+VVCDV +  + II ELN AQV++ HV  + KN+ADEKL+QA+R+F D  G  + +++ISGDI+F ADLSD R RK + VILLH    +EA+   A+   DF  L E +PS+       ++  +L ++NLP   D+    +++RL+++     C  ++ + +   A+L+F   S A +A   ++G  +  ++I+V Y  +          GS +  +RA+S +  ++ +R+  S+ + A    +  Q +L  P  QS ++
Sbjct:   50 IRLENNSGSNIDSKAFGSLSFSHCRHD-------CSLLCYDS-------PAKMS-STSNHLPPIGVFWDIENCQVPKGRSAIGVTQLIRD-KFFDGYREAEFIVVCDVQKENSQIIQELNDAQVNLIHVAATCKNAADEKLKQAIRRFADIHGSPAAIILISGDINFAADLSDLRHRKKIHVILLHKKNTSEALILCANEHYDFMELTEPLPSR--PPPKGYESYDLLISNLPNETDV--SIIKRRLKQLSE--NCGGRVVDIQSNTAILRFTSHSSADRAQKRMEGELVLGSKISVKYLGKEKGNIIVKSLGSIITRSRAVSDSEIVTDSRQSNSKQMYAASASVLGQRTLQFPHVQSSSS 389

HSP 2 Score: 71.633 bits (174), Expect = 1.343e-8
Identity = 82/349 (23.50%), Postives = 149/349 (42.69%), Query Frame = 0

Query:  629 PIHDKTSNFKESYILPNVLTTLDKLKEQLTLAMKVHNNNIHHASLLYCLHATCSTENIQDLIKVVPPEQGGVPLEQLLVALGITETVVGINGTLFIRPRGKQHSLESYPDSK--PPPLAT----LERKFLQILEKAPYHRIAWETDFVEMFFAENKVKLSEVCRSFGGISATLEKLSGTFALIGTKRNSELILSFGYQKKIFLIALRKVLAGQESFKAGLPLDPDDLGSLYEKRMKKPFQINAFGLCSVDDMLG-------------------AILKSRQNLFKLSENRLFFKDEIETFV-GNSVAILLDKYGFTCSLPAFDESYTK--KHGDYSIPKLC--FKSIQDL 947
            P+ DK    +E   LPNV  +L  L+ +L   +  HN  +   SL  C  A       ++ +++V   + GVPLE L+  L   E    I    +I   GK+    ++ ++K   PPLA       R+ + +L+ A + ++ +   F+  +      +       F  +   LE L+ T  ++G      + LS   Q + F   L +VL  + S +  L     +  S+Y++ + KP+ I  +G+C ++D+LG                   AI K  Q   ++   +LF K+ +E         +L +K+     +P++   +    +  DY   KL   F++I D+
Sbjct:  803 PLSDKGWAEQEMASLPNVKISLKLLESRLQQLLASHNGILPLPSLPNCYEA-----EFKEQLEIV---EKGVPLEHLVSCLSCVELRQDIGSVKYIVWIGKKDHENNHDETKCVSPPLANQLALFSRELVDLLKTAKHCQLPFNR-FIPAYHHHFGRQCRVADYGFTKLIDLLEALTHTVQVMGEGNKRVVTLSHRAQVRRFTSDLLRVLKSKASKQVAL----SEFPSVYQRVIAKPWDIVDYGVCDIEDILGEVSENTVVVTPMEANDKMIAIPKREQTAEEMERTKLFAKEVVELLQHAPQCRMLFNKF-----VPSYHHHFGHQCRVSDYGFTKLIELFEAIPDV 1133

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BLAST of limkain- partial vs. nr
Match: gi|1069668133|ref|XP_018313863.1| (PREDICTED: meiosis arrest female protein 1 homolog isoform X4 [Trachymyrmex zeteki])

HSP 1 Score: 172.555 bits (436), Expect = 1.836e-39
Identity = 122/362 (33.70%), Postives = 196/362 (54.14%), Query Frame = 0

Query:    7 ISLANWTGTGISARV---LAITHTSGTGTPFHTPCPLIAPNSAVRTTMEPASMSCSTPPGLGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDYNKR----------GSFMGLTRAMSRTHSMSPARELKSRPI-ATVRGIAAQGSLPNPKQQSRTN 354
            I L N +G+ I ++    L+ +H           C L+  +S       PA MS ST   L  +GVFWDI+NC +P G+SA  V   +R      G  E EF+VVCDV +  + II ELN AQV++ HV  + KN+ADEKL+QA+R+F D  G  + +++ISGDI+F ADLSD R RK + VILLH    +EA+   A+   DF  L E +PS+       ++  +L ++NLP   D+    +++RL+++     C  ++ + +   A+L+F   S A +A   ++G  +  ++I+V Y  +          GS +  +RA+S +  ++ +R+  S+ + A    +  Q +L  P  QS ++
Sbjct:   50 IRLENNSGSNIDSKAFGSLSFSHCRHD-------CSLLCYDS-------PAKMS-STSNHLPPIGVFWDIENCQVPKGRSAIGVTQLIRD-KFFDGYREAEFIVVCDVQKENSQIIQELNDAQVNLIHVAATCKNAADEKLKQAIRRFADIHGSPAAIILISGDINFAADLSDLRHRKKIHVILLHKKNTSEALILCANEHYDFMELTEPLPSR--PPPKGYESYDLLISNLPNETDV--SIIKRRLKQLSE--NCGGRVVDIQSNTAILRFTSHSSADRAQKRMEGELVLGSKISVKYLGKEKGNIIVKSLGSIITRSRAVSDSEIVTDSRQSNSKQMYAASASVLGQRTLQFPHVQSSSS 389

HSP 2 Score: 72.0182 bits (175), Expect = 1.105e-8
Identity = 82/349 (23.50%), Postives = 149/349 (42.69%), Query Frame = 0

Query:  629 PIHDKTSNFKESYILPNVLTTLDKLKEQLTLAMKVHNNNIHHASLLYCLHATCSTENIQDLIKVVPPEQGGVPLEQLLVALGITETVVGINGTLFIRPRGKQHSLESYPDSK--PPPLAT----LERKFLQILEKAPYHRIAWETDFVEMFFAENKVKLSEVCRSFGGISATLEKLSGTFALIGTKRNSELILSFGYQKKIFLIALRKVLAGQESFKAGLPLDPDDLGSLYEKRMKKPFQINAFGLCSVDDMLG-------------------AILKSRQNLFKLSENRLFFKDEIETFV-GNSVAILLDKYGFTCSLPAFDESYTK--KHGDYSIPKLC--FKSIQDL 947
            P+ DK    +E   LPNV  +L  L+ +L   +  HN  +   SL  C  A       ++ +++V   + GVPLE L+  L   E    I    +I   GK+    ++ ++K   PPLA       R+ + +L+ A + ++ +   F+  +      +       F  +   LE L+ T  ++G      + LS   Q + F   L +VL  + S +  L     +  S+Y++ + KP+ I  +G+C ++D+LG                   AI K  Q   ++   +LF K+ +E         +L +K+     +P++   +    +  DY   KL   F++I D+
Sbjct:  619 PLSDKGWAEQEMASLPNVKISLKLLESRLQQLLASHNGILPLPSLPNCYEA-----EFKEQLEIV---EKGVPLEHLVSCLSCVELRQDIGSVKYIVWIGKKDHENNHDETKCVSPPLANQLALFSRELVDLLKTAKHCQLPFNR-FIPAYHHHFGRQCRVADYGFTKLIDLLEALTHTVQVMGEGNKRVVTLSHRAQVRRFTSDLLRVLKSKASKQVAL----SEFPSVYQRVIAKPWDIVDYGVCDIEDILGEVSENTVVVTPMEANDKMIAIPKREQTAEEMERTKLFAKEVVELLQHAPQCRMLFNKF-----VPSYHHHFGHQCRVSDYGFTKLIELFEAIPDV 949

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BLAST of limkain- partial vs. nr
Match: gi|1069668130|ref|XP_018313854.1| (PREDICTED: meiosis arrest female protein 1 homolog isoform X3 [Trachymyrmex zeteki])

HSP 1 Score: 172.555 bits (436), Expect = 1.952e-39
Identity = 122/362 (33.70%), Postives = 196/362 (54.14%), Query Frame = 0

Query:    7 ISLANWTGTGISARV---LAITHTSGTGTPFHTPCPLIAPNSAVRTTMEPASMSCSTPPGLGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDYNKR----------GSFMGLTRAMSRTHSMSPARELKSRPI-ATVRGIAAQGSLPNPKQQSRTN 354
            I L N +G+ I ++    L+ +H           C L+  +S       PA MS ST   L  +GVFWDI+NC +P G+SA  V   +R      G  E EF+VVCDV +  + II ELN AQV++ HV  + KN+ADEKL+QA+R+F D  G  + +++ISGDI+F ADLSD R RK + VILLH    +EA+   A+   DF  L E +PS+       ++  +L ++NLP   D+    +++RL+++     C  ++ + +   A+L+F   S A +A   ++G  +  ++I+V Y  +          GS +  +RA+S +  ++ +R+  S+ + A    +  Q +L  P  QS ++
Sbjct:   50 IRLENNSGSNIDSKAFGSLSFSHCRHD-------CSLLCYDS-------PAKMS-STSNHLPPIGVFWDIENCQVPKGRSAIGVTQLIRD-KFFDGYREAEFIVVCDVQKENSQIIQELNDAQVNLIHVAATCKNAADEKLKQAIRRFADIHGSPAAIILISGDINFAADLSDLRHRKKIHVILLHKKNTSEALILCANEHYDFMELTEPLPSR--PPPKGYESYDLLISNLPNETDV--SIIKRRLKQLSE--NCGGRVVDIQSNTAILRFTSHSSADRAQKRMEGELVLGSKISVKYLGKEKGNIIVKSLGSIITRSRAVSDSEIVTDSRQSNSKQMYAASASVLGQRTLQFPHVQSSSS 389

HSP 2 Score: 71.633 bits (174), Expect = 1.309e-8
Identity = 82/349 (23.50%), Postives = 149/349 (42.69%), Query Frame = 0

Query:  629 PIHDKTSNFKESYILPNVLTTLDKLKEQLTLAMKVHNNNIHHASLLYCLHATCSTENIQDLIKVVPPEQGGVPLEQLLVALGITETVVGINGTLFIRPRGKQHSLESYPDSK--PPPLAT----LERKFLQILEKAPYHRIAWETDFVEMFFAENKVKLSEVCRSFGGISATLEKLSGTFALIGTKRNSELILSFGYQKKIFLIALRKVLAGQESFKAGLPLDPDDLGSLYEKRMKKPFQINAFGLCSVDDMLG-------------------AILKSRQNLFKLSENRLFFKDEIETFV-GNSVAILLDKYGFTCSLPAFDESYTK--KHGDYSIPKLC--FKSIQDL 947
            P+ DK    +E   LPNV  +L  L+ +L   +  HN  +   SL  C  A       ++ +++V   + GVPLE L+  L   E    I    +I   GK+    ++ ++K   PPLA       R+ + +L+ A + ++ +   F+  +      +       F  +   LE L+ T  ++G      + LS   Q + F   L +VL  + S +  L     +  S+Y++ + KP+ I  +G+C ++D+LG                   AI K  Q   ++   +LF K+ +E         +L +K+     +P++   +    +  DY   KL   F++I D+
Sbjct:  670 PLSDKGWAEQEMASLPNVKISLKLLESRLQQLLASHNGILPLPSLPNCYEA-----EFKEQLEIV---EKGVPLEHLVSCLSCVELRQDIGSVKYIVWIGKKDHENNHDETKCVSPPLANQLALFSRELVDLLKTAKHCQLPFNR-FIPAYHHHFGRQCRVADYGFTKLIDLLEALTHTVQVMGEGNKRVVTLSHRAQVRRFTSDLLRVLKSKASKQVAL----SEFPSVYQRVIAKPWDIVDYGVCDIEDILGEVSENTVVVTPMEANDKMIAIPKREQTAEEMERTKLFAKEVVELLQHAPQCRMLFNKF-----VPSYHHHFGHQCRVSDYGFTKLIELFEAIPDV 1000

[Close]

BLAST of limkain- partial vs. nr
Match: gi|1009367280|gb|KYM92281.1| (Limkain-b1 [Atta colombica])

HSP 1 Score: 171.4 bits (433), Expect = 4.774e-39
Identity = 120/359 (33.43%), Postives = 195/359 (54.32%), Query Frame = 0

Query:    7 ISLANWTGTGISARVLAITHTSGTGTPFHTPCPLIAPNSAVRTTMEPASMSCSTPPGLGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDY----------NKRGSFMGLTRAMSRTHSMSPARELKSRPI-ATVRGIAAQGSLPNPKQQSRTN 354
            I L N +G+ I ++      +S + +     C L+  +S       PA MS ST   L  +GVFWDI+NC +P G+SA  V   +R      G  E EF+VVCDV +  + II ELN AQV++ HV  + KN+ADEKL+QA+R+F D  G  + +++ISGDI+F ADLSD R RK + VILLH    +EA+   A+   DF  L E +PS+     +  +  +L ++NLP   D+    +++RL+++     C  ++ + +   A+L+F   S A +A   ++G  +  ++I+V Y             GS +  +RA+S +  ++ +++  S+ + A    +  Q +L  P  QS ++
Sbjct:   50 IRLENNSGSNIDSKAF----SSLSFSHCRHDCSLLCYDS-------PAKMS-STSNHLPPIGVFWDIENCQVPKGRSAIGVTQLIRD-KFFDGYKEAEFIVVCDVQKENSQIIQELNDAQVNLIHVAATCKNAADEKLKQAIRRFADIHGSPAAIILISGDINFAADLSDLRHRKKIHVILLHKKNTSEALILCANEHYDFMELTEPLPSRPPPKGN--ESYDLLISNLPNETDV--NIIKRRLKQLSE--NCGGRVIDVQSNTAILRFTSHSSADRAQKRMEGELVLGSKISVKYLGKEKGNIIVKNLGSIITRSRAVSDSEIVTDSKQSSSKQMYAASASVLGQRTLQFPHVQSSSS 389

[Close]

BLAST of limkain- partial vs. nr
Match: gi|801375719|ref|XP_012063649.1| (PREDICTED: meiosis arrest female protein 1 homolog [Atta cephalotes])

HSP 1 Score: 171.014 bits (432), Expect = 5.168e-39
Identity = 120/359 (33.43%), Postives = 195/359 (54.32%), Query Frame = 0

Query:    7 ISLANWTGTGISARVLAITHTSGTGTPFHTPCPLIAPNSAVRTTMEPASMSCSTPPGLGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDY----------NKRGSFMGLTRAMSRTHSMSPARELKSRPI-ATVRGIAAQGSLPNPKQQSRTN 354
            I L N +G+ I ++      +S + +     C L+  +S       PA MS ST   L  +GVFWDI+NC +P G+SA  V   +R      G  E EF+VVCDV +  + II ELN AQV++ HV  + KN+ADEKL+QA+R+F D  G  + +++ISGDI+F ADLSD R RK + VILLH    +EA+   A+   DF  L E +PS+     +  +  +L ++NLP   D+    +++RL+++     C  ++ + +   A+L+F   S A +A   ++G  +  ++I+V Y             GS +  +RA+S +  ++ +++  S+ + A    +  Q +L  P  QS ++
Sbjct:   50 IRLENNSGSNIDSKAF----SSLSFSHCRHDCSLLCYDS-------PAKMS-STSNHLPPIGVFWDIENCQVPKGRSAIGVTQLIRD-KFFDGYKEAEFIVVCDVQKENSQIIQELNDAQVNLIHVAATCKNAADEKLKQAIRRFADIHGSPAAIILISGDINFAADLSDLRHRKKIHVILLHKKNTSEALILCANEHYDFMELTEPLPSRPPPKGN--ESYDLLISNLPNETDV--NIIKRRLKQLSE--NCGGRVIDVQSNTAILRFTSHSSADRAQKRMEGELVLGSKISVKYLGKEKGNIIVKNLGSIITRSRAVSDSEIVTDSKQSSSKQMYAASASVLGQRTLQFPHVQSSSS 389

HSP 2 Score: 68.5514 bits (166), Expect = 1.127e-7
Identity = 81/349 (23.21%), Postives = 149/349 (42.69%), Query Frame = 0

Query:  629 PIHDKTSNFKESYILPNVLTTLDKLKEQLTLAMKVHNNNIHHASLLYCLHATCSTENIQDLIKVVPPEQGGVPLEQLLVALGITETVVGINGTLFIRPRGKQHSLESYPDSK--PPPLAT----LERKFLQILEKAPYHRIAWETDFVEMFFAENKVKLSEVCRSFGGISATLEKLSGTFALIGTKRNSELILSFGYQKKIFLIALRKVLAGQESFKAGLPLDPDDLGSLYEKRMKKPFQINAFGLCSVDDMLG-------------------AILKSRQNLFKLSENRLFFKDEIETFV-GNSVAILLDKYGFTCSLPAFDESYTK--KHGDYSIPKLC--FKSIQDL 947
            P+ DK    +E   LPNV  +L  L+ +L   +  HN  +   SL  C  A       ++ +++V   + GVPLE L+  L   E    I    +I   GK+    ++ ++K   PPLA       R+ + +L+ A + ++ +   F+  +      +       F  +   LE L+ T  ++G      + LS   Q + F   L +VL  + S +  L     +  S+Y++ + KP+ I  +G+C+++D+L                    AI K  Q   ++   +LF K+ +E         +L +K+     +P++   +    +  DY   KL   F++I D+
Sbjct:  802 PLSDKGWAEQEMASLPNVKISLKLLESRLQQLLMSHNGILPLPSLPNCYEA-----EFKEQLEIV---EKGVPLEHLVSCLSCVELRQDIGSVKYIVWIGKKDHENNHDETKCVSPPLANQLALFSRELVDLLKTAKHCQLPFNR-FIPAYHHHFGRQCRVADYGFTKLIDLLEALTHTVQVMGEGNKRMVTLSHRAQVRRFTSDLLRVLKSKASKQVAL----SEFPSVYQRVIAKPWDIVDYGVCNIEDILSEVSENTVVVTPMEANDKMIAIPKREQTPEEMERTKLFAKEVVELLQHAPQCRMLFNKF-----VPSYHHHFGHQCRVSDYGFTKLIELFEAIPDV 1132

[Close]

BLAST of limkain- partial vs. nr
Match: gi|1068380519|ref|XP_018055265.1| (PREDICTED: meiosis arrest female protein 1 homolog [Atta colombica])

HSP 1 Score: 171.014 bits (432), Expect = 5.564e-39
Identity = 120/359 (33.43%), Postives = 195/359 (54.32%), Query Frame = 0

Query:    7 ISLANWTGTGISARVLAITHTSGTGTPFHTPCPLIAPNSAVRTTMEPASMSCSTPPGLGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDY----------NKRGSFMGLTRAMSRTHSMSPARELKSRPI-ATVRGIAAQGSLPNPKQQSRTN 354
            I L N +G+ I ++      +S + +     C L+  +S       PA MS ST   L  +GVFWDI+NC +P G+SA  V   +R      G  E EF+VVCDV +  + II ELN AQV++ HV  + KN+ADEKL+QA+R+F D  G  + +++ISGDI+F ADLSD R RK + VILLH    +EA+   A+   DF  L E +PS+     +  +  +L ++NLP   D+    +++RL+++     C  ++ + +   A+L+F   S A +A   ++G  +  ++I+V Y             GS +  +RA+S +  ++ +++  S+ + A    +  Q +L  P  QS ++
Sbjct:   50 IRLENNSGSNIDSKAF----SSLSFSHCRHDCSLLCYDS-------PAKMS-STSNHLPPIGVFWDIENCQVPKGRSAIGVTQLIRD-KFFDGYKEAEFIVVCDVQKENSQIIQELNDAQVNLIHVAATCKNAADEKLKQAIRRFADIHGSPAAIILISGDINFAADLSDLRHRKKIHVILLHKKNTSEALILCANEHYDFMELTEPLPSRPPPKGN--ESYDLLISNLPNETDV--NIIKRRLKQLSE--NCGGRVIDVQSNTAILRFTSHSSADRAQKRMEGELVLGSKISVKYLGKEKGNIIVKNLGSIITRSRAVSDSEIVTDSKQSSSKQMYAASASVLGQRTLQFPHVQSSSS 389

HSP 2 Score: 66.6254 bits (161), Expect = 4.284e-7
Identity = 81/345 (23.48%), Postives = 146/345 (42.32%), Query Frame = 0

Query:  629 PIHDKTSNFKESYILPNVLTTLDKLKEQLTLAMKVHNNNIHHASLLYCLHATCSTENIQDLIKVVPPEQGGVPLEQLLVALGITETVVGINGTLFIRPRGKQHSLESYPDSKP--PPLATLERKFLQILEKAPYHRIAWETDFVEMFFAENKVKLSEVCRSFGGISATLEKLSGTFALIGTKRNSELILSFGYQKKIFLIALRKVLAGQESFKAGLPLDPDDLGSLYEKRMKKPFQINAFGLCSVDDMLG-------------------AILKSRQNLFKLSENRLFFKDEIETFV-GNSVAILLDKYGFTCSLPAFDESYTK--KHGDYSIPKLC--FKSIQDL 947
            P+ DK    +E   LPNV  +L  L+ +L   +  HN  +   SL  C  A       ++ +++V   + GVPLE L+  L   E    I    +I   GK+   E+   S P    LA   R+ + +L+ A + ++ +   F+  +      +       F  +   LE L+ T  ++G      + LS   Q + F   L +VL  + S +  L     +  S+Y++ + KP+ I  +G+C+++D+L                    AI K  Q   ++   +LF K+ +E         +L +K+     +P++   +    +  DY   KL   F++I D+
Sbjct:  802 PLSDKGWAEQEMASLPNVKISLKLLESRLQQLLMSHNGILPLPSLPNCYEA-----EFKEQLEIV---EKGVPLEHLVSCLSCVELRQDIGSVKYIVWIGKKDHEETKCVSPPLANQLALFSRELVDLLKTAKHCQLPFNR-FIPAYHHHFGRQCRVADYGFTKLIDLLEALTHTVQVMGEGNKRMVTLSHRAQVRRFTSDLLRVLKSKASKQVAL----SEFPSVYQRVIAKPWDIVDYGVCNIEDILSEVSENTVVVTPMEANDKMIAIPKREQTPEEMERTKLFAKEVVELLQHAPQCRMLFNKF-----VPSYHHHFGHQCRVSDYGFTKLIELFEAIPDV 1128

[Close]

BLAST of limkain- partial vs. nr
Match: gi|1070205026|ref|XP_018371434.1| (PREDICTED: meiosis arrest female protein 1 homolog isoform X1 [Trachymyrmex cornetzi])

HSP 1 Score: 170.629 bits (431), Expect = 7.200e-39
Identity = 121/362 (33.43%), Postives = 195/362 (53.87%), Query Frame = 0

Query:    7 ISLANWTGTGISARV---LAITHTSGTGTPFHTPCPLIAPNSAVRTTMEPASMSCSTPPGLGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDY----------NKRGSFMGLTRAMSRTHSMSPARELKSRPI-ATVRGIAAQGSLPNPKQQSRTN 354
            I L N +G+ I ++    L+ +H           C L+  +S       PA MS ST   L  +GVFWDI+NC +P G+SA  V   +R      G  E EF+VVCDV +  + II ELN AQV++ HV  + KN+ADEKL+QA+R+F D  G  + +++ISGDI+F ADLSD R RK + VILLH    +EA+   A+   DF  L E +PS+     +  +  +L ++NLP   D+    +++RL+++     C  ++ + +   A+L+F   S A +A   ++G  +  ++I+V Y             GS +  +RA+S +  ++ +++  S+ + A    +  Q +L  P  QS ++
Sbjct:   50 IRLENNSGSNIDSKAFGSLSFSHCRHD-------CSLLCYDS-------PAKMS-STSNHLPPIGVFWDIENCQVPKGRSAIGVTQLIRD-KFFDGYKEAEFIVVCDVQKENSQIIQELNDAQVNLIHVAATCKNAADEKLKQAIRRFADIHGSPAAIILISGDINFAADLSDLRHRKKIHVILLHKKNTSEALILCANEHYDFMELTEPLPSRPPPKGN--ESYDLLISNLPNETDV--NIIKRRLKQLSE--NCGGRVVDVQSNTAILRFTSHSSADRAQKRMEGELVLGSKISVKYLGKEKGNIIIKNLGSIITRSRAVSDSEIVTDSKQSSSKQMYAASASVLGQRTLQFPHVQSSSS 389

HSP 2 Score: 68.9366 bits (167), Expect = 8.059e-8
Identity = 81/349 (23.21%), Postives = 149/349 (42.69%), Query Frame = 0

Query:  629 PIHDKTSNFKESYILPNVLTTLDKLKEQLTLAMKVHNNNIHHASLLYCLHATCSTENIQDLIKVVPPEQGGVPLEQLLVALGITETVVGINGTLFIRPRGKQHSLESYPDSK--PPPLAT----LERKFLQILEKAPYHRIAWETDFVEMFFAENKVKLSEVCRSFGGISATLEKLSGTFALIGTKRNSELILSFGYQKKIFLIALRKVLAGQESFKAGLPLDPDDLGSLYEKRMKKPFQINAFGLCSVDDMLG-------------------AILKSRQNLFKLSENRLFFKDEIETFV-GNSVAILLDKYGFTCSLPAFDESYTK--KHGDYSIPKLC--FKSIQDL 947
            P+ DK    +E   LPNV  +L  L+ +L   +  HN  +   SL  C  A       ++ +++V   + GVPLE L+  L   E    I    +I   GK+    ++ ++K   PPLA       R+ + +L+ A + ++ +   F+  +      +       F  +   LE L+ T  ++G      + LS   Q + F   L +VL  + S +  L     +  S+Y++ + KP+ I  +G+C+++D+L                    AI K  Q   ++   +LF K+ +E         +L +K+     +P++   +    +  DY   KL   F++I D+
Sbjct:  803 PLSDKGWAEQEMASLPNVKISLKLLESRLQQLLTSHNGILPLPSLPNCYEA-----EFKEQLEIV---EKGVPLEHLVSCLSCVELRQDIGSVKYIVWIGKKDHENNHDETKCVSPPLANQLALFSRELVDLLKTAKHCQLPFNR-FIPAYHHHFGRQCRVADYGFTKLIDLLEALTYTVQVMGEGNKRVVTLSHRAQVRRFTSDLLRVLKSKASKQVAL----SEFPSVYQRVIAKPWDIVDYGVCNIEDILSEVSENTVVVTPMEANDKMIAIPKREQTAEEMERTKLFAKEVVELLQHAPQCRMLFNKF-----VPSYHHHFGHQCRVSDYGFTKLIELFEAIPDV 1133

[Close]

BLAST of limkain- partial vs. nr
Match: gi|1009392316|gb|KYN13565.1| (Limkain-b1 [Trachymyrmex cornetzi])

HSP 1 Score: 170.629 bits (431), Expect = 7.974e-39
Identity = 121/362 (33.43%), Postives = 195/362 (53.87%), Query Frame = 0

Query:    7 ISLANWTGTGISARV---LAITHTSGTGTPFHTPCPLIAPNSAVRTTMEPASMSCSTPPGLGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDY----------NKRGSFMGLTRAMSRTHSMSPARELKSRPI-ATVRGIAAQGSLPNPKQQSRTN 354
            I L N +G+ I ++    L+ +H           C L+  +S       PA MS ST   L  +GVFWDI+NC +P G+SA  V   +R      G  E EF+VVCDV +  + II ELN AQV++ HV  + KN+ADEKL+QA+R+F D  G  + +++ISGDI+F ADLSD R RK + VILLH    +EA+   A+   DF  L E +PS+     +  +  +L ++NLP   D+    +++RL+++     C  ++ + +   A+L+F   S A +A   ++G  +  ++I+V Y             GS +  +RA+S +  ++ +++  S+ + A    +  Q +L  P  QS ++
Sbjct:   50 IRLENNSGSNIDSKAFGSLSFSHCRHD-------CSLLCYDS-------PAKMS-STSNHLPPIGVFWDIENCQVPKGRSAIGVTQLIRD-KFFDGYKEAEFIVVCDVQKENSQIIQELNDAQVNLIHVAATCKNAADEKLKQAIRRFADIHGSPAAIILISGDINFAADLSDLRHRKKIHVILLHKKNTSEALILCANEHYDFMELTEPLPSRPPPKGN--ESYDLLISNLPNETDV--NIIKRRLKQLSE--NCGGRVVDVQSNTAILRFTSHSSADRAQKRMEGELVLGSKISVKYLGKEKGNIIIKNLGSIITRSRAVSDSEIVTDSKQSSSKQMYAASASVLGQRTLQFPHVQSSSS 389

HSP 2 Score: 68.9366 bits (167), Expect = 7.792e-8
Identity = 81/349 (23.21%), Postives = 149/349 (42.69%), Query Frame = 0

Query:  629 PIHDKTSNFKESYILPNVLTTLDKLKEQLTLAMKVHNNNIHHASLLYCLHATCSTENIQDLIKVVPPEQGGVPLEQLLVALGITETVVGINGTLFIRPRGKQHSLESYPDSK--PPPLAT----LERKFLQILEKAPYHRIAWETDFVEMFFAENKVKLSEVCRSFGGISATLEKLSGTFALIGTKRNSELILSFGYQKKIFLIALRKVLAGQESFKAGLPLDPDDLGSLYEKRMKKPFQINAFGLCSVDDMLG-------------------AILKSRQNLFKLSENRLFFKDEIETFV-GNSVAILLDKYGFTCSLPAFDESYTK--KHGDYSIPKLC--FKSIQDL 947
            P+ DK    +E   LPNV  +L  L+ +L   +  HN  +   SL  C  A       ++ +++V   + GVPLE L+  L   E    I    +I   GK+    ++ ++K   PPLA       R+ + +L+ A + ++ +   F+  +      +       F  +   LE L+ T  ++G      + LS   Q + F   L +VL  + S +  L     +  S+Y++ + KP+ I  +G+C+++D+L                    AI K  Q   ++   +LF K+ +E         +L +K+     +P++   +    +  DY   KL   F++I D+
Sbjct:  803 PLSDKGWAEQEMASLPNVKISLKLLESRLQQLLTSHNGILPLPSLPNCYEA-----EFKEQLEIV---EKGVPLEHLVSCLSCVELRQDIGSVKYIVWIGKKDHENNHDETKCVSPPLANQLALFSRELVDLLKTAKHCQLPFNR-FIPAYHHHFGRQCRVADYGFTKLIDLLEALTYTVQVMGEGNKRVVTLSHRAQVRRFTSDLLRVLKSKASKQVAL----SEFPSVYQRVIAKPWDIVDYGVCNIEDILSEVSENTVVVTPMEANDKMIAIPKREQTAEEMERTKLFAKEVVELLQHAPQCRMLFNKF-----VPSYHHHFGHQCRVSDYGFTKLIELFEAIPDV 1133

[Close]

BLAST of limkain- partial vs. nr
Match: gi|1070205028|ref|XP_018371435.1| (PREDICTED: meiosis arrest female protein 1 homolog isoform X2 [Trachymyrmex cornetzi])

HSP 1 Score: 170.244 bits (430), Expect = 8.390e-39
Identity = 121/362 (33.43%), Postives = 195/362 (53.87%), Query Frame = 0

Query:    7 ISLANWTGTGISARV---LAITHTSGTGTPFHTPCPLIAPNSAVRTTMEPASMSCSTPPGLGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDY----------NKRGSFMGLTRAMSRTHSMSPARELKSRPI-ATVRGIAAQGSLPNPKQQSRTN 354
            I L N +G+ I ++    L+ +H           C L+  +S       PA MS ST   L  +GVFWDI+NC +P G+SA  V   +R      G  E EF+VVCDV +  + II ELN AQV++ HV  + KN+ADEKL+QA+R+F D  G  + +++ISGDI+F ADLSD R RK + VILLH    +EA+   A+   DF  L E +PS+     +  +  +L ++NLP   D+    +++RL+++     C  ++ + +   A+L+F   S A +A   ++G  +  ++I+V Y             GS +  +RA+S +  ++ +++  S+ + A    +  Q +L  P  QS ++
Sbjct:   50 IRLENNSGSNIDSKAFGSLSFSHCRHD-------CSLLCYDS-------PAKMS-STSNHLPPIGVFWDIENCQVPKGRSAIGVTQLIRD-KFFDGYKEAEFIVVCDVQKENSQIIQELNDAQVNLIHVAATCKNAADEKLKQAIRRFADIHGSPAAIILISGDINFAADLSDLRHRKKIHVILLHKKNTSEALILCANEHYDFMELTEPLPSRPPPKGN--ESYDLLISNLPNETDV--NIIKRRLKQLSE--NCGGRVVDVQSNTAILRFTSHSSADRAQKRMEGELVLGSKISVKYLGKEKGNIIIKNLGSIITRSRAVSDSEIVTDSKQSSSKQMYAASASVLGQRTLQFPHVQSSSS 389

HSP 2 Score: 68.9366 bits (167), Expect = 8.042e-8
Identity = 81/349 (23.21%), Postives = 149/349 (42.69%), Query Frame = 0

Query:  629 PIHDKTSNFKESYILPNVLTTLDKLKEQLTLAMKVHNNNIHHASLLYCLHATCSTENIQDLIKVVPPEQGGVPLEQLLVALGITETVVGINGTLFIRPRGKQHSLESYPDSK--PPPLAT----LERKFLQILEKAPYHRIAWETDFVEMFFAENKVKLSEVCRSFGGISATLEKLSGTFALIGTKRNSELILSFGYQKKIFLIALRKVLAGQESFKAGLPLDPDDLGSLYEKRMKKPFQINAFGLCSVDDMLG-------------------AILKSRQNLFKLSENRLFFKDEIETFV-GNSVAILLDKYGFTCSLPAFDESYTK--KHGDYSIPKLC--FKSIQDL 947
            P+ DK    +E   LPNV  +L  L+ +L   +  HN  +   SL  C  A       ++ +++V   + GVPLE L+  L   E    I    +I   GK+    ++ ++K   PPLA       R+ + +L+ A + ++ +   F+  +      +       F  +   LE L+ T  ++G      + LS   Q + F   L +VL  + S +  L     +  S+Y++ + KP+ I  +G+C+++D+L                    AI K  Q   ++   +LF K+ +E         +L +K+     +P++   +    +  DY   KL   F++I D+
Sbjct:  803 PLSDKGWAEQEMASLPNVKISLKLLESRLQQLLTSHNGILPLPSLPNCYEA-----EFKEQLEIV---EKGVPLEHLVSCLSCVELRQDIGSVKYIVWIGKKDHENNHDETKCVSPPLANQLALFSRELVDLLKTAKHCQLPFNR-FIPAYHHHFGRQCRVADYGFTKLIDLLEALTYTVQVMGEGNKRVVTLSHRAQVRRFTSDLLRVLKSKASKQVAL----SEFPSVYQRVIAKPWDIVDYGVCNIEDILSEVSENTVVVTPMEANDKMIAIPKREQTAEEMERTKLFAKEVVELLQHAPQCRMLFNKF-----VPSYHHHFGHQCRVSDYGFTKLIELFEAIPDV 1133

[Close]

BLAST of limkain- partial vs. nr
Match: gi|1070205030|ref|XP_018371436.1| (PREDICTED: meiosis arrest female protein 1 homolog isoform X3 [Trachymyrmex cornetzi])

HSP 1 Score: 170.244 bits (430), Expect = 8.835e-39
Identity = 121/362 (33.43%), Postives = 195/362 (53.87%), Query Frame = 0

Query:    7 ISLANWTGTGISARV---LAITHTSGTGTPFHTPCPLIAPNSAVRTTMEPASMSCSTPPGLGRVGVFWDIQNCCIPHGKSATRVVDKVRSLPQCQGQSEVEFLVVCDVTRLPADIINELNLAQVSVQHVCVSKKNSADEKLRQAMRKFVDNFGRGSTMVVISGDIDFLADLSDFRRRKGVKVILLHNCMANEAMQSVADFSQDFSVLLEDIPSQGSTSSSSFQFTELEVTNLPGPQDMPKQNVEKRLEEICRFHKCKLKLFNERERVAVLKFDHGSQATKALGALKGFTMGLNEINVDY----------NKRGSFMGLTRAMSRTHSMSPARELKSRPI-ATVRGIAAQGSLPNPKQQSRTN 354
            I L N +G+ I ++    L+ +H           C L+  +S       PA MS ST   L  +GVFWDI+NC +P G+SA  V   +R      G  E EF+VVCDV +  + II ELN AQV++ HV  + KN+ADEKL+QA+R+F D  G  + +++ISGDI+F ADLSD R RK + VILLH    +EA+   A+   DF  L E +PS+     +  +  +L ++NLP   D+    +++RL+++     C  ++ + +   A+L+F   S A +A   ++G  +  ++I+V Y             GS +  +RA+S +  ++ +++  S+ + A    +  Q +L  P  QS ++
Sbjct:   50 IRLENNSGSNIDSKAFGSLSFSHCRHD-------CSLLCYDS-------PAKMS-STSNHLPPIGVFWDIENCQVPKGRSAIGVTQLIRD-KFFDGYKEAEFIVVCDVQKENSQIIQELNDAQVNLIHVAATCKNAADEKLKQAIRRFADIHGSPAAIILISGDINFAADLSDLRHRKKIHVILLHKKNTSEALILCANEHYDFMELTEPLPSRPPPKGN--ESYDLLISNLPNETDV--NIIKRRLKQLSE--NCGGRVVDVQSNTAILRFTSHSSADRAQKRMEGELVLGSKISVKYLGKEKGNIIIKNLGSIITRSRAVSDSEIVTDSKQSSSKQMYAASASVLGQRTLQFPHVQSSSS 389

HSP 2 Score: 68.9366 bits (167), Expect = 8.983e-8
Identity = 81/349 (23.21%), Postives = 149/349 (42.69%), Query Frame = 0

Query:  629 PIHDKTSNFKESYILPNVLTTLDKLKEQLTLAMKVHNNNIHHASLLYCLHATCSTENIQDLIKVVPPEQGGVPLEQLLVALGITETVVGINGTLFIRPRGKQHSLESYPDSK--PPPLAT----LERKFLQILEKAPYHRIAWETDFVEMFFAENKVKLSEVCRSFGGISATLEKLSGTFALIGTKRNSELILSFGYQKKIFLIALRKVLAGQESFKAGLPLDPDDLGSLYEKRMKKPFQINAFGLCSVDDMLG-------------------AILKSRQNLFKLSENRLFFKDEIETFV-GNSVAILLDKYGFTCSLPAFDESYTK--KHGDYSIPKLC--FKSIQDL 947
            P+ DK    +E   LPNV  +L  L+ +L   +  HN  +   SL  C  A       ++ +++V   + GVPLE L+  L   E    I    +I   GK+    ++ ++K   PPLA       R+ + +L+ A + ++ +   F+  +      +       F  +   LE L+ T  ++G      + LS   Q + F   L +VL  + S +  L     +  S+Y++ + KP+ I  +G+C+++D+L                    AI K  Q   ++   +LF K+ +E         +L +K+     +P++   +    +  DY   KL   F++I D+
Sbjct:  670 PLSDKGWAEQEMASLPNVKISLKLLESRLQQLLTSHNGILPLPSLPNCYEA-----EFKEQLEIV---EKGVPLEHLVSCLSCVELRQDIGSVKYIVWIGKKDHENNHDETKCVSPPLANQLALFSRELVDLLKTAKHCQLPFNR-FIPAYHHHFGRQCRVADYGFTKLIDLLEALTYTVQVMGEGNKRVVTLSHRAQVRRFTSDLLRVLKSKASKQVAL----SEFPSVYQRVIAKPWDIVDYGVCNIEDILSEVSENTVVVTPMEANDKMIAIPKREQTAEEMERTKLFAKEVVELLQHAPQCRMLFNKF-----VPSYHHHFGHQCRVSDYGFTKLIELFEAIPDV 1000

The following BLAST results are available for this feature:

BLAST of limkain- partial vs. L. salmonis genes
BLAST of limkain- partial vs. SwissProt
BLAST of limkain- partial vs. nr

BLAST of limkain- partial vs. L. salmonis genes
Analysis Date: 2018-04-19 (T. kinsejongensis vs L. Salmonis peptides)
Total hits: 1


Match Name	E-value	Identity	Description
EMLSAG00000000930	1.570e-8	22.80	supercontig:LSalAtl2s:LSalAtl2s1162:109395:117096:...	[more]

BLAST of limkain- partial vs. SwissProt
Analysis Date: 2018-04-19 (T. kingejongensis peptided Blastp vs. SwissProt)
Total hits: 6


Match Name	E-value	Identity	Description
gi\|387942524\|sp\|E1BP74.2\|MARF1_BOVIN	1.033e-34	32.38	RecName: Full=Meiosis regulator and mRNA stability...	[more]
gi\|387942516\|sp\|B2GUN4.1\|MARF1_XENTR	2.738e-33	32.83	RecName: Full=Meiosis regulator and mRNA stability...	[more]
gi\|387912929\|sp\|Q9Y4F3.6\|MARF1_HUMAN	1.298e-32	31.32	RecName: Full=Meiosis regulator and mRNA stability...	[more]
gi\|387942515\|sp\|E1BZ85.1\|MARF1_CHICK	1.365e-32	33.47	RecName: Full=Meiosis regulator and mRNA stability...	[more]
gi\|387912901\|sp\|Q8BJ34.3\|MARF1_MOUSE	6.363e-32	31.33	RecName: Full=Meiosis regulator and mRNA stability...	[more]
gi\|387912882\|sp\|Q8VIG2.2\|MARF1_RAT	7.614e-32	33.88	RecName: Full=Meiosis regulator and mRNA stability...	[more]

BLAST of limkain- partial vs. nr
Analysis Date: 2018-05-15 (T. kingsejongensis proteins Blastp vs. NR)
Total hits: 25


Match Name	E-value	Identity	Description
gi\|1069668127\|ref\|XP_018313845.1\|	1.826e-39	33.70	PREDICTED: meiosis arrest female protein 1 homolog...	[more]
gi\|1069668133\|ref\|XP_018313863.1\|	1.836e-39	33.70	PREDICTED: meiosis arrest female protein 1 homolog...	[more]
gi\|1069668130\|ref\|XP_018313854.1\|	1.952e-39	33.70	PREDICTED: meiosis arrest female protein 1 homolog...	[more]
gi\|1009367280\|gb\|KYM92281.1\|	4.774e-39	33.43	Limkain-b1 [Atta colombica]	[more]
gi\|801375719\|ref\|XP_012063649.1\|	5.168e-39	33.43	PREDICTED: meiosis arrest female protein 1 homolog...	[more]
gi\|1068380519\|ref\|XP_018055265.1\|	5.564e-39	33.43	PREDICTED: meiosis arrest female protein 1 homolog...	[more]
gi\|1070205026\|ref\|XP_018371434.1\|	7.200e-39	33.43	PREDICTED: meiosis arrest female protein 1 homolog...	[more]
gi\|1009392316\|gb\|KYN13565.1\|	7.974e-39	33.43	Limkain-b1 [Trachymyrmex cornetzi]	[more]
gi\|1070205028\|ref\|XP_018371435.1\|	8.390e-39	33.43	PREDICTED: meiosis arrest female protein 1 homolog...	[more]
gi\|1070205030\|ref\|XP_018371436.1\|	8.835e-39	33.43	PREDICTED: meiosis arrest female protein 1 homolog...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
scaffold194_size270518	supercontig	scaffold194_size270518:219228..242056 +

Analyses

This gene is derived from or has results from the following analyses


Analysis Name	Date Performed
maker	2018-02-12 .496401
T. kinsejongensis vs L. Salmonis peptides	2018-04-19
T. kingejongensis peptided Blastp vs. SwissProt	2018-04-19
T. kingsejongensis proteins Blastp vs. NR	2018-05-15

Properties


Property Name	Value
Note	-

Relationships

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


Feature Name	Unique Name	Species	Type
maker-scaffold194_size270518-snap-gene-1.22-mRNA-1	maker-scaffold194_size270518-snap-gene-1.22-mRNA-1	Tigriopus kingsejongensis	mRNA

Sequences

The following sequences are available for this feature:

gene from alignment at scaffold194_size270518:219228..242056+

gene from alignment at scaffold194_size270518:219228..242056+

Legend: mRNA

Hold the cursor over a type above to highlight its positions in the sequence below.

>maker-scaffold194_size270518-snap-gene-1.22 ID=maker-scaffold194_size270518-snap-gene-1.22|Name=limkain- partial|organism=Tigriopus kingsejongensis|type=gene|length=22829bp|location=Sequence derived from alignment at scaffold194_size270518:219228..242056+ (Tigriopus kingsejongensis)
CTGTTGTGACGATCTCCTAGAACACAAGGAGAAGAAAGACTGCCGTCTTA
TGACCACATTTCGTTAGCCAACTGGACTGGGACTGGCATTTCCGCCCGTG
TTTTGGCGATTACACATACAAGCGGGACTGGTACACCCTTCCACACCCCG
TGTCCATTGATTGCGCCCAATTCAGCCGTGAGTCATGTCAATTTCAGTTT
GGGCTGTGCGGATTTGCCGTGGCTGTCTGCGGCCAGTCCGTGGAGGTCAT
GCGTCGCCTAAGTCACGTCCCTAAGACGTATGTCCATGGGAGGAATGGGT
CATGGGTTCGAATCTGGGCTGGATCCATTTGGCGGCCAAATTTGAATGCA
GCTGCGCCATCTTGGCGGGCTTGAGAGGTGCTAGAAACATCGTCGGTCAA
AGGGATGTGCCTAAATTGGCAAGTCGACTATCTCCCTGATGGAAGAGAGC
GATTGGAATGCTGGATGACTTATCTTGACAGCGTTCCTGGACTTTTTTTG
ATTGGAATTATGCTTGAGTAATCCGTTTGAGGCTGATATGCGCCAGTCAA
GATAACGAAGGAAGATTTGATTTGAGATACATTATGACAGTCGTTCGGAG
CCATGAGCCAGCCGGGGACCGGTGTCACCATCTCAAGGGTTTGGACAGAA
TCCTCGGAATGATCTGCTAGTCCTTTGTGTCCTTTGTATGAAAGAGAATC
TCGCGTAATCCATGCCAGGTGGCGGGTTTGAGCTAATGCATACGGATCTA
CTTTCCAATAGGTGCGGACGACGATGGAACCTGCCTCGATGAGTTGCAGC
ACACCCCCGGGCTTGGGGCGGGTGGGTGTTTTTTGGGACATTCAAAACTG
CTGCATCCCACATGGCAAGAGCGCCACCCGGGTGGTCGACAAAGTGCGGA
GTCTACCCCAGTGCCAAGGCCAATCTGAAGTCGAATTCCTGGTCGTCTGT
GATGTCACCCGCTTACCTGCCGACATCATCAACGAGCTCAACTTGGCTCA
GGTCTCGGTTCAGCATGTGTGCGTCTCGAAGAAGAACTCGGCCGACGAGA
AGCTGAGGCAAGCCATGAGAAAGTTTGTCGACAACTTTGGTCGAGGCTCA
ACTATGGTGGTCATTTCGGGTGACATTGATTTCTTGGTAAGTATGGTCCA
GTCCCCACCCATTTGGGTTCACCCCGTCTTCAATGATATCACTATACCCA
CAAAATAAACGCCGCACTCATTGATTGGAATGTTCAAAGAGATGCAAAAG
AATCCCTGGCTTTGAAATAGCCAGGGTCGCGTGTTGGCGAGCCGATTTCT
TGAGCCGGTTGACTCGCAGACCGCCAGCCTATACAATTTTTGTATCGCCC
CGCAATCTTTTCCCATCTACTACAAAAGAGGCGTTCCACAATACCCAGGT
TTTAGTTCAAAATCATCCATTTCTGAAATCGTACTCAACCCCTATCTTAT
CTTCTGGCGTGTGCAGATTTTTCCAATGAATGCTTACAGTAGCTGAAAAT
GGTTACGACGTCTCTTGTAAACCGGCCTTTACAGTGACACGGGAGGAATG
CCAAAGCCTAGAAAAAGTTAGCTCAATCACTGGACTATTTTTGAGTTTGT
AATCCAAAACGCTCCAAAGAATTAAGGAGCCACAATCATTGGATAACATT
GTCGGCTATCCATATGATATTCTCGAGCTAATGTCTAATATCAAGTGGAG
TTTGACCCAGATAAATTTCGTGAATCTCGATTCCTTGCTGCGGAAAACGT
GATAAGTCGGAGGCAATCTTTTTCCCTATTGACTCTGTTAAAGTATTCAC
TAATAGTTAGCAAATACGGCTTTGACATGAGGATCGGCTCAAAACCCCGC
CCTATGGCTTTTGCACCTCCAAAACCGCAAGGATATGATTTTTTATGAAG
AATTCCAGTAATCAAGAATAGCAGTACTTGCGAAGACAAACTGTTGACCC
TGAGGGCATCATTTTCAAAACAATATGTATTAAAATGTGCAAGCTATATT
TTTTGCCATGATCTCAGTTACCAAAGAAAGGAATTAAAACCTTTGCTGTA
TTTAAACATAGTATTTGGGGTAATGCCATCTTGTTCCTTCTGGTGACATT
GTACATGGTAAAACGTGTAGGTAACTAGGAAGTGAAGTGATCGAGTTATG
GATCAGATCACTCTGCGAGAGTGAAGTATCAATTTTAAGTACATTCTCAA
TTAGCCAGCCAACCATGTCTCACCCTCGTGAATACTTTCAAGCCAGGTAC
AAATACCCGGGCGTTCTAGATAAATAGAACAGGCCACTCAGGCTGACTTC
TGTTGGCCTAATCGAATCTGCTTAATCTCGGCAATGCTATTGAAACCGAT
TGGTTTATTCTATTTTTCACTATTCGCTCGTTTTTACAGGCTGATCTGTC
TGATTTCCGGCGTCGCAAAGGAGTCAAGGTGATCCTCCTCCACAATTGCA
TGGCCAATGAGGCCATGCAGAGTGTGGCAGACTTCAGTCAAGATTTCTCT
GTCCTGCTAGAGGACATTCCCAGTCAAGGCAGCACATCCTCGTCATCCTT
CCAATTCACCGAGCTCGAGGTGACCAATCTCCCGGGTCCTCAGGATATGC
CCAAGCAGAATGTAGAGAAAAGGTTGGAGGAGATTTGTCGGTTTCATAAG
TGCAAACTTAAGCTGTTCAACGAGCGAGAGCGAGTGGCCGTGCTCAAGTT
TGATCACGGTTCCCAGGCCACCAAAGCCCTCGGCGCCTTGAAGGGTTTCA
CCATGGGTTTGAATGAGATCAATGTGGACTACAACAAGCGCGGGAGCTTC
ATGGGTCTCACTCGAGCCATGAGCCGCACCCACTCCATGAGCCCCGCTAG
AGAGCTCAAATCTCGCCCAATCGCTACTGTCCGAGGGATTGCCGCCCAAG
GAAGCCTCCCCAATCCGAAACAGCAGTCACGAACTAACCCTTGGGAAGAA
GACGAAGGATTGATTTTTCGCCAGAGCATGGCCGACAGTACGAATTTTGT
GGTCACGAGGGATCCGGAGAGCAATATGAGACGCGTGTCATCGAGTGTAC
TGGAGCTCCAGAACTATCAGCAAAGACCAACAGTCGCCAACTTGTCACCT
CGGGCCAGGCGTCGTGTTCAGGATCTTCAAGCCCGATGTGCCAGTCCAAC
GCCCGAGGCTGGAGCCAAGAAGAAAAAGACTCGGAGAAGAAGGACCTCCA
AATCGGCCATGAGAATAGAGCGATCAGCCTCGCAGACCGAGTCCGAGGCC
TCGGAGAAAAGCTGCGACTCCCTACCAGATCAGATGAACGATCTGGAGCT
CTTAAACAAAGAGGGAGTCCAAAAGGAATCGCCAATCGGAATGAAACTCA
TGCTTCAGATCCCACAGCGCGAGCAATCGGAAGTGGAGCGCATTTTCTCC
GAGATCTTGGAGGTCTACGACATCGAGGTGTCCAGTCAACAACTTCAAAA
ATCGGACGATGGGTGGACCTGTACTGTTGGTATTCGGGGATTCGCTTGCG
CCCAAAAGGTAATCGATTTCGTGGATGATCTCCCTCCTGGTGAGTTGCCT
CTCCAGGTAACCTTCTGTGAACCCGTCCAAGCCGGACAGTGCGCAATCCT
GCGCACCATTCCAAATGATACCCACCTGAAGTGGGAGGAGCTCGAAAGGA
TATTTCTGGCTCAATTGAACTCCAGTGCCAATGTTCCCACGCTGGAAGAG
CTGAGACGGGTCCCTGGTATTCAGGTCAGTACCCGTAGCGGAGTAACCTA
TGTGCTGAAGGTCAGCTCGGAGCAAAGCACGCCAGCCGTGCCTCCCAATT
CGCTTTGTCCCATTCACGACAAAACATCCAACTTCAAGGAGAGTTACATT
CTACCCAATGTACTGACAACCTTGGACAAGTTGAAGGAGCAACTCACTCT
GGCCATGAAGGTTCATAACAACAACATTCATCATGCATCCCTCCTCTATT
GCCTCCATGCTACTTGCAGCACGGAGAACATCCAGGACTTGATCAAAGTT
GTCCCACCCGAGCAAGGAGGCGTGCCGCTGGAACAGCTTCTGGTAGCTTT
GGGCATCACTGAAACAGTTGTGGGGATCAATGGGACTTTGTTCATCCGAC
CAAGGGGGAAGCAGCATTCCTTGGAGAGCTATCCCGACTCCAAACCCCCG
CCATTGGCCACCTTGGAGCGAAAGTTCCTTCAGATCCTGGAGAAAGCTCC
TTATCATCGGATCGCTTGGGAAACGGACTTCGTCGAGATGTTCTTTGCCG
AGAACAAAGTCAAACTGAGTGAGGTGTGCCGATCATTCGGTGGCATCTCT
GCCACACTCGAAAAACTGAGTGGAACCTTTGCCCTCATCGGCACCAAGAG
AAATTCCGAGCTGATCCTCTCCTTTGGGTATCAGAAGAAAATTTTCCTCA
TCGCTCTGAGGAAGGTTCTGGCCGGCCAGGAAAGTTTCAAAGCGGGCTTG
CCTTTGGATCCGGACGATTTGGGCAGCTTGTATGAGAAGCGAATGAAGAA
GCCGTTCCAAATCAATGCCTTCGGGCTCTGCTCTGTCGATGACATGCTCG
GAGCCATCCTCAAGTCCAGGCAGAACTTGTTCAAGCTCTCTGAGAATCGA
TTGTTTTTCAAGGACGAAATTGAAACCTTTGTCGGGAATAGTGTGGCCAT
TTTGTTGGACAAATACGGTTTCACTTGCTCTCTTCCCGCCTTTGACGAGA
GCTATACGAAGAAGCATGGCGATTACTCCATTCCCAAGTTGTGCTTCAAG
TCGATCCAGGACTTGTGTGGAGATTTTCGCAATGTCTTTGAGTACATTAC
TCGCCAAGACGTAAATATTGACATGATCAGCGTTGTCAAACCCTTAAAAC
TCGCCTACTTGAAGAAAATCCTGCTCAACGAGTTGGAAATCCCTCAAAAC
AACCACTGTATCAAACTAGACCAATTGGAACACATGTGCCTGTTGAACCA
GGGTTTCCACCTGTCTACGGCTATGGGCAATCTAAATATGACCGGTCTTG
AAGAGCTCGTTCGGAGCTTCGGTCCCAAGAACATCCTTCAAGTCCTGGAT
CTTCCCAATAGAGGTGGGAAGCACTTGGTCTTGAAACGAGGCGATTGGTC
CAAGGACTTCCAAAGAAGAGTCGTGTTCCTTCTATTTCATTGTCCCGGGC
ACCGGCTTCGAGTGAGTTTAGTGGAACAACTCTTCAGCAATACATTTGGC
AACTATTTCTACCTCGGCTGGACATTTGTGGAGCGCATGATCCAAAGCAG
TATTCTCCACCTCCAAGGCCAATCCAGCGAGCAGACCATTCACTTGCATC
CCAATGCAATCACTCTCTCCCAACTGGCCGTGCTGATTCCCATTTTAGGG
GGACAGATCCACACGGATCAAGTGGCTCAAGAGTTCCAAAACCGCTTCAA
GAAGAACCTGGCCGACAAGGATTCCCTCGATCTGAACCAACTCGACAGAA
TCGTCCCGGGGATCGTCAATAACAATGAGGGATACCTCTCGGTGGATCCC
ATCAGTGGGAACTTCTTTCTGGGACTGCCCCAGCCCAATGTCATGAGCTT
CATGGAACGAGTGGCGAAGGCTGAGGTGAGTACTTCGCCAACACTACGCC
CAAACACCCCGGTGAGAAAAGAGCCGAGAAGGTCGCGAATGGCCGCCACT
TTCTCCCCCATGTAGCCCACGAAAGAAAGACCAAGACCACCACGTATCTA
GGAACGACCATTGCCTTTGATTTCATTCAAGATGGTTACGCGAATACGTC
CTAATGTTCAGAATCTTCGTCCCGATGATTAGATAGAGATAGTCGACCGA
CTATGTATGTTTTTGATCCGTTATGCAGACAGTTCTCCGTTGCCATTTGT
TGGGGGATGGTCTTCGGTGGGGTCTTGGGGCTGCATTGGGCAATAAAACC
TCATTTCGAAGCTTGGAAGTTGATGTTTTTGATCGTTTTCGTCCACCAGC
TCCGGGGGGATGAAGGTCTGAGTTCCTTTCCGCTCTCGACGGCCTTGCAG
ATAATTCAAAACCGCCTCCACATCGTTGTTAAAACGCTTCAAAAGTTCGG
AGAGCTCCTCAAACTTGCCGTTCTGAACCAAATCCCCATAGAAACCATGA
CGCGCTTCCAAAACCCATAATTGGGTCTTGTCAGGCAAGATACCACTCCA
ATTCTCGACGCTCGCTTCCTCGAGTAGTTCCTAGAATCGGTGAGAAACTA
GTTCGTAATCTGTGCCAATTGGTTTTGGTGTAACACACTAACCTTTTCCT
TATCCTCGTTGATCACTGACAATTCGGAGGAAGCATCCTTGGCGGCCATC
AGGTTTTCGAGCAGATGCACCCTAGATTTCACCGAGTGGAAAGCCTTCAT
GGCCAGAAACTCCAAAGCCCTCTCTGGGTGACTCGGAGGACCAATGCCCT
CGAGGCCTTTAGCATCGCCCAGAACAATGACATTGCCATCGGGATCCTTG
ATTTTGAACTGCAAGCAATGCAAACATTCCCTTAATAGAAACTGCATCTT
CCCTGAGGCTAAAGCCGGGATGCCTACAAAATGTGGTGACCTCGAAGAGG
GGAAATAGAGGCAGGGTTCATCCCATTATTGAAGTACGGAGAATGAGCTT
TTCCGAACTTGTTCAGGGATACGAATTGCGAATAGCTGGAGATGTTGAAT
TTGGGATGGGAGCCGTTAGTTAGAGCTGCAAGTACCTCAGTTCAGCAAAT
TGAAGGCCTTTCCATTGGATAGAATTATAGTTCTGATGAAAAGGTAGATG
GAACTGATTGCATATTCGTTTCACGAGAGATTACATCCATGATTTGCTAG
TAAGAATCAAGCGGAACTGTTTATGGCGGCGGAAACCTAACCTCGTTGCA
GCAAGATCTTTTCAGCCCCATCTAGCGGCCGATTACAAATAAAAAATCTG
GCGACCCCGCTTGTTGGATTTTGCCCCACAAACATTTCCGCCCTAATTTC
GTGTTTTTTATTCATATTACTCTCTATTTGTAATAAAAAACTCTGGTTCA
TTCCTGGGCTGAGCCTGGTCTCCAAGATAGATTGATCCAGTCAGGCTGTG
GGAACTAAAATGCACATGACAAACAATCAATTCCCAATGCACTATCCAAT
TTTAACGGGAGTAAAGCAGCTGTTTTTCTTGGAAAGTTTTCCACTGAAAT
TGGTGAAAGTAGCCCAATAATGTTATGTTTCTTGAGGCTTCCTGCTCGAG
TTGATTTATTTGTCTACGAACATCTCAGCTGAGTATTATCAAACACTTTC
AGCGACGTCGGTTTCATGGCCCTTTATTTTTGGAAATCGAGAAAGTTGCA
TTTCGGTCCGGGACACATCTGACACTCTCCTTCCGACTTTTATAGGACTG
AAGTGTCGTCAAGTGTTTGAGTTTGGATAACAACAGGAATTTTAAGGACA
AAGGCTCATGGGACAAATCGTTTCCAACCCCAAGTGGAAAAGGAAAGCCT
GATAAAAAGGTCAAGTGTATATTGATCGGATGGACGAGGTGATCTGAGAG
CGAGCAATTGATTCTTTACGAAGTGGTCCCTCATGTTGAGAGTCTTTTCG
TATCTATACTTTTCCTTTGAACCGATATTTCATTCAGATATCGATATATT
TTTATGAATCGGCACATTGAATATTTATGTGTTGATTCATGTAATGTGAT
GGCAAATCTAGATTTGTTTCATTGTGGAATATTGCTTTTCAATATTAATG
AAAAAATAATTCAATACAAAGCAACAGAAACCTACATTTGCTGACAATGC
TTCATATTTGAGCTTCAATCAAAGAAGCAAACAAGTCAGTGTTATTATAG
CTTCGATTTTAGAGCTATTTTAATTGTGTTTTGTTCAATATTAGCTGCCA
GTAATTCAAGTAAAGACTAAGGCTCACTTAACGTGGGTTGCTTTCAGTAA
TTTATCGATTGAAGTAAAAAAATGTGACAGCTGCCATATTTCGATTATAT
ATCATGAGAATATACTACCTCTGGTAAAAATCCTGTCTTAGGCGAGATGA
ATCGTTGTTCTTTTCATTGTGAAGCCGTTATTCAAAAGACTGAGTGTAAC
ATCCTCTAGACTTTCAGGGTCCCAGACTACATATCCAGGTTTCTACGGAT
GGGTTACAAACTGGACGTGGCCAATACAAGCTAGGTCGTCCATCTCGGCC
TCGGTGACCTCCAAGTCGGCCAGTTTTATACCTAATTGATACATATTACA
TTGACTCGGCCAGCTACCCAAGGATGGTTACCCGATTGGGCCAGTCTTGT
TTACCCCTTGAATTGTGGATCCCTCCTCGCAATGAGGATTGCGAGTGACG
TCCGTCTGTTCAAATGCTATGCCTAGGTCTTCCATCCTGGCTTTGGTCGC
CTCCAGGTCAGCCACGGCCAAGGCCAGATAAGGTCGCTGGTCATTTCGAT
CCTCGGGAACGTCGCCTGGGGTGAGACAGATCTTCAGTGTGCCACTGGTG
AGCCAAGCCTCAGTTCTGGAATGAAGACGGATCCAAATCATGCGATGTCA
CGAACCAGTGCCTGGATTCGAACCCTACCCTTCGATGTTGTTCAATTTGA
TATGCCTGAGGCCGATGGTGTTGGTGTAGAAATCCAAGCTCTTCTCCACA
TCACTCACGATCAACGCAATGTGATCCACCTTGGACCACAGATCTTTGAT
GTCGGTTGGCCGTTGTGCCTCGGCCTCTTGTTTGGCCTTCTCATCGGCGG
CCTTTCTCTTGGACTCTTCCCGATGGGTGTTTGCCAAGTTCTTCAATGTG
TCAAAGATTCCCATGTCCGCAGAGACTTCAAGGCCGACTAACCTGACAAG
AAGATACCGACTCCGAGGCGAGGCCTTTAAACAAGAGGAAAATGTGTTCC
CTAGAGTTTGAACCACAACTAAGCACAGGGGATTTGGTGAGCCTAGGCCT
TGGGCATTATTCTGGCCAGAACTCTTTTTTTCTACCTTCGTCAGCCAGGA
AAACACACAGGCCTGATTGGTGGAGTGGCGGGGGTTCGTGTACTCGATTT
TTCAGTATACTTCGAAAAAAAGAACACTTTTCTACCATTCAAAAGGTTGG
GGGGGGGGGCTGTTAGTGTTAAATCAGTCAGTATTGGGGTAATTTTATCA
AGCAAACAGGTAATTTTTTTTGCTTTTGAAAACCAACTTTCATTCCGGCG
TCTACCCGTGAATTTGAATCCCGGTCCTGCGTACAAAGTCAAGGAATGGT
TACAATACACATCGCAAGATGGAGTTCATAGTAAAGTACGTTCATGACTC
TGTAGTAGTCTGTACCAAACCTGTTTTTAACCTTTGGGCCAAACACAAGA
GGAAACTTCATTTATCACACCTTTTTTCTTTATTCCAGTGGATCTTATCC
GATTCATTACCCCCCCCCCCCAAAAAAAAAAAATTTTTTTTTGTTAGATT
ATAGGGGTCAGATACTGTAGATGCTCGAAAACAGTTTAGTCTTGTTCGCT
GACTTCTGCGAAAGTGGCTTCTCAGAAAAATCCATGCCTAGAAAAGTAAG
TTGGGTTTGGCTTGCTTGACAATATCAATAATGTATTGTTCATAGCAAAT
GTGGGAAACTGACGATACGGTCCTATGTGTTTTAAGCTTTTTTATCCTTG
ACAATTTGCAACTACCGGTATTGCGGTATTAAGGTATTGTGCATTTTCGT
AAATAATACACACGATTATGCACACTAGGCATTCATGCCAAAATGTCCAG
AGCTTAGGGAAAAATGGGCAGCATTAAATGACTTTCCTGTATCGGGATTG
TGTTTTTTGAAAAATGTAGGGAGAAAAGTGCAAAAGTAAACGCGACAACT
CATCTTAAATCGCCCTAGATTTGCCAAAATTACGCAACTACTGTTGAAGG
AAACTGGAGAACGAAAAATAGCAATAAAGCCTAAAATAAGTTGTACAGTA
TATGCAACTTTTGGTCAACTCTAATTCCGACGTGTGGGCTTTCTGACTCG
CACCCGAATACATTGTTATTTAATAGAGTTAAAATGCCTCGGATGTTGGC
AAGAATTCGCCCAAAATCCTTCTGCAGAGCAGCCCTGGGCTGCACCGTGA
ACCCCAACACCAAATCACCCTTGGACCAAGTTATTTTACCATGGATCAAT
TGATGATGGAATTTAAGATAATAACGCTTCCGGTTGGCCTTCTGCTTTTT
TTAAACCAGACTGACAATAGTTTCCAAAATCAAAATTTACTAAAACAATA
GCGATAGTTTGTTGATTATCGATAATTTCGAGAGACATGAAAATCTGTAA
CATAGCTCATAGGAAGTGCATATCGAAAAAAAAAAAGTAGTGTTATTTTA
GGCCTCGAATAAAAGTGATTGAAATGTTTCCATTTTTTTCATCTTCTTAT
GTAGGATCTGCGAGGTGAAAACTTGGCTAATAAGAGGCATACAAAGGAAC
AAACTGTAGAAAAAGATGATAAGAAATATCGAAAAAAGAACGAATGCCAT
TTGGGCAATCTGAAAAGAAATGAAAGTTCAGAACTCGAAAACTTGGAAAA
AAATCTAATGAAACAGAAAAAAGATTTGAGTTCTCTTGTTAGTTACACAC
AACGTCAAAATTATCGATAGCTGCATGCATCAAAGTAGCGATTATTGATG
GTTAACAAAATCTTCGACGATTTGCGATTATCGAATATCAATAAATGACT
TAATCTTCGAGGGTTTGCGATTATCGAATATCAATAAATGACTTAATCTT
CGAGGGTTTGCGATTATCGATAATTTACAAAATCTTCGACGATTTGCGAT
TATCGATAGTTTACTAAATCTTGGACGATTTGCGATTATTGATAATTTAC
TAAATCTTGGACAATTTGCGATTGTCGATAATTTACTAAATCTTCAAGAT
TTGCGATTTTCGATAATTTACTACATCTTCAAGGATTATTGATTATCAGT
AATTTACCAAATCTTCGACGATTTGCGATTATCGATTACCGATAATTTAC
CAAATCTTCGACGATTTGCGATTATCGATTACCGATAATTTACCAAATCT
TCGACGATTTGCGATTATCGATTACCGATAATTTACCAAATCTTCGACGA
TTTGCGATTATCGATTACCGATAATTTACCAAATCTTCGACGATTTGCGA
TTATCGATTACCGATAATTTACCAAATCTTCGACGATTTGCGATTATCGA
TTACCGATAATTTACCAAATCTTCGACGATTTGCGATTATCGATTACCGA
TAATTTACCAAATCTTCGACGATTTGCGATTATCGATTAGTGCTAATGGA
AACAATAGTTGCCCGGTCCGAAAAACTCTGTCCATTAAGTTCCTGTATGT
AGTTTGGCCGAGAAGCGACACCTATGCTTATGTGTGTCACTTAACTGCCC
TCGACACCTGTTTTAGGTGTTTTAACGTCAGGTTGATGTGTCAAGCCTTT
GTACGGGAGAAAGCTACTGTCACGTTTAATAGCCCACGGTAAAAGAGAAT
CAACTGTTCCGGTCACATGACTCAAGTTCAGAACCTAGCATGGAAATTGG
AAAGAAATAACTTTTTTTGAGTTTCCACATGAGCTTCCAAATTGATATTA
ATAAATAGGCCGACAATGGCGCCCTCTACGTCACTGATTCCCAGGCAGTA
GGTGCAGTATTTGCTATTGAGCGCCAAAGGTAAATTGAAAAGGGTTCCAA
CTAGCATAAAAATAATATTTAGCGCCAATAATAGCATACACGTATTCTCA
TTGCGACACCCACAATACGGATGATGATGCTTTATGTATACACCTAGATT
TTTAGTAGGTCCCAGATTTCAAGGTGAATCACATGGAAATGTTTTTTTCA
CCTAAAATATAGTGTAAGTCACCTAAAATGCCATTTTCGGCAAAAGATCG
CCTAAATCAACGTTTTTGGTAAACAAAGTGGGCTTTACCTGGTCGGTTTG
TCCGGCACTCACAATGGCAGCTGCGACAAAGGTAAAGTGTTTAAATGAAA
AGGTTTGGACCCCCTTTAAGATGAGCATGAAAAGGAGCAGAACAACTCAT
CCATTTTCATCACAGATAGTTTGTCAAGAATGGGTGTTGCAACAACGAAA
ATGGCGCATAAACGCTCAATATAGGGTTAACAAATAACCTTTTTTGCCAT
TTTCACCCAATTAGCCATTTTGGGTCTCCTGAAATAGTCCCTCTATGCAC
TTTTCTCAACACCTTCAAATCCGGGCTCTAATTAAAAAACAAGCTCATTT
TCATTGTTATCATGAAATTTGTCTTTTACTTACCACAGTTGCTCCAGGGT
TGTATTTATATGACCTGCTTGTTGAAAAATGGTGGCTCGAAAGAATGAGA
TTTGCTAGTGGACACTGTAGAGGGGAAAGCTCATTTTTCCTTTGTTAAAA
TTTTGATTGCTTTGACACTAACGCGGCCAATTTTTGCAGTGTTCCCATTC
GTCTCGGATGTCAGTACCGGACAGAACCGACTGATAGATATGCATGGAAC
CTCATACATGCATTATCATTTTATATTCACAAGGCTTTTTTTGCTAAGGT
TTTTGCAGGATGTGTGAAGAGTATGAGTACGATATTTTTAAGTTAGGAGT
CGAAGCGCTATCTTTTTGCGAGACAGAGACGGATATACTGTACCGAAAAT
ACCGTCTCTATTGGGATCCTGTTCAATTGTGCAGAGCCAAAATTTGATTA
ACGAAACTCAGTCTGAGATAGCTTTAGCTTTAGAGACGGTATTTTCGGTA
TATCCGTCTCTGTCTCGCAAAAAGATAGCGCTTCGACTCCTAACTTAAAA
ATATCGTACTCATATCGCCTCAATTTGATTCGATGGAAGGTTATATCCAT
GCTCAAAATGCGCTTAAACCATGGTAATTTAAGTTATTTTGGGCATATTT
GTTTGTGACTATCCTCTTTTGTGCAACTTTGGAAGGGGATACGAATTCAA
TCCGACAAAATAAAATGTGAGAGACAACTAACTTGCGTTCTCTAGTTTTG
AGTAGTTGATGGACAGAACAGTGTCTTGGCTCACCTCTTTCATCAGGTTT
GGAACACTCTCTGAGTGGCTTTAAAGCATGTATTTTTGCTGCAATATTTA
AGATTTACTGTGCGGGTAAGGCAAACCATCAACAAACAGAATATGTAATG
AATTCACTCATGGAGTGCTTAAAGATGGTGGAAGGAGGTGGGCCAAGCAG
CTGATCTCCCATAGGTGGAATAGTCGCCTTGGTTTTTTTCTCCTCCGGTT
AAGCAGTTCAAGCATCCCTAAAACCAGGGAGTGTAACTCGTGCTTGTAAA
AAGGGCCTAACGAACGACTGCTTATCCAGTGTTTCAATTTAGTCAATGAC
TTTCATGTCTGGTAGTATGTTTTCGCGAGGAAATGTCAGTTTTGTAACAG
TTTTGGCACATTGATGACCAAAATGGCAGTGCTGAGTGAAATTCTCATTT
CTGATAGGCCTACTCTTTCAGGGTTGCCTGCGCAATACCAGTCCAAGGGG
GCAAAACTAATGAAAATCCGTTAGAACCAACCGCTTCATTAAACATGATT
GACGATCCATTCTTGTAATTCTGCGCATACACTACAAGGGTTAGAAAACA
ATAAATCATAAGCATTTGAAACGCTTTTATTCAGAGCCGATTGTAGTACA
GGTCAAAGGTGGAGCAATGGTCTGTGGAGTAATATAATACCTCTAAATAT
TTAAGAGTTCAAGGCTGTGTTGCTCTACATTTTCCTGTATGATCAAAATA
GCCACTTCCATCTTAAAGCGCTCCATCTGTGTCTATAAAGAGAGTTTCGG
CAATCTTTATTCGAACTTAATTATCGCACAAACATCCCTGAATTTGGCCA
CAAGGTTCCTTCTCACTGGTATTACCCAAGGAGCTCTGCATAAGAACTAG
ATGGAGCGGAAGCTTCCAAAGATGGTCACGTGACTTCAAGAATATGCGTT
CTGAGGCAGAGCAGAAACACGTGGCCAATTCTGCGTGGCTCGATCAAACT
TTGAGAGCCCTTGGAATGAATTTGCGGCTAGAACTCCTTCGGCTGACTGA
GCAGATCAAGAAAGGCAGAGTTGGCCAAGTATCTCGGCCTTAGAACGCAT
ATTCTTGAAGCTTCCCCTCCATCTAGTTCTTATGTAGAGCTTCTCTACAG
GGTGGGAGGGGCAAAAGCCAGATGAAGAGAAAACGAGGAAAATTCAAATT
CAAAGACCAGGCTAGAAATATTGAGAGGGATTCTGTCCGTGTAGCCAAGC
ACTGGACAGAAGCTTGTACAGGTGCATGCATACGAAGCTTAAAAAGATGC
AACAATCCTACCCAATGTAGCAAAGGAAGAAGACTTGGACGGGCATGGGT
TTACAGTAGTGTGTGTTCGATGTTAATGTAGGCGAGGAAAATTTTCTTTT
TTCTTGTGTAAATTCCAAAAATTTGATGAGTAATGTATTCATTTCGTAAA
GAGCACTTTGAGCCCGTTGTGTTCTCACACTAGTTGGACTCAAGTTTTAA
GATTTTGACCCATTTTGAAGCACTCGCAATCAGTCATTGGGTGGTATATC
AGTGTTTTTCAGCAAATAAGCTGATTTCCAGCATGTTCGACCATTTCGAG
CAGAAATAGCAAAAATGCAAAAAAGCGTTTTTCAGCCTTTTATCATGTTA
GTATCCATCCCCCATTTTCAAGCAATAGTACACTCCTGATGTTCTCAAGA
GCCAAGCACAAATCAATTGGTATCAATGATATCTTGTCATATTTACGCTA
AAACATGGTAAAACGATAGCCAAATGGTGTACGTATGAATAAGCTTGTAA
CTCACTGCCTTTTTAAGGAGTGACATTGGTTTGGCAGTCAGAACTAGTAA
CTTTTTGTGGAATGTTGCTTTCGAAATTCCTGTTACTATCATGGAAGTCG
ATTCTGGGCCTTTTTTTAAATGTTCGGTGCTTTTTTTCTTTTGGGAGACA
GAAATCTCCAAAATCTCCAAAATGGATACTTGATAATTGATACATTGTGC
AGAAGAAGCATGGTGCTTCTTCCATTACATATTACGACGACGTCTAGGCC
TTGGGATTTGGTGTTCAACATGATGGCAAATTAGATTAGCATATCACAGA
TCAAGTACTTAAAGCTCGAGGAGGCACTGGAATGCTCAGACACTCTTATT
TCTATCACAGTCGAAATTGCCTCCATTTTGGTAAGTATTTTCCTTTTCCT
CAGTTAGCACTGCGCTTAAATCAAACGTTTGCTTGTTTCTGATTCCATGA
AATCCGAATGTTAAGGTCAAGTGAGAAATTGAGCAAATTCAGAGACTTTT
ACTTCTACGTATATCAAATAGTCGTGAGAGTCAAATCACAATTCCTCTTC
AAAGAATAGTCTCCCGAGTTTTTTGCTCCTGGGAAATCAGCTTTTCAAGC
ACAAAAACTCGGCAAGAAGCAAGTACATAATAAAGGTATGTACATACGTC
ATTGCTACACAGCCCAACACTTGTTCTCAAACTTTGTCGACTCATTACTA
AATAGACGTTTGACGTGTAGTCCATAAGGTAAGATTTCATCCGAGCACAA
TTTTTGCGCTTGAAATAGTATTTGAAGAAAGTGCCCAAATCAATTCCTGA
GATCACGACCAAATATTTAGAGCCCGGCCAAATGGAAAAAAACAGTTGAG
TTGAGTGTATTGACATTATTCGACTTTTTTCTTTATACTCGACTAATTTT
GGCAATGTGCAATTTCCCCCAAAAAATGTGAAAAGGGCGAAATGTTGAAA
TGTGTCCAGATGGCCGAAATATCCTGGGCAAATTATTATACATTTTTATG
TGAGAAAACATAAATGAGAAATCAGGTGCAAGGAAAACCAGACCTACAGG
ATTTATCACTCATTTTAACTTTGCTCTTTCTTTATTCGAGACATTATTAG
ACCTCCCTTTTGCGCATCAAAAAAATCTTGAAACCCCATATTTGAAATCA
TTCTGTTTTTCATTGCGTTCTTACTCTAATTCCGGGACCTAATAATTTTG
TACCTGAGCCTCAAAAGGCGATTTTGAAAAAGTAAAAATGTCATTTTTTT
AAAGAAATTTGCAGAAAAATGAAAAATCAGAGACAAAAGATAAAAAATGT
CCTAGAAAAGGATATTGTATGGCCTTCTTATGGTAAGTTTGTCAATAACT
CCCTTCTTGTCACGGAAATGTATTCTTGTTTTAAGGCTTTTTTAAAGGTT
CGCATTTACTCAGCCAGAAACCCATTGTGAAATATTACCGGTCCTTTCCA
TTTCGTGACCTATATTTCACTGGTCAATAGGTTAATACACATGTGGCGAT
GCCATCTGTTGTTTGACATCTGTTCTTACATTTAGCCATGATATAGCACA
TGGCTCTACATAGTTGTGTAAATTTGGCAAAATCTACGATCTGCCTGTGT
TCACAACATCCCACATCAAAAAAAAGAATTGCCAAACTAAACTTTTCAGA
AGTTGGCCTTATCCCACTAGGGAAATATTATCGCTAAGCTAAGCTACATT
TGCTAATCGTTGAAGATTTAGCAATTTATCGTTTATCGATCACCGTTAAT
TTTGATGCATATATCGATTATTTCGCCCGTGACTGACATGGAAATTTGGA
AAAATGAAGATTTGTTTCGCTTTTCCATCAATTTAGCCTTCTATTTAAGG
CGCTTTCGACGTGCCTTACAGACTATTGCATTGCTTTCACTTAACATATC
ATTTGGATAGAGCCACTACGGATGGAAAGACAATTCATCAGTAAAATGTG
CTTGAATTAACCTGAATGTAATGTGAATATCACAGCAGTAGGCGGCAGAA
AACTTAAAATTTTCGAGTTGAAATTAGTTAGCATCTGTGATATGTTATTC
GCCATTTAAAGGCAAAAAAGTTCAGGCAGAGCAAATATGCAGAAAAAGCA
GCGCGATGTGAATAAAGGAGAAGAATTGTTGTGAGCGAAAAATGGAGGAA
ATTGTCGTGAAAATCCAAAAAGAGTAACCAAAAGTTGTACATAGAAAGTG
AAAAAACGTGAAACAACACGAAAACTGGCGAAAATGTGATAAGAGCCAAT
TATGTTTTTCGGCCTTACACATGTAAATTCATTTAATACTGAATTTAAAA
AATTTCCCACCTTTTTCCGACCACTGCTCATTATCAAGGACGATTTCTTT
GTAAGTTTTTTTCAGTAATTGTATATTTGGCTGAAAGTGGCATCTCCAAT
TTTATTTGGTCAAAATGGCGTCTTTTCAGTTCCACCCATTACGGTTTTCT
TTTTGCCTCACTAGGAATCGGATTATTTTTCTGCTTATTAAAAGAGGTAC
GACTCTACTTAATTTTTAATGGAATATCTAATTTCGACACCAACGTCACC
CAGCCACCTACATGCATGGATTTATTAAGGAGCTCAGACATCTAAGATGT
CCCACACTGAGCCCCAATGTCTAGCCATATAATACCTACAGGTTCAGCCT
TCAAATATCGTATGATGGCCATGATTGGGATCATTTATTTCCCAGCCGCA
ATTTTCTTGTGAACCTCTCTGAATGTGAGTGAGAGAAGGAGAGAAAGAGA
TCTCTAGAATTCTCCTTCCACGATTTGCTGCCTGGCTCATGAATCCATCG
GGTTGGGGTGCCAGCCGGGTGCTTTTTTCCTGGCCTCGAGTTTCGAGTGT
ATTGGATATTTTTTTGGCTCGCGAATCTCATCATGGACTTCGATCCTCGA
GATTTTCTCCAATCTCACCACATCAGCATTGACCTTGGTCTGGGCCTCAA
TCTGGCCCTCACCTGGCTGGCCATACACCTGAAGAAGGCCAAACCCATGG
TCCACCGATCCATCACTGACGAGATCAACCTGGACCTGATCAAGAGCGTC
TCGGTGTGTGCTTTGCTCGTGGTGTGTTTGTGTGTGAGTGTAATCGTTTA
TTCCTTCATATAAAAATAGGTTTATTTGCCCCAGAGTCAACACTTAGCAT
ACGAATACTAGTCAATAGTGTTAGGGCCATTTATAAATAAAATATGCACA
TTAATAGAAAACAAAGATGCTGCAGACAACATTGCAGCAAACTACTATAC
AAAACGGAACAATTCAATAATATAAACACAATAAATGTTTATAAGCCTAA
ACAATCAATAATCTTTACAAAACTAACGCACAATAAATGTTAAAAAACTT
TACAAAACACAAATGTTGTAAACAAAACAAAACACAGCAAATGTTCACCT
AACAATATGAAACAACAAAAGGCTCTAAAAAATAAAAGAAATAAAATAAA
ATAACACGTATCATCATAAAATCGTACAAATCTGCTTGCAAAGGTGCTCA
ACCATGGGATCCACCTTTGGTTCCACGTCATCCCCTGGCTACCAGCGCTT
GTCTTGTCGCGGTTGGCCCAATTCTCGTCCATCTTGGTCTATTTGTACCT
CACCATCGGGATCCTCATTCGATACGCCCAAATGCGAGCCAATCGCATGC
TGTTCCAGGATCTGGACGAAGACTGCCAACTCCACTGGGCTCGTTTGACC
GTCCTGGCCGTGGATCTCTTTATCTACAGCCTCATGGTTCTCCTGCGGGA
GCCTCCTAGATTCTACCGGCTCCACATTGGCCAGTGTCTCCACGAGTGTC
CCACATTGAACGTGAAGGTTGACGGGCATCGTGGCCGTGGTGGTCAATCT
CTTCCTCCGCCTGGCAATCATTCGCGCCAAAATGGCAACCCTGGACTACA
CGCCCCTGGCTATAAAGAATAATTTGTCCCAGGTGGACTTTGCCTTCCTC
TTGGGCGGTTCTGTCGTGCTCTGCCTGCCTTCGATCCCCTATTTTTTCCT
CAAAAACCGGTACCAGAGCACGGAGCTCTCATTGTACATCTTGGGGGTGG
TCTGTCCCGGATATGTGATATTGTTCCAAAAAAGTCTCAGGCTCATTCTA
ATGTCCAAACTTTCTCAGTTGTCGAGGAGATCGTCTGAGAAGCTCAAGGA
TATGGGGAATAAGTTCAGGCTGAGGAACAACTTGGTCCACTGCACTCAGT
GAGGAGAAACTTCTTTGTGCTCCGCCAAAAGGATTTGGCATTGATCCAGT
CAACCAAACTCGTTCATGATCCTCCTGATAGCCGAATTACATGCCGGGGC
CATCCTCAAAGACCCTTTCTCTGCCCACACACATGGTTCCAAATATAAAA
CGCTGAACGGAAATGGTTGCAGCCTTATTTTTAGTCAGACACAAATTTGT
AGAAAGCTCAATCCCCTTAAACCATCTCTTCCCCTAGCGTATGTACGAGC
GTACGTACACTCCTCCACTTTAATTTTAACCTTTTCCCTCCGAGTTCTGG
ATGGAAATCTGGGATGTGAAGAAGAACAATCCCATTTTTGTTGTAGTGAA
CCGGATGTGCTGCAAATGAGGTTGGCATCCAAGGTCATGGTAGTCTATGT
AGTATACTAACCAACACATTTGCCATCCACGCTTCAGAAATATGGAACAA
GCATCCTGAGCTGAGGATGGCACCGACTAAGCGCGTTGCTTACGCAGTGG
CCAAGTCAGTCAGCCAGGCTGCTCATATCTAGTCAAAACCAAATATTCAT
CCATTTCCTTGTTCTCATTGATTCACGCCGACTAGTACATGCTACAAAGT
GTTCCTTATTGTTGACGATATTTATATCGAAAATATATTCCGATTACACA
CACACTGTGGACACTGTACATGGTGGAATGCAGCTCGTTTTATAAAAAGA
AATCATCAATCCCAATGTTATTAGAGTGTTGTTTAGCTTTAGTTCAAGCT
TTTTTGTTGTCGAGCGAACGCAAGATGACAAAGTTGGAAAACGTCTTTCA
AGTACCAACCGACAGAAATCTGCCTTATCTGCTAACCATGGAGACTACCA
TGCTTAAGTCTATTTGACTAAGGTGTAAGCAAGGGCATATACCATTAGAC
CCCTCGATATTTGATAGGTTTCAACTCGCGTAAAAACTGGTCCTATACGA
CAGTTGGCTGATAGCTTAAATACCTGCATTTACCGTATAATGAGGAGACG
CCGTTTTGAGTTTTCAAGGAGGCTTAGGTACGGTAATTGGCCATAGCTTC
ATAATATCTCAATCAAAGTCAGACATCTTTTCATGCATGATGGAGAATTG
AGAGTTTCTCCTGAATCGAGCATAAAAAGTACTTTTTGCCATCTGGGTGA
CAAAAAATTCCCATTTAGAGGGCATCATTGAAGAACCAGAACTTAAGTGG
GGCTCTTTTTGACCATCAATGATCTGGAATTGAAACTATTTTGGGGGTGA
CACCTTATGCGTCCTAAAAGAACCGGGCACCACAGTCGGGAGAGTAACAA
CCTAGTTTATTTTGGGATACATATCAGACAGATATTTGTCAATGTTGGGG
AATTGAACCTACCCCACCCGTCTACTCCAAGGTCGAATGCTCGATGAGTG
GGGTTCTCCCGATGGGCTCATCGAGCCACTTTGGTCTCAGCTGCGGGCAG
GGGTGGTTGGTGAGATAACTTCCAGCTAGTCCTATGATGTGAATCCAACT
TCAACTTCTGGCCAAATTTGAAGTCCGTTACTCCTAAGATGGTGAAGCAC
TGGACCCCAATCCAAAAACAAATTCCTCCCCAAATTGGAGCCACACTTAG
GTCCAGTGTGAAGACCAAAATCATGGTTCAGTGTTAGTATACGTACTGAA
TCCAGATTTTGCTAATTTTGCCTGCGCACCCTGTATGAAGTGCACTCTCG
CAAGAAGATACTTTTTGTTCAGCTGAATGAAAGCTTCCTAATGTATACTG
AGGAATTTGGGCACAAAATACTTTTAACCCGAACCCAATAACATATTCGC
ACTCAAGCGGCTGAGCCGAATGAAGCGAAGTAGGCTCAGAACCCCGGTTC
AGGAATCAACTGGACATGGCCTTTTGGCAGCTCACTTGGCCCATTGGGAG
AAATGCAATGCCCGATGTTCGCTTTGTGAAGAAGCTGATCAGACATGAGT
CCACCTATGTAATGAAACTCCCTCACTCGCTCTTGAAAGGATGAAAAGGC
ACAAAGGCGATCAAACACTGGCTCTGGAGATCGCCATCATAACCTACTTT
GAAAGGGGATAGGTCGTGGACAGCCTTCAGACCAACGTTGCTGATTAAGA
ACATGGAATTGACTTGAACTATTCAACCACCTATTCAACGGGGACGAGCC
GAAGACGTCTGATGATTCGTGTCACGGCCTGACTGGATGTTCGAGCAGTC
GGCATGGTTGCCTTTGACCTCACGAATGGTATCTATGTCGGCAATTGTGC
CCTAAGATTCATGTCGCCCCAAATAAAACAAGCAAACACTGCGCATTTTG
GAAAAGACTCGCGTTAAGAGCCAAATGAGTCAGTTAGCCCATTTTAAAAA
GCCTCCCACCCTTTTCTGGAGCCAAATTAACTGCATCTTCAATCGGAATG
GATGTAAACCCATTTCTGTGGGTCAAATCCTGCCTGTGCCTTGTGAGGGT
CAAAAGCTGTTGGCTTACGACAGTGAGCATTTTTGCCCCTCGATAAGCTT
TACCTCAGCTCAATATTCCTTCTCCTCCCTCCCTTGGGCCAGCATCTGAG
GATTGGATGGGACTGCAATCAATCTCAATACTCGGAATTGAGGCTGGCCC
AACGAAAAGTTGGCGAGTTGAAAGCCATTAGCCTGATTGAACGGGGAAAT
GCCCAATTGGGAGCAGCGTTGATGGATGGTTCCCGATAAATTTGGACCCA
AATTATCCCAATGAACTGTTTCTCGTGATTAGCCACCAAAGTACTTGAAA
GTGTACGTACCAAGGGGATCTAACCAATCCAGAGAGCATAGTGCTCCACT
TGGCCGTAATTCAAGAGTACCTGTGGGAAAGACTGCGAGAGCCGTGGCAC
GTGAGGAACCACGCTGTGTGATCCATTGACTATTGTGGTTTCGAGCGTGT
GGTTTGCCTTCAAATTGGAGAATGGCGGATTTTTTGGTGCAAAAGTTGCA
ACCCTTAATCACCCTACCATTCCGCGGAAATCTCACCCAAGGAGCAGAAC
GCAGTGGTGAAAGGCAAAAAATGCATTGGAGGCCTATTCTTGGATGCCCT
TTGGCTTTGAAGTGCAAAGCCATCTCAAGGGATCTCCAATCATAGAGCTA
GGCTGATGATACCATCAAGTTTCTAGGATTTTTTAGACACTGAAACAAGC
ACCATTCAACCCATTGGGTGGCCAAAAAACTGGGGCTGATCTACTCATCT
TTTAATACATTTCTGTCACTGACTTCAGTTATAAATTTCAAGGCAACAGT
GAACTTCATTGGTGGAACACGATCATTGTTGAAAAAGAAAACATTGTGAG
TAGGCAAGCATTGACATTGGTATCCAATCCTTATTCCTGAGCGAGTGGAA
AGCACAATAGGGAGAAAGCCAAACGTAGATATCGGCTGGAGATTGAGGTT
GATCGAATGAGCTTTTGTTAGGTCACATATCGACACGATATCAGAAAGAA
GTGAAGGGCACAAGTGTATGAGAAACATAAAGGAATCACAGATATTGATC
ATGGCTTTGATAGACCCAGATTTTGGACATCTTAAAAATGGCAACTACTA
CAACACTTGAAGTACGGTACTCAATAATCAATTCATTAACCGACAGTGGG
CACGGACGATTTTTTTCTGCGACTATCGATACCTTTTCTCATAACCCCCA
AAACATAGCAACATTCTGTCGGTATGAGTCTTGGGTAATAGTTTGTGGGA
TCCGGAATAAGGCGCGGAAGCGGGAAACGATGACTAGCCTTTATTGCGGT
CAAACACAGAGTGACAAAAACGAGAAGATGCCGCTGGTCCGCATCTTCGT
CGAGACGGAAGTCGCGCAGATTTTGGTGCGCAACCTCGATATCACTGGTC
GCTACAACCACTCCCCCCAGCTACGACAA

Synonyms

The feature 'limkain- partial' has the following synonyms


Synonym
Tk00340

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