unknown, maker-scaffold370_size193435-snap-gene-0.43 (gene) Tigriopus kingsejongensis

Overview
Nameunknown
Unique Namemaker-scaffold370_size193435-snap-gene-0.43
Typegene
OrganismTigriopus kingsejongensis (Tigriopus kingsejongensis)
Associated RNAi Experiments

Nothing found

Homology
BLAST of unknown vs. L. salmonis genes
Match: EMLSAG00000005000 (supercontig:LSalAtl2s:LSalAtl2s260:351904:356465:1 gene:EMLSAG00000005000 transcript:EMLSAT00000005000 description:"maker-LSalAtl2s260-snap-gene-3.59")

HSP 1 Score: 213.386 bits (542), Expect = 1.812e-57
Identity = 136/365 (37.26%), Postives = 198/365 (54.25%), Query Frame = 0
Query:  735 KIQSNNSLDDELVPGDPVTVDVVLNQNPEDGADGAPYVYSCAFWVALTAQANTRTRGEFLAQKLRAEEDASVQAPESPMLGRVIQLFKPAESLDSVTGGVAVIDYGPFAGQRVEFEREQCQAFGHPFGKADLSYIFSPGQVVRIKVKPYNSFCVESLSIGSKSQGDL-------EDQDALEKFLRKHLMDYSYFTSVVRGRTSPRPFIPFPAQMFGAKI------QSLHASVPSQGVISFVAEVEVGEASPMQVEVHREDFYVYGHWMGRADLKYLIDK-ESVCLEFCPALPSHVDNSSTMP-RASLAWLGCAGDRPQYQGSTSRLQMTPEMDTSLWSFVKAKGLDERTFRALVEGRLPPKPVEE 1084
            + +SN SLD ELVPGD   VD++ N+       G PYV S A+WVAL+    T  RG   A+ LR E   +  + ++  LGR++ L  P+ S   V  G+AVID G FAGQRVEFER+  + FGH    ADLS IF  G  V I+VK YNS+CVE L IG+  +  +       +D+  ++K+L  H ++ + F S++RG    R ++P   Q    KI       S+H +     VI      E+G    + VEV RE+ Y YG  + +A+LK L+ + E V  E  P      +N+   P +A+L W+G    RP Y G ++  +++P MD+ L   ++AK L E  F+A+V G+   +  EE
Sbjct:  454 EFRSNASLDRELVPGDRAVVDLIQNKQ----GHGIPYVLSGAYWVALSVHIKTTYRGVNFARSLRMESPNASGSRDNVSLGRIVFLNPPSSSSSPVLSGIAVIDSGEFAGQRVEFERQDXEXFGHSLTDADLSLIFHFGDEVFIQVKSYNSYCVEKLWIGTPKEAAIPPHLSNSQDRLLMKKYLYDHGLEMNGFDSLLRGEMISRSYLPLVGQPLKGKIGGFKSKSSIHGAEEDSLVIK---ADEIG--VDVNVEVSRENVYFYGRCLDKANLKPLLSEGEDVFFEVHPVYNK--ENAEKQPYQAALVWVGGESHRPFYVGPSTITEISPRMDSLLNQSLRAKSLAEEDFKAIVSGKFVDEKKEE 807          

HSP 2 Score: 113.62 bits (283), Expect = 1.019e-25
Identity = 103/358 (28.77%), Postives = 160/358 (44.69%), Query Frame = 0
Query:   13 RPISPARSPRVPASPRGWRARSQAGEPERAGEIGDLRLFLKGRNRPAGAGGAEVDVRVQVAGRRKSRRTVLLAEPASKKGKSPTAESVRAIARAGTTQELYIGNLFNEVEVSDVERLLEEYGRIVQVKMFSSYALAVIECAQDRAEAAIQTLDMNLWMDNNIRVKFNLKPPLQRPEPDQYAHSDRT---------PDEP-AAQVSRAPRPRSTKVKPDVIEAYLSGHRDARAPG--DGISREDMS-------------RFELDPQKRARNFII-AAQVRPRQFLADMKDIFSSFGHVLSCVELADSAQACLSLISNESKALKCIKEVNALTYKGSQLNVLFEFGSLEDTPAYRQRFSL 344
            R   P RS      P   + RS+  E ER  + GDLR  L+ R +   A             R++  ++   +     +   P++ S  + ++     +  + NL N+VE  D+++L E  G +  VK +SS+A   +EC+ + A+ A+ TLD N+WM N I V F  +    +      +  D+           DE  + Q SR P  R+T +K +VIE+     +    P       ++D S             R      K+ R F+I  A    + FL DMK++FS FG+V SC    D     +  I  E +A++CI + N + YKG +L V F  GS ED P +R   SL
Sbjct:  120 RKKYPRRSIHRTPDPELTKPRSREKESERK-KAGDLRELLRSRKKIDSA-------------RQQKSQSYSSSSNTITRTFIPSSSSKSSSSKNVIIHKFSLENLENKVEKEDIKKLFENVGTVHHVKQYSSHASIDVECSLEEAKEAVDTLDKNMWMXNCISVNFTEESRSNKRRTTGASLEDKKKRTKKSKSSEDENLSIQESRTP-TRTTIIK-NVIESSEKVSQSIEEPSLKQIEKKKDFSPSSYMADNILAVERIVASKVKKLRYFLIFCATTCNKSFLEDMKEVFSRFGNVQSCTRNDDGQTILVQSICTERQAVQCIVDTNKIKYKGQELRVKFANGSDEDMPEFRSNASL 461          
BLAST of unknown vs. L. salmonis genes
Match: EMLSAG00000009974 (supercontig:LSalAtl2s:LSalAtl2s652:257842:261556:1 gene:EMLSAG00000009974 transcript:EMLSAT00000009974 description:"maker-LSalAtl2s652-snap-gene-2.37")

HSP 1 Score: 73.9442 bits (180), Expect = 2.125e-13
Identity = 78/315 (24.76%), Postives = 131/315 (41.59%), Query Frame = 0
Query:  798 LRAEEDASVQAPESPMLGRVIQLFKPAESLDSVTGGVAVIDYGPFAGQRVEFEREQCQAFG-HPFGKADLSYIFSPGQVVRIKVKPYN-----SFCVESLSIGSKSQGDLEDQD---ALEKF-------------LRKHLMDYSYFTSVVRGRTSPRPFIPFPAQMFGAKIQSLHASVPSQ-------GVISFVAEVEVGEASPMQVEVHREDFYVYGHWMGRADLKYLI-DKESVCLEFCPALPSHVDNSSTMP-----RASLAWLGCAGDRPQYQGSTSRLQMTPEMDTSLWSFVKAKGLDERTFRALVEGRL 1077
                ED S   P      R+ +L  P    + V  G  ++  G   G++VEF R+    FG  P  K+DL Y     +   +++   N        +  L IG+     L++ D   + +KF             L  H +    F  V++G+ + R F+P   +     +  L  ++          G +S V +VE G  +   V  HR++ +V G+ M +ADL ++  + + V LE    LPS   +   +P     RA+L W   +  RP+     + L+ T   D     ++K + LD   F+ LV G+L
Sbjct:  489 FNGNEDCSEYVP-----ARISELSFPPGKNEGVAKGFCILQGGINKGKKVEFSRDIFSIFGFKPSEKSDLQYFIVLNEPCYVRLDEGNEDDDNGLKINDLWIGAPRSAFLKNADDEMSYDKFMESETHRIKFFLFLESHDLSLKDFDEVIKGKKASRKFLPLSRESNRGVVIQLERALSKGKGRRLDLGAVSGVIKVENGPLAGQYVTFHRKNTWVMGYNMLKADLTHIFQEGQKVNLE-AEELPSKEASRGPIPYEYKYRATLVW--TSKFRPR-----NDLERTTPEDKRSHDWLKKRNLDSEKFQQLVNGKL 790          
BLAST of unknown vs. nr
Match: gi|1325303620|ref|XP_023333387.1| (uncharacterized protein LOC111705156 isoform X1 [Eurytemora affinis] >gi|1325303622|ref|XP_023333388.1| uncharacterized protein LOC111705156 isoform X2 [Eurytemora affinis])

HSP 1 Score: 458.373 bits (1178), Expect = 1.037e-132
Identity = 322/958 (33.61%), Postives = 483/958 (50.42%), Query Frame = 0
Query:  272 DMKDIFSSFGHVLSCVELADSAQACLSLISNESKALKCIKEVNALTYKGSQLNVLFEFGSLEDTPAYRQRFSL---YFRNYPHDLRSASSQAGPSATTSEVPIGVLPPSSSLGAFGATPD---------------------------ASTLNSIIQNVRASMAHGLGGPSKSAFPEVPSS-------NVGPA----------LPRLTSDPDYISSVEAQICSVHNKIVVISFFTGFSFQ--CAKLVPGQMYVNGKKSLGYLIKNNNFQTWPEHIKSFLHQGVKIKMDARRMSPEEVEEVSAISPANIQYCTPLI-WQVQKPQEEDITVSMSSHKYQVLRGTVVRLYAKWGVLRHPLQGEVFFEVSSFFEINKCLSAEDSLLP-KVAIGDVLATQCYSVGYLAMTEYLREVTLFEGTTEA--LRYRAKLVWSLTKEIDPFALSHEEGDQPCQFLTTSSTLNRQLPGEKEASHRGWPGVIEEIHLPAGGVILLDE------SLGLDLQH-RRVYFHRSRLYLNGAKIQSNNSLDDELVPGDPVTVDVVLNQ-NPEDGADGAPYVYSCAFWVALTAQANTRTRGEFLAQKLRAEEDASVQAPESPMLGRVIQLFKPAESLDSVTGGVAVIDYGPFAGQRVEFEREQCQAFGHPFGKADLSYIFSPGQVVRIKVKPYNSFCVESL----SIGSKSQGDLEDQDA--LEKFLRKHLMDYSYFTSVVRGRTSPRPFIPFPAQMFGAKIQSLHASVPSQGVISFVAEVEVGEASPMQVEVHREDFYVYGHWMGRADLKYLIDKESVCLEFCPALPSHVDNSSTMPR-ASLAWLGCAGDRPQYQGSTSRLQMTPEMDTSLWSFVKAKGLDERTFRALVEGRLPPKPVEESEVQVADPESGTVISLDKETLAQAALLKQMKESFGGQACMEALMLLMQQQRSQAQGAGPSSSGPRSPSIIEKIKEEL 1161
            D+KD+F+ +G +     +  S    L+ +S E  A+KC+ E+N +  KGS+L V F  GS E+T  ++++++    +F +  H          P    SE+  G+     SL      P                            A + +S +     ++A G     +S+  +  SS       N G A          +  L S+  Y++ ++ +I S+ NK +++ F    S +   AKL+PGQMY+NGK+ LG+ IK+N +  WP  +K FL  G ++ MD +++S +E+ +      A I +  P +     +  E+D+T++  +    +    + R+Y+ WG+LR   Q  + F+  + F     L+AE +L    + IGD LA          + E +  +  +E   +   ++  AKLVW +T E+DP+   + + +Q   FLT+SSTLNR LPGEKEA      G +EEIHLPAGG+I +++      +L L  QH R+VYFHRSR++LNG KIQ++ SLD EL+PGD V++D+V N   P D     PYV S AFWVA+  +ANT  RG  +A +LR E  ASV   E     RV+ L  PA+ L  V  G AVID G F GQRVEF+R  C A+     KADLS+I    + V +K+KPYNS+CV  L    S GS+ +G L+      +++ L K  +  + F  +V+G+ SPR F+P   Q    ++ SLH              V +   S   +   R+  Y +GHW+GRADL Y +  E V  E  P        S   P  A L W+   G+RP+Y G ++   +T E    L  ++  K LD  +F+AL++G LP K   ES   +   +S   +SLD +TLAQAALL++MK   G    M    LLM    S     G SS+     S I K+ +E 
Sbjct: 1059 DIKDLFARYGQINRVNVIKFSTAFVLAYMS-ELMAVKCVCELNGVIVKGSRLTVEFTKGSYEETRNFKEKWAQEIKFFSSKEHHATLDIQITIPKMKISEIGEGLKNFDMSLSLDAVHPSFQHQGLERKQDNDESFSGFQSEFTPVPAPSYSSNLLPFSGTLAPGYSSGYQSSASQGYSSAPPGSGNNTGYAADFFSLAGRRVSNLESNDSYLADIQGKIHSIQNKQILLEFNLPGSGEKALAKLIPGQMYLNGKQCLGFSIKSNTYHLWPNFVKDFLQIGKEVWMDLKKLSTKEMHDSKDRERA-IHWTCPFVRLPGSRLSEKDLTITRQTQSSVITTAVLRRVYSGWGLLRSKDQN-IIFKNENLFHETAPLTAESNLTTLDLEIGDTLAVHVEE-NQEKIKELVSSIPEYEKNQDLKDIKLFAKLVWHVTGEVDPWVYFNPDPEQKILFLTSSSTLNRPLPGEKEAELTNICGTVEEIHLPAGGIITINDDKIRELNLPLQTQHQRKVYFHRSRIHLNGTKIQTDQSLDTELMPGDEVSIDIVRNSPYPSD----PPYVMSAAFWVAVAVRANTVVRGVQIANRLRKE--ASVGCEEGIERARVVYLAPPADPLSPVVSGTAVIDTGEFLGQRVEFDRSVCSAYSFSLAKADLSHIIQRDEAVFVKLKPYNSYCVAKLWLGFSTGSRKEGSLDPHQIGLMKEDLEKKGISQAGFDVLVKGQFSPRQFLPLSRQSIPGQVVSLHEK------DDIATSVTIKSDSGDVISADRDKIYAHGHWLGRADLAYCMQAERVEYEISPRY------SEDDPEYACLVWI---GERPKYIGMSTFPHITTESSKHLKYWLAKKDLDLHSFKALIDGMLPSKKKTESAAGIK--KSQDDLSLDPDTLAQAALLQKMKNQLGTDKVMN---LLMNMLNSGTDTPGSSSTSAPQDS-ISKMNQEF 1985          
BLAST of unknown vs. nr
Match: gi|1325303624|ref|XP_023333389.1| (uncharacterized protein LOC111705156 isoform X3 [Eurytemora affinis])

HSP 1 Score: 402.134 bits (1032), Expect = 4.751e-114
Identity = 270/805 (33.54%), Postives = 410/805 (50.93%), Query Frame = 0
Query:  272 DMKDIFSSFGHVLSCVELADSAQACLSLISNESKALKCIKEVNALTYKGSQLNVLFEFGSLEDTPAYRQRFSL---YFRNYPHDLRSASSQAGPSATTSEVPIGVLPPSSSLGAFGATPD---------------------------ASTLNSIIQNVRASMAHGLGGPSKSAFPEVPSS-------NVGPA----------LPRLTSDPDYISSVEAQICSVHNKIVVISFFTGFSFQ--CAKLVPGQMYVNGKKSLGYLIKNNNFQTWPEHIKSFLHQGVKIKMDARRMSPEEVEEVSAISPANIQYCTPLI-WQVQKPQEEDITVSMSSHKYQVLRGTVVRLYAKWGVLRHPLQGEVFFEVSSFFEINKCLSAEDSLLP-KVAIGDVLATQCYSVGYLAMTEYLREVTLFEGTTEA--LRYRAKLVWSLTKEIDPFALSHEEGDQPCQFLTTSSTLNRQLPGEKEASHRGWPGVIEEIHLPAGGVILLDE------SLGLDLQH-RRVYFHRSRLYLNGAKIQSNNSLDDELVPGDPVTVDVVLNQ-NPEDGADGAPYVYSCAFWVALTAQANTRTRGEFLAQKLRAEEDASVQAPESPMLGRVIQLFKPAESLDSVTGGVAVIDYGPFAGQRVEFEREQCQAFGHPFGKADLSYIFSPGQVVRIKVKPYNSFCVESL----SIGSKSQGDLEDQDA--LEKFLRKHLMDYSYFTSVVRGRTSPRPFIPFPAQMFGAKIQSLHASVPSQGVISFVAEVEVGEASPMQVEVHREDFYVYGHWMGRADLKYLIDKESVCLEFCP 1009
            D+KD+F+ +G +     +  S    L+ +S E  A+KC+ E+N +  KGS+L V F  GS E+T  ++++++    +F +  H          P    SE+  G+     SL      P                            A + +S +     ++A G     +S+  +  SS       N G A          +  L S+  Y++ ++ +I S+ NK +++ F    S +   AKL+PGQMY+NGK+ LG+ IK+N +  WP  +K FL  G ++ MD +++S +E+ +      A I +  P +     +  E+D+T++  +    +    + R+Y+ WG+LR   Q  + F+  + F     L+AE +L    + IGD LA          + E +  +  +E   +   ++  AKLVW +T E+DP+   + + +Q   FLT+SSTLNR LPGEKEA      G +EEIHLPAGG+I +++      +L L  QH R+VYFHRSR++LNG KIQ++ SLD EL+PGD V++D+V N   P D     PYV S AFWVA+  +ANT  RG  +A +LR E  ASV   E     RV+ L  PA+ L  V  G AVID G F GQRVEF+R  C A+     KADLS+I    + V +K+KPYNS+CV  L    S GS+ +G L+      +++ L K  +  + F  +V+G+ SPR F+P   Q    ++ SLH              V +   S   +   R+  Y +GHW+GRADL Y +  E V  E  P
Sbjct: 1059 DIKDLFARYGQINRVNVIKFSTAFVLAYMS-ELMAVKCVCELNGVIVKGSRLTVEFTKGSYEETRNFKEKWAQEIKFFSSKEHHATLDIQITIPKMKISEIGEGLKNFDMSLSLDAVHPSFQHQGLERKQDNDESFSGFQSEFTPVPAPSYSSNLLPFSGTLAPGYSSGYQSSASQGYSSAPPGSGNNTGYAADFFSLAGRRVSNLESNDSYLADIQGKIHSIQNKQILLEFNLPGSGEKALAKLIPGQMYLNGKQCLGFSIKSNTYHLWPNFVKDFLQIGKEVWMDLKKLSTKEMHDSKDRERA-IHWTCPFVRLPGSRLSEKDLTITRQTQSSVITTAVLRRVYSGWGLLRSKDQN-IIFKNENLFHETAPLTAESNLTTLDLEIGDTLAVHVEE-NQEKIKELVSSIPEYEKNQDLKDIKLFAKLVWHVTGEVDPWVYFNPDPEQKILFLTSSSTLNRPLPGEKEAELTNICGTVEEIHLPAGGIITINDDKIRELNLPLQTQHQRKVYFHRSRIHLNGTKIQTDQSLDTELMPGDEVSIDIVRNSPYPSD----PPYVMSAAFWVAVAVRANTVVRGVQIANRLRKE--ASVGCEEGIERARVVYLAPPADPLSPVVSGTAVIDTGEFLGQRVEFDRSVCSAYSFSLAKADLSHIIQRDEAVFVKLKPYNSYCVAKLWLGFSTGSRKEGSLDPHQIGLMKEDLEKKGISQAGFDVLVKGQFSPRQFLPLSRQSIPGQVVSLHEK------DDIATSVTIKSDSGDVISADRDKIYAHGHWLGRADLAYCMQAERVEYEISP 1847          
BLAST of unknown vs. nr
Match: gi|1325264598|ref|XP_023335550.1| (uncharacterized protein LOC111706850 [Eurytemora affinis])

HSP 1 Score: 87.0409 bits (214), Expect = 1.919e-13
Identity = 78/309 (25.24%), Postives = 136/309 (44.01%), Query Frame = 0
Query:  802 EDASVQAPESPMLGRVIQLFKPAESLDSVT-GGVAVIDYGPFAGQRVEFEREQCQAFGHPFGKADLSYIFSPGQVVRIKVKPYNS-----FCVESLSIGSKSQGDLEDQDALE------KFLRKHLMDYSYFTSVVRGRTSPRPFIPFPAQMFGAKIQSL------HASVPSQGVISFV---AEVEVGEASPMQVEVHREDFYVYGHWMGRADLKYLI-DKESVCLEFCPALPSHVDN------SSTMPR--ASLAWLGCAGDRPQYQGSTSRLQMTPEMDTSLWSFVKAKGLDERTFRALVEGRLPPK 1080
            E   V  P S   GRV++L KP   + S T  G+  ID GPFA ++  F R     +G    KADL Y+ +    +RI+V+   +     F V S  IG       ++  A+       K+L+ H +    F  VVRG  +P+PF P P +   A++ SL             G++      A  + G  +P +V   R+ FY++   + + DL Y++ + +   +E    +            ++ +P+  A++ ++G    +P      S        +++L  ++K + +D      LV+G+L PK
Sbjct:  631 ESKPVSLPPSITEGRVVELKKPEPGVVSGTEHGILRIDNGPFAQEKAFFNRNSLYCWGFNCSKADLMYLITENDRLRIEVQDGTNNKAVPFKVTSAWIGPHPHEKNKESVAMAGNLYFVKWLKDHNLTVEEFHKVVRGEINPKPFFPLPGECHQARLASLLPGHMGSGGGADAGILRLCQNPANSKDGRKAP-EVLFERDSFYLWNVLIDKGDLSYVMSENDKYFVEVTDLIGKEKKKWQTRLGTTNIPKFIATIVYVGGGRPKPDKINEISS-------NSNLLQWLKKRNMDVTLIEQLVKGQLLPK 931          

HSP 2 Score: 82.8037 bits (203), Expect = 3.785e-12
Identity = 109/477 (22.85%), Postives = 187/477 (39.20%), Query Frame = 0
Query:  639 ALRYRAKLVWSLTKEIDPFALSHEEGDQPCQFLTTSSTLNRQLPGEKEASHRGWPGVIEEIHLPAGGVILLDESLGLDLQHRRVYFHRSRLYLNGAKIQSNNSLDDELVPGDPVTVDVVLNQNPEDGADGAPYVYSCAFWVALTAQANTRTR-GEFLAQKLRAEEDASVQAPESPMLGRVIQLFKPAESLDSVTGGVAVIDYGPF-AGQRVEFEREQCQAFGHPFGKADLSYIFSPGQVVRIKVK----PYNSFCVESLSIGS--------KSQGDLED-----QDALEKFLRKHLMDYSYFTSVVRGRTSPRPF----------IPFPAQMFGAKIQSLHASVPSQGVIS----FVAEVEVGEASPMQVEVHREDFYVYGHWMGRADLKYLI-DKESVCLEFCPALPSHVDNSSTMPRASLAWLGCAGDRPQYQGSTSRLQMTPEMDTSLWSFVKAKGLDERTFRALVEGRLPPKP 1081
            ++ Y A  VW   + +     + E+G   C            +P   EA+H    G + EI       ++  E     L+ ++V   R+RLY+NG+K++  +SL D +   D +  D+VL  NPE         Y+    ++ T     RT   E LA+K  +     +   E   LG               T GVA I  GP   G+RV F RE    FG    +ADL+Y+   G  +++ +     P   F  E   + S        K   +LED        +  F+ K  +    F  +++G+  P+            +  P  +   ++  L    P  GV+S     +  ++ G  +  +   +R   Y +G    +ADL YLI + + + +E    +    +N +   + + AW+G       ++ +   + M   +    W  +K   L    F  +V G + PKP
Sbjct:  342 SIDYEATQVWKGRRNLGSLTPADEDGKAKCP-----------IPLPTEATHHDVVGRVVEIESNVIYAVIKTEDP--SLRGQKVLISRNRLYVNGSKLKFKDSLADIISLDDTILFDMVL-ANPEQSKS----TYNWLAVLSWTGSTPDRTEINEELAKKTESYRAKVLVFYEQKGLG--------------YTEGVAQIIGGPNRIGERVHFSREGTYVFGATMRRADLAYVLKVGDKIQVDITELPAPITKFGAEVKFVASLTWVGPAPKMDVNLEDFPYYVGGVISPFILKRGLTEESFKQLIKGQLPPKAGKLSPVPESKPVSLPPSITEGRVVELKK--PEPGVVSGTEHGILRIDNGPFAQEKAFFNRNSLYCWGFNCSKADLMYLITENDRLRIE----VQDGTNNKAVPFKVTSAWIGPH----PHEKNKESVAMAGNLYFVKW--LKDHNLTVEEFHKVVRGEINPKP 774          
BLAST of unknown vs. nr
Match: gi|1325273046|ref|XP_023321158.1| (uncharacterized protein LOC111695917 isoform X2 [Eurytemora affinis])

HSP 1 Score: 75.8702 bits (185), Expect = 1.213e-10
Identity = 70/275 (25.45%), Postives = 114/275 (41.45%), Query Frame = 0
Query:  849 FEREQCQAFGHPFGKADLSYIFSPGQVVR-----IKVKPYNSFCVESLSIGSKSQGDLEDQD-----------ALEKFLRKHLMDYSYFTSVVRGRTSP-RPFIPFPAQ-MFGAKIQSLHASVPSQGVISFVAEVEVG---------------EASPMQVEVHREDFYVYGHWMGRADLKYLID-KESVCLEFCPALPSHVDNSSTMP-----RASLAWLGCAGDRPQYQGSTSRLQMTPEMDTSLWSFVKAKGLDERTFRALVEGRLPP-KPVE 1083
              R +    G    + DL Y   P +++      IK  P   +  +  ++     G+ E++D           A   +L +  + YS F  V R +T+P + FIPFP       ++ SL      +G  +    V+ G               +   ++V  HR +F+V+G  M +ADL YLI     V LE     P   ++ ST+P     RA++ W+G A  R                D S++ ++  +GL+   F  LVEG +PP  P+E
Sbjct:    1 MNRSKISLLGLKLDECDLLYCLLPNEIMYCDVGGIKDYPEGQYVSQRCNLIQPKDGEAENKDDPTTFSLQDRTAFLAWLHQRNLTYSMFQRV-RAKTAPFKYFIPFPKDSTLSGRVVSLDPVRMKRGATAGTIIVDSGLINLENPAPGQPGVKDMQGVKVTFHRTNFWVFGRKMAKADLTYLIQPNHRVLLECSEISPQEREHYSTLPANIQYRATIVWVGPARPRNDRDDPNRN-------DVSIFDWLAKRGLNISQFNKLVEGGMPPHNPME 267          
BLAST of unknown vs. nr
Match: gi|1325273044|ref|XP_023321157.1| (uncharacterized protein LOC111695917 isoform X1 [Eurytemora affinis])

HSP 1 Score: 75.8702 bits (185), Expect = 1.365e-10
Identity = 71/275 (25.82%), Postives = 116/275 (42.18%), Query Frame = 0
Query:  849 FEREQCQAFGHPFGKADLSYIFSPGQVVR-----IKVKPYNSFCVESLSIGSKSQGDLEDQD-----------ALEKFLRKHLMDYSYFTSVVRGRTSP-RPFIPFPAQ-MFGAKIQSLHASVPSQGVISFVAEVEVG---------------EASPMQVEVHREDFYVYGHWMGRADLKYLID-KESVCLEFCPALPSHVDNSSTMP-----RASLAWLGCAGDRPQYQGSTSRLQMTPEMDTSLWSFVKAKGLDERTFRALVEGRLPP-KPVE 1083
              R +    G    + DL Y   P +++      IK  P   +  +  ++     G+ E++D           A   +L +  + YS F  V R +T+P + FIPFP       ++ SL      +G  +    V+ G               +   ++V  HR +F+V+G  M +ADL YLI     V LE     P   ++ ST+P     RA++ W+G A  RP+              D S++ ++  +GL+   F  LVEG +PP  P+E
Sbjct:    1 MNRSKISLLGLKLDECDLLYCLLPNEIMYCDVGGIKDYPEGQYVSQRCNLIQPKDGEAENKDDPTTFSLQDRTAFLAWLHQRNLTYSMFQRV-RAKTAPFKYFIPFPKDSTLSGRVVSLDPVRMKRGATAGTIIVDSGLINLENPAPGQPGVKDMQGVKVTFHRTNFWVFGRKMAKADLTYLIQPNHRVLLECSEISPQEREHYSTLPANIQYRATIVWVGPA--RPRNDRDDPNRN-----DVSIFDWLAKRGLNISQFNKLVEGGMPPHNPME 267          
The following BLAST results are available for this feature:
BLAST of unknown vs. L. salmonis genes
Analysis Date: 2018-04-19 (T. kinsejongensis vs L. Salmonis peptides)
Total hits: 2
Match NameE-valueIdentityDescription
EMLSAG000000050001.812e-5737.26supercontig:LSalAtl2s:LSalAtl2s260:351904:356465:1... [more]
EMLSAG000000099742.125e-1324.76supercontig:LSalAtl2s:LSalAtl2s652:257842:261556:1... [more]
back to top
BLAST of unknown vs. SwissProt
Analysis Date: 2018-04-19 (T. kingejongensis peptided Blastp vs. SwissProt)
Total hits: 0
Match NameE-valueIdentityDescription
back to top
BLAST of unknown vs. nr
Analysis Date: 2018-05-15 (T. kingsejongensis proteins Blastp vs. NR)
Total hits: 5
Match NameE-valueIdentityDescription
gi|1325303620|ref|XP_023333387.1|1.037e-13233.61uncharacterized protein LOC111705156 isoform X1 [E... [more]
gi|1325303624|ref|XP_023333389.1|4.751e-11433.54uncharacterized protein LOC111705156 isoform X3 [E... [more]
gi|1325264598|ref|XP_023335550.1|1.919e-1325.24uncharacterized protein LOC111706850 [Eurytemora a... [more]
gi|1325273046|ref|XP_023321158.1|1.213e-1025.45uncharacterized protein LOC111695917 isoform X2 [E... [more]
gi|1325273044|ref|XP_023321157.1|1.365e-1025.82uncharacterized protein LOC111695917 isoform X1 [E... [more]
back to top
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
scaffold370_size193435supercontigscaffold370_size193435:112284..132395 -
Analyses
This gene is derived from or has results from the following analyses
Analysis NameDate Performed
maker2018-02-12 .496401
T. kinsejongensis vs L. Salmonis peptides2018-04-19
T. kingejongensis peptided Blastp vs. SwissProt2018-04-19
T. kingsejongensis proteins Blastp vs. NR2018-05-15
Properties
Property NameValue
NoteF:nucleic acid binding
Relationships

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

Feature NameUnique NameSpeciesType
maker-scaffold370_size193435-snap-gene-0.43-mRNA-1maker-scaffold370_size193435-snap-gene-0.43-mRNA-1Tigriopus kingsejongensismRNA


Sequences
The following sequences are available for this feature:

gene from alignment at scaffold370_size193435:112284..132395-

Legend: mRNA
Hold the cursor over a type above to highlight its positions in the sequence below.
>maker-scaffold370_size193435-snap-gene-0.43 ID=maker-scaffold370_size193435-snap-gene-0.43|Name=unknown|organism=Tigriopus kingsejongensis|type=gene|length=20112bp|location=Sequence derived from alignment at scaffold370_size193435:112284..132395- (Tigriopus kingsejongensis)
ATGCTGGCTGGCTTCAGCGAGGTGAACCTTTTGACCTCTTTCCAACGCCT AGGCCTGGAATTGGCTGAACTGCCCTCCCGACTCCCCGCCGGGGATGGGC TCCTTGGCTGACTAAATTTGACCCCTAATGGAGGGGGCTCAAGTATTAAT ACAAATGCACTGGTGGACAACGGAATTGCCACGTGGAACAAGTTCCCAGC CCGGCGAGAAGCCAAGTACCAAGCGGATGGCTTCGAATGTGGCCCAATCA ATATCCAGATCGGCCCCTATTTGATCAATGTCATGCAGATCTGTTGTTGG TTGATTTGTACGATTATTACTATCATATGATTGCGATTTTGATATTCTTT AGAGCCTTTGGTTGAGTTTAATTTTGTTTTGAACCCATTTGTTGTGTTTT GTATTGTTTTGTGTACAATTTGTGTGTGATGATATAGTTTTGTGAACCAC CATCGTCTAACAAGCATTGTTAACATAAACTACTCTTTAAACAAAGAAGA ATTGATTGTACAGGCTGCAAATATTTATTCTGCGTTTCCATGATTGTGTT GTTCTGTTTTGTATAGTTTGCTGTAATGTTGTTTTCTCTATGTGTGTTTA AGCTTACTACATGATATGTGCATATTTTTATAAATGGCCCTAACACTACT GACTGGCATTCGTTGGCTAAATGTTGACTCCCGGGGATAAACCAATTTTA TATGCAATAAACGATTACACACACACACAAGTATACAAGTTCTGGACTGT GGTCCTGCTTCATAAGTAAATGATCCATATGTCTTTGAATTTAATAGGGG TTAAACTTTTAATGAAATCTACCCTTACATGCACAATATTTCAGCTTTCA ATTGTTCCCATTGCTTTTAATTCAAGTGTACTTCTTTGTTGGAGTCACAC ATGTTCCATCAACCATATTGAACGGTTTCTTTTACCAAGTGAACTCTCGA TTTTAATGAACTCTTCACCTTTAAAATGATGTGCCGGCCCTGCAAACAAT TGCGAGCCACATTTTTGCGAGGTTACGGTGAGATTGAGACATATACTTCA ATCTCTGCCCATGGTGCTTGTAGGTAAAGAAAATAAAACTCTAAAGGACT CCAAATTCAAAATTAGCATAATGGACGTTCAAACTCCCAAGACTGGGCTT TTTTCGTAATGGCCATCTTGGCCCTTTCCAGCCCGGAGAATCCTGTCCCA GTTTCCCAGCTCAGCCATTCTGGCATCCCTGGGTGGATGAAAGTGCCAAG CATTTCCTGGATAAGAACGTTATCGAACGGATAATTCAGGCTGGTGGCTA AGATTGGCAAGTCAAGTTGGCGGCATGACATGCGAACGAGCTTGAATCCG GAGTAGTTTTTGCACCAGTGCCAGTATGTTTTCAAAGAATGTGTTGCATA GAAGTCGCAAGGCGCATCTCTCGACACTCCATTGGTACACATGTGCCCTG ATTCACTACCACATAAAGCTCTCACAATCTGACCGCCATATTTCAGGCAG TCGAAATCGAGGTTTGGTGGATAATATTAAGAGCATTGCGTGGGAGAGAG CCTGAGTTCTGTTACCTAGAATGGTTTCATAGTTTATCATATGTGCACTA CTTTGTACACCCTTATGGTTACAGTAATGAATGAAAACTGCGCGAATCCA ACTATGGTTCATAAACCTTCGAACACACAAATGCATGTCGCAAAGACCCA ATAGTAGGGGATGTGAATGCAAAAAAATGTGTGCGTCAGACATCTACAAT ACGTGACAGTTTCCTTATTTTATCGAGTTAATTCTCGCTGCCGTCTTGAA AATATGCCAAAGTTACAAATACTTCCATTCATACTCGGATTTCTTCATTG TATCGCCCACAGTTCAGCATAATAACCTTGGTGCAGTTTAAATGGTCTAC CTAAAGTAAGACCATCCAGACGTTTACGTACTTCTATTTATCACGACTTC GGGCATTTTCTTCTAACAACTTTCCAAGGTGTGTACATAATTTTGGAGGG TGTGTGCGCAGGTTACAGAAAATCCTGTCTTTTGGGCAACGTGCAACGTT GAAGTCAATTGGCCGAAATCTCTGATACCCATTTCTCTGAAATTTATTTT CTGGTCGCAGGTCAAAGGTGAGTTTTGGGGCATATCAGTCACTCAGTTTT CATTTCAGTTCTTGTATTGATTTCGGCACCTGTGGCAGCCTGTGTGTTGT GTGTGTGACTATTGAGATAGAGGGCGCTAGGTGTGCCGAGGTAGGATCTT ACTCGCGGTGTTAAGTATGACGAGTTAACTAAAAAGCGTAAATGAACCTA GGTTCATGTTCAGTGAACCAACCTCGGACTTGAGACTTGATATGGACTCA GGTAAGCATAGCAATGGTCATAAGTATATAGAGATGGCCAAAATATCCGA ATAACCATTGCCAATTATGCCCATTACGGGGGGGGGGGGTAAATTAGCGG GGGTAACTTATCTCATTAGGACGGACTAAAACATAACTACCATTAGTACT GTGATTCGGCTATTAACAGGTCATGCCTTTGTTCGATGTATGAACGCGAA AGTAAACTCGCTGGTTGACCCTAAGATACTGGGAGGCTAACATACTACAG GATGCGTAGGCAAAACTTACAAAATCAGTATTCAGCATAGAATTCAAAAT TAAGCAGGAACTAGAGGCTGGATCTCAATTAGTCTGCCGTCAATAAAATT GCCACGAGCCCTGAGTACCGTAAGTCTAAGTCTTAACACTGAACCTTGAT TCTGGCCTTAACACTGGAGGTGTGGGTGCAATTTGGGGTGGCATTTGTTT TTGGATTGGGGTCCATTGCTTCACCATCTTAGGAGTGAAGGACTTCAAAC TTCGCCAGGAGTTGAAGCTGGATTCACATCATAGGACACATAAGGTGTCA CCCGCAAAATAGTTTCCATTCCAGATCATTGAGGGTCAAACAGAGCTCCT TTCGAGTTCTGGTTCTTCAATAATGCCATCAAAATGGTAATTTTCTGTCA CCCAGATGCCAAAAATACACGCTCAATTCAGGAGAAACTCTCAGTCCTTC ATCATGCATGAAAAGATGACTCACTTTGGTTGAGACATAATGAAGCTACG GCCAATTACCTGAGCCTCCTCGAAAACTCGAAACGGTGTCTTCCGATAGT CGAATACCATGAGACACACAATCATAACTGGTCTCTCAGATTTCTCATAG TAGATCTTTAGGTCCCAAATGATACACTTGACAATCATTATTGGTCATTT TTAACAGTGGCCCAGGTTGACCATGGATTGACTCAGGCTTGAGTCGATTT CTGCTGTCGGCGATTCTATCCATAAGTGATCGGACACTTATGGATTTTGT CACCAGATCTAAGACGCAGTAAACAAATGTGACCAATAGTAAATGTTAAA TCAACACGCCCACGGTGCCTTGAAGCGCCTGAAACAGCTTTTCCCAACTC TGTTGTGGACCAGGGCAAACTACTTAAATGTGTATTGGGGCGACTCAGCC ATGAACATCTCCAGGGAGATAGTTCAGCGCTATACATATATGACTTGGCC AAGTTATGCTAGATTAATCGGAATGCCCACGCAGCCTTTTTTACTCCTAG GGCAGGCCAGAAATGGCGTAACTTCCACGGAGAAAGGGAGATTCCGTGAT GAAGACAACTGGTATGCGATGCCTTTTCGGACCTAGACTATAGCACTAAA ACAAGATGTGTTCCCATTCCAATAGATCCAGCTTTCCTTAACTCAGCCCA GGATTTGGGACAAATAAAACCAGAACAAATTGCTACACTAGCCAGGGCCT CAAAACTTGAGGACGAGGCCTGAAGTAGCCAAGCCAAATTGCCATCACAA CGCAGTTACACCGAAATATTTATCCAGTTGCATTTTTTAGGTGTATGTAA ATAATAAAGGAAGGGCGGCCTAAAATCCACTTTGGAAAGCCGGGGGAGGT CAAAATTACCCGAAAATAGGAAGAAAAAACACCAATTGAAGCAAAATATG AATTAAGCTGAAGCAATATTGATGCAATGTCAACATTGGTGTGTATCTTT TAGACAAACCACTTTTTTGCGAAATTTAAGCAAATTGGCAAGACCTGGAA AAACACGCTTGTTATAGGAAATATGCAAGCAAGCATAAGATATGGAAACT ATGCCAATAAAGCTCAATTGTGCTAACAAATAGTTAATGCAGAAAAGGCC ACGCGCGTCGGCTTTGCCTCAGAACGCACATTCTTGAAGTCACGTGACCT TTTCAGGCAGCTTCCGCTCCATCTAGTTCTTATTTAGAACTCCTTGGTCT GGCCTAGGAGTACTAAAATCACCTGGAGGTCGCACAGTACGAAAAATATG CACGCTAAAAATGGTCACGCTGAGCAGCTGTCGCAGAGGTGCAAACTTGA CGAAATTACGAAATTTTGAAGATAAACAGGTCACTAGAACACTGATTAGC GTTGGGTTCATGTTGGTTAAACCATGCAATATTAGAATCACCTGGAGGTC GCACATAACGAAAAATGTGTCCAAAGAATAAATGAATGGTTCAGGAAGCT CGCAAGCAATTAACGCAATCATTTGACGGGCGGGATTTACGACGACATTT CACCAAGTTTCGTAGGGTTTCAGAATGTCGAGTTGATGGGCTCTTAAACC TAGAGTGTGTGTGTGTTTGTGTGTGTGTGTGTGTGTGTAATCGCACCTTC CGGTGGTTTCGTGTTCTACACCATGGAACCCCCATGGTGAACACAGGGCC CACTTGATGATATTAGCTAATTTAGCTAGTCGCCCCAGCTCCAACCACTA CTTTTTAATTCGTGGGGAACCAGAAGGGACCTTTCCTCAAGATGTGGCCG CACCTGTCTTTCCTGACCTTTGAACGACTAAGGTTACAGGGAGTCGTCAT TCACTCCCCTCAGTAGAAGAAAGTCTGGAGTGGCGAAAATTTCTTTATCC GCCGGGCCCAGGAATCGATCTGCGGCCTTTCAGCACGGCCGACTTCTTCG CTGACCACTTCACCATTCAATCCCCAAGAAGTGGTAGAAATGTCCCCGCG ACTCCAGTCAATGAATTGCATTAACGGCTTTCGAGATGTCTGTAACAAGT CGTCTTTGGACACATTTTTAGTTCTGTGCGACCTCCAGGTGATTCCAGTA CTCCATGGTCTGGCCTAGGCATGGGTTGACCATAGTATGCTAGAAGGATC TGGGAAGGATGACAGCAAGGCCATTAATATAAGGTCAAAGCATTTCCGAT GTCAACAAAGGGTTTACGTATACTAATCGACACAGATTATTCGGCCAAAG TTTCAGGCACCCTCGCCACCTTTCTAGCCTTGGAGGTCGCGAGGATGTCA ACACTCCTGGTGTATGTACTGCTATGGAGTGGCCTGTCAGGGGGTAACCA GCGACCCCCTGATCAGGCCATTGGGCGGGAAATGAGCCCATCGAGCACCT ATCCTGGCTGGCTTAGCGTTGGCCTAGAACCCAACCTGTGAAAGAGGCAC CTTTATCCAATTGGCAGCCTGTACTTATCAGTACACAGGTTATGCACTGA AAAGCCAGGGCTCCAGAATCGAAAGCGGGCAATTTTGAGATATTCCTGTC TGCTATGACACTGAGCTGGTCTCAAAAACTGTCCAATAATCGGCCATCCA CCGCCAATGGGTGATAGATTGACACTGCCGACCCCGGTTAAGTTAGCTAA ATAGCCGTCCATAACTCAGTCTCGTTGGCATCCCGGCGATCGTGGTCCAG TGGGACCATGGCTGTTCTTGAGGGCTAGTAGGAGTTGGCCCGATTTGTAT ACGTATAACATTCACTAACATTGGATGACAAACTACCACGGCTTGACTCG CGAGTCAAGCGTCGAAAAAGACAAATGAGTCGCCAACCTCGTCAGTGGTC ACCCTGTTCACAACAAACCGGGCTCAGAGCTGGACCAATAACGTTGAGCT GGACTGCCGTGGTGTGCTTGGATCCTTGGATCAACGCCCGGATTACCCAC GCTACCACGGCCTGGGAGTGCNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGTCGCCGCCTCGG CGGAAAGTCTCGCGCTCCCCGGAGGGCCTGGCCCGAGCCCGCCCGATTTC CCCGGCGCGGTCACCGCGAGTGCCCGCCTCGCCCAGAGGCTGGCGAGCGC GCTCGCAGGCGGGCGAGCCGGAGCGCGCCGGGGAAATCGGTGATCTACGG CTATTTCTGAAGGGGCGGAACCGACCGGCGGGGGCTGGTGGAGCGGAGGT TGACGTCCGGGTCCAGGTGGCGGGTCGGCGGAAATCGCGACGCACCGTAC TCCTGGCTGAACCCGCCTCGAAGAAGGGGAAGAGTCCGACGGCCGAGTCT GTGCGCGCAATCGCCCGGGCGGGGACCACTCAAGAGCTGTACATTGGCAA TCTCTTCAACGAGGTGGAAGTCTCGGACGTCGAGCGCCTCCTGGAGGAGT ATGGCCGGATCGTGCAGGTCAAGATGTTCTCTTCCTACGCTTTAGCCGTG ATTGAGTGCGCCCAGGACCGAGCTGAGGCCGCCATTCAGACGTTGGACAT GAATCTATGGATGGACAACAATATCCGGGTCAAGTTCAACCTCAAACCGC CCCTCCAGCGGCCTGAGCCTGACCAATACGCCCACTCCGATCGAACCCCC GACGAGCCGGCCGCTCAGGTGTCACGAGCCCCGCGGCCCAGGTCGACCAA GGTCAAGCCGGATGTGATTGAGGCGTACTTGAGCGGGCATCGCGATGCCC GCGCCCCGGGCGATGGGATCAGTCGCGAGGATATGAGCCGTTTCGAGTTG GATCCCCAGAAGCGGGCTCGAAATTTTATCATTGCCGCCCAGGTGCGGCC CCGCCAATTCCTGGCCGACATGAAAGACATCTTCTCCTCGTTCGGCCACG TCTTGAGCTGCGTCGAATTGGCCGACAGCGCCCAGGCCTGCCTCAGTCTC ATCTCGAACGAGAGCAAGGCCCTCAAGTGCATCAAAGAGGTCAATGCCCT CACCTACAAGGGCAGTCAGCTCAATGTCTTGTTCGAGTTTGGCTCCTTGG AGGACACCCCCGCCTACCGCCAGCGGTTCTCGCTCTACTTCCGGAACTAT CCGCACGACTTGCGCTCGGCCTCCTCCCAGGCTGGACCCTCGGCCACGAC CTCGGAAGTGCCCATTGGCGTCCTGCCGCCGAGTAGTAGTCTGGGGGCCT TTGGGGCCACACCCGACGCCTCCACCCTCAACTCCATCATTCAGAACGTG CGAGCCTCCATGGCTCACGGCCTGGGAGGGCCGTCTAAGAGTGCGTTCCC AGAGGTGCCATCGAGCAATGTGGGACCCGCCCTGCCCAGGTTGACCTCCG ATCCCGACTACATATCCTCGGTCGAGGCCCAAATCTGCTCGGTGCACAAC AAGATTGTGGTCATTTCCTTCTTCACGGGGTTCTCCTTCCAGTGCGCCAA GCTCGTGCCCGGTCAGATGTATGTGAATGGCAAGAAGTCCTTGGGCTACT TGATCAAGAACAACAACTTCCAGACCTGGCCCGAACACATCAAGAGCTTC CTCCACCAAGGGGTCAAGATCAAGATGGATGCCCGCCGAATGAGCCCCGA GGAGGTGGAGGAGGTGAGCGCCATCAGTCCGGCCAACATCCAGTACTGCA CGCCGCTCATCTGGCAGGTGCAGAAGCCGCAGGAGGAGGACATCACCGTG TCCATGTCCTCCCATAAGTATCAGGTCCTTCGCGGCACCGTGGTCAGGCT CTATGCGAAATGGGGCGTCTTACGCCATCCGCTCCAGGGCGAGGTGTTCT TCGAAGTGAGCAGCTTCTTCGAGATCAACAAGTGCTTGAGTGCGGAGGAT TCGCTCCTCCCCAAGGTGGCCATTGGGGACGTGTTGGCCACGCAGTGCTA CAGTGTGGGCTACCTCGCGATGACCGAATACCTTAGAGAAGTAACCCTCT TCGAGGGGACAACCGAGGCTCTAAGATATAGGGCCAAGCTCGTGTGGAGC CTCACCAAGGAGATCGATCCCTTTGCCTTGTCCCATGAGGAGGGCGATCA GCCTTGCCAATTTCTCACCACCTCCTCCACGCTCAACCGGCAGTTGCCCG GGGAGAAAGAGGCCAGTCACCGAGGCTGGCCGGGCGTGATCGAGGAGATT CACCTTCCGGCTGGTGGAGTCATCCTCCTGGACGAGTCCTTGGGGCTGGA TCTCCAGCATAGGCGGGTTTACTTCCACAGGTCTCGCCTCTACCTGAACG GAGCCAAGATCCAGTCCAACAACAGCCTGGACGACGAGCTCGTCCCCGGC GATCCCGTCACGGTGGACGTGGTCTTGAATCAAAACCCCGAGGACGGAGC GGATGGGGCACCCTACGTGTACTCCTGTGCCTTTTGGGTGGCCTTGACCG CTCAGGCCAACACCAGAACCCGAGGAGAGTTCCTGGCCCAGAAGCTGAGA GCAGAGGAGGTAGTCATGGGCTTCCTGGTGTGCAATGTTTCGTGTCTTTT CTTGGCTGTGAACAATAAGAACCATTTGTCAGACGAGTCAGGGGTTGGAG CTGTGGGTAATGTGTCATTCATGTGTGTCCTCTCCCTGCTTCCAGGATGC TTCGGTCCAGGCTCCAGAGTCCCCCATGCTGGGGCGTGTCATCCAGCTGT TCAAGCCCGCCGAATCTTTGGACTCGGTTACAGGAGGCGTGGCCGTCATC GACTACGGACCCTTCGCCGGGCAAAGGGTCGAGTTCGAGCGGGAGCAATG TCAGGCTTTTGGACATCCATTCGGCAAGGCGGATCTCTCGTACATCTTCA GTCCAGGTGAGCCCAATTGAGATGATCCCCGATTCCTTCAACTTGCCGTC AACCCGATCGAATTTCCAGGCCAAGTCGTCCGAATCAAGGTCAAACCCTA CAATTCATTCTGTGTCGAGTCTCTGTCGATCGGATCCAAGAGCCAGGGTG ATCTCGAGGACCAGGACGCGCTCGAGAAGTTCCTCCGCAAGCACCTCATG GACTACTCGTACTTCACCAGTGTGGTTCGGGGACGAACGTCGCCGAGGCC GTTCATCCCCTTCCCAGCTCAGATGTTTGGCGCCAAGATTCAAAGCCTCC ACGCGTCCGTGCCCTCTCAGGGCGTCATTTCCTTCGTGGCCGAGGTCGAG GTGGGTGAGGCCAGTCCCATGCAGGTCGAGGTTCACCGTGAGGACTTCTA CGTCTACGGTCATTGGATGGGGAGAGCCGATTTGAAATATCTTATCGACA AAGGTGAGACTAAACATTTCTTATACTTCTTAACCAGTTCAATGGGATTG TACCCGTACTTCAACGCTAAGTTGAATTCAGTTCTATCTATCCTCAAAGC TTTTAGTAACCATGGGGCGCTGGTTTCGTGAATGACCGTGCTTAAAAATG AGTCTCAATTCCCTCCCCCAACCCAAAGTGTGCTGGTGAGCCTGCCTTCA CATGTCTGGACTCGACTTACTTTGGCACTTACTCACACACATATGTACAC TTGGATTCCGATCTGAACGGCAGTCCATCTTGTACTTGCAGAGAGTGTAT GCTTGGAGTTTTGTCCGGCTCTTCCCTCCCATGTGGATAATTCGTCCACC ATGCCCAGAGCCAGTCTAGCCTGGTTGGGATGCGCCGGGGATCGTCCCCA ATATCAGGGATCCACTTCGAGACTCCAGATGACACCCGAGATGGACACTT CTCTCTGGAGCTTTGTCAAGGCCAAAGGACTGGACGAGCGGACTTTTCGC GCATTGGTGAGTGTAGTCACATACAGTCGCATGTGAATAGGCGGAATTGA GATGGAAATGGCGCGAACAATCTCGCAACCTCTCAATCTTCAGCTCTTCT CTAATTTTAAACTGAAGTTGATTTATTCATTTAAGATAGTTTTTTGATAC GTTCTAAGTTCTTAGGATATGTTATAATAAATCGAAACGTGAAGAATGGG TGACTGAAAAAGGCAGATGATGAAAAGTAGGTGACATAACTATCAAGGCA TTCATTACTTCCTAAGAGGAATAGGGGTATTAAGAAATTAAAAGGTTTTG GATCGAAGTGAGCCGGCTTAACAATTAAGGCCGTGCGATATTCGATTATC TAATTCGATGATCGAAGCAAGATTTTCCAATTTCGATTGGCGATATAAGC TTACTCCGATATTCGATATATCGATCGATATTTTAGACAAAAAACAGATA AAGAAAAGTCGCCAATTAGGGTTGCTAAGTTTGGAATTTCCATTCTCGTT TTCTGGAAAATGCGGGCACTTTCGGTTTTAAATTCACACTGAACAATGAG AACCTTCGTTGTAGAGTTCACGGTTGGCACATTTTTGTCCGAAATAGTGA AAAATCCAAAAGTTCGGTGATCGTGTGATTCTTCATAACCGAAATAGTGG CAAAATGGCCAAACTTGCGATGAATGCGTTTCTATCACTTTAAATTGACA AAAATGACATACCGTAGTTAAGTCGAAAATAGTAGTCAAACACTTTTGAT CATGAAACTTATTCTCAAAACTGTATGTTCATTAGTTTTGCTGAAAAATA TTGTGGTTTTTTTTGGTTCGGATTTCAACTAAAATTTCGGGTGCTATATA TGTATGATAATTGGATATTGTTGGCTCACTAAATTTCGAATGTTTGAGGA TGTGATTTGGATGACCTTGGATATCCGAGAAACGTAGTGACAAGAGAGCC AAGTCTCGTACAAGGACAGAGAGGCTATGTATACTATTTTTCATCCCTGA ACTCGATAATCGATGTGAAGTGAATATCGAAGTCGATACATCGATATTCG TTTTCGAGAATATCGTTCAGTCTTTAGTAACAATCTCCTCTCAGTTGGAA GATGTGGTTGTCAAACTCTGGAAAGCACATCTTCTCAAATTGATTGGCAA CTGTTGCAAAGCCTTGAGCAAAGCATGTCAAAAAATCACGTTATGTTTAT TTTTGAGAGCACTTCTGAAGGAGCTGGAGCAATGCTTGTTGAACAGGGTG GTGCAGGCCTTTGATCGCCGAACAATCTTAACCTTGGCCTTTGAGCTCGT TCTTGCATTAGGCCGAGCACTTTGAGTTCATCAGCTGGCAAATGACCGGC CAATCTGTCGTCATTGCGCTCTTCAGAACTTCCATGAGGTTTTCTCAACT CGCCAATGCGCATTTGAATGAAGCCGATATAGCAATTTCGATCTTTGGAG CCCCCTCCCACTCAAATCGTTGCTCACACAAGCTCAATGAGAACAATGAC GTCAAAGTCATTCTCCAAAAAACGTGTCCAGGACCTGGCTCGGGGCAAGA AATGCCAGTGATCTCCCTCGGGGACGAGTGGAATTAATTACCCCGTCCCA CTCGATTATTGTCTCACAACCCTTAACTCACAGAAGTACTCTTCGAACCC GATGATTTGCAAGTCTCTCTCATGCCCTAATTCCTCAATGTATTCCCGAA TGAGTGTGTTTGAGCCGAAATTTCAGCGTCTCGAATGAGCTCACGTTTTC TCGCACGTTGGCCCGATCTGAAGTCGCCACTGTACTGCATGCGAGTGTTG AGCACGGAGCCAAAAACAGCCCGTAGTACGAAAGTTGTTGTTCATTTCTG CCAAATCCGAATACACACCGTGAACCCGGGGGATTCCTGTAAAGTACGCA CTGCAGTGGGAGCTCCAGAGCAGCCACACACCAGGAACAAGACTTAATTC ATGGCCACGGATAGAGTAGACTCCACGGTGTGACACAAGTTTTGACTGCC TCTGATTTGTGAGGATTTGGTCCTAGGGAGTCTAGTTGGAGGTTCTCTCG AAGATATGAATTCGCCACTCAAATAGGCGAAATTAAATGCCACGCAATTG CCAAACTTGTCTGGGTAATCTGCCATAATTTCTGATACTTATTAACTGAA GATTGATGCCATTAAAAGACAGTGGGCCACTTTGGGTGCCAATATGCGGT TCCAAATGCTGCGGTTCTAACTTGAATTAGGGTCTACCTTGAGAAGGCAG TGAATTCAAAAGAAATATCCATATTGGTCTCAAAAATAGTGATGAAGACC CATTTGGCACAAAAACCACACCATTTTCCAGCTGATAATTGGTGCCACGA CTTAAAAACACACACAATGTACAGGTTGCAGCACCCACTCGATGTGGGAT CACTTCAAATATTTGAGAACTTTGGATGTAAGGCATTCGGGTACAAAAAA AATATAGATGAGTTTTTATTTTTCAAATCTGAAGCCCAGTTTCCAAAACA GGCAGAACGAGGGTTTTATTCATAACATTTAATGCTTCTGATATCCTGGA GTGTAGGTTTGTGTTTGGAGCCCAATCGTTTTTATCGACACTGTCATGGG AATCGAGCCGAGGATAACACCTCAACCTAACAAAAAGCCCGATTTTCAAA GGCAGAGCTCTTAAATTGCCAATAAGACAGTCTGGCTTGGGCTGGGCTTT GCTTCCCGGGTGCAAAGATTCTAGGATTGGATATAGTTTCCATTTTCATT TTCATTTTTCATCCTTCATAAAGTTTTGAATTTTTGGAGCATGCCATACT TTGGTGTCACCCTGTGTGTGTATTTCCGATTGATTTGAAGTTCACGTTTT CATTGTGAAGTCAAAAGCCGTACTTCATTGGGCGCTCTGCTTTCTTGGTT GATACCCGACATGGCACATTAGGTGTAGTATCTCTTGCTCCATAAATTCA TCTAAAGCTCATGCGAGAAGAGAGAATAAGGTCAAATAGACAAGAGTACT GGCCTAAAAAAACATTGGGACCAACCCCTCATCCCAAGCCGCGGGGGCAA ATTTGGCTTGGAAACAACCGAATTCCCGGGTGCACAAGTGTAAATCTTGG ACAGATTTATAGCTCCCAAGCACTTGCATATGCCTTTTGGGCTAATTTGG TGGAGCCTTCAAATGCATCCCATGGGGAGACCTGACCGTGTTTGGGGTCG CCCGGGGTTCGAGCCCGAAGCAAGGATGTCACGGACGTTTTTCACGCGGT CTGGCAGCAATTTGAGCCCCGGACATGTGTACACAAAAGCCAAAGTCGAG CATTTTGAATCAACACATTCCAACTATGCCAGCAGATTGCTTCGGAGGGC ATTTCCCAACTTATTTTTTTCAATTGCGTTGCTCCCCATCAGTTTGAGGG GTTGTAAACATATTCCAGAACGAGGCAGTTTGATCCAGTACAATCTGGTT TGAGTCACTTGCACTCTTCATGTGCACTCTGTGCTCCCGGCAATCGTTTT AAGCGAGATAGTGAATGTACATTCAAATCCAGCAAAAAAGGAAAATGCGG AACAAAAATATGTGAGAAACGTTTCCCAGATTAGCACCTGGCAACACAGG TTGGGATTGTCCAGACCAGTTCAGGGTTCTGGGAAGAGGTGAGGTCTATC AGGAAAATACGTCCTTAAAGTCTTGGGAGAGTATGAAGGAAATCGCTCAG GGGGTCGTTAAGACCACAAACGCCTCCCTTGTAATAGTCTCGTTCAAGAA GTGTGAGATGTTTCTCTGGCCGAGATCCGAATATTTTCAGACGAACCTAT GAGGTATCTCCCAAGATCAATGAACCCCTGACCATCAGTTCCAAACTCGT TAAGTTGTCGGGGGGTTCAAAATGTTCGCCCTAAGCAAATGTCTCCGTTT CCAAGTGTAGATTAATTTCCAAGCCCAATATACCCAAGCATAGCTATTTT GCCGGGGGATGCAACGAAAACCACTGTGAACAGATTTTGACATTTTTCAC GTAACTCGAATACACTTTTCTATACGTAGACCAAATATTTATTTTGGGGT ATAACCATCGATAGTTGTGGACGGTCATTTGTTTGCCACGTGTTCCACGA AATATCGGTCTCTGACGAGATTTATCTGAACGATTTTGGTGCATCACTAA TTTCGAGTGTTTGCTGATGATTTAAGTTGGGTGTTGCCGAGGCTCTGGGG GCTTTTGAAGAGTTCGTGAGTTTGATCCCAAATCGCTTGAAGTCGAGGTC GAGCCTAAGCATGTAGCTCAGTGGTACGTTAAAGATGTCCCAAGTTCAAA TCCCGTTTGCAACGACCTCTGTCTTGGAGTGGGATGTATTTTTCATTGAT GGAAAAGAAACCCGGCCTTGACGTTTCACTCACACTGCTTGCCAGATGAG TAGTGTTGTAGTAGCTCGGTGGACAGGTGAGGGGGTCTTGTGTTCAAATC CTTGTTGATATGGGCATACGCTGGTTTGGCTTGGGATTTATGTTGATTCA AAGAAAATAACCCCTAGCTCACAGGTAAAAAAACACCTTCGGGCGGTTGA GACCTAACTTTTTGCGGTTGTTTTCAACAGGGTGCGCCATCATTTTCTAC CATTTAATATGATTGGTTTCTCTGTGTGATCCTCTTAAAACCTTTGCCGT TGTGAGTATTTTTGACTGAATTGTTGGCAACGCGGTTGAATTTGTCTTTC TTCTGAGTTACCCTCTAAACAAACTTTTTGAACTGTTTAAAACACAACTT TTCGACTATTCAAATGCGATAGAAGTCATTTTGACGCTGATTTCCCGAAA TTGGGCTTTTTTCCCCCCAACCAAAATTTCGGCCCTGTACGTTGTTTCGG TGCCTACTTTTCTGTCGGAAATAGGAGTCAGAGGAGCAAAGGATCATTTT AGTGTCCTACCGATTCAAATCTCAGTTTTTCCACGGATTTCTGACATACA TTTCGGACCATATTTCAGGTGCAATGATGTATATATCAATTACATTCGTA GTACACTGGAATTATATAGCGTACGTTACAAACATTCTCCCTCGCCAGCG GCCTCGATTCGAAGGAGTCGCTTTAGAATCTCGAGAGTACATTTCAATCC ATTCACCTCAATCGCTTCTGGGCCAGATTTAGCAGATCTACGACATTCCC TTGCTGCTTTTGAGTGCTCTGAATAGTTGGACTAGTTGAAATGTACCCCA CCCAAAGCTGGCTTTGCAACAAAGATCTGGTCCATAACTGCCGGCCGTTT GGGTGCGTGTATTTCGGGATAGTTCTCGATAAGTGTACGTTACGTGCCCA GGCTTTTACAAAAATACACAATGCTTCAAATCCCATTGAGGGTTGTCTGC TATTAGAGGCACGTCGACAATTTCTTCGATCATTTTGTGAAGAAATAGTA ATTCATTGAGAGTATGGTCGGAAACATATGCTCTCGATCATATGGGCTCG GAATAGGCAGCACGAACGTACTGTAATCAATAGTTCTTACTCTGGGTGAC CCGAGGCTAGCAACAGGGTGTGTCTTTGTGGGTCTAGTTGCTCAACCATA AAGTAGGTAGAGCGGAGAGATTGGCACGCTGTGAACGACACGTCCTGTCC ATAAACAGCAAAAATAATAGAGACTGCAATGCTTATGAGGTGACAAGGTC AAAATCGACTCCATTTGAACCACTCTCATGTGAATCAGCTGAATCTCTCT ACGCGCGGAATGAACCTATCAAGCGGGCATCTCTAATTCCGGTCATGCCC AATTTGTTTTACTACAGTTAATTCTTGGTAATGACCGTCCCATGTAAAAG TAAACATTGAACTTAGTCACCCTGATTGAGTGATTTTGGGAAAACTGAAC TTGGCCTTTGATAGTACTGTACTATCAACAACCGACTCGGGCTGTGCCCT AGCTCCAATATCCAAGTATCTTGGCCCAGACATGACGGGTGATAAAGATG GAGTATTTATGCAACACCTCGTATGCTTCCCTTTTGAGACACTCAGCCAA CAATTAGCCTCTGAATAGCGAGTATTTGGGCGTGTGTGCAATGACACCAC ACGACGTGAGGGATCACATGGTTGAGCTGGAATCAGGCGAAGAGCACGAT GTCCTCCTCCTTAGGCCTCCTGCCCACGTTGGGAAGAAGCAGGGAAGCCT CTATAGCTGGAAGTATTAAGCCCGGTTCTCATTGCCAGACTTTGAGCCAA TATCAAAAGTGATCAAGTTTTCAAAATGGAAATGGAGCTTGAAAAAGAAA AAAAATTTGTCTGATTCTGGTCATCCTGACAAGATAGTGGTGTTGGCTGG CTGCCCAAATGGATTTTTGGGCAATGTAGCCGAGAAAAAAAAACTAACCT CACAGGGAAAACAAAAATGGAAACATTAGGTTATCATTTTTGGCCAGTCT AGTGATTATCTACGTTTGTAGCCAATTTTGTGCTGTATGTATTTCCAAAT CGAAAATCTGGTCACTTTTGTTGTTGGCCCTCCGTCTGGCAAGCGTAAGT CTTCCATGTATACAGGGTTCCATGGGAGAACGTATGTCAGAGCGCGAAGG CGAGTAGGCTTTCTTCACAAGGGAAATATGTCGATAGTCATCGAGTTTCG ACTGGGCTTTTTGGGCCCACTTGATCCTAAATTCGTGATGTAATGAAACG ATTGAAAATTCTTCTATTAGGCCCGAGAATGACCCGATTTGCCCAAGTCA CTCCAAATTTTGCCAATTGTTGCTTCTCCATTCGTCAAAATCCGAGAAAC TATTTTGCAACCTCTCGTAGAAACTTGTGTCTGTTTTAAATTTTTATAAA TAAGAAGTTCACTTTTTCAGAACCCCGATTCAAGGAGTGTGATTTATGCC TGAAATCGACTTACCAATTTGGTAGTAGGCAACATAGAATTTGAACGATG CAAATTTTAAACTGTAAATCTATGTGCCTATTGTATATGGAGGAATAATT TAGCCATGGACATGGCTAAAACTGGGATTCTAACTTATAGCTATACATTT ATTATATACTGTAGTTTAGTATATGTAATACACAAAATTCTAAGTAAATT TCGTAACTCTTTTCGGCGGCCACACACGAAGGATGATTATTTTTAAAATA ATAAACCATTTCGTCCATAGAATAAAAATCATATGAAACACAATGATTGT CTAATAGCTATGTTGGTGTAAAATTTTATTTTTTACAACTCTTTTGCTTT TAGATGCTTAGAATAATTTAAAGAAATGACTCAGCCCCACTTACTAGCAT TTGTTGCTTAAGTGATGACACCCAGGCATAAACCTCTTCTAATAGGGTAT ATATGGAGTCATAATTCGATTGCACAAGCTTCAATTTTCCCCCTACTACT ATCGCCTTCGACCACAACCTACACGAGGGATTCTGCTATCAAGCCCTGCA GTTCTTGAACATACATTTTGTATGGGCACTCAAATCCACTCACAGCCAGG AGCAATGAGCGATCCGCGAGCTCGGATGCTGTTTTAGGTCTCGGCCCAAA AAATTGACCCCCCACACATGTTTGGCCCGAAATAACTGGCGAGACTAGAA GCTTCTCTGCGATGGTCACAACAATCATTGGCGAGGAAGTGAGATGAGCC TGCCGATCTAGGCCTACCTTCCGACCTGGTCTGATCGGAAATGGCATGAT GATTCTCAGCCGAGTGAAAAGTGCTGTCTGCGACAAAAGTACTCAAATTC CCTATGAAATGTGCAAGCATCCGCGTTCAAGGTTACCTTTGTCCCGAAAA GTCGCAATTGAAAAACTCTTCTCGGCCAAGCCCCCAATCGCCCACGCTTG TGCGCCTTGACCCTGAAATATGCAGCTAAATATGCGACCAATCCTCTTCA TAGGGTGAGGATCAAATCACAATTTGCACTCTGCTTCGCGTTTTGAGACG CAGTTGAGCCCGAGGATCAAAGCTGCGATTACGACGATTGTTCGATAACT GTGCAGTGAAGCCCCGTGACTGGCGGGTTGGATGGGTTCAGAGATGTACA CATTAGCGGTGGATTTCCCCCATGGTTGGAGGATTGTACTCCAAAGCCAG TCCAGGGGGACTCACTGAAAATTAGGAGGATCAAAATATCCATCTGATGG AGAAACTGTCCAAGTACTGGCTGGCATCTGTGAAACGGGTTCTTAAGAAA CATACGCTTTAACTCGCATCTCAAATATTAAAAACTAACCCTATTATATG CATATTATTACTATAATGTACTGTATGTGTATATCAAATTATAAATCATG CTTTTTTAAGTATTGTACATCATAGAGGAAATGAAGGTCATTGTTTTCAC AGGCAAAACAATACACATACTCCCGAGCTAACATACGGTTAATAATTGTT GAATGGATTTTCTGCTCCATGAAGAGGCAAACGCTTCGAACCCCTCAAGG AATTGATCTTAGATGGTTCAACAATGTGCCCAATTGTAGCTTTTTTTAGA TAATTAATTACGTTGACACACATGGAATTTCGATTAACAGGAAATCGTCT GCGTATTGGTGTTTTTATTAGCATTTCTATCGTGCTTTAGACTCTGGTAA TTAAGGACATTGTATCAAACTAGTGCGTTTTAAATGAGTTAAGCCAGCTA AGCTTTCGTCGTATTTATGAAGAACTGTTCATTAAACATGTTTTCATCGT TTATGAAACAGATTGTCAACAGTTATCAAGTGACCCAATCGTAATTTAAC TATTAATTACAAAAGTGCATATCCGTTCGAGCCATATTTGGTATTACAAA CAGGCAAAAATTGAGATATGCTTTTTTCACCCAATGCATGAGATAAAATG CTGCCATGTGCTTGCCCGTCTAGTTTACGACTTATACTTCAGGGTTATGG AAATGGCCGATTGACTTAACGGTCCCAGTTGTCACTTGGCTTGAGCCAAA TCATAATTGGGATAGGTCTAAAAAAGCGCCACGTGACTCAAAAATTCGTA CTATAGCCAAACGAGCACAAAACAAACAATCGTTCTCAGTCGTTGGAACA AAACAAGGAATGACCCGTATTTTTGAGCGAGTTTCGAAGGACAGGTTCAA TTCGAGTCTGCGTTTAAAACTTGCCCGAGGGAAATCCCGAGTGGTTACGT CTAGCATCCCCCCTAAACCAGTTTCCTAGACCATATTTTCCTAACCATTG TTATGTCATCCATTTCACAGGTGGAAGGACGATTGCCTCCGAAGCCGGTG GAGGAGTCCGAGGTTCAGGTGGCCGATCCTGAGAGCGGGACCGTGATCTC GTTGGACAAGGAAACCCTGGCCCAGGCTGCCTTACTCAAGCAGATGAAGG AGAGCTTTGGCGGGCAGGCCTGCATGGAGGCCTTGATGCTCCTCATGCAG CAGCAGCGGAGCCAGGCCCAGGGTGCTGGACCTTCTTCGAGCGGGCCTCG GAGCCCGAGCATCATTGAGAAGATCAAAGAGGAGCTGGGGAAACGGGATG AGAATGCCTCCCAAGACTGACATGTTGGGCATTCTATGTAAAATGTCGAT ATTTTCAATACA
back to top
Synonyms
The feature 'unknown' has the following synonyms
Synonym
Tk07798
Add to Basket