mRNA_D-herbacea_F_contig11.874.1 (mRNA) Desmarestia herbacea DmunF female

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

Overview


Name	mRNA_D-herbacea_F_contig11.874.1
Unique Name	mRNA_D-herbacea_F_contig11.874.1
Type	mRNA
Organism	Desmarestia herbacea DmunF female (Desmarestia herbacea DmunF female)

Homology

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BLAST of mRNA_D-herbacea_F_contig11.874.1 vs. uniprot
Match: D8LE97_ECTSI (Cell division cycle 123 homolog (S. cerevisiae) n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LE97_ECTSI)

HSP 1 Score: 581 bits (1498), Expect = 2.330e-204
Identity = 297/447 (66.44%), Postives = 340/447 (76.06%), Query Frame = 2

Query:   80 MVANAGAVDSQDGQYTVGTPPPASEITQQATPPEVQGPCCRQEHVLNCQFDRWYPLFKHCTPRSIVLELPEDLVRYLQADGVVLPKGFEMSCGQGVQDDSDDEVDWGDEEGEEDADERPDFPGLQERLSDAIRSLGGAVFPKLNWSCPQDAAWINGGTLKCSLPGDVLCLLKSSTFVDHDLNHAFDGCAGAAIARPDTFTLVLKKWCNLHPSMLFRCFVRERRLVGICQKDCTSYYEFLAEEAGRLSGLLEAFFEAEVCKKFADPDCVADVYVDSRSRVWLLDINPFSAVTDSLLFDWSEDALAAPLPA--PTIPPEEETLPEGVFMRLHFEPPPSSGPLRSENTASTGFSDAEVAPGDGAEGGEGGGGLAV------TRVTVAGG-MGTEVDFRCVPSSSHMVPDPMGRYRGPADVAMGTLVGGTGG-----LDDLIESCRLTDDD 1378
            MV N GA D+ +          A+    +   P    P   Q HVLNCQF RW+P+FKHCTPRS+VL+LPED+VRYLQ DGVVLPKGF+MSCG+GV+DDSDDEVDWG+E+  ED  +RPDFP L   LSDAI SLGGAVFPKLNWSCP+DAAW+NGG+LKC LPGDVLCL+KSSTF+ HDLNHAFD C G++I+RP+TFTLVL+KWCNLHPSMLFRCFVRERRLVG+CQ+DCTSYY FL EEA RLS LLE FF AEVCKKFADPDCVADVYVD+RSRVWLLD+NPFS VTDSLLFDWSED+LAAPLP   PT+   EETLP GV MR+HF+P  + G   S   + T  +     P D  +G  GG   A       T +T+AGG  G + +FRCVPSS HMVPDPMGRYRGPADV MGTL  GTGG     L+DLIESCRL + D
Sbjct:    1 MVPNVGAGDTSEDAVQELNNTEAAAAAAETPEPSGVSPAPTQGHVLNCQFGRWHPVFKHCTPRSVVLKLPEDVVRYLQQDGVVLPKGFQMSCGEGVRDDSDDEVDWGNED--EDEQDRPDFPDLHALLSDAIASLGGAVFPKLNWSCPKDAAWVNGGSLKCKLPGDVLCLIKSSTFISHDLNHAFDACTGSSISRPETFTLVLRKWCNLHPSMLFRCFVRERRLVGVCQRDCTSYYGFLEEEADRLSTLLEEFFAAEVCKKFADPDCVADVYVDNRSRVWLLDMNPFSGVTDSLLFDWSEDSLAAPLPPRPPTLDRGEETLPPGVAMRIHFDPSSTHGDQASSTPSGT-VAARSNDPSDSQQGPPGGRTRATGVLERATGITLAGGGEGRDFEFRCVPSSLHMVPDPMGRYRGPADVGMGTLACGTGGNGGLELEDLIESCRLAEKD 444

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BLAST of mRNA_D-herbacea_F_contig11.874.1 vs. uniprot
Match: A0A507EI64_9FUNG (Cell division cycle protein 123 n=2 Tax=Spizellomyces TaxID=4815 RepID=A0A507EI64_9FUNG)

HSP 1 Score: 252 bits (643), Expect = 1.020e-76
Identity = 140/278 (50.36%), Postives = 174/278 (62.59%), Query Frame = 2

Query:  170 TPPEVQGPCCRQEHVLNCQFDRWYPLFKHCTPRSIVLELPEDLVRYLQADGVVLPKGFEMSCGQGVQDDSDDEVDWG---DEEGEEDA---DERPDFPGLQERLSDAIRSLGGAVFPKLNWSCPQDAAWINGGT-LKCSLPGDVLCLLKSSTFVDHDLNHAFDGCAGAAIARPDTFTLVLKKWCNLHPSMLFRCFVRERRLVGICQKDCTSYYEFLAEEAGRLSGLLEAFFEAEVCKKFADPDCVADVYVDSRSR-VWLLDINPFSAVTDSLLFDWSE 979
            TPP+   P   Q H+ NC F  WY  F   T +S V+ L E+ + YL ADGV LP+G +     G ++D      WG   DE G E+    D  P FP LQ R+   I  LGGAVFPKLNWS P+DAAWI  GT LK + P ++  LLKSS FV HDL HAF+GC      RP+ F LVLKKW +L PSM FRCFV++  LVGI Q+D  +YY+FL+E    L   +  FFE ++  +FADP+ V DVY++ R+R VWLLD NPFS+ TDSLLF W E
Sbjct:    6 TPPQDFPPTTIQ-HIQNCSFSSWYDTFAAFTLKSRVIPLEEEFIEYLNADGVFLPRGED-----GAEEDH-----WGGSGDESGGEEEIGEDRSPSFPELQRRIERDIEDLGGAVFPKLNWSSPKDAAWITTGTTLKSTTPSEIFLLLKSSDFVAHDLGHAFEGCENGP-TRPERFELVLKKWYDLLPSMEFRCFVKDGELVGISQRDVANYYDFLSEAREDLEDSIIEFFEDKIKGRFADPNYVFDVYINQRNRKVWLLDFNPFSSTTDSLLFQWQE 271

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BLAST of mRNA_D-herbacea_F_contig11.874.1 vs. uniprot
Match: A0A8C5W928_9ANUR (Cell division cycle protein 123 homolog n=1 Tax=Leptobrachium leishanense TaxID=445787 RepID=A0A8C5W928_9ANUR)

HSP 1 Score: 235 bits (600), Expect = 2.720e-70
Identity = 119/261 (45.59%), Postives = 158/261 (60.54%), Query Frame = 2

Query:  200 RQEHVLNCQFDRWYPLFKHCTPRSIVLELPEDLVRYLQADGVVLPKGFEMSCGQGVQDDSDDEVDWGDEEGEEDADERPDFPGLQERLSDAIRSLGGAVFPKLNWSCPQDAAWIN-GGTLKCSLPGDVLCLLKSSTFVDHDLNHAFDGCAGAAIARPDTFTLVLKKWCNLHPSMLFRCFVRERRLVGICQKDCTSYYEFLAEEAGRLSGLLEAFFEAEVCKKFADPDCVADVYVDSRSRVWLLDINPFSAVTDSLLFDWSE 979
            ++E VLNCQF  WY  F+  T RS+V+ LPE++  YL  DG ++  G E S      D S++EV W D+E        P+FP    ++ +AI SLGG+VFPKLNWS P+DA WI    +LKC    D+  L KSS FV HD    F  CA  +      + LVL+KWC L P   FRCFV+E++L+GI Q+D T YYE + ++   L   +E FF+  +  KF D D V D+Y DS+ ++WL+D NPF  VTDSLLF W E
Sbjct:    2 KKEQVLNCQFSEWYSRFRKRTIRSVVIPLPENVKDYLLDDGTIVVSGREESATCTQADSSEEEVQWSDDENTATL-TAPEFPEFAIKVQEAINSLGGSVFPKLNWSSPRDAYWIALNSSLKCKTLSDIFLLFKSSDFVAHDFTQPFIHCADDSPDPSIKYELVLRKWCELIPGAEFRCFVKEKKLIGISQRDYTQYYEHVGKQETDLCKSIEHFFQEHIQYKFLDEDFVFDIYKDSKGKIWLIDFNPFGEVTDSLLFTWDE 261

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BLAST of mRNA_D-herbacea_F_contig11.874.1 vs. uniprot
Match: UPI00115596A3 (cell division cycle protein 123 homolog isoform X2 n=1 Tax=Suricata suricatta TaxID=37032 RepID=UPI00115596A3)

HSP 1 Score: 233 bits (595), Expect = 4.790e-70
Identity = 115/263 (43.73%), Postives = 159/263 (60.46%), Query Frame = 2

Query:  200 RQEHVLNCQFDRWYPLFKHCTPRSIVLELPEDLVRYLQADGVVLPKGFE--MSCGQGVQDDSDDEVDWGDEEGEEDADERPDFPGLQERLSDAIRSLGGAVFPKLNWSCPQDAAWIN-GGTLKCSLPGDVLCLLKSSTFVDHDLNHAFDGCAGAAIARPDTFTLVLKKWCNLHPSMLFRCFVRERRLVGICQKDCTSYYEFLAEEAGRLSGLLEAFFEAEVCKKFADPDCVADVYVDSRSRVWLLDINPFSAVTDSLLFDWSE 979
            ++EHVL+CQF  WYPLF+  T +S++L LP+++  YL  DG ++  G E   +C Q   DD  +E+ W D+E        P+FP    ++ +AI SLGG+VFPKLNWS P+DA WI    +LKC    D+  L KSS F+  D    F  C   +      + LVL+KWC L P   FRCFV+E +L+G+ Q+D T YY+ ++++   +   ++ FF   +  KF D D V DVY DSR +VWL+D NPF  VTDSLLF W E
Sbjct:    2 KKEHVLHCQFSAWYPLFRSLTIKSVILPLPQNVKDYLLDDGTLVVSGREDPPTCSQPDSDDEAEEIQWSDDENTATL-TAPEFPEFTTKVQEAINSLGGSVFPKLNWSAPRDAYWIAMNSSLKCKTLSDIFLLFKSSDFITRDFTQPFIHCTDDSPDPCIEYELVLRKWCELIPGAEFRCFVKENKLIGVSQRDYTQYYDHISKQKEEICRCIQDFFTKHIQYKFLDEDFVFDVYRDSRGKVWLIDFNPFGEVTDSLLFTWEE 263

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BLAST of mRNA_D-herbacea_F_contig11.874.1 vs. uniprot
Match: A0A337S4C1_FELCA (Cell division cycle protein 123 homolog n=2 Tax=Carnivora TaxID=33554 RepID=A0A337S4C1_FELCA)

HSP 1 Score: 234 bits (597), Expect = 6.760e-70
Identity = 116/263 (44.11%), Postives = 159/263 (60.46%), Query Frame = 2

Query:  200 RQEHVLNCQFDRWYPLFKHCTPRSIVLELPEDLVRYLQADGVVLPKGFE--MSCGQGVQDDSDDEVDWGDEEGEEDADERPDFPGLQERLSDAIRSLGGAVFPKLNWSCPQDAAWIN-GGTLKCSLPGDVLCLLKSSTFVDHDLNHAFDGCAGAAIARPDTFTLVLKKWCNLHPSMLFRCFVRERRLVGICQKDCTSYYEFLAEEAGRLSGLLEAFFEAEVCKKFADPDCVADVYVDSRSRVWLLDINPFSAVTDSLLFDWSE 979
            ++EHVL CQF  WYPLF+  T +S++L LP+++  YL  DG ++  G E   +C Q   DD  +E+ W D+E        P+FP    ++ +AI SLGG+VFPKLNWS P+DA WI    +LKC    D+  L KSS F+  D    F  C   +      + LVL+KWC L P   FRCFV+E +L+GI Q+D T YY+ ++++   +   ++ FF+  +  KF D D V DVY DSR +VWL+D NPF  VTDSLLF W E
Sbjct:    2 KKEHVLRCQFSAWYPLFRSLTIKSVILPLPQNVKDYLLDDGTLVVSGREDPPTCSQPDSDDEAEEIQWSDDENTATL-TAPEFPEFTTKVQEAINSLGGSVFPKLNWSAPRDAYWIAMNSSLKCKTLSDIFLLFKSSDFITRDFTQPFIHCTDDSPDPCIEYELVLRKWCELIPGAEFRCFVKENKLIGISQRDYTQYYDHISKQKEEICRCIQDFFKKHIQYKFLDEDFVFDVYRDSRGKVWLIDFNPFGEVTDSLLFTWEE 263

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BLAST of mRNA_D-herbacea_F_contig11.874.1 vs. uniprot
Match: A0A2G4T7X9_RHIZD (Cell division cycle protein 123 n=2 Tax=Rhizopus TaxID=4842 RepID=A0A2G4T7X9_RHIZD)

HSP 1 Score: 234 bits (597), Expect = 7.170e-70
Identity = 123/260 (47.31%), Postives = 166/260 (63.85%), Query Frame = 2

Query:  206 EHVLNCQFDRWYPLFKHCTPRSIVLELPEDLVRYLQADGVVLPKGFEMSCGQGVQDDSDDEVDWGDEEGEEDADERPDFPGLQERLSDAIRSLGGAVFPKLNWSCPQDAAWI-NGGTLKCSLPGDVLCLLKSSTFVDHDLNHAFDGCAGAAIARPDTFTLVLKKWCNLHPSMLFRCFVRERRLVGICQKDCTSYYEFLAEEAGRLSGLLEAFFEAEVCKKFADPDCVADVYVD-SRSRVWLLDINPFSAVTDSLLFDWSE 979
            + V NC F  WYP FK  T +S ++ LP+D + YL AD + LP+  +       + DSD E     E  EE  D  P FP +++++ +AI    GAVFPKLNWS P+DAAWI    TLKC+ P DV  LLKSS F++HDLNHA++ CA     RP TF LVL+KW +L PSM FRCFV+ + ++GICQ+D  +YYEFL +    +  L+  FFE  VC+ F   + V DVYV+ +R +V+L+D NPF   TDS+++DW E
Sbjct:    8 QEVDNCSFSSWYPRFKTVTFKSKIIHLPDDFIDYLNADSIFLPEDGQPRAAFIEEVDSDQE-----EYPEEQNDNTPHFPEIEKQIKEAIEEYEGAVFPKLNWSSPRDAAWIATTQTLKCTSPFDVFLLLKSSDFINHDLNHAYEICADQKQDRP-TFDLVLRKWFDLQPSMEFRCFVKNQEIIGICQRD-VNYYEFLPKMKPTIELLIYRFFEEHVCEHFDSLNYVFDVYVEYNREKVYLVDFNPFCPTTDSIMYDWEE 260

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BLAST of mRNA_D-herbacea_F_contig11.874.1 vs. uniprot
Match: UPI0014036B98 (cell division cycle protein 123 homolog n=1 Tax=Amblyraja radiata TaxID=386614 RepID=UPI0014036B98)

HSP 1 Score: 234 bits (596), Expect = 1.100e-69
Identity = 123/265 (46.42%), Postives = 162/265 (61.13%), Query Frame = 2

Query:  200 RQEHVLNCQFDRWYPLFKHCTPRSIVLELPEDLVRYLQADGVVLPKGFEM--SCGQGVQDDSDDEVD--WGDEEGEEDADERPDFPGLQERLSDAIRSLGGAVFPKLNWSCPQDAAWIN-GGTLKCSLPGDVLCLLKSSTFVDHDLNHAFDGCAGAAIARPDTFTLVLKKWCNLHPSMLFRCFVRERRLVGICQKDCTSYYEFLAEEAGRLSGLLEAFFEAEVCKKFADPDCVADVYVDSRSRVWLLDINPFSAVTDSLLFDWSE 979
            ++E VL CQ   W+PLF+ CT RSIVL LP+D+  YL  DG ++  G     SC Q   +DSD+E D  W D+E        P+FP    ++ +AI SLGG VFPKLNWS P+DAAWI   G+LKC+   D+  LLKSS F+ HDL   F  C   +        LVL+KWC L P   FRCFV+E +L+G+ Q+D T YY+ +  +   + G +  FF+ +V  KF D D V D+Y DS+ RVW++D NPF  VT+SLLF W E
Sbjct:    2 KKEQVLRCQLSVWFPLFRQCTIRSIVLPLPQDVTDYLLDDGTLVVSGRNEAPSCSQ-TNEDSDEEQDVQWSDDENVTTL-TAPEFPDFAAQVQEAINSLGGIVFPKLNWSAPRDAAWIAMNGSLKCNNLSDIFLLLKSSDFITHDLTQPFLHCTDDSPDPKIDTQLVLRKWCELIPGGEFRCFVKENKLIGVTQRDHTQYYDHVCRQEATILGSIVDFFKDKVQYKFPDEDFVFDIYRDSQGRVWIIDFNPFGKVTNSLLFTWEE 264

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BLAST of mRNA_D-herbacea_F_contig11.874.1 vs. uniprot
Match: A0A1S8VYJ1_9FUNG (Cell division cycle protein 123 n=1 Tax=Batrachochytrium salamandrivorans TaxID=1357716 RepID=A0A1S8VYJ1_9FUNG)

HSP 1 Score: 235 bits (600), Expect = 2.080e-69
Identity = 127/283 (44.88%), Postives = 169/283 (59.72%), Query Frame = 2

Query:  179 EVQGPCCRQEHVLNCQFDRWYPLFKHCTPRSIVLE-LPEDLVRYLQADGVVLPKGFEMSCGQGVQDDSD---DEVDWGDEEGEEDADERPDFPGLQERLSDAIRSLGGAVFPKLNWSCPQDAAWIN-GGTLKCSLPGDVLCLLKSSTFVDHDLNHAFDGCA----------GAAIARPDTFTLVLKKWCNLHPSMLFRCFVRERRLVGICQKDCTSYYEFLAEEAGRLSGLLEAFFEAEVCKKFADPDCVADVYVDSRSR-VWLLDINPFSAVTDSLLFDWSE 979
            +++ P    EH+ +C F  W+PLF  CT +S +L  LPED V YL ADGV LP             DSD   +  +   E  ++ +   P FP L  +++ AI  LGGAVFPKLNWS P+DA+WI  G TLKC+ P D+  LLKSS F+ HDL+HA++ C                RP  F LVL++W +L PSM FRCFV+   LVG+CQ+D  +YYEFL      L   +  FF+ ++  KF DP+ V DVY+++R+R VWL+DINPF   TD+LLF W E
Sbjct:   28 DLEFPLFTVEHMDHCVFSFWFPLFSRCTLKSRILRPLPEDFVNYLNADGVFLPDNANTQPQTEYDVDSDTSSESXETPSEASQDSSSPLPSFPLLDAQITAAIADLGGAVFPKLNWSSPKDASWIAFGNTLKCTTPADIYLLLKSSDFIAHDLSHAYEDCVVDPTHPTTADETRPQRPQAFELVLREWFDLAPSMQFRCFVKSHHLVGMCQRDSANYYEFLDHNKDALEISICDFFDQQIDGKFPDPNYVFDVYMNARTRKVWLIDINPFGPPTDTLLFTWQE 310

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BLAST of mRNA_D-herbacea_F_contig11.874.1 vs. uniprot
Match: A0A401T6E2_CHIPU (Cell division cycle protein 123 homolog n=8 Tax=Galeoidea TaxID=119195 RepID=A0A401T6E2_CHIPU)

HSP 1 Score: 232 bits (592), Expect = 3.140e-69
Identity = 123/265 (46.42%), Postives = 163/265 (61.51%), Query Frame = 2

Query:  200 RQEHVLNCQFDRWYPLFKHCTPRSIVLELPEDLVRYLQADGVVLPKGFEM--SCGQGVQDDSDDEVD--WGDEEGEEDADERPDFPGLQERLSDAIRSLGGAVFPKLNWSCPQDAAWIN-GGTLKCSLPGDVLCLLKSSTFVDHDLNHAFDGCAGAAIARPDTFTLVLKKWCNLHPSMLFRCFVRERRLVGICQKDCTSYYEFLAEEAGRLSGLLEAFFEAEVCKKFADPDCVADVYVDSRSRVWLLDINPFSAVTDSLLFDWSE 979
            ++E V++CQ   WYPLFK  T RS++L LP++++ YL  DG ++  G     SC + V DDSD+E D  W D+E        P+FP    ++ +AI SLGG+VFPKLNWS P+DA WI    +LKC+   D+  LLKSS FV HDL   F  C   +        LVL+KWC L P   FRCFV+E +L+GI Q+D T YY+ +  +A  + G +  FF  ++  KF D D V DVY DS+ +VWL+D NPF  VTDSLLF W E
Sbjct:    2 KKEQVVSCQLSAWYPLFKKLTIRSVILPLPQNVIDYLLDDGTLVISGRNEAPSCSR-VGDDSDEEQDVQWSDDENVTTL-TAPEFPDFAAKVQEAINSLGGSVFPKLNWSSPRDAQWIAMNSSLKCNNLSDIFLLLKSSDFVTHDLTQPFLHCTDDSPDPKVDPQLVLRKWCELIPGGEFRCFVKENKLIGIAQRDHTQYYDHVCNQAANILGSILDFFRIQIQYKFLDEDFVFDVYRDSQGKVWLIDFNPFGEVTDSLLFSWEE 264

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BLAST of mRNA_D-herbacea_F_contig11.874.1 vs. uniprot
Match: CD123_XENTR (Cell division cycle protein 123 homolog n=6 Tax=Xenopus TaxID=8353 RepID=CD123_XENTR)

HSP 1 Score: 232 bits (592), Expect = 3.980e-69
Identity = 118/264 (44.70%), Postives = 161/264 (60.98%), Query Frame = 2

Query:  200 RQEHVLNCQFDRWYPLFKHCTPRSIVLELPEDLVRYLQADGVVLPKGFEMSCGQGVQD---DSDDEVDWGDEEGEEDADERPDFPGLQERLSDAIRSLGGAVFPKLNWSCPQDAAWIN-GGTLKCSLPGDVLCLLKSSTFVDHDLNHAFDGCAGAAIARPDTFTLVLKKWCNLHPSMLFRCFVRERRLVGICQKDCTSYYEFLAEEAGRLSGLLEAFFEAEVCKKFADPDCVADVYVDSRSRVWLLDINPFSAVTDSLLFDWSE 979
            ++E VLNCQF +WYP FK  + RS+V+ LPE++  YL  DG ++  G E S G   +D    ++DEV W D+E      + P+FP    ++ +AI SLGG+VFPKLNWS P+DA WI    +LKC    D+  L KSS FV HD    F  CA  +      + LVL+KWC L P   FRCFV+E  L+GI Q+D T YY+ ++++   +   ++ FF+  +   F D D V DVY DS+ ++WL+D NPF  VTDSLLF W E
Sbjct:    2 KKEQVLNCQFSQWYPRFKKLSIRSVVIPLPENVKDYLLDDGTLVVSGREESPGCSQRDLNSTAEDEVQWSDDENTATL-KAPEFPEFSIKVQEAINSLGGSVFPKLNWSSPRDAYWIALNSSLKCQTLSDIFLLFKSSDFVTHDFTQPFIYCADDSPDPNIKYELVLRKWCELIPGAEFRCFVKENNLIGISQRDYTQYYDHISKQKEEIRKSIQYFFQEHIQYNFPDEDFVFDVYKDSQGKIWLIDFNPFGEVTDSLLFTWDE 264

The following BLAST results are available for this feature:

BLAST of mRNA_D-herbacea_F_contig11.874.1 vs. uniprot

BLAST of mRNA_D-herbacea_F_contig11.874.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 of Desmarestia herbacea DmunF female vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D8LE97_ECTSI	2.330e-204	66.44	Cell division cycle 123 homolog (S. cerevisiae) n=...	[more]
A0A507EI64_9FUNG	1.020e-76	50.36	Cell division cycle protein 123 n=2 Tax=Spizellomy...	[more]
A0A8C5W928_9ANUR	2.720e-70	45.59	Cell division cycle protein 123 homolog n=1 Tax=Le...	[more]
UPI00115596A3	4.790e-70	43.73	cell division cycle protein 123 homolog isoform X2...	[more]
A0A337S4C1_FELCA	6.760e-70	44.11	Cell division cycle protein 123 homolog n=2 Tax=Ca...	[more]
A0A2G4T7X9_RHIZD	7.170e-70	47.31	Cell division cycle protein 123 n=2 Tax=Rhizopus T...	[more]
UPI0014036B98	1.100e-69	46.42	cell division cycle protein 123 homolog n=1 Tax=Am...	[more]
A0A1S8VYJ1_9FUNG	2.080e-69	44.88	Cell division cycle protein 123 n=1 Tax=Batrachoch...	[more]
A0A401T6E2_CHIPU	3.140e-69	46.42	Cell division cycle protein 123 homolog n=8 Tax=Ga...	[more]
CD123_XENTR	3.980e-69	44.70	Cell division cycle protein 123 homolog n=6 Tax=Xe...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
D-herbacea_F_contig11	contig	D-herbacea_F_contig11:1329668..1350606 -

Analyses

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


Analysis Name	Date Performed
Diamond blastx: OGS1.0 of Desmarestia herbacea DmunF female vs UniRef90	2022-09-19
OGS1.0 of Desmarestia herbacea DmunF female	2021-02-24

Properties


Property Name	Value
Taxonomic scope	Eukaryota
Seed ortholog score	588.2
Seed ortholog evalue	3.2e-165
Seed eggNOG ortholog	2880.D8LE97
Preferred name	CDC123
KEGG rclass	RC00004,RC00037,RC02816
KEGG ko	ko:K08765
KEGG Reaction	R01923
KEGG Pathway	ko00071,ko01212,ko03320,ko04152,ko04714,ko04920,ko04922,ko04931,map00071,map01212,map03320,map04152,map04714,map04920,map04922,map04931
Hectar predicted targeting category	other localisation
GOs	GO:0000166,GO:0000287,GO:0001732,GO:0002181,GO:0002183,GO:0003674,GO:0005488,GO:0005524,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0006412,GO:0006413,GO:0006417,GO:0006446,GO:0006518,GO:0006807,GO:0007049,GO:0007050,GO:0008144,GO:0008150,GO:0008152,GO:0008284,GO:0009058,GO:0009059,GO:0009889,GO:0009891,GO:0009893,GO:0009987,GO:0010467,GO:0010468,GO:0010556,GO:0010557,GO:0010604,GO:0010608,GO:0010628,GO:0016043,GO:0017076,GO:0019222,GO:0019538,GO:0022402,GO:0022607,GO:0022613,GO:0022618,GO:0030554,GO:0031323,GO:0031325,GO:0031326,GO:0031328,GO:0032268,GO:0032270,GO:0032553,GO:0032555,GO:0032559,GO:0034248,GO:0034250,GO:0034622,GO:0034641,GO:0034645,GO:0035639,GO:0036094,GO:0042127,GO:0043043,GO:0043167,GO:0043168,GO:0043169,GO:0043170,GO:0043603,GO:0043604,GO:0043933,GO:0044085,GO:0044237,GO:0044238,GO:0044249,GO:0044260,GO:0044267,GO:0044271,GO:0044424,GO:0044464,GO:0045727,GO:0045786,GO:0045948,GO:0046872,GO:0048518,GO:0048519,GO:0048522,GO:0048523,GO:0050789,GO:0050794,GO:0051171,GO:0051173,GO:0051246,GO:0051247,GO:0051726,GO:0060255,GO:0065003,GO:0065007,GO:0071704,GO:0071826,GO:0071840,GO:0080090,GO:0097159,GO:0097367,GO:1901265,GO:1901363,GO:1901564,GO:1901566,GO:1901576,GO:1905143,GO:2000112
EggNOG free text desc.	eukaryotic translation initiation factor 2 complex assembly
EggNOG OGs	KOG2983@1,KOG2983@2759
EC	2.3.1.21
COG Functional cat.	S
Best tax level	Eukaryota
Best eggNOG OG	NA\|NA\|NA
BRITE	ko00000,ko00001,ko01000,ko03029
Exons	6
Model size	1384
Cds size	1305
Stop	1
Start	1

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1622927510.3479998-CDS-D-herbacea_F_contig11:1329667..1330173	1622927510.3479998-CDS-D-herbacea_F_contig11:1329667..1330173	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig11 1329668..1330173 -
1690790208.39211-CDS-D-herbacea_F_contig11:1329667..1330173	1690790208.39211-CDS-D-herbacea_F_contig11:1329667..1330173	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig11 1329668..1330173 -
1622927510.3612432-CDS-D-herbacea_F_contig11:1331875..1331998	1622927510.3612432-CDS-D-herbacea_F_contig11:1331875..1331998	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig11 1331876..1331998 -
1690790208.405843-CDS-D-herbacea_F_contig11:1331875..1331998	1690790208.405843-CDS-D-herbacea_F_contig11:1331875..1331998	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig11 1331876..1331998 -
1622927510.3751538-CDS-D-herbacea_F_contig11:1344990..1345115	1622927510.3751538-CDS-D-herbacea_F_contig11:1344990..1345115	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig11 1344991..1345115 -
1690790208.4140863-CDS-D-herbacea_F_contig11:1344990..1345115	1690790208.4140863-CDS-D-herbacea_F_contig11:1344990..1345115	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig11 1344991..1345115 -
1622927510.3873405-CDS-D-herbacea_F_contig11:1345949..1346053	1622927510.3873405-CDS-D-herbacea_F_contig11:1345949..1346053	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig11 1345950..1346053 -
1690790208.422775-CDS-D-herbacea_F_contig11:1345949..1346053	1690790208.422775-CDS-D-herbacea_F_contig11:1345949..1346053	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig11 1345950..1346053 -
1622927510.3994036-CDS-D-herbacea_F_contig11:1349420..1349513	1622927510.3994036-CDS-D-herbacea_F_contig11:1349420..1349513	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig11 1349421..1349513 -
1690790208.4316096-CDS-D-herbacea_F_contig11:1349420..1349513	1690790208.4316096-CDS-D-herbacea_F_contig11:1349420..1349513	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig11 1349421..1349513 -
1622927510.4122417-CDS-D-herbacea_F_contig11:1350173..1350527	1622927510.4122417-CDS-D-herbacea_F_contig11:1350173..1350527	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig11 1350174..1350527 -
1690790208.4415622-CDS-D-herbacea_F_contig11:1350173..1350527	1690790208.4415622-CDS-D-herbacea_F_contig11:1350173..1350527	Desmarestia herbacea DmunF female	CDS	D-herbacea_F_contig11 1350174..1350527 -

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


Feature Name	Unique Name	Species	Type	Position
1622927510.4226305-UTR-D-herbacea_F_contig11:1350527..1350606	1622927510.4226305-UTR-D-herbacea_F_contig11:1350527..1350606	Desmarestia herbacea DmunF female	UTR	D-herbacea_F_contig11 1350528..1350606 -
1690790208.4574134-UTR-D-herbacea_F_contig11:1350527..1350606	1690790208.4574134-UTR-D-herbacea_F_contig11:1350527..1350606	Desmarestia herbacea DmunF female	UTR	D-herbacea_F_contig11 1350528..1350606 -

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


Feature Name	Unique Name	Species	Type	Position
mRNA_D-herbacea_F_contig11.874.1	prot_D-herbacea_F_contig11.874.1	Desmarestia herbacea DmunF female	polypeptide	D-herbacea_F_contig11 1329668..1350527 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at D-herbacea_F_contig11:1329668..1350606-
coding sequence from alignment at D-herbacea_F_contig11:1329668..1350606-

protein sequence of mRNA_D-herbacea_F_contig11.874.1

>prot_D-herbacea_F_contig11.874.1 ID=prot_D-herbacea_F_contig11.874.1|Name=mRNA_D-herbacea_F_contig11.874.1|organism=Desmarestia herbacea DmunF female|type=polypeptide|length=435bp
MVANAGAVDSQDGQYTVGTPPPASEITQQATPPEVQGPCCRQEHVLNCQF
DRWYPLFKHCTPRSIVLELPEDLVRYLQADGVVLPKGFEMSCGQGVQDDS
DDEVDWGDEEGEEDADERPDFPGLQERLSDAIRSLGGAVFPKLNWSCPQD
AAWINGGTLKCSLPGDVLCLLKSSTFVDHDLNHAFDGCAGAAIARPDTFT
LVLKKWCNLHPSMLFRCFVRERRLVGICQKDCTSYYEFLAEEAGRLSGLL
EAFFEAEVCKKFADPDCVADVYVDSRSRVWLLDINPFSAVTDSLLFDWSE
DALAAPLPAPTIPPEEETLPEGVFMRLHFEPPPSSGPLRSENTASTGFSD
AEVAPGDGAEGGEGGGGLAVTRVTVAGGMGTEVDFRCVPSSSHMVPDPMG
RYRGPADVAMGTLVGGTGGLDDLIESCRLTDDDP*

mRNA from alignment at D-herbacea_F_contig11:1329668..1350606-

Legend: UTRpolypeptideCDS

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

>mRNA_D-herbacea_F_contig11.874.1 ID=mRNA_D-herbacea_F_contig11.874.1|Name=mRNA_D-herbacea_F_contig11.874.1|organism=Desmarestia herbacea DmunF female|type=mRNA|length=20939bp|location=Sequence derived from alignment at D-herbacea_F_contig11:1329668..1350606- (Desmarestia herbacea DmunF female)
CAAACCTATGTAGTAGCTTGCATAGTTCGTGGATCAGTAGGTGACACGAG
GAAGGGGTTGTCAACGCAACCGTGCAATCATGGTGGCAAATGCCGGAGCA
GTGGATTCACAAGATGGTCAATACACAGTAGGTACACCGCCTCCAGCATC
AGAAATAACACAGCAGGCAACTCCACCTGAGGTGCAGGGGCCATGCTGCC
GCCAGGAACACGTGCTCAACTGTCAGTTCGACCGTTGGTACCCGCTGTTT
AAGCACTGCACGCCAAGGAGCATCGTTCTAGAGCTGCCAGAAGACCTGGT
GCGGTACCTGCAAGCAGATGGCGTTGTGCTGCCGAAAGGGTTTGAGATGT
CTTGCGGACAGGGCGTGCAGGATGACAGCGACGATGAAGTAGACTGGGGC
GATGAAGAGGGCGAGGAGGATGCAGATGAAAGGGTGAGAGGACGATGTCG
GATATCATACGCCTTCTGGTCGTACACGGATGACGCGGATCACGATGCGG
AAGTCGTTTTATTGTTAGAAGCAGCTGTGCGAACAACACGGTAGTGTGGC
GCAGACCTTTATCGTTGATATATGATGCCTGTAATGTCGCTATATACGTG
CACGCGCAAAATCAGAGTGCACGACTAGGGTATCTTGGCTGGTATGGTGG
AATGATACTCGTACTCATACAAAGAAGTATGTGCAGAGAAAGGAGGAAGG
GTCTTCCTTTGCACCCCACGGTATTGAGCTACCTGTACCCCTCAGCAGTC
TCGATTGTACGAGTAGTGCTCACGTCGATATGTTTGTGTGTTCCATGTCT
AATGAATCCCGAGGCGTCATCCTGCACGGCTCTTTCTTACCAGTGCAGTA
TGGATATTGTCGGCCGAAAACCACGGCCACCGCTGTCAATCGTAGTTAAG
CTACGTTTAAAGTCTAAAGCGATGAGAGTACAGTACGTTAGTCTAGGTCT
AGCAATTGCAATAGCACACACAAATCTTGTGCTACTACTATAAATACTAG
GTCGGTCAAGCGGTTCTCTTCACCAATTCCCCGTCCCTTTCTCATCCCTT
CACGCCGACTTTTACACTCGTGCGCGATCAATCGACGGAGCAGCCGGACT
TCCCAGGCCTGCAAGAGCGGTTGAGCGACGCGATACGTTCGCTAGGAGGC
GCCGTGTTCCCGAAGCTCAACTGGAGTTGTCCTCAGGTGCGGCCTTTTGT
GTTTGTTTTTTCCAACGAGCCTGGTTTACCAGTTTTAAACGAAAAACTCA
GTGGGTTGACACCCTTCTTTTTGTTGATTTCAATTCGTTGTTTTTACTTA
CAAATAGATAGAATCAGCCGTGACGTTCCAAACTGGTTCGGGGGCAAGGG
TATAGTCGTCAAACTCACTACTGTGTGAAACTTCGGTCGCGCGGAGTCTA
TCGGTCCTCAGATAAGGTATAGCGCAGTGACCCCCCTGGGTCGTCCCAGG
CTCTATCATACAGGATAACACTTTGAGGATAATTTGGGCCCCACCATCTT
GTGCCTAGACTTCCGTATCGTATAGCCTTTCTGTGTTGTATTTTCATCGC
ATTTAATCGATTTCCGATTTCACAAGTATCAACATATATAATATATACAA
TTTACACCATGTTCAGAGCACAGGAAGCGGACCACGCATTTCAGCATTGT
TCAGTCCAGCGTTCTGTAATGCAACGTTTCAGTTTTCACATTAATTTCAA
TACAAGCACAAACATACAGCACGGACAGATTCATCACCGGCCAGTTGATC
ATTGCTATACATTATCTCTGACGTCTGGATGCACCGCAGACAAGCGTTCA
ACCAATATACAAGTTCAGCAAGTAGGCCAGGTGTTTGATTATCACCCCTG
TTGGCTCTGTTGGCTATGTTATCACCAGTGTTTATGGAAGGTAGGGGTTA
GAATCCCGGTGAAAACAAAATGGCACTTTTCTGTGCCATATCTTACGCGG
CGAGCGCGAGAGCGCGATAGCATGCACAATTCGGTGAAAGTCGAAGAGGG
AAGAAAGTGCTGCACCCTTCTCGCGATGAAGCAGGAGCGACAATGTAACC
ACTTATATTTTGTTATAGACCACAGTTAAAATCTATCAAATAGAAAGCTT
TTCATAATTACTTGGCCTCTCAACCGTGCTCTTTGCCTTTCTACGCCTTT
CTTTTTGTATTTATTTTTTTCAAATACGTCAGCAATGACGTTGTCGTCAA
ACGATGTGGACATGCACGTGGACATCTTCCTCTACAACCTGGCCATCATC
TGCGGCGTGAATGTCCTCCAAAAATCATCCACAGACAGACACAGAGACAC
ATATACAATATAGATGACACATGGAACAGCACACTCCATTTTAATGACGC
TTTCAACATGACACACGAGAACGACATCATGTCCATGGATCTTGGAATCG
CTCCGTTGAGCGGGGCGGCGTAAGCCGCAGAAACCTTGTAATAGTACGAG
TTCTAAAACCATAGCAATAAAAGCAACAACGACAAAAATCAAGCAATAAC
AGCAATGACAACAAAATAATAAAGTAATACCCACACCAGCAATAATGTCC
TGTAAGGTACAACAGTAGTAGTACACCAACAACGAAGGTCACTACTATCA
CCACTACTGTACGATACGTCGGTAACAACAATGGATGAACGTCACTGATT
ACGGTTTTTGCGAGAAACTACTTTTACATTTTTACCCGATTTTCGCTTAT
GATACTACTTCGTATTAATACAGCGATGGGCTAGCTTGTGGGCCACATAT
CATATGAGTATTTCATTGGTACTTCCTGGCGTGTTGAAGCGGCGCAGCGG
GTAGGTAGTGGTCCCGACCAGCTGCATTGTGTCTACCATGCAGGTTAACT
CGGCATGCAGTTTGTACCCACATCTCTTACGGGTTATCAGTTCTTCAGAC
ATGCATTCGCGGATTTCAATTTGTGACGAGCTGATCGAACCCGACTCTAT
TAATACAGTAATACTACATATATGCAACCCTATAATATCAACAACTCTAG
CCTTAAGGGGGCACTCCCGATGGTTTTCTTGTTTTTCTTGGCCTAGAATA
AAGCACCTTTGACCTTCATATATATCGTGTCCTTCGGAAGTGAAAATTAA
TTAATTCAAACAATTGTATTATTAATTATAAAAATCCCTTCAGGGTTTAG
TTCTCAAAATACTAAAGATTCTTGACCGCGCTTTTTTTACCGCACTTTTT
TTTACCGTTTTGGATCAGTCTTTATCCAAGATAACAACAATCCACCATTG
GACCCCACGACAAAAGGCATATCTCTCGCAATATGGCACGTTGTGTTTAT
GGCCACCGGGCTACACAAATCTGGTATTGAGAATATTTTTGCCTCGAAGG
TGTAAGCTCTACGGTACCTTCTTCAGAATGAACAATTCCTACTGGACACA
TATACTGCGAAACACATACCAGGTATGACGATTTTCGAATACAGCGTTTT
CTCGTGCTGGGCGGCAAGAGATCCCGCGAGAGGTTTCTATAGATAGATGT
AGTGTTCTGTGTTGTCCCCAACGTTCAAGACCAAAGAGGTGGCCCAGCAT
GAAACGCTGTATTTGATAACCGTTCCTTTCTTTTTGAATCATGCTTGTAT
TGTGGGCGTTTTTCGTGCCATCACCGCAGAGTTCAGGCTCTTGAGACACA
AATGCTTTCCTCAATCAAGACCCTCTGTAGCAACACTAATATGAGTCTAT
TAAGATGTAGTTCACGAGATACAGTATTTCCCGTGGGGTCAAATGTTGAA
TTGCTATTATCTTGGATATTGACTGATTCAGGTGCTCTTTTTCGGTCAAG
ACGGGGAAAAAGAAGTGTGACCATGGTTGAAGGGGCCCCCTTAATCGAAC
CACCCACCCTAAGCCTACGGCATCGTTGACGGGCCCAAAACCCGCGCCTT
CGGCGCTGAAATCGAGGAAACGTGTTTTTCTCGCTCTTGCATCGCTCTTG
TATGTCTTGTATCGCTCTTGTATGAAGACGGTCAGGTTGGAAACCTCCTG
GAAATTTGTTTATACGAAGTACGTACGTATAGAGTTCGTGTGGTAAACCG
CAGTGTTCGTCTATTGTATCTGTTAAACACTGCTTTGTGTAGGTTTTAGT
GTAGTACTCCCCGCTCAGCACAGTTTCTTGTCATAGGGCTAATTTATTAG
CATCGTCCGAAAAAACAAAAAAAAACTGGCTCGGCTTTCTTATTGAGCTG
TGTCTTGTTCGCGTGATAGGCCCAACAATCAAACTCGACCAGCTATGGGA
ATGCCGAACCCTGTGCGTGACACTCGTACAACAACCATGGCATGTACCGG
GGGGGGGGGGCAGAAGGGAAGACACCGGTGACCTCGGCGTGCTCAGACAG
GCGCGCTGTGAGCGATGAGTAGAAGGGTTCCTCCGTGAGTTAAAGTGATG
TGATGGACTGGAAAGTTGAAGTGATTGATACAACAACAACAAAAAATGTT
TTGATGTCCAATCCTGATTGAATTGTCAACCGGGCCTGTGACACACACCA
CTCATCAATCATCAATCATCAATCAATTTGCGCGTTTTTTGGCCTCACGA
CAGGACGCGGCGTGGATCAACGGAGGCACTCTCAAGTGCTCGTTACCAGG
GGACGTTTTGTGCCTCCTCAAGAGCTCCACCTTTGTCGACCACGACCTAA
ACCACGCGTGAGTGCTCTGCTGTCTGAGAGCCCTAGTCTGCTGCTGTTGT
TTATTTTAATTTATATGTACGTGGAATCATCGGTGACGTCCCAAACTGGT
TCGGGAGCCACGGAATAACCGCCAGCTTCACTACTGTGTGCTTAGGCAGG
ACCCCGAGGATGTTCGTTTATTTATTAATACTAATAATAGTATACCAACG
TGGGCTGTTCAGTAGGTCGGAATTTGTCTAGAACTAACCCTAACCCTAAC
GACCACGCTATAGTAATAACAAGTGAAATCGTCCCTAAAGATACCGCCTA
CCAAGTTGTAAAACCTGCTGGTAATTATTGTTGCCTTGTTATCATCTTGT
ATTGTGTGGTACGTTTATTGGCATGGCGGCACGGTGCTCCGTGCTCGGAT
TCGCGCAGAGTCATGCAAATTAATCGCGTTTGTATCATTAGTTTAGAGCT
GTACCTCGTACCTGATAGGGCTCTGTTGCTCGTTGTGAGCTTGCATCTTA
CACGGTCGTGGGTTTGGAGGCCGATTCATGCTACAGTTTGCTTCATGCAA
GACAGCTTGTTTTTCATTTCCGTTTGGTAGCATCGACCAACACAGGCCGA
AACGAAGGCTGCGAAAGGAGCTGGTTGGCGACGCCCGAAGATGGGTATTT
CAGCTTTGCAATGCCGTCTCTGGGCATGCCTGTGGCCGCATCGTTAGAAA
ACGGGCACTCTTGTGTGTCCCGACCCACGTGACAATGTAGTTCGGGGTAA
CAACCTGTGACGCCGTCCATCCCCCGATCTTGTCGCTCCTCGACTACTAC
TGCCTCTCTCTTGCGCGCTTGATGACGTGATGATCCTTTAGCTTCGACGG
CTGCGCCGGTGCTGCCATCGCTCGGCCCGACACGTTCACCCTCGTGTTGA
AGAAGTGGTGCAATCTACACCCTTCCATGTTGTTCCGCTGCTTCGTCAGA
GAGCGGCGGCTAGTGGGTGAGAGATACGAACCGTTGTGTGTTCAAACAAT
TTTTTTCTCGTCTTGGACCTTTAGCAGGCCTTACAAGATCCTTACGCCAA
ATTCGGCAGTATATTTAGGAGATGCAAGACCCCCCTCCGGACATGGCTCA
TGAGAGAACAGTCACACGGGGTGATTCAAGAGAAAAAAAAGAAAAACTCG
CAAAATCACACATCATTGCGTGTAGTGCGCGGTTCGTGGGCGACAGAACG
GAGGAGTAGTAGTAGTAGTAGTGAAAATAATTTTGGGTGGAATAAGACAT
GCATGCAATGTGTTGTCGATGGGCGGATCAGGCGGTTGAGGGAAAACCGT
GTGCCGGCCACAACAATTTCTTCTATCGTTAGTACAACAACAACAATAAT
AATACTAATAATAGTTAGTTGTTTAGCGGCCGCAAATTCGATGTATCATA
GCCTGCGTAAGCTGTTAAGGGTCGTTTCTAACGGGCAACAAAAAGTCCAC
AATCAATCGCGACAAAAAAATATGACAAAAAAAAAAGTCACGATAAAAAA
AAAAGGCCACAATCAATCGTGATTTTGAATCGAATTGAAAAAACGTAAAA
AATAAAAAAATCACGATTCGTGACTTTCAATGGATGGAGTGACACCCCCG
GCAAGATATGAAATCTATCATCATAGTTTTATTTTTCAGAGGTTGTGTGG
CGAGATTCGAAACAGCGACCTCACTGTTTCACGGCGTACATTTAACCATT
CGTCTACCTTTAAGTGTAACATTAAGATGGCATTTATGTTCCACTTAAGT
AAGTGTTTACTGCGACACTCCCCGTTTCCCGGTGACAACATTCAACTCTC
TAGAGCGCCAAAAATTAAATAAACACACTGCAATCAAGTTGTTCTTTATT
TTTTGACGACGGGGAGACGAATGATAATAATAGGACTTTTGGCAAAAAAA
ATGGTTTCCAAAAGTCACGAAACCGGACTTTTTGTCACGATTGATTGTGG
ACTTTTTTTCGCTCGTTAGAAACGACCCTACCTAACTGTTTGTTGTTGTC
GTTGGTTGAGCCATTATCCGCAAATAAATACTCTTCTTGCGTGTAGTAAT
AAATATAGCGTGGCTGGTGGGGTGGGTCCCTTAATATACATACAAACTGA
ACATGTTCGTTCATTGCCGAAACCATTTTATATGCGTGCTCACTGAATGA
AGTAAGGCCATTTCTTATTATTATTATACAGTCCACACTTCGTCGTGGCA
GTAGACTTGACAATGTTGTAGGACGGAACTTTACAGGAACTTTACATAGT
TTTTTCCTTGCTATTAGTATCGGTGTGTTCATTGTTAGGGTTCGGGTTAG
GGTTAGTGGTAGAATTTTCCGAAAGTGTTGTGCAGCCCACGTTGGTACTA
AATCATATAATAAAACGAAAAAAGAAAGTTCTGTCCTACAATGTTGTAAA
GGCGGCTCCTTCGTGGATTGAAAAAGGCGATTTTCGATCCGAGACACAAC
AAATTGGCATTGTTATTACGGAGTACGAAGTATTATTATTATAATATCTT
ATTTAAAAAAACATCATCGCACCCGTGACGTTCCAAACTGGTTTTGGGGG
CCAGGGGATAATCAATCGTCAATCTCACTTTGTGATACTGCGGTCGCGCG
GATTCTATCGGTTCTCAGACATAAACCACAGCGTAGTAACTCCCCTGGGT
TGGCCCATTATTATATGATACAACAACAAACAAACAGTAGTCGTAGTAGT
AGTAGTAGGAATGAGGCTTTTCGATCTCAATTTTTCGATTCTCCTTGCCG
ATCGGACCACAGGAGGAGGAGGAGGAAGAAGGATCGAAAAAGATGTTTTA
TATATTTATTTCCGTCACATTAGCCCGATCGCGCGGACCCGTGGTCACAA
AGGTAGGCACCTCTTTTTATACCGTACTAACCGAGCCCTCCGGCCCCTCT
CCACAAACAACTCAATCTACCCCCATTTTCATAATATCATCATCCTCGAC
TTGGGAAATAACAGTGGCTACGATAGAACAGGCAGACACAAAAACGACAT
AGATAGAATGAAACGAAAACATAAACGAGGCACAAATAAAACTAAGACAC
TGGACAGGTACTACGGATTTCAAAATACCCCCTCCACCGATTCCATCTTG
TCCGCGTCTGGGGGGAAAGCAAGGGCTAAGAAAACAGAGAGCAATAATAA
TAAGAAGAAAACAACAACAACAACAACAACAACAACAACAACAGCAGGTA
AACACGAACAAAGAAAGATAATTAACAGGTACTACGCGTTTCACAAGGGG
GCGGGTGCTCAGTGCGTCTTAGGGGGCCGACGGCAACACAGCGAACGGTT
CACGCGCGTGTCGTTCGCGTGTCTCGCGGCTCTTCGCTGCTAACCAGTCA
GCCATATACCTAGTGGCTCCCTCCTCTACGGTAGAACGCCACCCCCCGCT
ACGAGCTGCCTCCATCCAGGATTTATCCTCTATCCCAAAATCGCGAAGGT
ATTCCTTGACGCAGTCCTGTAGTTGCCGCGGGGGTCTGCCAGCCCTTCGC
GCTCCCCCGACCAGTTCCCCGCGCATGACGATGTTCGGAAGTCGGTAATC
GCCCATGCACGCGACGCGGCCCGCGTATAGCAGGGTGCGCTTCCTCACGG
TGGCTTCGATGCTCTCACAGCCGGTATTCACAAGGGCGTCGCGGTACGAC
ATTGAATATTTGGTGGAAATCGGCGGTCGGTTGTGCCTATCTATGATATT
ATTTTCTATTTTCGATGTGAAAAAAAAGCAGATCGGGTTCATTCTTCGTG
GATTGAAAAAGGGAAAAGTTGTTGATACTAAACTGCTATTGTTATTGTTT
GTTGTTGTGCTTGTACTACTACTGTCTGTACTACAGTTAGTTGCAGTACT
GTCTGTATAGATAAGACTTGTTCTTGTTTGTTGTTGCACTTGTACTACTA
CGAACTACTACTGTCTGTACTACAACTGACTGTAGTACTACTGACTGTAT
AGACACATAATCTCTCATCGCAGCTCAAATCACACACCTACACATACACC
GACACCAAGCTCCACACAAAAACAATGCCGATGCTGGCTTGGCCGTATCA
CTGCTGGTGGTGCTGCTGCTCGCCGCATACCATCATCCTCTGATGGCAGC
AGCGCGCCGTACCGATGATCTATGATAGCTCTTGCCAACAGCTGCATGAT
CTATCTGGCTGCTGCTGCGTATATTCGGGGTCCCAAAAGCATCATGCAAG
CCTGGCGATGGTTCTCAGTAGACACGCACCATCACCAATCTCGTCGGATA
TGGCCCACGAAGGTTATTGTAGCCCGCGAGGAGGAGGATTAGGAGGTATG
TATGTGTGTGTTGGTGTGCTTGTCAGGAGCTGCTGCCTCAGCTGCTGTCT
CAGCACGCCAGGAGCTGGGCTGTGTGTGTGTGTCATGTCAGATGTTGTGA
AATGTTTTTTTGTTTTGTCAAGCAAAAAATAAAGCTGACAAGCAAAAATA
AAGCTGACATCGTTTGCACGGCTGTTCATGTCAAACAGCCCGAAGTGTGG
TGACGTTTCACGACAGCAGACAGTTTTGACAGTTCGACAGTCTGAAGAGC
CCGGCACAGCGACCGACCTGAAAAACTGAATTTGTATATAGTCTTATTTC
ACTCCCTCTTATAACATTAGTACAGGGTGGCCGTTAGTTTTCGAAGTTGT
TCCGAGTTGATTATAGTCGTACTGTTGAATTTTGAGTACCCGTCGGTTGC
GGTTTGTCACAGAAGGACTCTGATAACGAAAGCGTATCGTTCCACGGGGC
GTATCTCTCACAAGATAAACTGAGTGTTTCATATTGTTTATCCTTCCTTC
ACGCTTCCTCCTCACTTGCTCGAGGTTATCACACTTCGAGTTACACTAGT
AGAACGGATAAGGCAGCAGAAGATGAAGTAGCGCAAGTAGAAATGGCACA
CTGTCCAGGGTGTGCTTGCAAAGTATAACCACGAACACCCCCACTTGCTC
TGCCAAGCAAACTGTTCCGATCGAACGAATTTTCGTCAGTACCGAAATGT
CTTTGAATATAGATATGCCTTACTGCATGATTCCCCGCCCCCGTGAGAAA
TGGCCATGATTTGCTTTCGTTCGCCGTAATTTCAAGGCATTTGAGTGCAT
TGTAGCTTTGTCATGTCTGTCGAATCTTACTGTATCTAGTGCCTTCGTCA
TCGCCTCAGCATGCTGTTCCTCGGTGTCGATGTGGGCGACGCGCATCTTC
TCGTCTTGTACCAACTGTTTGATGAAGTGATACCTGACGTAGATATTTTT
GGTTCGATGACTCCTGATACGATCATTAGGCAACTTGACGGTCCCTTCGT
TGTCCTCCAGAACACTTATGCGGTATTCTTCTGTGCGTGGCGTCATTTAA
AATGTACCTGGTGTGGGAACATTATTTCGCCACACCCGCCAGCGCCATAT
ATTCAGCCTCGGTAGATGATAATCGCGCTGCACTCTAGAAAACCGAGATA
TTGCAGCTCCTCCAATCATCACGACTCCGCCTGATGCTGAGGACGTTTTG
TCCAAGTCCGTGGCGTAATATACATCTGCGTATCGGATCATCTCCATGTT
TTGGTCTCGTATTCCGTATGTCATGCCATTAGTTAATGTTCCCCGCCCCC
GCAGGTATTCACATATTTTTATTACGGTCTGTCGGTGTGACCTTCCAGGG
TTTTCGCAATATTTGGCGATGTTGCGGACGGCATTTGCAATGTCCGACCT
GATCATTGTCGGCGCCCACGTCAGCGCTCCCACTGCTTCCCGGTATGGAA
TATTCACCATCCAGCTTTCCTCTTATTCAGTTTCTGGGAAATTTTCAATT
TTCCATGAAGATTTTCGCACCTGCTGAAGCCAGAAAAGTACTGGTCTTCA
TAACGCCAGACCTATTGATTATGGTCTTGGTGTAGATACGCTGGTCCACC
GTGAGGATCCTGTTGGAACGTACGCATCCTATGTGGCATCCCATGTAGTA
CGTTACCTCCCCCAAGCCCTTGGTCGAAAACTTGTTGGCCAATCCCTGCT
TAAAACTGATCCATTGCTACCGTGTCCTTGCTAGCGACTAGAAAATCGTC
CACACGAATCACTAGCATTGCTACCAGCTCTCCCTCTCCAGTTATCTTCC
GCAATGCGCACGGATCAGCCAATGATTGTTCGAAACCATTATTTCGAAGA
TTCTGTGAGCATAAGGTTCCAGTTCTGAAATGCTTGAACTAAACCATAAG
AGGGCTCTTCTAAGCTTTCCCCGGCCCGCGGGAATTATTTCCTTCCTTCC
GGTCGCTCCATAAATATTTCCTCGTCGACCTCGGATTGAAAGATCGCTTG
TTCCACGTTCACGTGCTGCAGCTCCATGTCTCCCATAGTTGCTACTGCCA
TCAGCATCCTCGAGCTCGAAGCAGCAGGCGTAGGCGCAAACTTCTAGTCT
AGCCCTTCGAGGTGTCTAATATCGTAAGCTACGAAGCGGGCCTTGTATGG
CCCTACTTCGCCGTTTGGCTTAACCATTATCTTATACGAAGTATACCGTT
TGTTGCGCCCACCACTTGCCTCTTTTCCCGGCGCGGCACCTGCTCCCAAA
CTCCGACCTTAATTAGCCCGTACGTTTCATTTTATTCCGCCCTTAGCCAG
CGCTGCCGTTCTGGAGATTCCCCAGCCTCTGCCATATTATTTGGGTCCGA
CGGGAGATCACTTGCTTGTACACCGCGCATTTCGAGTGCCTGCATCGCCA
CCGGTCCAAACACTTTTAATGGATTTCAGACGATGCTTGAGCTGTGCTCG
CTCCGGTGTCCATGACGATGCGCGAAACCGTCGATCCGCCGCCAGTACTT
CCTGATTCTGCTGCGGCTCCTATGGTAGGCGTCCGACTACGAATACGACT
TGATGCGGTACCGCCGCGGCGCATTCTAACTTCCGGCTGGTTTAAGATTC
TTGATTGTGAAGTGGGAGGTGCAGATGCTACCTCAGACTCTTGGTTGAAT
TCTCCACCTAATTCTACATCTGAGGTGACATGTGACGCTTCTACCGGGTC
TATTACCTTGTTCATATTTTCTAGCCCTGTGCTTACCTATGCTGTTGATT
AAGATTGTCGTTTCGATTCCCGTTTCAATTTTGTATAAATAAATAACTGT
AGTGGTATAGTTGTTGCGTAGTAGTGGTATTAATAGCAGTAGTTAGTAGT
TAGTAGGTAGAAATTCTATTAATAGTGTGAAACGCCAAAAAATTAATTAA
TTCATACTATTAATAATTCAAGACATTCATTAATTTTCACTTTCGTAGGA
GACCATATATAAACCTTAAAAAAAAAAATCAGAATCAACGGCATCGGTAC
GCACAGAGTTAGAAAATGTTGTTCTTGTTGTTGTTTTCTTCACATTAAAA
GTCGTCCATTCCACTCTACGATATCCACTAGCGTACTCAGAGTCTGTACT
GGATCTTCCACCCTAGAAAGACACGAAATTCCGTGGTCACAACATATCAA
ACAAATGGCAAAAAACATATAAAAAAGAAGAACAAAAAAAGAAAGAAAGA
AAGCAAAAATAAAAAAGAGGGGAAGAAACAATAAAGAAGCGAGCAAAACA
TGCCACAGGACAAACGGGGGCAGAACGAAGACAGACAAAACGCAGAACGA
AGAGCAGAACGTCAGCGATACTTGGGGCTACGGGAGGGAGGTACGGGGAC
TGTTAGTCACACTGAAACATTTCTACCCGGTTTGCCATCTCCTCCTTACT
CTCATCGGCGGCAGTAATAAATTTGCTGCTACTACTGCCGCTCCCGGTCC
CCATCTTGCTACTTCGGACTTCCCCGGCCCTGTTCGCATGGCGTGCACTA
CTCTTCGCCGCCTCCTCTTTGTGCCACGTCTCCATGAAGGTTTCTGCTCC
TTCCATGACCCCCCTGTACCACCTTCCCCACTCGACCGCCGCTCTTTCCC
ACATCACAGTTTCCACTCCAAACACCAGGGACGCGCTCTCCGTCGACTCC
CCCCTCGTGATGGCACCGAAAACTTGGAAATCATCCGAGAGGCATTGGGC
CCAGTTCTTGGCCGGTCTACCGCGTCCCGGGTTCTCCCCACCGGCCAGAC
TCCCGAGCATCACCCGTCGTGGTAGCCGCCCGCTGTGCTGCCTCGCGATG
CCCCCCGCGAAGAGAAGTCGCCGTTTACGGATAGTCGTTTCGACGCTCTC
ACTGTGGGTCTTCCTAAGGGCCTTCGCGTATGACATCAGACGGCCCGTGC
CTTTTGGGCGTTGGAAGCCAATAACTCGTAGGAGAAGGCGGTGGTGTGCC
GCGCGGAGTTTGGCGTAATGCTGCTGGTTAAGTGTCCACGTCACACATCC
GTACAGCATGGTTTCTATCACCTCCGCCTTGAGCATACGCACCTTCAGCA
TAAACGGTGCCGTCGGTCGGTCGTATAACTCCCGGCTGTACCTTCTGAGG
CATCCCCATGCGAGCTGAATCCGGCGTTCGATCTCCGGCGTGATGTCGGC
GTTTTCATTGACAGCACCGCCCAGGTAAACAAACTGGCTTGTCTGCTTAT
ACTTCTGGCCGGCCGCTTCGACTACCAACGGTGCGGGCAGGGGTGTCTCG
TTCGGTGTCCGTACCATCATGGTCTCTGTTTTCTTCTCCGAAACAGTAAG
GCCGGCCGCCTCGAACACTGTCACAATGACGGTCATCATCTTCGCGAGGC
CTTTCGGCGATGTCGATACGATACCAGCGTCATCTACGTAAAGCATACCC
CATATAGACCTCCGTACACGTTCGAGTGGAGGCTCGTTGGTACCCCCCCC
GCTGTCCCCCTTGAGGTGTGAACGAGGTAATATACCCGGTAGAAGAATCA
AATGACAACTCAGACGTAGAATCCGGCGGAGAATTAAATGAATAGTCCGA
AGAAGATGAAACGTCTGAGATAGCATCTGCATCTCCCATTTCGCAATCAA
GAAGCTTAAGCTCCTGCCCGCGTCAATCCTTGCAGTAATTGCCTCCGGGT
GCCACGTGACGTCTCTCCGGAAGACGAGTTCGTTTGTCGTGAGGTTCATC
ACTCTGTACGCATCCCTTTGGCGGTTCATGTCCCATCCGACTAAAATACA
ATTTTTGCCACGCGGGTGTAGCTTGTTTTTCGGCTTCGGTGCTCTGAGAT
TTTTAGTCGTTCCGAAGGGTTAAAGTAAAGCCCCTTCAGATTTTCCAGTG
ACCCACTCCACTTCTACTGCGGTGACGTCCCTCCTTCATTAGCGGTGGTG
TTACAGAAATTCCTACGGTACACGCAAAGTTCATCGCCTCAGCCCACAGC
CTTTTGTCGTTTACACACTTTGATGTCTCCATCATTGCAGTTGTATATTC
CTACAGCAGTCCTATACCCCTCTTCGCAACCCCATGGAATTGGGGGGTGT
CTGGTGCAATTACTTCGTGCCGAATGCAGTATTCAGTTTCGTGCGAGAAA
AAACAGTAATACTTTTTTTTTTTTTCAAAGAGAAACGCAACAAACCGGGT
GTGATTGGTTATTGAAAGTAGGGCAAAGATAGGGAAGGTTGTCAGGGGCA
ACGTTTGAGATTAGGGTTAGTCTCGGCGTGAGCTCATAATTATTAGCAGG
AGAACGGTGCACAACGCCCGTAGCAAATAATGGACAAGCAGCAATATGCA
AATCTACTACTCGTAGTAGGTGATCTTTTTTGTTTTCGTTTGAAGTTTGA
AAAAAATTGTTTTTTAATCTGCTTTGTTGGAAAAAGCGCCATGATGCGCG
GGGAGGGGAATTGAACCAGGGTCACAGGGTCCTAACTAGCTCCATTTATT
TGCGTGGTTTATTATGATATAGCCCCCTGAGCTACTCGTACCGCGGTGGA
AGGTTATAACCGTCTAACCTACCCAGGTTGATAGTCCGTATGTCCTTATA
CTGCCTGTCGGTGCACGCGGCGACGTGTTCGTCTGTTGCTTTTATTTACA
CCCAACAATCAGATTAGTATTGTAAACAGATAAATAATATCTCTCTCGTG
ATATGTACAGCAGCAGCAAATAACCGTTGCCTGCATGCCATACCGGTATG
CGCTTTTTTTCGTGTGTCACGGCGCGTTATACATACACACTACCTAGTTG
TAGGTACAAAATAGTAAGGCCTCTTCCCTGGTGCTGTTGATGTCCCAGGT
GAAGGGCTTATTACTCGCTTCTTGCATAAGTCTCGGCGGGTATATCCGCC
CGTAGTGAGATGTAGCACGGAGATAACAGCAAGATGCTAAAAGTACAAGA
ACCGCCGTTTTCAAGGCTCGCCCGATCAGGCTCTTAAGAAGTAAATAATT
GATTTCTCCTCTTCGTTCTCGAATGAAGAATCAAGAGGCGGGGGCGGGAT
AAGTCGCGACCTATCATATCATACGTTACCCCGTGAACCGCGACTGTCAG
GTTTTGATGTCTTCCTCTTCAGTGCCCAATTCGAAATCGAGAAAACTATC
GTGTACGAACCCTAGAGTACTGTAGTTTTGTTATCCTCTACCTTGTAAAT
GTCCCTCACTTGCTGCTTGTTCAGAGTTCTCTGGTTTCTCCTACAACAGT
GGTAGTACTAGTACTGCGTTGTCTACGAGTACTATAATATATCTGCAGTA
GCTATCTTCTTCGTACCCTGTCCTCCGCGGAAATACTACTACTGTGGTAC
GTACAACAAACAAAAAATCAGTGCGGTTTCTCAGTTAGTAGACGAGCAAA
CTCCAGGAGCTTTCCAACCTGACATAAAAGCGACACAGAGCGAAAACCAG
AAAACCACGTTTCCTCTATTTCAGCACCGAAGACGTGGGGTCTGCCCCCG
CCAACTGTGCCGTAGTCGCAGCGGATAGGTGGGTGAGTTTGAAGCCCTGG
TGATGTCGGCTACGTACCTGCTGACCCACGCAACTGTGACGACGCGGTGA
ACGGACCCGACGTCAAAAGTTGGCATGAAGCATGGGCAAAGAGAGGAGTT
CCCTCATTGAGCGTCACGTATTCGATACGGGATGGCTAATGCCCGCCCGG
TGAGAACGCCTGCTTAAGTGAGACCCGTACAGACTCAGGAAGAAGCTTTG
TCGACAGAGGAGCGCGTACACGGTATGCTCGTACGTTACCTCTTGAATGT
CGGTATTAAGTGACCAGTGTTGTGCCTCGTCACGATTGGAGGCAATTCCC
TTCTGCCTGTTGCTCCTGCGCAATTTGGTTGCTGTGTTGGCGGTGCCATT
GATGTGTGTTTTGAGAGGACACTGAGCGACATTTGGGTCTGGTGAATCGG
AATAGAATGACGTAGTTCTTGAGGGGACATGTTGTTGGATTTTTGTGGCA
CAAGAGCGAATACCATATTCCACTGTATGGGTTTTGTACAATATTACGAA
GGCGTGTTTTCAAGATCAAACTGCCTACGAACGCCAGCTACAGCTCTCGA
GCGACTGCTGTCACTCACCGTACTGCTGAAGTAACGCTGCTAGGTTATAA
GTCTCGGGGTGGCCCGATCTGCCCGTCGGCACCCCGGCGTTCCTGCTCAT
CTTCCAGACGTTCAAGTCTTTGTTGGATTATTTTCTTGATCCGACTCCTT
GTCAATTTGGTCTCGCTTTCCAGTATCTGCCGCTGCATATCATACTGTTC
GTTTAGGCTGCTCACGATTGCGACGAGCACTTGGTCTTCCGGGACCTCCT
GTCCGAGCATTGCAACGTGCTATTCTACCCGATCTAATCGTAAAGTAAAC
TCCGTGGGGTTTTCCCCCGACTCCATCGCCATCGCTGTGAAGTCGCGATT
TAGTGGCCGAACTTTAGTCGTGGTGTCCGGCTGGTAATAGGCTTTTTACG
CTTTCCATGCCTCACTGGGTGATTCAACTCTTTGAACGATTCCAAACGCA
TCATGTTTGCAAGTTTTTATGATGATATCTTGAAGCTGTTTGAACTTGTT
TGAATTTTGCCGCTTTCACTCCTGATCGATCGAAATCTTGGCGTCCAATC
TTGATTGCTTCTTCACGGGGTACATCGAACGCCTGCCCACAACCCATCGC
CGCGGCATTGGCCCGGTGCACTAGAGCCCAGTTCAGGCAATCTTCCTGTT
TACCCGAAAAATGTGTGAGCTCCGCTTTCAGAGTAGATCCACCTCTCTCG
GGTAATGTCGCTGCGGTGGTTGCTGCAGCACTGGTAGCGGTCGCTACTGC
CGTTGCGACCGCATTGACCGTCTGTAGCTGTTGCTCACGCCATCGTTTTT
GTAAACATGTGCATCGTCTCTTCGACGGTAGCCATGTTTTCCCTTCTGTC
TTCAGAACCGATGTTACTATTGACCGCCCCTGGTTTACGCGGACGCTATA
GCATATTCGTATTTTGAGTACGCGTTGGTTGCAGTTTATCACAGCAAGTA
ATGATACGGACTTCTCCCTATCTCTGATAACGAAAACGTATCGTTCCACA
GGGCGCATCTCTCACAAGATATATTGAGTGTTTTACATTGTTTGTCCTTG
TTCACCTTTCCTTCTTAGTGGAGATTATCACACCTCGAGTCACACTACTG
TAGTAGAACGGATAAGGCAATACAAGAGGTAGAAGTAGCAGTGGCATGGA
TCGTGGCTCGCTCGTGTCGTGCCCACGCGTCCACAGTTCTGTGCTCATAC
AAACCTGCAATGTCCACTAAGCGACACTTGTTGTGCCGCTGAACTTAGTA
TGCATCATTCTTCTAAGCATTCTTACTGTCCAGGGTGTGCTTGCAGAGTA
TAACCACGAACAGCTGAACAGCCGACGTTGGTATTATTTGTATAATAAAA
CAAACGTCCTAAGCATCAGTTGTAAGGCGACGTCGCCTCCTTGCCCTGGA
AGACAGAGGAAGGCGACACACTGGCTATAACAGCCCAACGCGAACCCTTT
TCGTGTAAGCAGTACCCCGGGTATTACTTTTCAGTCGTCGAATATCGAAT
ACCATACTGCTGTACAACAACAGTAGTAGTACGCTTATTTGGCGGTAGTG
ACAGTCTATACGGGCATTTTTTTTTTACGTTTTTTTTTACGTTTTTTTTT
ACGTTTTTTTTTCTTCAAATACTGCTCTTGTTGTCATGACTCTAAAATAT
CGTCCTCTCTGTCCCACGAAGTCCAGCAGCGTACTCAGAGTCTCTCAGAT
TCTGCACAGATTCTTCTATCCTACAATCGAGAGAGATTCGAATATCATGG
CCACAAGCTACATAAGAGCACCAAATCGCAAATTGAACCATAGGAAGAAT
AAAATAACACTGCGAGAAAACAAAATAGAAGCAGAAACGCAAGAAACTCA
AATATGACAGGATAGGATATCAAACAGATGGAAGAACGCAATAGGAAAGG
GGCTTATTAAATAGCAGAAATAAACACGAACCGAGTTCCATCAGCAGAGG
GCAAGATTCCACTGCTGTCTACAGTGGGCAGATCTATCCAATCAGTCGTG
TTTGCCAGTTATTAATAGACGAAACTATGGTTGACCATACAAAATCTATA
TACGAAGTATGATGGATGAATTCCAGGAGTTCTCCAACCTCACAGTCTCG
ATACAAGCGCGACACAGAGCAAAAACCATGTTTCCTCGATTTGAGCGTCG
AAGGCGTGGACTGGGCCCCCGCCAACAGTGCCATAGACATAGGGAGGGTG
GTCGAGGTTAGGGTTAGGGTCGGGTTGGGTCGGCTCGCCACAATTTGAAA
TAATAAAAAAAGGGAGGTCAACGATAGTTTCGTCTGACTGGTAAACAGCC
CTCGGTGCAGGTGCAGGCTATCTGCCTTCCAACGTATATGCTGCAACGAC
TACCCTGCTTGGGCGTTCTCTCCCTGTGATATCACAGGCTGAAACCCACT
GCACTCTTTGCATCACCCCCGCGTATGGAATGGCGCTTCGGCAGATAGAT
GTCGGTTGTCGCTTTGCTCGAGGTGTGATGTTTCTTGCTTCCCGCTGACG
ATACCGCCGTTAGTATGGTACATCTCTTGTATTTAGCTTCAAGCTGATTG
GTTTGTCACTGTGCCGCATATTTGGATTCCACGAACGTCTTTTTGTTGGC
CGCCCCAGGCATTTGCCAAAAGGACTGCACGAGCTACTACGAGTTTCTAG
CTGAGGAGGCCGGACGATTGTCGGGTCTACTGGAGGCGTTCTTCGAGGCG
GAGGTCTGCAAGAAGTTTGCGGATCCAGACTGTGAGTTACGCGACGGCTA
CGGCGCCTCGCAAAAACGGCATGTGTCGAGGGGTCTTTGCCTTGTTCATT
TTTTTCGTATTTTATCAATCCTCAAATGCGGTGGATGGGTAAAAACGAAG
CTTTTAAGCTCACCACACTTCCACAACAGTATATCAAGCTGTGTAATTGT
TATTTGTGCCGATTTAAGGTTTAAGCCTGTTGTGCAATGTGTCACGTGTA
TAGTGTAATATAGTACAGCACAATGGTTGATTGTTGCTGTTACGGCGGCG
TGAGCGCGTCGGTTACCCAGGGGCGAGAGAGATAAGCCACCTAGTGAGAT
TAACTCCACGGGTAGCGTGGGATTTGCGCAAGGTCACCCACCAAATGCAA
AAACCCAGGCACGTGTGTTACTTAACGTTTTTGTTTATGTATCCTCGAAT
ACGACGGATGAGTACAAATAATTCATATGCTCCCAACTTCCGCGGCCTTT
GATAGTCGCGCGGTGAGCGCCGATTTAACCCTAGACAATCATTGTAGACC
GCAACGTTGCAATTACAGGGCGGGTAGTTGGAGGCCGTTGGCCTTGGAGA
TGCCGCCTGAAGAGGCAACGTTCAACATCACCGCCTCCCGATGGTGTCGT
CGTGCTCTTATAGTCGTTGCGTTTGGAAACGACAGCAAAGTGGTAATCTC
GTACAGCTTCTGTCCCCTATTCATATCGGGGGAGATCTTCCGCCTTAGGT
CGTCGACGTCGTCCCCGCGTTGTTTTGTACGCATGAACATGAAAGGAGTT
TGTAAGCGCTGTTTGGACGCGGTTTTGCTTCGACAAAAATCGCGGCAAAA
AATCCGTCCCACTAAAGAGTCAACCTTGTGAGGATTTTCTAGCCTCTGGC
CGATCGTCTACAATCGTGTTGAGGCCTTACTCCCTACCTGTTGAATACCG
GGGTGTATGTTGTTTCGACCCCTAGTGCGGCTTAAGGGCGATCGTCCTTT
TGTAATTAACACATATTACATGTAAAGACGGGTACGCGGGTTCCAGTGAG
TATTGCATTGTACGGTGGATGTGAAGCGTCTACTATACGGCTAGCTGTAA
CATGATCGCTAACACGTCGTCGTTCGTTTTAAGTAGTGCAACCCTTGTTG
TGAAACAGACTGCGAGTCTTGTGCTAGGGTCATCCCTCGCCCCTCGTTAC
TCGGGCTTCCCTGTCTTAGCCGCGTGGTTGTGGCTTGAGTTGACTTTGAT
GATGCCGTGGTTTGACTTGTGACACCGATGATCGGCGGCAGTGATGCCGG
ATTCCTGGTGTCATGGCATGATGCGCCAGTGGTGTAATCCGTTTTTGTCG
AAGAACATGCTTGATACGTGAAATACTAGTATTCCATTGGCCAAGATTAT
TCTTGGGAGCTTTAAGATTATGCTAGGGGCATTGGGTGTGTGGTTCCAGT
GGCTTCGGTGAGGGTTAAGAGTGCGGGTAGGACCGTTTCAACCATTTGTT
CGACAAAATTATGTAAAGGCCTCTGATGCTCGACTTTCGAATGGACCCAA
GGCACACCCCCATGGCCCAACCTCCCGCTTACGAGGACGGCGTCTAGTGT
TCCCGTGTATATGATGGTCTTAATAAGGACCACCGTCTTACGCCGTATGG
TACCGCCCCGAAAACGGGTCTATTTGTTTTTGTTCCTTTTGTGATGTTTC
TGAATTTCTTCCGCCCGTCCCTCCCCCCCTCAGGCGTAGCTGATGTCTAC
GTCGACAGCCGGTCTCGAGTGTGGCTCCTGGACATCAATCCGTTTTCTGC
TGTCACCGACTCGCTGCTCTTCGACTGGTCCGAAGACGCGCTGGCCGCCC
CTCTCCCCGCACCAACAATACCCCCAGAAGAAGAAACCCTACCTGAAGGC
GTTTTTATGCGGTTACATTTCGAACCGCCACCTTCGTCCGGACCGCTGCG
ATCAGAAAACACCGCGAGCACCGGGTTTTCTGACGCAGAAGTAGCGCCAG
GAGATGGAGCAGAGGGAGGGGAGGGAGGCGGCGGTCTTGCTGTTACGCGT
GTGACCGTCGCTGGTGGGATGGGAACGGAAGTCGATTTCCGATGTGTACC
GTCTAGTTCGCACATGGTGCCGGATCCCATGGGGCGGTATCGGGGGCCGG
CGGACGTGGCGATGGGGACGCTTGTCGGGGGCACGGGGGGGCTGGACGAT
TTGATCGAGAGCTGTCGTCTCACCGACGACGACCCGTAG

Coding sequence (CDS) from alignment at D-herbacea_F_contig11:1329668..1350606-

>mRNA_D-herbacea_F_contig11.874.1 ID=mRNA_D-herbacea_F_contig11.874.1|Name=mRNA_D-herbacea_F_contig11.874.1|organism=Desmarestia herbacea DmunF female|type=CDS|length=2610bp|location=Sequence derived from alignment at D-herbacea_F_contig11:1329668..1350606- (Desmarestia herbacea DmunF female)
ATGGTGGCAAATGCCGGAGCAGTGGATTCACAAGATGGTCAATACACAGT
AGGTACACCGCCTCCAGCATCAGAAATAACACAGCAGGCAACTCCACCTG
AGGTGCAGGGGCCATGCTGCCGCCAGGAACACGTGCTCAACTGTCAGTTC
GACCGTTGGTACCCGCTGTTTAAGCACTGCACGCCAAGGAGCATCGTTCT
AGAGCTGCCAGAAGACCTGGTGCGGTACCTGCAAGCAGATGGCGTTGTGC
TGCCGAAAGGGTTTGAGATGTCTTGCGGACAGGGCGTGCAGGATGACAGC
GACGATGAAGTAGACTGGGGCGATGAAGAGGGCGAGGAGGATGCAGATGA
AAGGATGGTGGCAAATGCCGGAGCAGTGGATTCACAAGATGGTCAATACA
CAGTAGGTACACCGCCTCCAGCATCAGAAATAACACAGCAGGCAACTCCA
CCTGAGGTGCAGGGGCCATGCTGCCGCCAGGAACACGTGCTCAACTGTCA
GTTCGACCGTTGGTACCCGCTGTTTAAGCACTGCACGCCAAGGAGCATCG
TTCTAGAGCTGCCAGAAGACCTGGTGCGGTACCTGCAAGCAGATGGCGTT
GTGCTGCCGAAAGGGTTTGAGATGTCTTGCGGACAGGGCGTGCAGGATGA
CAGCGACGATGAAGTAGACTGGGGCGATGAAGAGGGCGAGGAGGATGCAG
ATGAAAGGCCGGACTTCCCAGGCCTGCAAGAGCGGTTGAGCGACGCGATA
CGTTCGCTAGGAGGCGCCGTGTTCCCGAAGCTCAACTGGAGTTGTCCTCA
GCCGGACTTCCCAGGCCTGCAAGAGCGGTTGAGCGACGCGATACGTTCGC
TAGGAGGCGCCGTGTTCCCGAAGCTCAACTGGAGTTGTCCTCAGGACGCG
GCGTGGATCAACGGAGGCACTCTCAAGTGCTCGTTACCAGGGGACGTTTT
GTGCCTCCTCAAGAGCTCCACCTTTGTCGACCACGACCTAAACCACGCGA
CGCGGCGTGGATCAACGGAGGCACTCTCAAGTGCTCGTTACCAGGGGACG
TTTTGTGCCTCCTCAAGAGCTCCACCTTTGTCGACCACGACCTAAACCAC
GCCTTCGACGGCTGCGCCGGTGCTGCCATCGCTCGGCCCGACACGTTCAC
CCTCGTGTTGAAGAAGTGGTGCAATCTACACCCTTCCATGTTGTTCCGCT
GCTTCGTCAGAGAGCGGCGGCTAGTGGCTTCGACGGCTGCGCCGGTGCTG
CCATCGCTCGGCCCGACACGTTCACCCTCGTGTTGAAGAAGTGGTGCAAT
CTACACCCTTCCATGTTGTTCCGCTGCTTCGTCAGAGAGCGGCGGCTAGT
GGGCATTTGCCAAAAGGACTGCACGAGCTACTACGAGTTTCTAGCTGAGG
AGGCCGGACGATTGTCGGGTCTACTGGAGGCGTTCTTCGAGGCGGAGGTC
TGCAAGAAGTTTGCGGATCCAGACTGCATTTGCCAAAAGGACTGCACGAG
CTACTACGAGTTTCTAGCTGAGGAGGCCGGACGATTGTCGGGTCTACTGG
AGGCGTTCTTCGAGGCGGAGGTCTGCAAGAAGTTTGCGGATCCAGACTGC
GTAGCTGATGTCTACGTCGACAGCCGGTCTCGAGTGTGGCTCCTGGACAT
CAATCCGTTTTCTGCTGTCACCGACTCGCTGCTCTTCGACTGGTCCGAAG
ACGCGCTGGCCGCCCCTCTCCCCGCACCAACAATACCCCCAGAAGAAGAA
ACCCTACCTGAAGGCGTTTTTATGCGGTTACATTTCGAACCGCCACCTTC
GTCCGGACCGCTGCGATCAGAAAACACCGCGAGCACCGGGTTTTCTGACG
CAGAAGTAGCGCCAGGAGATGGAGCAGAGGGAGGGGAGGGAGGCGGCGGT
CTTGCTGTTACGCGTGTGACCGTCGCTGGTGGGATGGGAACGGAAGTCGA
TTTCCGATGTGTACCGTCTAGTTCGCACATGGTGCCGGATCCCATGGGGC
GGTATCGGGGGCCGGCGGACGTGGCGATGGGGACGCTTGTCGGGGGCACG
GGGGGGCTGGACGATTTGATCGAGAGCTGTCGTCTCACCGACGACGACCC
GTAGGCGTAGCTGATGTCTACGTCGACAGCCGGTCTCGAGTGTGGCTCCT
GGACATCAATCCGTTTTCTGCTGTCACCGACTCGCTGCTCTTCGACTGGT
CCGAAGACGCGCTGGCCGCCCCTCTCCCCGCACCAACAATACCCCCAGAA
GAAGAAACCCTACCTGAAGGCGTTTTTATGCGGTTACATTTCGAACCGCC
ACCTTCGTCCGGACCGCTGCGATCAGAAAACACCGCGAGCACCGGGTTTT
CTGACGCAGAAGTAGCGCCAGGAGATGGAGCAGAGGGAGGGGAGGGAGGC
GGCGGTCTTGCTGTTACGCGTGTGACCGTCGCTGGTGGGATGGGAACGGA
AGTCGATTTCCGATGTGTACCGTCTAGTTCGCACATGGTGCCGGATCCCA
TGGGGCGGTATCGGGGGCCGGCGGACGTGGCGATGGGGACGCTTGTCGGG
GGCACGGGGGGGCTGGACGATTTGATCGAGAGCTGTCGTCTCACCGACGA
CGACCCGTAG