GENSCAN 1.0 Date run: 3-Nov-116 Time: 04:23:28 Sequence gi568815579r:48111713_48334478 : 222766 bp : 48.49% C+G : Isochore 2 (43 - 51 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.29 PlyA - 851 846 6 1.05 1.28 Term - 4020 3937 84 0 0 154 46 94 0.999 9.45 1.27 Intr - 4253 4161 93 2 0 96 94 147 0.992 16.26 1.26 Intr - 6069 5926 144 0 0 120 105 61 0.949 11.48 1.25 Intr - 7478 7425 54 2 0 133 105 96 0.999 14.98 1.24 Intr - 9610 9458 153 1 0 113 29 345 0.991 31.37 1.23 Intr - 11304 11222 83 1 2 93 55 166 0.953 13.16 1.22 Intr - 11606 11462 145 2 1 80 100 329 0.959 33.16 1.21 Intr - 15636 15565 72 0 0 74 105 149 0.991 14.80 1.20 Intr - 16308 16198 111 0 0 104 64 167 0.535 16.48 1.19 Intr - 19459 19364 96 1 0 93 86 193 0.986 19.81 1.18 Intr - 21385 21270 116 2 2 133 80 129 0.999 16.77 1.17 Intr - 22354 22269 86 0 2 67 92 151 0.968 12.86 1.16 Intr - 24067 23968 100 2 1 46 85 110 0.986 5.67 1.15 Intr - 24413 24322 92 1 2 117 105 75 0.999 11.74 1.14 Intr - 25372 25296 77 1 2 73 87 166 0.858 13.31 1.13 Intr - 25976 25810 167 0 2 74 68 255 0.999 21.78 1.12 Intr - 28431 28259 173 2 2 105 110 187 0.999 22.19 1.11 Intr - 29388 29302 87 2 0 12 80 101 0.212 0.79 1.10 Intr - 31887 31831 57 2 0 128 18 117 0.373 6.70 1.09 Intr - 32251 32171 81 0 0 103 53 102 0.989 6.95 1.08 Intr - 38129 38051 79 0 1 72 84 89 0.996 5.51 1.07 Intr - 38498 38376 123 0 0 60 70 154 0.995 11.36 1.06 Intr - 39627 39520 108 1 0 55 81 55 0.760 1.76 1.05 Intr - 42255 42160 96 1 0 70 105 156 0.971 15.48 1.04 Intr - 45428 45302 127 2 1 89 94 40 0.832 4.95 1.03 Intr - 49795 49660 136 0 1 84 96 153 0.995 16.27 1.02 Intr - 50639 50550 90 1 0 118 53 71 0.963 5.71 1.01 Init - 53854 53838 17 1 2 108 58 11 0.882 -0.91 1.00 Prom - 56612 56573 40 -8.06 2.00 Prom + 57113 57152 40 -5.36 2.01 Init + 60091 60415 325 0 1 89 47 609 0.437 54.39 2.02 Intr + 63575 63736 162 0 0 7 55 130 0.505 1.55 2.03 Intr + 67937 68063 127 0 1 27 81 80 0.757 0.94 2.04 Intr + 70743 71055 313 0 1 92 81 696 0.970 65.49 2.05 Term + 82941 85115 2175 2 0 124 46 1557 0.301 140.48 2.06 PlyA + 85888 85893 6 1.05 3.03 PlyA - 86237 86232 6 1.05 3.02 Term - 87931 87817 115 0 1 65 38 121 0.806 2.84 3.01 Init - 92289 92147 143 0 2 59 80 130 0.367 8.91 3.00 Prom - 93101 93062 40 -3.26 4.08 PlyA - 93294 93289 6 1.05 4.07 Term - 100263 99998 266 1 2 81 38 328 0.779 22.77 4.06 Intr - 107300 107159 142 2 1 78 96 18 0.708 1.53 4.05 Intr - 110143 110018 126 1 0 128 96 110 0.995 16.68 4.04 Intr - 118988 118726 263 0 2 90 121 242 0.780 24.91 4.03 Intr - 119294 119065 230 1 2 118 90 151 0.999 15.81 4.02 Intr - 120098 119948 151 0 1 84 110 71 0.733 8.12 4.01 Init - 120801 120741 61 0 1 75 95 21 0.804 2.91 4.00 Prom - 131703 131664 40 -2.36 5.00 Prom + 137018 137057 40 -4.46 5.01 Init + 150741 150822 82 2 1 66 59 67 0.289 2.73 5.02 Intr + 168044 168096 53 0 2 65 111 56 0.308 4.23 5.03 Intr + 170659 170785 127 0 1 65 82 162 0.984 13.55 5.04 Term + 174049 175166 1118 2 2 52 48 345 0.821 19.10 5.05 PlyA + 175480 175485 6 1.05 6.16 PlyA - 176685 176680 6 1.05 6.15 Term - 185806 185264 543 1 0 94 41 520 0.997 42.17 6.14 Intr - 185956 185878 79 0 1 90 85 93 0.953 8.75 6.13 Intr - 186385 186288 98 1 2 81 37 102 0.998 3.21 6.12 Intr - 186628 186465 164 2 2 66 75 285 0.999 24.69 6.11 Intr - 191210 190982 229 2 1 124 93 272 0.968 28.74 6.10 Intr - 191383 191301 83 2 2 61 105 206 0.999 18.96 6.09 Intr - 192072 191938 135 1 0 118 70 163 0.999 18.04 6.08 Intr - 192428 192241 188 1 2 89 72 355 0.984 33.33 6.07 Intr - 194611 194544 68 1 2 120 80 68 0.985 6.90 6.06 Intr - 199954 199841 114 1 0 107 86 299 0.906 32.24 6.05 Intr - 200404 200282 123 1 0 58 72 77 0.882 3.88 6.04 Intr - 205039 204962 78 1 0 64 110 7 0.541 0.25 6.03 Intr - 206864 206675 190 1 1 78 75 383 0.997 35.59 6.02 Intr - 207100 207001 100 2 1 67 48 105 0.804 3.57 6.01 Init - 208462 208426 37 1 1 80 43 85 0.433 1.37 6.00 Prom - 208577 208538 40 -11.23 7.00 Prom + 211616 211655 40 -10.15 7.01 Init + 215133 215210 78 2 0 80 121 91 0.732 10.85 7.02 Intr + 215809 215911 103 0 1 91 77 156 0.998 14.55 7.03 Intr + 217640 217780 141 0 0 96 55 139 0.968 11.72 7.04 Term + 218589 218758 170 1 2 129 53 315 0.996 30.14 7.05 PlyA + 218823 218828 6 1.05 8.03 PlyA - 220667 220662 6 1.05 8.02 Term - 221721 221507 215 1 2 117 48 134 0.999 9.69 8.01 Intr - 222485 222296 190 2 1 84 97 352 0.989 34.86 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Intr - 80270 80202 69 0 0 103 99 20 0.872 3.75 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815579r:48111713_48334478|GENSCAN_predicted_peptide_1|948_aa MQRSIMSFFHPKKEGKAKKPEKEASNSSRETEPPPKAALKEWNGVVSESDSPVKRPGRKA ARVLGSEGEEEDEALSPAKGQKPALDCSQVSPPRPATSPENNASLSDTSPMDSSPSGIPK RRTARKQLPKRTIQEVLEEQSEDEDREAKRKKEEEEEETPKESLTEAEVATEKEGEDGDQ PTTPPKPLKTSKAETPTESVSEPEVATKQELQEEEEQTKPPRRAPKTLSSFFTPRKPAVK KEVKEEEPGAPGKEGAAEGPLDPSGYNPAKNNYHPVEDACWKPGQKVPYLAVARTFEKIE EVSARISCRFSGLIITIFIIVTVTPSYSPTVTVRLRMVETLSNLLRSVVALSPPDLLPVL YLSLNHLGPPQQGLELGVGDGVLLKAVAQATGRQLESVRAEAAEKGDVGLVAENSRSTQR LMLPPPPLTASGVFSKFRDIARLTGSASTAKKIDIIKGLFVACRHSEARFIARSLSGRLR LGLAEQSVLAALSQAVSLTPPGQEFPPAMVDAGKGKTAEARKTWLEEQGMILKQTFCEVP DLDRIIPVLLEHGLERLPEHCKLSPGIPLKPMLAHPTRGISEVLKRFEEAAFTCEYKYDG QRAQIHALEGGEVKIFSRNQEDNTGKYPDIISRIPKIKLPSVTSFILDTEAVAWDREKKQ IQPFQVLTTRKRKEVDASEIQVQVCLYAFDLIYLNGESLVREPLSRRRQLLRENFVETEG EFVFATSLDTKDIEQIAEFLEQSVKDSCEGLMVKTLDVDATYEIAKRSHNWLKLKKDYLD GVGDTLDLVVIGAYLGRGKRAGRYGGFLLASYDEDSEELQAICKLGTGFSDEELEEHHQS LKALVLPSPRPYVRIDGAVIPDHWLDPSAVWEVKCADLSLSPIYPAARGLVDSDKGISLR FPRFIRVREDKQPEQATTSAQVACLYRKQSQIQNQQGEDSGSDPEDTY >gi568815579r:48111713_48334478|GENSCAN_predicted_CDS_1|2847_bp atgcagcgaagtatcatgtcatttttccaccccaagaaagagggtaaagcaaagaagcct gagaaggaggcatccaatagcagcagagagacggagccccctccaaaggcggcactgaag gagtggaatggagtggtgtccgagagtgactctccggtgaagaggccagggaggaaggcg gcccgggtcctgggcagcgaaggggaagaggaggatgaagcccttagccctgctaaaggc cagaagcctgccctggactgctcacaggtctccccgccccgtcctgccacatctcctgag aacaatgcttccctctctgacacctctcccatggacagttccccatcagggattccgaag cgtcgcacagctcggaagcagctcccgaaacggaccattcaggaagtcctggaagagcag agtgaggacgaggacagagaagccaagaggaagaaggaggaggaagaagaggagaccccg aaagaaagcctcacagaggctgaagtggccacagagaaggaaggagaagacggggaccag cccaccacgcctcccaagcccctaaagacctccaaagcagagaccccgacggaaagcgtt tcagagcctgaggtggccacgaagcaggaactgcaggaggaggaagagcagaccaagcct ccccgcagagctcccaagacgctcagcagcttcttcaccccccggaagccagcagtcaaa aaagaagtgaaggaagaggagccaggggctccaggaaaggagggagctgctgagggaccc ctggatccatctggttacaatcctgccaagaacaactatcatcccgtggaagatgcctgc tggaaaccgggccagaaggttccttacctggctgtggcccggacgtttgagaagatcgag gaggtgtctgctcgcatcagctgtcgtttctctgggctgatcatcaccatcttcatcatt gttaccgtcacaccaagttactcccccactgtaaccgtccggctccggatggtggagacg ctgagcaacttgctgcgctccgtggtggccctgtcgcctccagacctcctccctgtcctc tacctcagcctcaaccaccttgggccaccccagcagggcctggagcttggcgtgggtgat ggtgtccttctcaaggcagtggcccaggccacaggtcggcagctggagtccgtccgggct gaggcagccgagaaaggcgacgtggggctggtggccgagaacagccgcagcacccagagg ctcatgctgccaccacctccgctcactgcctccggggtcttcagcaagttccgcgacatc gccaggctcactggcagtgcttccacagccaagaagatagacatcatcaaaggcctcttt gtggcctgccgccactcagaagcccggttcatcgctaggtccctgagcggacggctgcgc cttgggctggcagagcagtcggtgctggctgccctctcccaggcagtgagcctcacgccc ccgggccaagaattcccaccagccatggtggatgctgggaagggcaagacagcagaggcc agaaagacgtggctggaggagcaaggcatgatcctgaagcagacgttctgcgaggttccc gacctggaccgaattatccccgtgctgctggagcacggcctggaacgtctcccggagcac tgcaagctgagcccagggattcccctgaaaccaatgttggcccatcccacccggggcatc agcgaggtcctgaaacgctttgaggaggcagctttcacctgcgaatacaaatatgacggg cagagggcacagatccacgccctggaaggcggggaggtgaagatcttcagcaggaatcag gaagacaacactgggaagtacccggacatcatcagccgcatccccaagattaaactccca tcggtcacatccttcatcctggacaccgaagccgtggcttgggaccgggaaaagaagcag atccagccattccaagtgctcaccacccgcaaacgcaaggaggtggatgcgtctgagatc caggtgcaggtgtgtttgtacgccttcgacctcatctacctcaatggagagtccctggta cgtgagcccctttcccggcgccggcagctgctccgggagaactttgtggagacagagggc gagtttgtcttcgccacctccctggacaccaaggacatcgagcagatcgccgagttcctg gagcagtcagtgaaagactcctgcgaggggctgatggtgaagaccctggatgttgatgcc acctacgagatcgccaagagatcgcacaactggctcaagctgaagaaggactaccttgat ggcgtgggtgacaccctggacctggtggtgatcggcgcctacctgggccgggggaagcgg gccggccggtacgggggcttcctgctggcctcctacgacgaggacagtgaggagctgcag gccatatgcaagcttggaactggcttcagtgatgaggagctggaggagcatcaccagagc ctcaaggcgctggtgctgcccagcccacgcccttacgtgcggatagatggcgctgtgatt cccgaccactggctggaccccagcgctgtgtgggaggtgaagtgcgctgacctctccctc tctcccatctaccctgctgcgcggggcctggtggatagtgacaagggcatctcccttcgc ttccctcggtttattcgagtccgtgaagacaagcagccggagcaggccaccaccagtgct caggtggcctgtttgtaccggaagcaaagtcagattcagaaccaacaaggcgaggactca ggctctgaccctgaagatacctactaa >gi568815579r:48111713_48334478|GENSCAN_predicted_peptide_2|1033_aa MERPEPPPGTAAGQEEQELRERAFFSWAEFSRFFDAWCQQRLALFFVKSSMHLARCRWAS APPLYTLIDVLKYSYVRLVCKDVRAPSRPAVGCVNLSRCPAGGKGSTGDDEMVSEWGVRE QVVDEPVQERYLGAVMSSSLTLSSCSKQSLSSATAQGQPMGREENWKHHHRWQSRGVEHS AAVKGMKLNSFENPSEKPAAKASVRPPQPGCPAFIIVKLSPLRDRLVVTECQLTHSHPAC PLEFAYYFRPGHLLANACLPVRTTNKISKQFVAPADVRRLLSYCKGRDHGVLDALHVLEG LFRTDPEAKVKLVFVEDQAVVETVFFLTSRTRALLRRFPRMLLVDRLPGLQGALDLLAVL CVDGSGRARQAACCVARPGTPSLLRFALASLLQSAPDVKGRVRCLTAGPEVAAQLPAVRQ LLPCARVQICRAQGLETLFSKAQELGGAGREDPGLWSRLCRLAGASSPAAYDEALAELHA HGPAAFVDYFERNWEPRRDMWVRFRAFEAARDLDACALVRGHRRRLLRRLSPSRGVAQCL RDLVAMQWADAAGEAVPEGPDGGGPWLEDEPGRGAQGENERVRGLETGDWGGAPKEGSIW RGAQMEKEWARALETRDWGGAQFEGEKGRALQIRDWRGGRLENQKPRGLEGGVLRGSKLE KGHLRGPEIRDWRGPQLEGEKDWGLEGYVWRGSQLEDQALRGLEGYTWRVAQLEDRRSTT DLRGTQFDYERVRSLEGSPWRGAQLHDERAGGLRTAEWKGPQSEVEKGRGLEVRNLRGIP LEKSLELAPENGDQRGPQWEDERRRGPEIAEERGARVGVKRRRGLEDIVLVQLGDTRVTG MENGDGGGARSVGPKSRAGRGMEWGDAGGRCLGLGNGVVSGTPVGTVLEGSPEWAAARSE HLAAGDGLQEGGEDGPREPKRLCRPPGEEEVDWEPLAKFRAACGPELADLVAEELAFARQ HGTRGFHWTGAGFALKDGTSDFFLDGALTRCSCSIHAARRLPCRHLFAARLLTGAALFHM DLLRDCWGRAPEP >gi568815579r:48111713_48334478|GENSCAN_predicted_CDS_2|3102_bp atggagcggccggagcccccacccggcacggctgcggggcaggaggagcaggagctgcgg gagcgggccttcttctcgtgggccgagttcagccgcttcttcgacgcgtggtgccagcag cggctggcgctcttcttcgtcaagagctccatgcacctggcgcgctgccgctgggccagt gcgcccccgctctacacgctcatcgacgtgctcaagtacagctacgtgcggcttgtgtgc aaggacgtgcgtgcgcccagccggcccgccgtggggtgcgtgaacctgagccgctgtcct gctggggggaaggggagcaccggggatgatgagatggtctctgaatggggagtgcgggag caggtggttgatgagccggttcaggaacgatatcttggagccgtcatgtctagctccctc actctctcgagctgctcaaagcagagcctctccagtgccacagcccagggacagcccatg ggccgagaggagaactggaaacaccatcatagatggcagagccgtggagtggaacattcg gcagcagtaaaaggaatgaaactgaacagttttgaaaatccgagtgaaaagccagctgca aaggcatctgtaaggcctccccagcccggctgccccgccttcatcatcgtcaagctgagc ccgctgcgggaccgcctcgtggtgacggagtgccagctgacccactcacacccggcctgc ccgctggagttcgcctactacttccgcccgggccacctgctggccaacgcctgcctgccg gtgcgcaccaccaacaagatctccaagcagttcgtggccccagccgacgtgcgccgcctg ctgtcctactgcaagggccgcgaccacggcgtcctggacgccctgcacgtgctcgagggc ctcttccgcaccgaccccgaggccaaggtgaagctggtgttcgtggaggaccaggctgtg gtggagacggtgttcttcctgacgtcgcgcaccagggcgctgctgcggcgcttccctcgc atgctgctggtggaccggctgccggggctgcagggcgcgctggatctgctggccgtgctg tgcgtggacggctcgggccgtgcgcgccaggctgcctgctgcgtggcgcgcccgggcaca ccgagcctgctgcgcttcgcgctcgcgtcgctgctgcagagcgcgccagacgtcaagggc cgcgtgcgctgcctcaccgccgggcccgaggtggcggcgcagttgcctgcagtgcgccag ctgctgccctgcgcgcgcgtgcagatctgccgcgcgcagggcctggagacgctcttcagc aaggcgcaggagctgggcggcgccggccgcgaggacccgggcctgtggtcgcgcctgtgc cgcctggctggcgcgtcgtcgcccgcagcctacgacgaggcgctggccgagctccacgcc cacggcccagccgccttcgtggactacttcgagcgcaactgggagccccgccgcgacatg tgggtccgcttccgcgccttcgaggcggccagagacctggacgcgtgtgccctggtgcga ggccaccgccggcgactgctgcgtcgtctcagcccctcgcgtggcgtggcgcagtgcctt cgcgacctggtggccatgcagtgggccgacgcggccggggaggcggtgcccgaggggccc gatggcggggggccttggctggaggatgagccagggaggggagcccagggggagaacgag agggtgaggggcctggagacaggcgactggggaggggctccgaaagaaggaagtatttgg aggggagcccagatggagaaggagtgggcaagggcactggaaaccagagactggggcggg gctcagttcgaaggtgagaaggggagggcactgcagatcagagattggagagggggtcgg ttggagaatcagaagccgaggggactggaagggggtgtcttgagagggtcgaagttagag aaagggcacctgagagggccagagattagagactggagggggccccagttggagggtgag aaagattggggactggaaggttatgtctggagggggtcccagttggaggaccaggcgcta agaggattggaagggtatacctggagggtggcccagctggaagatcgcaggagtaccacc gacctgagggggacccagtttgactatgagagggtcaggagtcttgaaggaagcccctgg aggggggcgcagctgcacgatgaaagggcagggggactgagaactgcagaatggaagggg ccacagtcagaagtagagaaggggagggggctggaggtcagaaacttgagggggatcccc ttggagaagtccctggagttggcccctgagaacggagaccaaaggggaccccagtgggaa gatgagaggaggagagggccagagattgcagaggagaggggagcgagggtgggggtcaaa agaagaaggggcctggaggatatagttctggtccagctgggagacacgagggtcacaggc atggagaatggagatggagggggagcccggtccgtgggccccaagagccgagccggacga gggatggagtggggagacgcaggagggcggtgtctagggctggggaatggagtcgtgtct ggcaccccggtggggactgtattggaaggcagcccagaatgggcagcggcgaggagtgaa cacctggctgcaggtgacggcctgcaggaaggaggcgaagatggccccagggaaccaaag aggctttgccgacccccgggagaggaggaggtggactgggaacccctggccaaattccga gcagcctgcgggccagagctggcagacctggtggctgaggagttggcctttgctaggcag catgggacccggggtttccactggaccggagctggctttgcccttaaggacggcacctcg gacttcttcctggatggggccctgacacgctgcagctgctcaattcacgccgcccgccgt ctgccctgcagacacctctttgcagcgcgcctcctcactggggctgccttattccacatg gacctgctcagggattgctgggggagagccccagagccctga >gi568815579r:48111713_48334478|GENSCAN_predicted_peptide_3|85_aa MELWARGFYCAGPHTQQRDLDAKALVALSRLGVVAFWLLQQEIQVANGRELSFEEIHRTK SRRERGNLTLFEPLQSAAIKAFDFA >gi568815579r:48111713_48334478|GENSCAN_predicted_CDS_3|258_bp atggagctctgggcccgcgggttctactgcgcaggccctcacactcagcaaagggacttg gacgcgaaagcgctggtggcgctcagccggctgggagttgtagctttctggctgctacag caggagatacaggtggccaatgggagagagctgtcttttgaagaaatccatcgcacgaaa agcaggcgagagaggggaaacctgacattgtttgagcccctgcagtcagctgccatcaaa gcctttgacttcgcatga >gi568815579r:48111713_48334478|GENSCAN_predicted_peptide_4|412_aa MGIPTSSVSEEQESSEGQDSGDICSEENQIVSSYASKVCFEIEEDYKNRQFLGPEGNVDV ELIDKSTNRYSVWFPTAGWYLWSATGLGFLVRDEVTVTIAFGSWSQHLALDLQHHEQWLV GGPLFDVTAEPEEAVAEIHLPHFISLQAGEVDVSWFLVAHFKNEGMVLEHPARVEPFYAV LESPSFSLMGILLRIASGTRLSIPITSNTLIYYHPHPEDIKFHLYLVPSDALLTKAIDDE EDRFHGVRLQTSPPMEPLNFGSSYIVSNSANLKVMPKELKLSYRSPGEIQHFSKFYAGQM KEPIQLEITEKRHGTLVWDTEVKPGAAFVKENHRQLQARMGDLKGVLDDLQDNEVLTENE KELVEQEKTRQSKNEALLSMVEKKGDLALDVLFRSISERDPYLVSYLRQQNL >gi568815579r:48111713_48334478|GENSCAN_predicted_CDS_4|1239_bp atggggatcccaacctccagtgtatcagaagagcaggaatcttcagagggacaagattca ggagacatttgctcagaagagaatcaaatagtttcctcttatgcttctaaagtctgtttt gagatcgaagaagattataaaaatcgtcagtttctggggcctgaaggaaatgtggatgtt gagttgattgataagagcacaaacagatacagcgtttggttccccactgctggctggtat ctgtggtcagccacaggcctcggcttcctggtaagggatgaggtcacagtgacgattgcg tttggttcctggagtcagcacctggccctggacctgcagcaccatgaacagtggctggtg ggcggccccttgtttgatgtcactgcagagccagaggaggctgtcgccgaaatccacctc ccccacttcatctccctccaagcaggtgaggtggacgtctcctggtttctcgttgcccat tttaagaatgaagggatggtcctggagcatccagcccgggtggagcctttctatgctgtc ctggaaagccccagcttctctctgatgggcatcctgctgcggatcgccagtgggactcgc ctctccatccccatcacttccaacacattgatctattatcacccccaccccgaagatatt aagttccacttgtaccttgtccccagcgacgccttgctaacaaaggcgatagatgatgag gaagatcgcttccatggtgtgcgcctgcagacttcgcccccaatggaacccctgaacttt ggttccagttatattgtgtctaattctgctaacctgaaagtaatgcccaaggagttgaaa ttgtcctacaggagccctggagaaattcagcacttctcaaaattctatgctgggcagatg aaggaacccattcaacttgagattactgaaaaaagacatgggactttggtgtgggatact gaggtgaagccaggtgcagcctttgtgaaggagaaccaccggcaactccaagccaggatg ggggacctgaaaggggtgctcgatgatctccaagacaatgaggttcttactgagaatgag aaggagctggtggagcaggaaaagacacggcagagcaagaatgaggccttgctgagcatg gtggagaagaaaggggacctggccctggacgtgctcttcagaagcattagtgaaagggac ccttacctcgtgtcctatcttagacagcagaatttgtaa >gi568815579r:48111713_48334478|GENSCAN_predicted_peptide_5|459_aa MEKLAPSYTAGGNGNWRFGKQSGSSLKGNTGKPGLAVTLVTNMSQDSVTFADVAVNFTKE EWTLLDPAQRNLYRDVMLENSRNLAFIDWATPCKTKDATPQPDILPKRTFPEANRVCLTS ISSQHSTLREDWRCPKTEEPHRQGVNNVKPPAVAPEKDESPVSICEDHEMRNHSKPTCRL VPSQGDSIRQCILTRDSSIFKYNPVLNDSQKTHENNEDDGVLGWNIQWVPCGRKTELKSS TWTGSQNTVHHIRDEIDTGANRHQRNPFGKAFREDGSLRAHNTHGREKMYDFTQCENTSR NNSIHAMQMQLYTAETNKKDCQTGATSANAPNSGSHKSHCTGEKTHKCPECGRAFFYQSF LMRHMKIHTGEKPYECGKCGKAFRYSLHLNKHLRKHVVQKKPYECEECGKVIRESSKYTH IRSHTGEKPYKCKTCGKDFAKSSGLKKHLKTHKDEKPCE >gi568815579r:48111713_48334478|GENSCAN_predicted_CDS_5|1380_bp atggagaagctggccccctcctacactgctggtgggaatggaaattggcgctttggaaaa cagtctggcagttccttgaagggaaacacggggaagccaggactggccgtcacgttggtg acaaatatgtcccaggactcggtgaccttcgcagacgtggctgtgaacttcaccaaagag gagtggaccctgctggacccagctcagaggaatctctacagagacgtgatgctggaaaat tctaggaacttggcattcatagattgggcaactccatgtaaaaccaaagacgcaacccct cagccggatattcttcctaaaagaacatttcctgaagccaacagagtgtgtctcacgagc atcagttcccagcactccacattaagagaagactggagatgccccaaaacagaggaacca cacaggcagggggtgaataatgtgaagccacctgcagttgcccctgagaaagatgaatct cctgttagcatttgtgaagatcatgaaatgaggaaccactctaaacctacctgcaggctt gtgccttcacagggagattccataagacaatgtatcctaacacgtgactcaagtattttc aagtataatcctgtcttaaacgatagtcaaaaaacacatgaaaacaacgaagacgatgga gtcttggggtggaacattcagtgggttccgtgtgggagaaaaacagagctgaaatcaagc acatggactggcagtcagaacactgtgcatcatatacgtgatgaaattgatacgggggcc aacaggcaccagcggaatccatttggaaaagctttccgtgaagacggatcccttagggca cacaacactcatggtcgagagaaaatgtatgattttactcagtgcgagaacacctccaga aataactcaattcacgccatgcagatgcagttgtataccgcagagacaaacaagaaggat tgtcaaactggggcaacctctgccaacgctccaaattccggttcacacaagagtcattgc actggagagaaaacccataaatgccccgaatgtgggagagcctttttttatcagtcattc cttatgagacatatgaaaattcacactggagagaaaccgtatgaatgtgggaaatgtggg aaagcctttagatattccttacaccttaataaacatttaagaaagcatgttgtgcagaag aagccctacgaatgtgaagaatgtgggaaagtcattcgggagtcctcaaaatatacacat ataaggagccacactggagagaaaccctataaatgtaagacatgtggaaaagactttgca aagtcgtcaggacttaaaaaacatcttaagactcacaaagatgagaagccctgtgaatga >gi568815579r:48111713_48334478|GENSCAN_predicted_peptide_6|742_aa MRPKGGGAGTTVVDWELSRLQRQCKVMEGERRAYSKEVHQRINKQLEEIRRLEEVRGDLQ VQISAAQNQVKRLRDSQRLENMDRLLKGRAQVQAEIEELQEQTRALDKQCWGYKREPLCL ARNPFKKQKPVMRPQIQEWETRIFTHSKNVRSPGFILDQKVKIRRRIRILENQLDRVTCH FDNQLVRNAALREELDLLRIDRNRYLNVDRKLKKEIHHLHHLVSTLILSSTSAYAVREEA KAKMGLLRERAEKEEAQSEMEAQVLQRQILHLEQLHHFLKLKNNDRQPDPDVLEKREKQA GEVAEGVWKTSQERLVLCYEDALNKLSQLMGESDPDLLVQKYLEIEERNFAEFNFINEQN LELEHVQEEIKELHTPNSRGCHLAQHSALSPQMQEALVSARASKDDQHLLQEQQQKVLQQ RMDKVHSEAERLEARFQDVRGQLEKLKADIQLLFTKAHCDSSMIDDLLGVKTSMGDRDMG LFLSLIEKRLVELLTVQAFLHAQSFTSLADAALLVLGQSLEDLPKKMAPLQPPDTLEDPP GFEASDDYPMSREELLSQVEKLVELQEQAEAQRQKDLAAAAAKLDGTLSVDLASTQRAGS STVLVPTRHPHAIPGSILSHKTSRDRGSLGHVTFGGLSSSTGHLPSHITHGDPNTGHVTF GSTSASSGGHVTFRPVSASSYLGSTGYVGSSRGGENTEGGVESGGTASDSSGGLGSSRDH VSSTGPASSTGPGSSTSKDSRG >gi568815579r:48111713_48334478|GENSCAN_predicted_CDS_6|2229_bp atgcgccctaagggaggcggggcgggcaccacggtggtggattgggagctgagtaggctg cagcgacaatgcaaagtgatggaaggggagaggcgggcctacagcaaggaagtccaccag cgcatcaacaagcaacttgaggagatccggcgcttggaggaggtacggggcgatctccag gtgcagatcagcgcagcccagaaccaggtcaagcggcttcgggacagtcagcggctggag aacatggaccgcctgctgaagggccgggcccaggtgcaggcggagatcgaggagctgcag gagcagaccagggccctggacaagcagtgctggggttacaagcgtgagccattgtgcctg gctcggaacccctttaaaaaacaaaaaccagtgatgcggccacagatccaggagtgggag acgcggatctttacccacagtaagaatgtcaggtccccgggattcatcctggatcagaag gtcaagatcaggcgaaggatcaggatcctagaaaaccagttggacagggtcacctgtcac tttgacaaccagctggtacggaatgcggccctgcgggaggagctggatctgctgcggatc gacaggaaccgctatctgaacgtggaccgcaagctgaagaaggagatccaccacctgcat cacctggtcagcacccttatcctctcctccacctctgcctacgccgtcagggaggaggcg aaggccaagatgggcttgctgcgggagcgcgcggagaaagaggaggcccagagcgagatg gaggcgcaggtcctgcagcggcagatcttgcacctggagcagctgcaccacttcctcaag ctcaagaacaacgaccggcagccggatcccgatgtcctggagaagcgtgaaaagcaggcc ggggaggtggccgagggcgtctggaagacctcccaggagaggctggtgctttgctacgag gacgccctgaataaactgtcccagctgatgggggagagtgaccctgacctgttggtgcag aagtatctggagatcgaggagcgcaactttgctgagttcaacttcatcaacgagcagaac ttggagctggagcatgtgcaggaagagatcaaggagctccacacccccaactcccgaggc tgccatctggcccagcattcagccctgtccccacagatgcaggaggctttggtgagcgca cgtgccagcaaggatgaccagcatttgctgcaggagcagcagcagaaggtgttgcagcag cgcatggacaaggtgcactcggaggctgagcgccttgaggcccgcttccaggatgtgcgg ggacagctggagaagctcaaggctgatatccagctcctcttcaccaaggcccattgcgac agcagcatgatcgatgacctccttggggtcaagaccagcatgggagaccgggacatgggc ctcttcctgagcctcattgagaagcggctggtggagctcctgacagtgcaggccttccta catgcccagagcttcacctccctggccgacgctgccctcctagtgctgggccagagcctg gaggaccttccgaagaagatggccccacttcagccccctgacactctagaagaccccccg ggttttgaggccagcgatgactaccccatgagcagggaggagctgctgagccaagtggag aagctggtggagctccaggagcaggcggaggcgcagcgccagaaggacctggccgccgcc gccgcgaagctggacggcaccctgagcgtggacctggccagcacccagagggccggctcc agtaccgtcctggtgcccaccaggcacccccatgccatccccgggtccattttgagccac aagactagcagagaccgtggctctcttggccacgtcacttttggcggcctcagctccagc actgggcatttgcccagccacatcacgcacggtgaccccaacactggccacgtgaccttc ggctccaccagtgcctcgagtgggggccacgtgaccttcagacccgtcagcgccagcagc tacctgggctccactggatacgtggggtccagcaggggcggagaaaacacagagggtggt gtggagagcggaggcacagcgtctgattcgagcggaggcctcgggtccagcagagaccac gtctccagcaccggccctgcctccagcactggcccgggctcctccaccagcaaagactcc cggggctaa >gi568815579r:48111713_48334478|GENSCAN_predicted_peptide_7|163_aa MSLLLLVVSALHILILILLFVATLDKSWWTLPGKESLNLWYDCTWNNDTKTWACSNVSEN GWLKAVQVLMVLSLILCCLSFILFMFQLYTMRRGGLFYATGLCQLCTSVAVFTGALIYAI HAEEILEKHPRGGSFGYCFALAWVAFPLALVSGIIYIHLRKRE >gi568815579r:48111713_48334478|GENSCAN_predicted_CDS_7|492_bp atgtcactcctcttgctggtggtctcagcccttcacatcctcattcttatactgcttttc gtggccactttggacaagtcctggtggactctccctgggaaagagtccctgaatctctgg tacgactgcacgtggaacaacgacaccaaaacatgggcctgcagtaatgtcagcgagaat ggctggctgaaggcggtgcaggtcctcatggtgctctccctcattctctgctgtctctcc ttcatcctgttcatgttccagctctacaccatgcgacgaggaggtctcttctatgccacc ggcctctgccagctttgcaccagcgtggcggtgtttactggcgccttgatctatgccatt cacgccgaggagatcctggagaagcacccgcgagggggcagcttcggatactgcttcgcc ctggcctgggtggccttccccctcgccctggtcagcggcatcatctacatccacctacgg aagcgggagtga >gi568815579r:48111713_48334478|GENSCAN_predicted_peptide_8|134_aa MFGQRRSAQALELAHMLYYRSTSNNSELLSALALRAQDEHTKEALLAHSFLARRPGGTQG SPEETSRWLRSEVENWLLAKSGCEVTFNGTRALAHLQALTPSMGLYPPPGFPKLDPVAPI TSEPPQATPSSNIS >gi568815579r:48111713_48334478|GENSCAN_predicted_CDS_8|405_bp atgttcgggcagcggcgcagcgcgcaggcgttggagctggcgcacatgctgtactatcgc agtacgtccaacaactcggagctgctcagcgccctggccctgcgcgcgcaggacgagcac accaaggaggcgctgctggctcacagcttcctggcccggcggccagggggcactcaaggc tcgcccgaagagacctccaggtggctccggtcggaggtggagaactggctcctagccaag tcaggctgtgaggtgaccttcaacggaactcgggccctggcgcatctgcaggccctgacc cccagcatgggattgtacccacccccgggtttccccaaactagacccagtggctccgatc acttccgagcccccgcaagccacgcccagcagtaacatctcctga