Result of GENSCAN for
pF1KB8285
GENSCAN 1.0 Date run: 4-Nov-116 Time: 11:24:34 Sequence gi568815586f:56004738_56212885 : 208148 bp : 48.54% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.02 Intr - 2733 2560 174 2 0 70 86 164 0.034 13.45 1.01 Init - 3741 3737 5 0 2 101 94 0 0.480 1.37 1.00 Prom - 6393 6354 40 -6.16 2.00 Prom + 9109 9148 40 -8.06 2.01 Init + 12283 12303 21 0 0 103 87 11 0.614 2.26 2.02 Intr + 13386 13440 55 2 1 67 72 56 0.448 0.45 2.03 Intr + 16626 16713 88 1 1 63 113 86 0.874 7.63 2.04 Intr + 19153 19227 75 1 0 106 77 58 0.928 5.13 2.05 Intr + 20034 20095 62 0 2 63 97 5 0.838 -2.72 2.06 Intr + 20317 20421 105 2 0 102 103 73 0.985 10.39 2.07 Intr + 22044 22304 261 1 0 59 119 468 0.869 44.46 2.08 Intr + 23043 23210 168 1 0 106 82 106 0.984 11.72 2.09 Intr + 27839 27973 135 0 0 99 91 127 0.705 14.64 2.10 Intr + 28453 28584 132 2 0 102 82 168 0.999 18.22 2.11 Intr + 29834 30585 752 0 2 118 86 645 0.284 58.48 2.12 Intr + 37688 37865 178 1 1 79 115 247 0.864 25.99 2.13 Intr + 38626 38756 131 2 2 89 101 69 0.992 8.71 2.14 Term + 39382 39417 36 0 0 127 49 11 0.521 -1.56 2.15 PlyA + 39464 39469 6 1.05 3.00 Prom + 66453 66492 40 -3.46 3.01 Init + 75564 75645 82 2 1 84 111 136 0.989 14.65 3.02 Intr + 79014 79165 152 1 2 87 92 235 0.999 23.68 3.03 Intr + 80258 80444 187 1 1 88 77 273 0.488 25.46 3.04 Intr + 81794 81919 126 0 0 118 87 94 0.988 12.95 3.05 Intr + 83058 83176 119 1 2 105 25 124 0.996 7.98 3.06 Intr + 83284 83425 142 0 1 108 105 105 0.986 14.13 3.07 Intr + 83806 83919 114 2 0 132 98 23 0.945 8.12 3.08 Intr + 84011 84131 121 0 1 92 20 224 0.999 15.55 3.09 Intr + 88010 88083 74 2 2 73 109 130 0.999 12.65 3.10 Intr + 88249 88339 91 2 1 97 89 46 0.999 4.65 3.11 Intr + 88608 88813 206 0 2 86 77 159 0.931 13.44 3.12 Intr + 89027 89159 133 0 1 112 27 6 0.613 -3.40 3.13 Intr + 89362 89452 91 1 1 101 -1 74 0.583 -0.20 3.14 Intr + 89665 89819 155 0 2 108 44 115 0.310 7.97 3.15 Intr + 90928 91069 142 1 1 47 105 74 0.315 5.36 3.16 Intr + 91766 91885 120 1 0 107 87 62 0.997 8.69 3.17 Intr + 92011 92109 99 0 0 72 95 85 0.987 7.91 3.18 Intr + 92308 92493 186 0 0 56 100 133 0.984 11.19 3.19 Intr + 93048 93203 156 2 0 68 100 123 0.997 11.71 3.20 Intr + 93763 93838 76 0 1 115 61 27 0.997 1.79 3.21 Intr + 94022 94168 147 0 0 72 65 208 0.852 17.11 3.22 Intr + 94911 95008 98 1 2 80 113 105 0.999 11.93 3.23 Intr + 95101 95292 192 0 0 8 78 191 0.962 9.79 3.24 Intr + 95437 95508 72 0 0 113 111 5 0.736 4.90 3.25 Intr + 96528 96624 97 2 1 12 46 78 0.476 -4.42 3.26 Term + 96792 97318 527 1 2 92 35 256 0.944 15.13 3.27 PlyA + 98267 98272 6 1.05 4.00 Prom + 99009 99048 40 -5.06 4.01 Init + 100001 100088 88 1 1 67 79 189 0.992 16.70 4.02 Intr + 101851 101979 129 2 0 82 93 130 0.999 13.57 4.03 Intr + 102253 102358 106 2 1 80 73 7 0.984 -2.33 4.04 Intr + 102450 102519 70 0 1 89 96 67 0.985 6.78 4.05 Intr + 102784 102876 93 0 0 67 115 46 0.951 5.36 4.06 Intr + 104493 104556 64 2 1 76 100 2 0.943 -1.51 4.07 Intr + 105120 105198 79 1 1 51 50 88 0.906 -0.09 4.08 Intr + 105662 105740 79 2 1 90 100 100 0.996 10.95 4.09 Intr + 105822 105955 134 2 2 71 74 70 0.996 3.34 4.10 Intr + 106227 106321 95 0 2 64 96 163 0.999 14.31 4.11 Intr + 106445 106572 128 0 2 77 96 137 0.977 13.80 4.12 Intr + 106739 106792 54 1 0 130 93 15 0.969 5.38 4.13 Intr + 108243 108342 100 2 1 82 78 70 0.347 5.08 4.14 Intr + 113327 113581 255 0 0 74 94 178 0.252 14.42 4.15 Intr + 114351 114414 64 1 1 93 69 56 0.534 1.98 4.16 Term + 115774 117130 1357 1 1 89 45 975 0.708 84.22 4.17 PlyA + 117734 117739 6 1.05 5.00 Prom + 121482 121521 40 -5.76 5.01 Init + 123583 123972 390 0 0 102 80 314 0.934 28.77 5.02 Intr + 124465 124650 186 0 0 64 -2 138 0.761 2.29 5.03 Intr + 125845 125886 42 0 0 114 100 37 0.984 5.94 5.04 Intr + 126054 126188 135 2 0 128 95 58 0.997 11.26 5.05 Intr + 126303 126376 74 2 2 103 90 70 0.998 6.90 5.06 Intr + 126507 126579 73 0 1 57 96 56 0.998 2.71 5.07 Intr + 126740 126829 90 1 0 75 107 85 0.996 9.29 5.08 Intr + 127012 127067 56 0 2 118 37 78 0.982 3.48 5.09 Intr + 127472 127595 124 2 1 79 51 117 0.992 7.69 5.10 Intr + 127684 127860 177 0 0 100 59 200 0.984 18.42 5.11 Intr + 127982 128064 83 1 2 112 94 108 0.999 12.24 5.12 Intr + 128680 128866 187 1 1 81 86 26 0.344 1.39 5.13 Intr + 129044 129136 93 1 0 70 76 93 0.981 6.46 5.14 Intr + 129373 129444 72 0 0 70 100 53 0.891 4.30 5.15 Intr + 129605 129691 87 1 0 99 52 96 0.921 7.27 5.16 Intr + 132007 132156 150 0 0 101 51 128 0.998 10.76 5.17 Intr + 132481 132636 156 0 0 62 105 87 0.995 8.01 5.18 Intr + 132762 132938 177 2 0 106 55 158 0.973 14.42 5.19 Intr + 133095 133177 83 2 2 79 94 106 0.990 8.74 5.20 Intr + 133289 133337 49 2 1 90 83 -7 0.813 -2.32 5.21 Intr + 133446 133535 90 2 0 75 75 45 0.651 2.09 5.22 Intr + 133667 133762 96 1 0 111 97 86 0.999 12.01 5.23 Intr + 134031 134102 72 2 0 41 86 53 0.500 0.00 5.24 Intr + 137548 137688 141 0 0 108 84 56 0.773 7.75 5.25 Intr + 137841 137995 155 2 2 95 103 91 0.997 10.17 5.26 Intr + 138098 138196 99 2 0 62 97 43 0.767 1.83 5.27 Intr + 138280 138411 132 1 0 108 73 126 0.961 12.86 5.28 Intr + 138491 138596 106 2 1 31 116 63 0.898 3.62 5.29 Intr + 138843 138892 50 2 2 86 89 28 0.708 0.18 5.30 Intr + 145213 145249 37 1 1 118 103 -12 0.011 1.56 5.31 Intr + 149194 149355 162 0 0 24 89 105 0.018 4.37 5.32 Intr + 150076 150103 28 0 1 146 72 38 0.999 5.69 5.33 Intr + 150318 150461 144 1 0 61 77 305 0.999 26.95 5.34 Intr + 150682 150855 174 2 0 89 73 150 0.999 13.51 5.35 Intr + 152731 152808 78 2 0 29 72 196 0.967 11.62 5.36 Intr + 154850 154993 144 0 0 48 77 269 0.995 22.05 5.37 Intr + 155238 155411 174 1 0 93 82 337 0.999 33.51 5.38 Intr + 155506 155583 78 2 0 114 116 89 0.999 13.82 5.39 Term + 156650 156678 29 0 2 124 55 40 0.943 2.54 5.40 PlyA + 156819 156824 6 1.05 6.30 PlyA - 157202 157197 6 1.05 6.29 Term - 159028 158952 77 2 2 158 55 25 0.977 4.20 6.28 Intr - 159631 159566 66 2 0 58 94 43 0.361 0.78 6.27 Intr - 160962 160581 382 0 1 32 115 248 0.982 16.38 6.26 Intr - 163457 163323 135 2 0 115 73 238 0.999 25.76 6.25 Intr - 164958 164792 167 1 2 45 100 243 0.999 20.88 6.24 Intr - 165174 165039 136 0 1 65 71 199 0.975 16.04 6.23 Intr - 165471 165407 65 1 2 54 75 103 0.998 4.04 6.22 Intr - 166695 166534 162 1 0 76 87 207 0.944 19.35 6.21 Intr - 167200 166942 259 1 1 25 63 265 0.787 14.74 6.20 Intr - 167753 167691 63 2 0 125 76 24 0.929 3.81 6.19 Intr - 167967 167848 120 0 0 64 97 83 0.765 7.49 6.18 Intr - 168292 168200 93 1 0 79 82 115 0.988 10.16 6.17 Intr - 169112 168959 154 1 1 106 91 30 0.992 5.17 6.16 Intr - 170027 169914 114 1 0 77 90 131 0.995 11.76 6.15 Intr - 173356 173285 72 0 0 80 67 139 0.998 9.52 6.14 Intr - 173797 173667 131 1 2 37 52 183 0.994 9.09 6.13 Intr - 174110 174073 38 0 2 108 44 48 0.999 0.38 6.12 Intr - 174319 174260 60 2 0 90 86 94 0.996 8.11 6.11 Intr - 176364 176240 125 2 2 101 92 152 0.999 17.13 6.10 Intr - 176860 176745 116 1 2 90 49 95 0.999 5.05 6.09 Intr - 177098 176967 132 2 0 91 46 223 0.999 19.24 6.08 Intr - 177342 177267 76 2 1 51 105 62 0.895 3.72 6.07 Intr - 179193 179124 70 1 1 99 94 64 0.975 6.34 6.06 Intr - 179507 179438 70 2 1 88 100 30 0.978 2.95 6.05 Intr - 180199 180107 93 1 0 148 99 -8 0.607 6.46 6.04 Intr - 180393 180293 101 1 2 32 90 135 0.004 7.93 6.03 Intr - 181487 181418 70 2 1 49 81 10 0.003 -4.85 6.02 Intr - 182569 182450 120 1 0 87 117 111 0.991 14.59 6.01 Init - 184724 184614 111 2 0 92 107 343 0.999 36.81 6.00 Prom - 194110 194071 40 -3.96 7.05 PlyA - 194890 194885 6 1.05 7.04 Term - 202061 201710 352 1 1 73 48 316 0.923 20.06 7.03 Intr - 203012 202909 104 2 2 79 70 193 0.998 15.57 7.02 Intr - 203561 203426 136 1 1 78 96 244 0.931 24.77 7.01 Intr - 205831 205560 272 1 2 132 72 326 0.936 31.74 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Intr - 180416 180293 124 1 1 73 90 123 0.959 11.59 S.002 Intr - 181503 181418 86 0 2 78 81 27 0.993 -0.38 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815586f:56004738_56212885|GENSCAN_predicted_peptide_1|60_aa MSRPPPPNNFRSHYQATGGVAEHRASPSPGDCWGKMGEELGESSRAPKDSNPKGTIVCRS >gi568815586f:56004738_56212885|GENSCAN_predicted_CDS_1|180_bp atgagccgtccccctccccctaacaacttccggtcccactaccaggcgacaggcggcgtg gccgaacaccgagcgtccccaagcccgggagactgctgggggaaaatgggagaggagcta ggggagagtagccgagcgccgaaagattcaaatccgaaaggcaccatcgtctgccgaagn >gi568815586f:56004738_56212885|GENSCAN_predicted_peptide_2|732_aa MPAAILEQNLFKMDIEDCNGRSYVSAVGLCSPCRCCCLRNDGGSPHFQESTLPGRPVCTH PCMFMLADNVEGYQYVYPNSLSPASCGRQAVMLLPSGLDKGSGDSSLEKEFLGAPVGPSV STPNSQHSSPSRSLSANSIKVEMYSDEESSRLLGPDERLLEKDDSVIVEDSLSEPLGYCD GSGPEPHSPGGIRLPNGKLKCDVCGMVCIGPNVLMVHKRSHTGERPFHCNQCGASFTQKG NLLRHIKLHSGEKPFKCPFCNYACRRRDALTGHLRTHSVGKPYKCNYCGRSYKQQSTLEE HKERCHNYLQSLSTEAQALAGQPGDEIRDLEMVPDSMLHSSSERPTFIDRLANSLTKRKR STPQKFVGEKQMRFSLSDLPYDVNSGGYEKDVELVAHHSLEPGFGSSLAFVGAEHLRPLR LPPTNCISELTPVISSVYTQMQPLPGRLELPGSREAGEGPEDLADGGPLLYRPRGPLTDP GASPSNGCQDSTDTESNHEDRVAGVVSLPQGPPPQPPPTIVVGRHSPAYAKEDPKPQEGL LRGTPGPSKEVLRVVGESGEPVKAFKCEHCRILFLDHVMFTIHMGCHGFRDPFECNICGY HSQDRYEFSSHIVRGEHKTKKRRNNGRAKKGRGHVQPIRCTNCARCVPKDKAIKKFVIRN IVEAAAVRDISEASVFDAYVLPKLYVKLHYCVSCAIHSKVVRNRSREARKDRTPPPRFRP AGAAPRPPPKPM >gi568815586f:56004738_56212885|GENSCAN_predicted_CDS_2|2199_bp atgccagccgcaattttggagcagaatctctttaaaatggacatagaagactgcaatggc cgctcctatgtgtctgccgtgggcctctgctcaccgtgccgctgctgctgcctgcgaaat gacggcggttcccctcacttccaggaatccacgcttcctggaaggcctgtgtgcacacat ccatgcatgttcatgttagcagataatgtagaaggctaccagtatgtttatcccaatagc ctcagccctgcttcctgtggacgtcaggcagtgatgctcttgccctcaggcctagataaa ggtagcggggactcatctctggagaaggagttcctcggggccccagtggggccctcggtg agcacccccaacagccagcactcttctcctagccgctcactcagtgccaactccatcaag gtggagatgtacagcgatgaggagtcaagcagactgctggggccagatgagcggctcctg gaaaaggacgacagcgtgattgtggaagattcattgtctgagcccctgggctactgtgat gggagtgggccagagcctcactcccctgggggcatccggctgcccaatggcaagctcaag tgtgacgtctgcggcatggtctgtattggacccaacgtgctcatggtgcacaagcgcagt cacactggtgaaaggcccttccattgcaaccagtgtggtgcctccttcacccagaagggg aacctgctgcgccacatcaagctgcactctggggagaagccctttaaatgtcccttctgc aactatgcctgccgccggcgtgatgcactcactggtcacctccgcacacactcagtgggc aagccctacaagtgtaactactgtggccggagctacaaacagcagagtaccctggaggag cacaaggagcggtgccataactacctacagagtctcagcactgaagcccaagctttggct ggccaaccaggtgacgaaatacgtgacctggagatggtgccagactccatgctgcactca tcctctgagcggccaactttcatcgatcgtctggccaatagcctcaccaaacgcaagcgt tccacaccccagaagtttgtaggcgaaaagcagatgcgcttcagcctctcagacctcccc tatgatgtgaactcgggtggctatgaaaaggatgtggagttggtggcacaccacagccta gagcctggctttggaagttccctggcctttgtgggtgcagagcatctgcgtcccctccgc cttccacccaccaattgcatctcagaactcacgcctgtcatcagctctgtctacacccag atgcagcccctccctggtcgactggagcttccaggatcccgagaagcaggtgagggacct gaggacctggctgatggaggtcccctcctctaccggccccgaggccccctgactgaccct ggggcatcccccagcaatggctgccaggactccacagacacagaaagcaaccacgaagat cgggttgcgggggtggtatccctccctcagggtcccccaccccagccacctcccaccatt gtggtgggccggcacagtcctgcctacgccaaagaggaccccaagccacaggaggggtta ttgcggggcaccccaggcccctccaaggaagtgcttcgggtggtgggcgagagtggtgag cctgtgaaggccttcaagtgtgagcactgccgtatcctcttcctggaccacgtcatgttc actatccacatgggctgccatggcttcagagacccttttgagtgcaacatctgtggttat cacagccaggaccggtacgaattctcttcccacattgtccggggggagcataagacaaag aaaagaaggaacaatggtcgtgccaaaaagggccgcggccacgtgcagcctattcgctgc actaactgtgcccgatgcgtgcccaaggacaaggccattaagaaattcgtcattcgaaac atagtggaggccgcagcagtcagggacatttctgaagcgagcgtcttcgatgcctatgtg cttcccaagctgtatgtgaagctacattactgtgtgagttgtgcaattcacagcaaagta gtcaggaatcgatctcgtgaagcccgcaaggaccgaacacccccaccccgatttagacct gcgggtgctgccccacgtcccccaccaaagcccatgtaa >gi568815586f:56004738_56212885|GENSCAN_predicted_peptide_3|1234_aa MRANDALQVLGLLFSLARGSEVGNSQAVCPGTLNGLSVTGDAENQYQTLYKLYERCEVVM GNLEIVLTGHNADLSFLQWIREVTGYVLVAMNEFSTLPLPNLRVVRGTQVYDGKFAIFVM LNYNTNSSHALRQLRLTQLTEILSGGVYIEKNDKLCHMDTIDWRDIVRDRDAEIVVKDNG RSLTKTICAPQCNGHCFGPNPNQCCHDECAGGCSGPQDTDCFACRHFNDSGACVPRCPQP LVYNKLTFQLEPNPHTKYQYGGVCVASCPHNFVVDQTSCVRACPPDKMEVDKNGLKMCEP CGGLCPKACEGTGSGSRFQTVDSSNIDGFVNCTKILGNLDFLITGLNGDPWHKIPALDPE KLNVFRTVREITGYLNIQSWPPHMHNFSVFSNLTTIGGRSLYNRGFSLLIMKNLNVTSLG FRSLKEISAGRIYISANRQLCYHHSLNWTKVLRGPTEERLDIKHNRPRRDCVAEGKVCDP LCSSGGCWGPGPGQCLSCRNYSRGGVCVTHCNFLNGEPREFAHEAECFSCHPECQPMEGT ATCNGSGSDTCAQCAHFRDGPHCVSSCPHGVLGAKGPIYKYPDVQNECRPCHENCTQGKT HLTMALTVIAGLVVIFMMLGGTFLYWRGRRIQNKRAMRRYLERGESIEPLDPSEKANKVL ARIFKETELRKLKVLGSGVFGTVHKGVWIPEGESIKIPVCIKVIEDKSGRQSFQAVTDHM LAIGSLDHAHIVRLLGLCPGSSLQLVTQYLPLGSLLDHVRQHRGALGPQLLLNWGVQIAK GMYYLEEHGMVHRNLAARNVLLKSPSQVQVADFGVADLLPPDDKQLLYSEAKTPIKWMAL ESIHFGKYTHQSDVWSYGVTVWELMTFGAEPYAGLRLAEVPDLLEKGERLAQPQICTIDV YMVMVKCWMIDENIRPTFKELANEFTRMARDPPRYLVIKRESGPGIAPGPEPHGLTNKKL EEVELEPELDLDLDLEAEEDNLATTTLGSALSLPVGTLNRPRGSQSLLSPSSGYMPMNQG NLGESCQRHSLLTPVTPLSPPGLEEEDVNGYVMPDTHLKGTPSSREGTLSSVGLSSVLGT EEEDEDEEYEYMNRRRRHSPPHPPRPSSLEELGYEYMDVGSDLSASLGSTQSCPLHPVPI MPTAGTTPDEDYEYMNRQRDGGGPGGDYAAMGACPASEQGYEEMRAFQGPGHQAPHVHYA RLKTLRSLEATDSAFDNPDYWHSRLFPKANAQRT >gi568815586f:56004738_56212885|GENSCAN_predicted_CDS_3|3705_bp atgagggcgaacgacgctctgcaggtgctgggcttgcttttcagcctggcccggggctcc gaggtgggcaactctcaggcagtgtgtcctgggactctgaatggcctgagtgtgaccggc gatgctgagaaccaataccagacactgtacaagctctacgagaggtgtgaggtggtgatg gggaaccttgagattgtgctcacgggacacaatgccgacctctccttcctgcagtggatt cgagaagtgacaggctatgtcctcgtggccatgaatgaattctctactctaccattgccc aacctccgcgtggtgcgagggacccaggtctacgatgggaagtttgccatcttcgtcatg ttgaactataacaccaactccagccacgctctgcgccagctccgcttgactcagctcacc gagattctgtcagggggtgtttatattgagaagaacgataagctttgtcacatggacaca attgactggagggacatcgtgagggaccgagatgctgagatagtggtgaaggacaatggc agaagcttgaccaagaccatctgtgctcctcagtgtaatggtcactgctttgggcccaac cccaaccagtgctgccatgatgagtgtgccgggggctgctcaggccctcaggacacagac tgctttgcctgccggcacttcaatgacagtggagcctgtgtacctcgctgtccacagcct cttgtctacaacaagctaactttccagctggaacccaatccccacaccaagtatcagtat ggaggagtttgtgtagccagctgtccccataactttgtggtggatcaaacatcctgtgtc agggcctgtcctcctgacaagatggaagtagataaaaatgggctcaagatgtgtgagcct tgtgggggactatgtcccaaagcctgtgagggaacaggctctgggagccgcttccagact gtggactcgagcaacattgatggatttgtgaactgcaccaagatcctgggcaacctggac tttctgatcaccggcctcaatggagacccctggcacaagatccctgccctggacccagag aagctcaatgtcttccggacagtacgggagatcacaggttacctgaacatccagtcctgg ccgccccacatgcacaacttcagtgttttttccaatttgacaaccattggaggcagaagc ctctacaaccggggcttctcattgttgatcatgaagaacttgaatgtcacatctctgggc ttccgatccctgaaggaaattagtgctgggcgtatctatataagtgccaataggcagctc tgctaccaccactctttgaactggaccaaggtgcttcgggggcctacggaagagcgacta gacatcaagcataatcggccgcgcagagactgcgtggcagagggcaaagtgtgtgaccca ctgtgctcctctgggggatgctggggcccaggccctggtcagtgcttgtcctgtcgaaat tatagccgaggaggtgtctgtgtgacccactgcaactttctgaatggggagcctcgagaa tttgcccatgaggccgaatgcttctcctgccacccggaatgccaacccatggagggcact gccacatgcaatggctcgggctctgatacttgtgctcaatgtgcccattttcgagatggg ccccactgtgtgagcagctgcccccatggagtcctaggtgccaagggcccaatctacaag tacccagatgttcagaatgaatgtcggccctgccatgagaactgcacccagggcaaaacc catctgacaatggctttgacagtgatagcaggattggtagtgattttcatgatgctgggc ggcacttttctctactggcgtgggcgccggattcagaataaaagggctatgaggcgatac ttggaacggggtgagagcatagagcctctggaccccagtgagaaggctaacaaagtcttg gccagaatcttcaaagagacagagctaaggaagcttaaagtgcttggctcgggtgtcttt ggaactgtgcacaaaggagtgtggatccctgagggtgaatcaatcaagattccagtctgc attaaagtcattgaggacaagagtggacggcagagttttcaagctgtgacagatcatatg ctggccattggcagcctggaccatgcccacattgtaaggctgctgggactatgcccaggg tcatctctgcagcttgtcactcaatatttgcctctgggttctctgctggatcatgtgaga caacaccggggggcactggggccacagctgctgctcaactggggagtacaaattgccaag ggaatgtactaccttgaggaacatggtatggtgcatagaaacctggctgcccgaaacgtg ctactcaagtcacccagtcaggttcaggtggcagattttggtgtggctgacctgctgcct cctgatgataagcagctgctatacagtgaggccaagactccaattaagtggatggccctt gagagtatccactttgggaaatacacacaccagagtgatgtctggagctatggtgtgaca gtttgggagttgatgaccttcggggcagagccctatgcagggctacgattggctgaagta ccagacctgctagagaagggggagcggttggcacagccccagatctgcacaattgatgtc tacatggtgatggtcaagtgttggatgattgatgagaacattcgcccaacctttaaagaa ctagccaatgagttcaccaggatggcccgagacccaccacggtatctggtcataaagaga gagagtgggcctggaatagcccctgggccagagccccatggtctgacaaacaagaagcta gaggaagtagagctggagccagaactagacctagacctagacttggaagcagaggaggac aacctggcaaccaccacactgggctccgccctcagcctaccagttggaacacttaatcgg ccacgtgggagccagagccttttaagtccatcatctggatacatgcccatgaaccagggt aatcttggggagtcttgccagcgccacagtctgctgactcctgttaccccactctcccca cccgggttagaggaagaggatgtcaacggttatgtcatgccagatacacacctcaaaggt actccctcctcccgggaaggcaccctttcttcagtgggtctcagttctgtcctgggtact gaagaagaagatgaagatgaggagtatgaatacatgaaccggaggagaaggcacagtcca cctcatccccctaggccaagttcccttgaggagctgggttatgagtacatggatgtgggg tcagacctcagtgcctctctgggcagcacacagagttgcccactccaccctgtacccatc atgcccactgcaggcacaactccagatgaagactatgaatatatgaatcggcaacgagat ggaggtggtcctgggggtgattatgcagccatgggggcctgcccagcatctgagcaaggg tatgaagagatgagagcttttcaggggcctggacatcaggccccccatgtccattatgcc cgcctaaaaactctacgtagcttagaggctacagactctgcctttgataaccctgattac tggcatagcaggcttttccccaaggctaatgcccagagaacgtaa >gi568815586f:56004738_56212885|GENSCAN_predicted_peptide_4|964_aa MSGEDEQQEQTIAEDLVVTKYKMGGDIANRVLRSLVEASSSGVSVLSLCEKGDAMIMEET GKIFKKEKEMKKGIAFPTSISVNNCVCHFSPLKSDQDYILKEGDLVKIDLGVHVDGFIAN VAHTFVVDVAQGTQVTGRKADVIKAAHLCAEAALRLVKPGNQNTQVTEAWNKVAHSFNCT PIEGMLSHQLKQHVIDGEKTIIQNPTDQQKKDHEKAEFEVHEVYAVDVLVSSGEGKAKDA GQRTTIYKRDPSKQYGLKMKTSRAFFSEVERRFDAMPFTLRAFEDEKKARMGVVECAKHE LLQPFNVLYEKEGEFVAQFKFTVLLMPNGPMRITSGPFEPDLYKSEMEVQDAELKALLQS SASRKTQKKKKKKDRQQSGGISLPPPQFPNPLPSNNNQLQLTLVLGGGLPWRLPLRPCRA FGLGCHSDTQSVLGTPCGMSHAYFIHHRVWFRVCWLERHFFRRKRKSDRVGGSLSKLEDR QAAAATTAAAAEPSSDVEVETHRSPGLHLSYLSGHQEWQDKENPELGGTRMPDRDSYANG TGSSGGGPGGGGSEEASGAGVGSGGASSDAICRDFLRNVCKRGKRCRYRHPDMSEVSNLG VSKNEFIFCHDFQNKECSRPNCRFIHGSKEDEDGYKKTGELPPRLRQKVAAGLGLSPADL PNGKEEVPICRDFLKGDCQRGAKCKFRHLQRDFEFDARGGGGTGGGSTGSVLPGRRHDLY DIYDLPDRGFEDHEPGPKRRRGGCCPPDGPHFESYEYSLAPPRGVECRLLEEENAMLRKR VEELKKQVSNLLATNEVLLEQNAQFRNQAKVITLSSTAPATEQTLAPTVGTVATFNHGIA QTHTTLSSQALQPRPVSQQELVAPAGAPAAPPTNAAPPAAPPPPPPHLTPEITPLSAALA QTIAQGMAPPPVSMAPVAVSVAPVAPVAVSMAQPLAGITMSHTTTPMVTYPIASQSMRIT AMPH >gi568815586f:56004738_56212885|GENSCAN_predicted_CDS_4|2895_bp atgtcgggcgaggacgagcaacaggagcaaactatcgctgaggacctggtcgtgaccaag tataagatggggggcgacatcgccaacagggtacttcggtccttggtggaagcatctagc tcaggtgtgtcggtactgagcctgtgtgagaaaggtgatgccatgattatggaagaaaca gggaaaatcttcaagaaagaaaaggaaatgaagaaaggtattgcttttcccaccagcatt tcggtaaataactgtgtatgtcacttctcccctttgaagagcgaccaggattatattctc aaggaaggtgacttggtaaaaattgaccttggggtccatgtggatggcttcatcgctaat gtagctcacacttttgtggttgatgtagctcaggggacccaagtaacagggaggaaagca gatgttattaaggcagctcacctttgtgctgaagctgccctacgcctggtcaaacctgga aatcagaacacacaagtgacagaagcctggaacaaagttgcccactcatttaactgcacg ccaatagaaggtatgctgtcacaccagttgaagcagcatgtcatcgatggagaaaaaacc attatccagaatcccacagaccagcagaagaaggaccatgaaaaagctgaatttgaggta catgaagtatatgctgtggatgttctcgtcagctcaggagagggcaaggccaaggatgca ggacagagaaccactatttacaaacgagacccctctaaacagtatggactgaaaatgaaa acttcacgtgccttcttcagtgaggtggaaaggcgttttgatgccatgccgtttacttta agagcatttgaagatgagaagaaggctcggatgggtgtggtggagtgcgccaaacatgaa ctgctgcaaccatttaatgttctctatgagaaggagggtgaatttgttgcccagtttaaa tttacagttctgctcatgcccaatggccccatgcggataaccagtggtcccttcgagcct gacctctacaagtctgagatggaggtccaggatgcagagctaaaggccctcctccagagt tctgcaagtcgaaaaacccagaaaaagaaaaaaaagaaggaccgccagcagagcgggggg atctccctgcccccaccccagttccccaacccactcccttccaacaacaaccagctccaa ctgactctggtcttgggaggagggctgccttggcgactaccgcttagaccatgtcgtgcc tttgggttgggttgccatagtgacacgcaaagcgtgctgggaacgccctgcggcatgtcg cacgcgtacttcatacaccatagagtatggttccgggtctgctggctagagcgtcacttc ttccgcaggaagcggaagagcgatcgggtaggcggctctttgtcgaagctagaggaccgg caggcggcagcagcaactacggcggcggcggcagaacccagcagtgatgtggaggtggag acccacaggagccccggacttcacctgagctacctcagtggtcaccaagagtggcaagat aaagaaaaccctgagttgggcgggaccaggatgcctgaccgggacagctatgccaacggt accgggagcagcggtggaggccctggaggtggtggcagcgaggaggccagtggggcaggg gtaggcagtggcggggccagctcagatgccatctgtagagacttcttgaggaatgtgtgc aagcgaggcaagcgttgccgatatcgccacccagacatgagcgaggtgtccaacttgggg gtgagcaaaaacgagttcatcttctgccatgacttccagaacaaggagtgtagccgccca aattgccgtttcatccatggctccaaggaggatgaggatggctataagaagacaggagag cttcccccacggctgaggcagaaagtagcagctggccttggcctttcaccggctgaccta ccaaatggcaaggaggaggtccctatctgccgtgactttctcaagggtgactgtcagaga ggagccaagtgcaagttccgtcacctgcaacgggattttgagtttgatgctcggggtgga ggaggcactggtgggggctcaacaggctcagtcctcccaggacgacgtcatgatctctat gatatctatgaccttcctgacaggggctttgaggaccatgagccaggcccaaaacgccgg cgaggtggatgctgcccccctgatggccctcattttgagtcatatgaatatagtttggct ccaccgcgaggggtggagtgcagactgctagaggaggagaatgccatgctcaggaagcgg gtagaggagttaaagaagcaggtcagcaacctgctggccaccaatgaggtactactggaa caaaatgctcagttccgcaatcaggccaaggtcataaccctgagctccactgcaccagcg actgagcagactctggcccccactgtgggcactgttgccacttttaaccatggcattgcc cagactcacactactctcagcagccaggctctacagcctcgtccagtgtcccagcaagaa ctggtggcccctgctggagctccagctgctcccccaactaatgctgcacctcctgctgct ccaccacccccacccccacacttgaccccagagatcacgccactgtcagctgccctggct caaacaattgcccagggaatggcacctccacctgtctccatggctcctgtggctgtatct gtggctcctgtggcccctgtggctgtatcgatggcccaacccttggcaggaatcacaatg agccacaccaccactcccatggtgacttaccctatcgcttcccagagcatgcgcatcacg gccatgccacactga >gi568815586f:56004738_56212885|GENSCAN_predicted_peptide_5|1490_aa MERSPGEGPSPSPMDQPSAPSDPTDQPPAAHAKPDPGSGGQPAGPGAAGEALAVLTSFGR RLLVLIPVYLAGAVGLSVGFVLFGLALYLGWRRVRDEKERSLRAARQLLDDEEQLTAKTL YMSHRELPAWDPAPAPGRPSGSHLQASSRQTAARQRRLLDGGRATGGGGAAAAVPAAHTP PHSSAGHTLFRTVSFPDVEKAEWLNKIVAQVWPFLGQYMEKLLAETVAPAVRGSNPHLQT FTFTRVELGEKPLRIIGVKVHPGQRKEQILLDLNISYVGDVQIDVEVKKYFCKAGVKGMQ LHGVLRVILEPLIGDLPFVGAVSMFFIRRPTLDINWTGMTNLLDIPGLSSLSDTMIMDSI AAFLVLPNRLLVPLVPDLQDVAQLRSPLPRGIIRIHLLAARGLSSKDKYVKGLIEGKSDP YALVRLGTQTFCSRVIDEELNPQWGETYEVMVHEVPGQEIEVEVFDKDPDKDDFLGRMKL DVGKVLQASVLDDVSWEKRKVGADLTLWVDSSCYIGREVVEQVSDLYYISISSSGSLYKV LQWNWGVSSRPDPPSAAILVVYLDRAQDLPLKKGNKEPNPMVQLSIQDVTQESKAVYSTN CPVWEEAFRFFLQDPQSQELDVQVKDDSRALTLGALTLPLARLLTAPELILDQWFQLSSS GPNSRLYMKLVMRILYLDSSEICFPTVPGCPGAWDVDSENPQRGSSVDAPPRPCHTTPDS QFGTEHVLRIHVLEAQDLIAKDRFLGGLVKGKSDPYVKLKLAGRSFRSHVVREDLNPRWN EVFEVIVTSVPGQELEVEVFDKDLDKDDFLGRCKVRLTTVLNSGFLDEWLTLEDVPSGRL HLRLERLTPRPTAAELEEVLQVNSLIQTQKSAELAAALLSIYMERAEDLPLRKGTKHLSP YATLTVGDSSHKTKVRGEGTGVLGSLSLPLSELLVADQLCLDRWFTLSSGQGQVLLRAQL GILVSQHSGVEAHSHSYSHSSSSLSEEPELSGGPPHITSSAPELRQRLTHVDSPLEAPAG PLGQVKLTLWYYSEERKLVSIVHGCRSLRQNGRDPPDPYVSLLLLPDKNRGTKRRTSQKK RTLSPEFNERFEWELPLDEAQRRKLDVSVKSNSSFMSRERELLGKVQLDLAETDLSQGVA RWVDFNCPRGSFPVKDVPVKKPAGPSISKPAAKPAAAGAPPAKTKAEPAVPQAPQKTQEP PVDLSKVVIEFNKDQLEEFKEAFELFDRVGDGKILYSQCGDVMRALGQNPTNAEVLKVLG NPKSDELKSRRVDFETFLPMLQAVAKNRGQGTYEDYLEGFRVFDKEGNGKVMGAELRHVL TTLGEKMTEEEVETVLAGHEDSNGCINYEEFKEAFQLFDRTGDGKILYSQCGDVMRALGQ NPTNAEVLKVLGNPKSDEMNVKVLDFEHFLPMLQTVAKNKDQGTYEDYVEGLRVFDKEGN GTVMGAEIRHVLVTLGEKMTEEEVEMLVAGHEDSNGCINYEELVRMVLNG >gi568815586f:56004738_56212885|GENSCAN_predicted_CDS_5|4473_bp atggagcgatctccaggagagggccccagccccagccccatggaccagccctctgctccc tccgaccccactgaccagccccccgctgctcacgcaaagccagacccaggttctgggggc caacctgctggccctggcgcggcgggtgaggccctggcggtgctgacttcattcgggagg cggttgctggtgctgatacctgtgtatttggccggggcagtgggactcagcgtgggtttc gtgctcttcggcctcgccctctacctgggctggcgccgggtccgcgacgagaaagaacgg agccttcgagcagcgaggcagctactggacgacgaggagcagctcactgcgaaaactctc tatatgagtcatcgagagctacctgcctgggacccagccccggcccctggacgaccctcg ggcagccaccttcaagcctccagccgccagactgcagcgcggcagaggcggctgctggac ggagggagggctacgggaggaggtggtgcggctgctgcagtgcccgcggcgcacactccc ccgcactcctcggccggccacacccttttccggactgtcagcttcccagacgtggaaaag gctgaatggctcaataagattgtggcccaggtctggcccttcctgggccagtatatggag aagcttctggctgaaactgtggctccggctgttaggggatctaacccccatctgcaaaca tttacatttacacgagtggaactgggtgaaaagccattgcgcatcattggagtcaaggtt cacccaggtcagagaaaagagcagatcctgctggacttgaacatcagctatgtaggtgat gtgcagattgatgtggaagtgaagaaatatttttgcaaagcaggagtcaagggcatgcag ctacatggcgttttgcgggtgatactggagccactcattggggaccttcccttcgtgggg gctgtgtcaatgttcttcatccgacgcccgaccctagacatcaactggacagggatgacc aacctgctggatatcccaggacttagctcactctctgacaccatgatcatggactccatt gctgccttcctcgtgttgcccaaccgattactggtgccccttgtgcctgaccttcaagat gtggctcagttgcgttcccctctgcccaggggcattattcgaattcacctgctggctgct cgagggctgagttccaaggacaaatatgtgaagggcctgattgagggcaagtcagaccca tatgcacttgtgcgtttgggtacccagacattctgcagtcgtgtcattgatgaagaactc aacccacagtggggagagacttatgaggtgatggtacacgaggtcccagggcaggagatt gaagtggaggtgttcgacaaggatccagataaagatgactttctgggcagaatgaagctg gatgtagggaaggtgttacaggctagcgttctggatgatgtaagttgggagaagaggaag gtgggggctgatctcaccctttgggtagatagtagttgctacattggtagggaagtagtt gagcaggtatctgatctctactacatctcaatttcttctagtggttccctctacaaggtt ctacagtggaattggggagtctcctctcgaccagatcccccgtcagctgccatcttagtt gtctacctggatcgggcccaggatcttcctctgaagaaggggaacaaggaacccaaccct atggtacaactgtcaattcaggatgtgactcaggagagcaaggctgtctacagtaccaac tgcccagtgtgggaggaagcgttccggttcttcctacaagaccctcaaagccaggagctc gatgtgcaagtgaaggatgattccagggccctgactttaggagcactgacgctgcctctg gcccgcctgctgactgccccagaactcatcctggaccagtggttccagctcagcagctct ggtccaaactccagactctatatgaaactagtcatgaggatcctgtacttggattcatca gaaatatgcttccccacggtgcctggttgtcctggtgcttgggacgtggacagtgagaat ccccagagaggcagcagtgtggatgccccacctcgaccctgtcacacgactcctgatagc cagtttgggactgagcatgtgcttcggatccatgtattagaggcccaggacctgattgcc aaagaccgtttcttggggggactggtgaagggcaagtcagacccctatgtcaaactaaag ttggcaggacgaagcttccggagccatgttgttcgggaagatctcaatccccgctggaat gaggtttttgaggtgatcgtcacatcagttccaggccaagagctagaggttgaagtcttt gacaaggacttggacaaggatgattttctgggcaggtgtaaagtgcgtctcaccacagtc ttaaacagtggcttccttgatgagtggctgaccctggaggatgtcccatctggccgcctg cacttgcgcctggagcgtctcaccccccgtcccactgctgctgagttagaggaggtgctg caggtgaatagtttgatccagactcagaagagtgcggagctggctgcggccctgctatcc atctatatggagcgggcagaggacctcccgctgcgaaaaggcaccaagcacctcagccct tatgctactctcactgtgggagatagttctcataaaaccaaggttcggggtgagggcact ggcgtgctgggctcattatccctgcccctctcagagctcctcgtggctgaccagctctgc ttggaccgctggtttacactcagcagtggtcaggggcaggtgctactgagagcacagcta gggatcctggtgtcccagcactcgggagtggaagctcatagccacagctacagccacagc tcctcatcgctgagtgaagaaccagagctctcggggggaccccctcacatcacctcctca gccccagagctccggcagcgcctaacacatgttgacagtccccttgaggctccagccggg cctctgggccaggtgaaactgactctgtggtactacagtgaagaacgaaagctggtcagc attgttcatggttgccggtcccttcgacagaatggacgtgatcctcctgatccctatgtg tcactgttgctactgccagacaagaaccgaggcaccaagaggaggacctcacagaagaag aggaccctgagtcctgaatttaatgaacggtttgagtgggaactccccctggatgaggcc cagagacgaaagctggatgtctctgtcaagtctaattcctccttcatgtcaagagagcgt gagctgctggggaaggtgcagctggacctagctgagacagacctttcccagggtgtagcc cggtgggtagacttcaattgtcctagaggttccttccctgtgaaggatgttcccgtgaag aaaccagcagggccctccatctccaaacctgctgctaagccagcagcagcaggggctcct ccagccaagaccaaagctgagccagctgtcccccaggcccctcagaaaacccaggagcct ccagtcgatctctccaaagtggtgatcgagtttaacaaggaccagctggaggagttcaag gaggccttcgagctgtttgaccgagtgggggatggcaagatcctgtacagccagtgtggg gacgtgatgagggccctgggccagaaccccaccaacgccgaggtgctcaaggtcctgggg aaccccaagagtgatgagctgaagtcgcggcgtgtggactttgagactttcctgcccatg ctccaggcagtggccaagaaccgaggccaaggcacatatgaggactacttggaggggttt cgtgtgtttgacaaggaggggaacggcaaagtcatgggagcagagctcagacatgttctc accacccttggagagaagatgactgaggaggaggtggagaccgttctggcaggacacgag gacagcaacggctgcatcaactacgaggagttcaaggaggccttccagctgtttgaccga acaggtgatggcaagatcctgtacagccagtgtggggatgtgatgagggccctgggccag aaccctaccaacgccgaggtgctcaaggtcctggggaaccccaagagtgatgagatgaat gtgaaggtgctggactttgagcactttctgcccatgctgcagacagtggccaagaacaag gaccagggcacctatgaggattatgtcgaaggacttcgggtgtttgacaaggaaggaaat ggcaccgtcatgggtgctgaaatccggcatgttcttgtcacactgggtgagaagatgaca gaggaagaagtagagatgctggtggcagggcatgaggacagcaatggttgtatcaactat gaagagctcgtccgcatggtgctgaatggctga >gi568815586f:56004738_56212885|GENSCAN_predicted_peptide_6|1125_aa MAVRKKDGGPNVKYYEAADTVTQFDNVRLWLGKNYKKYIQAEPPTNKSLSSLVVQLLQFQ EEVFGKHVSNAPLTKLPISKREAPCATFLQLPTNSRVTRDDYCLFTRRRYDFQNPSRMDR NVEMFMTIEKSLVQNNCLSRPNIFLCPEIEPKLLGKLKDIIKRHQGTVTEDKNNASHVVY PVPGNLEEEEWVRPVMKRDKQVLLHWGYYPDSYDTWIPASEIEASVEDAPTPEKPRKVHA KWILDTDTFNEWMNEEDYEVNDDKNPVSRRKKISAKTLTDEVNSPDSDRRDKKGGNYKKR KRSPSPSPTPEAKKKNAKKGPSTPYTKSKRGHREEEQEDLTKDMDEPSPVPNVEEVTLPK TVNTKKDSESAPVKGGTMTDLDEQEDESMETTGKDEDENSTGNKGEQTKNPDLHEDNVTE QTHHIIIPSYAAWFDYNSVHAIERRALPEFFNGKNKSKTPEIYLAYRNFMIDTYRLNPQE YLTSTACRRNLAGDVCAIMRVHAFLEQWGLINYQVDAESRPTPMGPPPTSHFHVLADTPS GLVPLQPKTPQGRQVDADTKAGRKGKELDDLVPETAKGKPELQTSASQQMLNFPDKGKEK PTDMQNFGLRTDMYTKKNVPSKSKAAASATREWTEQETLLLLEALEMYKDDWNKVSEHVG SRTQDECILHFLRLPIEDPYLEDSEASLGPLAYQPIPFSQSGNPVMSTVAFLASVVDPRV ASAAAKSALEEFSKMKEEVPTALVEAHVRKVEEAAKVTGKADPAFGLESSGIAGTTSDEP ERIEESGNDEARVEGQATDEKKEPKEPREGGGAIEEEAKEKTSEAPKKDEEKGKEGDSEK ESEKSDGDPIVDPEKEKEPKEGQEEVLKEVVESEGERKTKVERDIGEGNLSTAAAAALAA AAVKAKHLAAVEERKIKSLVALLVETQMKKLEIKLRHFEELETIMDREREALEYQRQQLL ADRQAFHMEQLKYAEMRARQQHFQQMHQQQQQPPPALPPGSQPIPPTGAAGPPAVHGLAV APASVVPAPAGSGAPPGSLGPSEQIGQAGSTAGPQQQQPAGAPQPGAVPPGVPPPGPHAQ SPAIVAAVQGNLLPSASPLPDPGTPLPPDPTAPSPGTVTPVPPPQ >gi568815586f:56004738_56212885|GENSCAN_predicted_CDS_6|3378_bp atggcggtgcggaagaaggacggcggccccaacgtgaagtactacgaggccgcggacacc gtgacccagttcgacaacgtgcggctgtggctcggcaagaactacaagaagtatatacaa gctgaaccacccaccaacaagtccctgtctagcctggttgtacagttgctacaatttcag gaagaagtttttggcaaacatgtcagcaatgcaccgctcactaaactgccgatttcaaag cgggaggctccttgtgccacattcttgcagctgcctacaaattcaagagtgaccagggat gattattgcctcttcacaaggcggcgttacgatttccagaatccatcacgcatggaccgc aatgtggaaatgtttatgaccattgagaagtccttggtgcagaataattgcctgtctcga cctaacatttttctgtgcccagaaattgagcccaaactactagggaaattaaaggacatt atcaagagacaccagggaacagtcactgaggataagaacaatgcctcccatgttgtgtat cctgtcccggggaatctagaagaagaggaatgggtacgaccagtcatgaagagggataag caggttcttctgcactggggctactatcctgacagttacgacacgtggatcccagcgagt gaaattgaggcatctgtggaagatgctccaactcctgagaaacctaggaaggttcatgca aagtggatcctggacaccgacaccttcaatgaatggatgaatgaggaagactatgaagta aatgatgacaaaaaccctgtctcccgccgaaagaagatttcagccaagacactgacagat gaggtgaacagcccagattcagatcgacgggacaagaaggggggaaactataagaagagg aagcgctccccctctccttcaccaaccccagaagcaaagaagaaaaatgctaagaaaggt ccctcaacaccttacactaagtcaaagcgtggccacagagaagaggagcaagaagacctg acaaaggacatggacgagccctcaccagtccccaatgtagaagaggtgacacttcccaaa acagtcaacacaaagaaagactcagagtcggccccagtcaaaggcggcaccatgaccgac ctggatgaacaggaagatgaaagcatggagacgacgggcaaggatgaggatgagaacagt acggggaacaagggagagcagaccaagaatccagacctgcatgaggacaatgtgactgaa cagacccaccacatcatcattcccagctacgctgcctggtttgactacaatagtgttcat gccattgagcggagggctctccccgagttcttcaacggcaagaacaagtccaagactcca gagatctacctggcctatcgaaactttatgattgacacttaccgactgaacccccaagag tatcttacctctaccgcctgccgccgaaacctagcgggtgatgtctgtgccatcatgagg gtccatgccttcctagaacagtggggtcttattaactaccaggtggatgctgagagtcga ccaaccccaatggggcctccgcctacctctcacttccatgtcttggctgacacaccatca gggctggtgcctctgcagcccaagacacctcagggccgccaggttgatgctgataccaag gctgggcgaaagggcaaagagctggatgacctggtgccagagacggctaagggcaagcca gagctgcagacctctgcttcccaacaaatgctcaactttcctgacaaaggcaaagagaaa ccaacagacatgcaaaactttgggctgcgcacagacatgtacacaaaaaagaatgttccc tccaagagcaaggctgcagccagtgccactcgtgagtggacagaacaggaaaccctgctt ctcctggaggcactggaaatgtacaaagatgactggaacaaagtgtccgagcatgtggga agccgcacacaggacgagtgcatcttgcattttcttcgtcttcccattgaagacccatac ctggaggactcagaggcctccctaggccccctggcctaccaacccatccccttcagtcag tcgggcaaccctgttatgagcactgttgccttcctggcctctgtcgtcgatccccgagtc gcctctgctgctgcaaagtcagccctagaggagttctccaaaatgaaggaagaggtaccc acggccttggtggaggcccatgttcgaaaagtggaagaagcagccaaagtaacaggcaag gcggaccctgccttcggtctggaaagcagtggcattgcaggaaccacctctgatgagcct gagcggattgaggagagcgggaatgacgaggctcgggtggaaggccaggccacagatgag aagaaggagcccaaggaaccccgagaaggagggggtgctatagaggaggaagcaaaagag aaaaccagcgaggctcccaagaaggatgaggagaaagggaaagaaggcgacagtgagaag gagtccgagaagagtgatggagacccaatagtcgatcctgagaaggagaaggagccaaag gaagggcaggaggaagtgctgaaggaagtggtggagtctgagggggaaaggaagacaaag gtggagcgggacattggcgagggcaacctctccaccgctgctgccgccgccctggccgcc gccgcagtgaaagctaagcacttggctgctgttgaggaaaggaagatcaaatctttggtg gccctgctggtggagacccagatgaaaaagttggagatcaaacttcggcactttgaggag ctggagactatcatggaccgggagcgagaagcactggagtatcagaggcagcagctcctg gccgacagacaagccttccacatggagcagctgaagtatgcggagatgagggctcggcag cagcacttccaacagatgcaccaacagcagcagcagccaccaccagccctgcccccaggc tcccagcctatccccccaacaggggctgctgggccacccgcagtccatggcttggctgtg gctccagcctctgtagtccctgctcctgctggcagtggggcccctccaggaagtttgggc ccttctgaacagattgggcaggcagggtcaactgcagggccacagcagcagcaaccagct ggagccccccagcctggggcagtcccaccaggggttcccccccctggaccccatgcccaa agccctgccattgtggcagctgttcagggcaacctcctgcccagtgccagcccactgcca gacccaggcacccccctgcctccagaccccacagccccgagcccaggcacggtcacccct gtgccacctccacagtga >gi568815586f:56004738_56212885|GENSCAN_predicted_peptide_7|287_aa APHCEHAFCNACITQWFSQQQTCPVDRSVVTVAHLRPVPRIMRNMLSKLQIACDNAVFGC SAVVRLDNLMSHLSDCEHNPKRPVTCEQGCGLEMPKDELPNHNCIKHLRSVVQQQQTRIA ELEKTSAEHKHQLAEQKRDIQLLKAYMRAIRSVNPNLQNLEETIEYNEILEWVNSLQPAR VTRWGGMISTPDAVLQAVIKRSLVESGCPASIVNELIENAHERSWPQGLATLETRQMNRR YYENYVAKRIPGKQAVVVMACENQHMGDDMVQEPGLVMIFAHGVEEI >gi568815586f:56004738_56212885|GENSCAN_predicted_CDS_7|864_bp gcacctcattgtgaacatgctttctgcaacgcctgcatcacccagtggttctctcagcaa cagacatgtccagtggaccgtagtgttgtgacggtcgcccatctgcgcccagtacctcgg atcatgcggaacatgttgtcaaagctgcagattgcctgtgacaacgctgtgttcggctgt agtgccgttgtccggcttgacaacctcatgtctcacctcagcgactgtgagcacaacccg aagcggcctgtgacctgtgaacagggctgtggcctggagatgcccaaagatgagctgccc aaccataactgcattaagcacctgcgctcagtggtacagcagcagcagacacgcatcgca gagctggagaagacgtcagctgaacacaaacaccagctggcggagcagaagcgagacatc cagctgctaaaggcatacatgcgtgcaatccgcagtgtcaaccccaaccttcagaacctg gaggagacaattgaatacaacgagatcctagagtgggtgaactcccttcagccagcaaga gtgacccgctggggagggatgatctcgactcctgatgctgtgctccaggctgtaatcaag cgctccctggtggagagtggctgtcctgcttctattgtcaacgagctgattgaaaatgcc cacgagcgtagctggccccagggtctggccacactagagactagacagatgaaccgacgc tactatgagaactacgtggccaagcgcatccctggcaagcaggctgttgtcgtgatggcc tgtgagaaccagcacatgggggatgacatggtgcaagagccaggccttgtcatgatattt gcgcatggcgtggaagagatataa