GENSCAN 1.0 Date run: 4-Nov-116 Time: 01:21:52 Sequence gi568815581r:75401083_75613804 : 212722 bp : 53.40% C+G : Isochore 3 (51 - 57 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 4746 4826 81 2 0 49 66 156 0.655 8.43 1.02 Term + 10304 10474 171 1 0 45 48 66 0.276 -3.56 1.03 PlyA + 11014 11019 6 1.05 2.04 PlyA - 17105 17100 6 1.05 2.03 Term - 17640 17609 32 1 2 117 33 22 0.172 -2.10 2.02 Intr - 22537 22481 57 2 0 104 40 91 0.717 5.25 2.01 Init - 32563 32482 82 1 1 74 66 88 0.919 6.28 2.00 Prom - 39121 39082 40 -1.81 3.00 Prom + 46263 46302 40 -5.41 3.01 Init + 47647 47768 122 0 2 76 103 41 0.389 4.03 3.02 Intr + 70718 70847 130 2 1 131 70 23 0.073 6.00 3.03 Intr + 84346 84465 120 0 0 100 67 116 0.996 11.89 3.04 Intr + 84789 84916 128 2 2 64 53 93 0.978 3.38 3.05 Intr + 85208 85344 137 2 2 66 100 104 0.985 10.12 3.06 Intr + 86850 87052 203 1 2 104 65 39 0.927 2.73 3.07 Intr + 87677 87828 152 1 2 88 91 143 0.999 14.07 3.08 Intr + 88184 88286 103 2 1 69 78 156 0.998 13.38 3.09 Intr + 88494 88544 51 2 0 86 -5 127 0.822 2.79 3.10 Intr + 89109 89151 43 2 1 127 68 35 0.775 3.70 3.11 Intr + 89192 89268 77 0 2 110 82 37 0.700 5.03 3.12 Intr + 89620 89676 57 0 0 104 87 20 0.891 3.07 3.13 Intr + 89967 90071 105 2 0 95 89 50 0.773 6.71 3.14 Intr + 90221 90385 165 1 0 83 80 133 0.947 12.67 3.15 Intr + 90609 90818 210 2 0 89 61 264 0.996 23.43 3.16 Intr + 91392 91713 322 2 1 85 30 515 0.709 41.38 3.17 Intr + 91847 92020 174 0 0 113 55 154 0.999 15.03 3.18 Intr + 92409 92511 103 1 1 72 94 106 0.917 9.33 3.19 Intr + 92617 92834 218 1 2 108 34 289 0.980 24.17 3.20 Intr + 93545 93726 182 0 2 37 81 378 0.836 32.10 3.21 Intr + 93814 93952 139 0 1 111 86 124 0.839 15.04 3.22 Intr + 94202 94317 116 0 2 54 67 241 0.987 19.27 3.23 Intr + 94462 94651 190 0 1 70 45 175 0.816 11.08 3.24 Intr + 94884 94992 109 1 1 77 71 138 0.989 10.84 3.25 Intr + 95200 95389 190 1 1 23 94 289 0.966 23.11 3.26 Intr + 95648 95725 78 1 0 103 94 128 0.990 15.14 3.27 Intr + 96031 96116 86 0 2 65 94 53 0.832 2.72 3.28 Intr + 96699 96780 82 0 1 87 121 52 0.986 8.54 3.29 Intr + 97093 97241 149 0 2 84 94 216 0.995 21.34 3.30 Intr + 97332 97640 309 0 0 84 59 261 0.553 18.77 3.31 Intr + 97830 98000 171 0 0 75 97 237 0.983 22.87 3.32 Term + 98180 98252 73 2 1 65 52 98 0.894 1.57 3.33 PlyA + 99349 99354 6 1.05 4.21 PlyA - 99520 99515 6 -3.74 4.20 Term - 100088 99998 91 1 1 109 52 194 0.999 15.39 4.19 Intr - 100608 100386 223 1 1 95 60 178 0.984 13.41 4.18 Intr - 102172 100697 1476 2 0 106 110 789 0.975 73.42 4.17 Intr - 102445 102307 139 1 1 37 99 274 0.978 23.94 4.16 Intr - 102678 102577 102 0 0 36 55 188 0.998 11.17 4.15 Intr - 102880 102770 111 1 0 121 90 150 0.999 19.58 4.14 Intr - 103224 103133 92 1 2 62 70 117 0.999 7.51 4.13 Intr - 103398 103338 61 0 1 99 91 51 0.996 5.30 4.12 Intr - 103611 103490 122 1 2 120 91 161 0.979 20.32 4.11 Intr - 103991 103730 262 2 1 85 88 227 0.935 20.00 4.10 Intr - 104569 104475 95 2 2 85 89 110 0.999 10.98 4.09 Intr - 104847 104739 109 0 1 19 84 206 0.988 13.66 4.08 Intr - 105394 105223 172 0 1 102 90 220 0.910 24.06 4.07 Intr - 105631 105501 131 1 2 41 80 136 0.965 8.10 4.06 Intr - 105812 105717 96 2 0 67 100 137 0.959 13.51 4.05 Intr - 106047 105902 146 1 2 93 76 206 0.802 20.41 4.04 Intr - 106599 106463 137 2 2 63 91 71 0.442 5.62 4.03 Intr - 107203 107152 52 2 1 101 92 116 0.998 11.75 4.02 Intr - 113044 112629 416 0 2 63 89 294 0.189 21.32 4.01 Init - 115394 115294 101 2 2 83 1 152 0.000 3.69 4.00 Prom - 115436 115397 40 -14.13 5.00 Prom + 115438 115477 40 -14.13 5.01 Init + 115479 115534 56 2 2 91 80 112 0.946 11.41 5.02 Intr + 115664 115828 165 2 0 119 39 321 0.999 29.89 5.03 Intr + 115927 115990 64 1 1 73 89 88 0.996 6.61 5.04 Intr + 116079 116291 213 2 0 89 76 139 0.893 12.24 5.05 Intr + 116475 116573 99 2 0 80 70 144 0.962 12.61 5.06 Intr + 117289 117393 105 0 0 13 25 153 0.596 2.41 5.07 Intr + 117913 117965 53 0 2 60 94 23 0.691 -1.71 5.08 Intr + 120327 120428 102 0 0 88 18 123 0.814 5.09 5.09 Intr + 120623 121439 817 2 1 92 101 620 0.518 55.80 5.10 Intr + 122168 122253 86 1 2 35 131 35 0.456 1.62 5.11 Intr + 122581 122697 117 1 0 64 67 183 0.989 13.88 5.12 Intr + 123180 123318 139 0 1 102 -2 144 0.113 7.77 5.13 Intr + 142315 142419 105 0 0 116 115 66 0.621 13.01 5.14 Intr + 145337 145423 87 1 0 67 52 106 0.360 5.56 5.15 Intr + 148391 148485 95 1 2 125 61 30 0.498 3.26 5.16 Intr + 154897 155107 211 1 1 66 72 249 0.268 20.54 5.17 Intr + 157050 157154 105 2 0 19 94 106 0.821 5.21 5.18 Intr + 157430 157545 116 1 2 53 86 176 0.969 13.65 5.19 Intr + 157604 157690 87 2 0 63 47 75 0.568 0.48 5.20 Intr + 158170 158328 159 1 0 86 89 306 0.627 30.12 5.21 Intr + 161934 162096 163 0 1 49 96 256 0.592 22.99 5.22 Intr + 162249 162434 186 2 0 121 61 184 0.615 19.40 5.23 Intr + 163293 163425 133 2 1 79 13 219 0.084 14.22 5.24 Intr + 167394 167611 218 1 2 90 78 378 0.999 35.75 5.25 Intr + 167879 168049 171 1 0 79 100 347 0.629 35.65 5.26 Intr + 168139 168243 105 0 0 110 69 206 0.999 21.81 5.27 Intr + 168881 169173 293 1 2 78 52 487 0.998 40.58 5.28 Intr + 169266 169416 151 0 1 53 78 178 0.620 13.98 5.29 Intr + 169868 170018 151 1 1 87 79 211 0.992 20.35 5.30 Intr + 170585 170701 117 0 0 32 96 122 0.853 8.34 5.31 Intr + 170816 170982 167 0 2 101 45 234 0.947 20.59 5.32 Intr + 171932 172196 265 1 1 67 32 537 0.989 43.62 5.33 Intr + 172399 172549 151 2 1 59 109 181 0.998 17.03 5.34 Intr + 172870 172898 29 1 2 129 90 21 0.981 4.64 5.35 Intr + 173131 173178 48 2 0 93 70 57 0.812 3.54 5.36 Intr + 173528 173756 229 0 1 110 20 123 0.364 5.16 5.37 Term + 180425 180680 256 2 1 5 49 232 0.750 6.39 5.38 PlyA + 180961 180966 6 -0.45 6.00 Prom + 181016 181055 40 -2.91 6.01 Init + 186976 189161 2186 0 2 96 37 1601 0.839 141.77 6.02 Intr + 190090 190164 75 1 0 90 89 87 0.840 8.12 6.03 Intr + 190534 190630 97 1 1 47 94 81 0.883 5.11 6.04 Intr + 190895 190998 104 1 2 82 73 173 0.998 14.67 6.05 Intr + 191156 191219 64 2 1 102 103 9 0.997 3.01 6.06 Intr + 191346 191459 114 2 0 40 52 139 0.538 6.65 6.07 Intr + 191597 191758 162 1 0 125 64 188 0.887 20.79 6.08 Intr + 193393 193506 114 0 0 78 101 51 0.983 6.55 6.09 Intr + 193619 193677 59 1 2 125 37 84 0.999 5.17 6.10 Intr + 193758 193890 133 0 1 79 26 187 0.955 12.75 6.11 Intr + 195378 195473 96 2 0 78 94 168 0.998 17.11 6.12 Intr + 195731 195817 87 1 0 62 110 36 0.864 3.86 6.13 Intr + 200356 200481 126 0 0 41 82 167 0.944 12.78 6.14 Intr + 201435 201512 78 2 0 109 49 62 0.959 4.64 6.15 Intr + 201748 201863 116 0 2 115 110 55 0.995 10.15 6.16 Intr + 201950 201995 46 2 1 88 105 32 0.999 3.80 6.17 Intr + 202106 202230 125 1 2 72 75 150 0.967 11.99 6.18 Intr + 204422 204539 118 2 1 10 98 42 0.633 -1.63 6.19 Intr + 204782 204939 158 1 2 96 46 284 0.375 24.32 6.20 Intr + 209084 209177 94 2 1 97 61 126 0.844 11.27 6.21 Intr + 210519 210576 58 2 1 15 87 111 0.688 2.65 6.22 Intr + 210804 210934 131 1 2 87 80 136 0.999 13.62 6.23 Intr + 211716 211811 96 2 0 109 89 59 0.995 8.81 6.24 Intr + 211892 212127 236 1 2 60 80 215 0.992 14.92 6.25 Intr + 212211 212389 179 0 2 91 77 206 0.895 19.88 6.26 Intr + 212623 212695 73 2 1 95 80 53 0.930 4.16 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 123180 123330 151 0 1 102 43 151 0.857 9.69 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581r:75401083_75613804|GENSCAN_predicted_peptide_1|83_aa MRQTSPQQVASARLRPRVAVTLSVPERSRKPIGTKTFIIYCLKSLTRLLKIWPFQPVPPS QSPVTHTPPILTHLWFPEGVMIL >gi568815581r:75401083_75613804|GENSCAN_predicted_CDS_1|252_bp atgcgccagacctccccgcagcaggtggcctccgcacggctccgcccccgggtcgccgta accctctcggtgccagagcggagtagaaaaccaattggaactaagacattcatcatctac tgtctcaagtcccttacaaggctcttaaagatctggcccttccagccagtgccaccttct cagtctccagtaacacatactccaccaatactaacccacttgtggtttccggaaggtgtc atgatcctttga >gi568815581r:75401083_75613804|GENSCAN_predicted_peptide_2|56_aa MHVEILLNCKDYQEYAYKASSNSRNELLISQVHPSHGISNASNGDQDIPFGTQNML >gi568815581r:75401083_75613804|GENSCAN_predicted_CDS_2|171_bp atgcacgtggagatacttttgaactgcaaagactatcaagaatacgcttataaagcctcc tctaacagcaggaatgagctcctaatatctcaagtccacccatcccacggcatctccaat gcctccaacggagatcaagatattcccttcggcacacaaaacatgctgtag >gi568815581r:75401083_75613804|GENSCAN_predicted_peptide_3|1497_aa MAALQHTEDLGVCEHRLRLLISLFLEIKQKEASSTGNIKDRCCDCDRLTGVCTCWGGAFL SGVTTFIWACLQYSWPMDLKEKHLGEPPSALGLSTRKALSVLKEQLEAVLEGHLRERKKC LTWKEVWRSSFLHHSNRCSCFHWPGASLMLLAVLLLLGCCGGQPAGSRGVGLVNASALFL LLLLNLVLIGRQDRLKRREVERRLRGIIDQIQDALRDGREIQWPSAMYPDLHMPFAPSWS LHWAYRDGHLVNLPVSLLVEGDIIALRPGQESFASLRGIKDDEHIVLEPGDLFPPFSPPP SPRGEVERGPQSPQQHRLFRVLETPVIDNIRWCLDMALSRPVTALDNERFTVQSVMLHYA VPVVLAGFLITNALRFIFSAPGARSSGAICVVRSFPVLWVLATACGEARVLAQMSKASPS SLLAKFSEDTLSSYTEAVSSQEMLRCIWGHFLRVLGGTSPTLSHSSSLLHSLGSVTVLCC VDKQGILSWPNPSPETVLFFSGKVEPPHSSHEDLTDGLSTRSFCHPEVEEEPHERDALLA GSLNNTLHLSNEQERGDWPGEAPKPPEPYSHHKAHGRSKHPSGSNVSFSRDTEGGEEEPS KTQPGMESDPYEAEDFVCDYHLEMLSLSQDQQNPSCIQFDDSNWQLHLTSLKPLGLNVLL NLCDASVTERLCRFSDHLCNIALQESHSAVLPVHVPWGLCELARLIGTGFTPGAKELFKQ ENHLALYRLPSAETMKETSLGRLSCVTKRRPPLSHMISLFIKDTTTSTEQMLSHGTADVV LEACTDFWDGADIYPLSGSDRKKVLDFYQRACLSGYCSAFAYKPMNCALSSQLNGKCIEL VQVPGQSSIFTMCELPSTIPIKQNARRSSWSSDEGIGEVLEKEDCMQALSGQIFMGMVSS QYQARLDIVRLIDGLVNACIRFVYFSLEDELKSKVFAEKMGLETGWNCHISLTPNGDMPG SEIPPSSPSHAGSLHDDLNQVSRDDAEGLLLMEEEGHSDLISFQPTDSDIPSFLEDSNRA KLPRGIHQVRPHLQNIDNVPLLVPLFTDCTPESECCGHGYLGNLVPSAELCLGLRTPWAL EGSMCEMIKIMQEYGEVTCCLGSSANLRNSCLFLQSDISIALDPLYPSRCSWETFGYATS ISMAQASDGLSPLQLSGQLNSLPCSLTFRQEETISIIRLIEQARHATYGIRKCFLFLLQC QLTLVVIQFLSCLVQLPPLLSTTDILWLSCFCYPLLSISLLGKPPHSSIMSMATGKNLQS IPKKTQHYFLLCFLLKFSLTISSCLICFGFTLQSFCDSSRDRNLTNCSSVMLPRGAEPMP HFGSNDDRAPAWFEDFANGLLSAQKLTAALIVLHTGERAPWEGVDDGGRGAPLWKSDPHI APPSPVFISITHVHRTKPLWRKSPLTNLWWAVTVPVVLLGQVVQTAVDLQLWTHRDSHVH FGLEDVPLLTWLLGCLSLVLVVVTNEIVKLHEIRVRVRYQKRQKLQFETKLGMNSPF >gi568815581r:75401083_75613804|GENSCAN_predicted_CDS_3|4494_bp atggctgctttgcagcacacggaagaccttggtgtctgtgagcatagactaaggctactg atttcattattcctggaaatcaaacaaaaagaggcttccagtacagggaatatcaaagat cgatgttgtgactgtgacagactcactggggtttgtacatgctggggaggagccttcctt tcaggggtgaccacattcatctgggcatgcctgcagtactcttggcccatggacctgaag gagaagcacctgggcgagcctccctcagccctgggcctgtccacgcggaaggccctcagc gtcctgaaggagcagctggaggcagtgctggaaggacatctcagggagcggaagaagtgt ctgacgtggaaggaggtgtggagaagcagcttcctccaccacagtaaccgctgctcctgc ttccactggccgggggcctcactcatgctactggccgtgctgctgctgctgggctgctgc gggggacagccagccgggagccgtggggtggggctggtgaatgcctcggccttgttcctg ttactgcttctcaaccttgtgctcatcgggcggcaagaccggctgaagcgtcgggaggta gagcggaggctgcgagggatcattgaccaaatccaagatgccctcagggatggcagggag atccagtggcccagtgccatgtatccagacctccacatgccttttgcgccatcctggtcc ttgcactgggcctacagagacggacacctggtcaacctgccagtcagcctgctggttgaa ggagacatcatagctttgaggcctggccaggaatcgtttgcttctctgagggggatcaag gatgacgagcacatcgtcctggagccgggagacctcttcccccccttctcccctccaccc tcaccccggggagaagtggagagagggccacagagcccccagcagcaccggcttttccgt gtccttgagacccctgtgattgacaacatcagatggtgcctggacatggccctgtcccga ccagtcactgccctggacaatgagcggttcacagtgcagtcggtgatgctacactatgct gtgcccgtggtcctggccggcttcctcatcaccaatgccctgcgcttcatcttcagtgcc ccgggggcccggagctcaggagccatctgtgtggtccgctccttcccagtcctctgggtt ctggcaactgcctgtggagaggcccgtgtcctggcccagatgagcaaggcctcacccagc tccctgctggctaagttctcagaggatactctcagcagctatacggaggctgtctcctct caggaaatgctgcgctgcatttggggccacttcctgagggtgctcggggggacatcgcca acgctgagccacagttccagcctgctgcacagcctgggctctgtcacggtcctgtgctgt gtggacaaacaggggatcctgtcatggccaaatcccagcccagagactgtactgttcttc agcgggaaggtggagccccctcacagcagccatgaggacctcaccgatggcctatccacc cgctccttctgccatcccgaggtagaggaggagccccatgaacgagacgccctcctggct ggctccctgaacaacaccctgcacctttccaatgagcaggagcgtggcgactggcctggc gaggctcccaagccccccgagccctattcacaccacaaagcgcatggccgcagcaaacac ccatctggctccaacgtgagcttcagcagggacaccgagggtggtgaagaagagcccagc aagacccagcctgggatggagagcgacccctacgaagcagaggactttgtgtgtgactac cacctggagatgctgagcctgtcccaggaccagcagaacccctcctgcatccagtttgat gactccaactggcagctgcacctcacctccctcaaacccctgggcctcaatgtgctgctg aacctgtgtgatgccagcgtcaccgagcgcctgtgccgattctccgaccacctgtgcaac atcgccctgcaagagagccacagcgccgtgctgcccgtccatgtgccctggggcctctgc gagcttgcccgcctcattggtacaggcttcactcctggggccaaggagcttttcaagcag gagaaccatctggcgctgtaccgcctccccagtgccgagacaatgaaggagacatcgctg gggcggctctcctgtgtcaccaagcggcggcctcccctcagccacatgatcagcctcttc attaaagacaccaccaccagcacagagcagatgctgtcccatggcaccgctgatgtggtc ttagaggcctgcacagacttctgggacggagctgacatctaccctctctcgggatctgac agaaagaaagtgctggacttctaccagcgagcctgcctgtctgggtattgctctgccttc gcctacaagcccatgaactgcgccctgtcctctcagctcaatggcaagtgcatcgagctg gtacaggtgcccggccaaagcagcatcttcaccatgtgcgagctgcccagcaccatcccc atcaagcagaacgcccgccgcagcagctggagctctgacgaagggatcggggaggtgctg gagaaggaagactgcatgcaggccctgagcggccagatcttcatgggcatggtgtcctcc cagtaccaggcccggctggacatcgtgcgcctcattgatgggcttgtcaacgcctgcatc cgctttgtctacttctctttggaggatgagctcaaaagcaaggtgtttgcagaaaaaatg ggcctggagacaggctggaactgccacatctccctcacacccaatggtgacatgcctggc tccgagatccccccctccagccccagccacgcaggctccctgcatgatgacctgaatcag gtgtcccgagatgatgcagaagggctcctcctcatggaggaggagggccactcggacctc atcagcttccagcctacggacagcgacatccccagcttcctggaggactccaaccgggcc aagctgccccggggtatccaccaagtgcggccccacctgcagaacattgacaacgtgccc ctgctagtgccccttttcaccgactgcaccccagagagtgagtgctgtggccatgggtac ttgggcaacctggtcccgtcggctgagctctgcctgggcctgcgtaccccgtgggctctg gagggatccatgtgtgagatgataaagatcatgcaagagtacggggaggtgacctgctgc ctgggcagctctgccaacctgcggaacagctgcctcttcctccagagcgacatcagcatt gccctggatcccctgtacccatcccgttgctcctgggagacctttggctacgccaccagc atcagcatggcccaggcctcggatggcctttctcccctgcagctgtcagggcagctcaac agcctgccctgttccctgacctttcgccaggaggagaccatcagcatcatccggcttatc gaacaggctcggcatgccacctatggcatccgtaagtgcttcctcttcctgctgcagtgc cagctgactcttgtggtcatccagttcctttcttgcctggtccagctgccgccactcctg agtaccaccgacatcctgtggctgtcctgcttttgctaccctctgctcagcatctctctg ctggggaagcccccccatagctccatcatgtctatggcaacggggaaaaacctccagtcc attcccaagaagacccagcactacttcctgctctgcttcctgctcaagttcagcctcacc atcagctcctgcctcatctgctttggcttcacactgcagagcttctgtgacagctcccgg gaccgcaacctcaccaactgctcctccgtcatgctgcccagaggggctgagcccatgcct cactttggcagcaacgacgacagggctccagcctggtttgaggactttgccaatggactg ctgtcggctcagaagctcacggccgccctgattgtcctgcacactggtgagagggctccc tgggagggcgtggatgatggtgggagaggagccccactgtggaagtctgacccccacatc gccccaccttccccagtcttcatttccatcacccatgtgcatcgcaccaagcccctgtgg agaaagagccccttgaccaacctctggtgggccgtgacagtgcctgtggtgctgctgggt caggtggtccagacggctgtggacctgcagctgtggacacacagggacagccacgtccac tttggcctggaggacgtgcccctgctgacatggctcctgggctgcctgtccctggtcctt gtggtggtgaccaatgagatcgtgaagctacatgagattcgggtccgagtccgctaccag aagcgacagaagctgcagtttgaaactaagctgggcatgaactctcccttctga >gi568815581r:75401083_75613804|GENSCAN_predicted_peptide_4|1377_aa MPRQPRPLHRPSPLCALLIVPGPSARPEAHPDAGQAGKIGVPSPSPSWSCRKPQADIHPD FHVAFTPSKISFPSCGGSSRSTFGSIPQYLTRSPLPGTPDLLPRNREPSKGLWHGALTPQ LGPVACLCPGLLSVELSPGASMGREQDLILAVKNGDVTGVQKLVAKVKATKTKLLGSTKR LNVNYQDADGFSALHHAALGGSLELIALLLEAQATVDIKDSNGETPMCPRPPPWAGMRPL HYAAWQGRLEPVRLLLRASAAVNAASLDGQIPLHLAAQYGHYEVSEMLLQHQSNPCLVNK AKKTPLDLACEFGRLKVAQLLLNSHLCVALLEGEAKDPCDPNYTTPLHLAAKNGHREVIR PPAVSTPSYATSPVTPPVHCRQLLRAGIEINRQTKTGTALHEAALYGKTEVVRLLLEGGV DVNIRNTYNQTALDIVNQFTTSQASREIKQLLREASGILKVRALKDFWNLHDPTALNVRA GDVITVLEQHPDGRWKGHIHESQRGTDRIGYFPPGIVEVVSKRVGIPAARLPSAPTPLRP GFSRTPQPPAEEPPHPLTYSQLPRVGLSPDSPAGDRNSVGSEGSVGSIRSAGSGQSSEGT NGHGPGLLIENAQPLPSAGEDQVLPGLHPPSLADNLSHRPLANCRSGEQIFTQDVRPEQL LEGKDAQAIHNWLSEFQLEGYTAHFLQAGYDVPTISRMTPEDLTAIGVTKPGHRKKIASE IAQLSIAEWLPSYIPTDLLEWLCALGLPQYHKQLVSSGYDSMGLVADLTWEELQEIGVNK LGHQKKLMLGVKRLAELRRGLLQGEALSEGGRRLAKGPELMAIEGLENGEGPATAGPRLL TFQGSELSPELQAAMAGGGPEPLPLPPARSPSQESIGARSRGSGHSQEQPAPQPSGGDPS PPQERNLPEGTERPPKLCSSLPGQGPPPYVFMYPQGSPSSPAPGPPPGAPWAFSYLAGPP ATPPDPPRPKRRSHSLSRPGPTEGDAEGEAEGPVGSTLGSYATLTRRPGRSALVRTSPSV TPTPARGTPRSQSFALRARRKGPPPPPPKRLSSVSGPSPEPPPLDESPGPKEGATGPRRR TLSEPAGPSEPPGPPAPAGPASDTEEEEPGPEGTPPSRGSSGEGLPFAEEGNLTIKQRPK PAGPPPRETPVPPGLDFNLTESDTVKRRPKCREREPLQTALLAFGVASATPGPAAPLPSP TPGESPPASSLPQPEPSSLPAQGVPTPLAPSPAMQPPVPPCPGPGLESSAASRWNGETEP PAAPAALLKVPGAGTAPKPVSVACTQLAFSGPKLAPRLGPRPVPPPRPESTGTVGPGQAQ QRLEQTSSSLAAALRAAEKSIGTKEQEGTPSASTKHILDDISTMFDALADQLDAMLD >gi568815581r:75401083_75613804|GENSCAN_predicted_CDS_4|4134_bp atgccgcggcagccccgccccctgcaccgccccagcccgctctgcgccctcctgattgtc cccggtcctagcgcccgcccggaagcgcaccccgacgccggccaagccgggaagattggt gtgcccagtcccagcccatcctggagctgtcggaagccacaagctgatatccatccagat ttccatgtagccttcaccccctcaaagattagctttccttcgtgtggtggcagttcacgg agcacctttgggagtatccctcagtacctgacgaggagcccactgcctgggacacctgac ttgctcccccggaaccgggagccctccaaggggctgtggcatggcgccctgacgccccag cttggacccgttgcctgcctttgccctggactcctgagtgtagagctcagcccaggagcc agtatgggtcgtgaacaggacctgatcctcgccgtcaagaatggagatgtgaccggtgtg cagaaactggtggcgaaggtcaaggccacaaagacaaagctcctgggctccacaaagagg ctcaacgtgaactaccaggatgctgatggattctctgccctccaccacgctgctttgggg ggcagcctggagctcatagccttgctgctagaggctcaggccactgttgacatcaaggac agcaatggtgagacccccatgtgcccccgacccccaccctgggcaggcatgcgcccgctg cactacgcagcctggcagggccggctggagcctgtgaggctgctgctgcgcgcctctgcg gctgtcaatgccgcctcgctggacggacagatccccctgcacctggctgcacagtatgga cattatgaggtgtcagaaatgctcctccagcatcagtccaacccatgcctggtcaacaag gccaagaagacgcccctggacctggcctgtgaatttggccgactcaaggtggcccagctg cttctgaacagccacttatgtgtggcactgctggagggtgaggccaaagacccgtgtgac cccaactacaccacgcccctgcacttggctgccaagaatggccacagagaagtcatcagg cccccagcagtcagcaccccctcctacgccacctcccccgtgactccccccgtccactgc aggcagctcctgagagctgggatcgagatcaaccgccagaccaagacgggtacggcgctc cacgaggccgcactgtatggcaagaccgaggtggtgcggctgcttctggagggaggtgtg gacgtgaacatccggaatacgtataaccagacggcgctggacatagtgaatcagttcacc acctcccaggccagccgggaaatcaagcagctactgcgggaggcctcagggatcctgaag gtccgagcgctcaaggatttctggaacctccacgatcccactgctctcaatgtccgggca ggggatgtcatcacggtgctagaacagcatcccgacggccgctggaagggccacatccac gagagccagaggggcacagaccgcataggctacttccccccgggcattgtcgaggtggtc agcaagcgggtgggcatccctgcagcccgcctcccctccgcacccacccccctgcgccca ggcttctcccggacaccgcagcctcctgccgaagaacccccgcaccctcttacctacagc cagcttcctcgggtgggcctcagcccagacagcccagcaggtgacaggaatagtgtgggc agtgagggcagcgtgggcagcatccgcagtgccggcagcgggcagagctctgagggcact aatggccatggccctggcctcctgattgagaacgcccagccactgccctctgctggagag gaccaggtgctgccaggactccacccgccgtccctggcagacaacctgagccaccgccct ctggccaactgccgctctggggagcagatcttcacccaggacgtgcggccagaacagctg ctggaggggaaggacgcgcaggccattcataactggctaagcgagttccagctggagggc tacactgcccactttctgcaggccggctatgatgtgcctaccatcagccgcatgacacct gaggacctgacggccatcggggtgaccaagcctgggcacaggaagaagatcgcctcagag atcgctcagctcagcatcgccgagtggctgcccagctacatcccaacggacctgctggag tggctgtgtgcactggggctgccacagtaccacaagcagctggtgagcagcggctacgac tccatggggctggtggccgacctcacctgggaggagctgcaggagattggggtcaacaag ctcgggcatcagaagaagctcatgctgggggtgaagcggctggcggagcttcggcggggc ctgctgcagggggaggccctcagcgaaggcgggcgccggctggccaagggtccggagctg atggccatcgagggactggagaacggagaaggcccagctacagctggcccacggctcctc accttccagggcagcgaactaagcccagagctacaggcggccatggcagggggtggccct gaaccactccccctcccacctgcccgctctcccagccaggagagcatcggggcacgctca cgggggtctggccactcacaggaacagcctgccccacagcccagcggtggagatcccagc cccccccaggagaggaacctcccagagggcacagagcggccccctaagctttgttcttca cttcctggccaaggacccccaccctatgtttttatgtacccccagggctcaccctctagc ccggccccagggccacctcctggcgcaccctgggccttctcctacttggccgggccccct gccactcccccagacccgcctcgacctaagcgccggtcccacagcctaagccgccctggc cccacagagggggatgctgagggggaggccgaagggccagtgggcagcaccctaggcagt tatgctacccttacccggcggccaggacgcagtgcccttgtccggaccagtcctagtgtg accccaaccccagctcgggggactcctcgcagccagtcctttgccctgcgggcccggcgc aaaggccccccgcccccgccccccaagcgcctcagctccgtctctggccccagcccggag ccacctccactagatgagagcccagggcccaaggaaggggccacagggccccgaaggcga acactgagtgaacctgctggcccctcagagccccctggcccacctgccccggctgggccc gcgtcagacacggaggaggaggagccaggccctgaggggacgcccccatctcggggcagc tctggggaagggctgccgtttgcagaggaagggaacctgaccatcaaacagcgcccgaag cccgctggccccccgccccgagagacacccgtgccccccggcctcgatttcaacctcacg gaatcagacactgttaagcggaggcccaagtgccgggagagagagccactgcagaccgca ctgctggccttcggagtggccagtgccacgcctggccccgctgccccactgccttcccca actcctggcgagtctcctccagcttctagccttccccagcccgagcccagcagccttcca gcccaaggagttccaaccccccttgctcccagccccgccatgcagcctccagtgccgccc tgcccagggccaggtctggaaagctcagcagctagtcggtggaatggggagacagaaccc ccggccgcccctgctgccctcctcaaggtgcccggagcaggaacagcccccaagcctgtg tcggtggcctgcacccagctggcattttctggccctaagctagcgccccggctcggcccc cgcccagtgcctcctccacggcctgagagcactgggactgtgggcccaggccaggcccag cagagactggagcagaccagctcgtccctggcagctgcactgagagccgcagagaagagc attggcaccaaggagcaagagggcacccccagcgcctccaccaagcacattctggatgac atcagcaccatgttcgacgccctggctgaccagctggacgccatgctggactga >gi568815581r:75401083_75613804|GENSCAN_predicted_peptide_5|1937_aa MEPEPEPAAVEVPAGRVLSARELFAARSRSQKLPQRSHGPKDFLPDGSAAQAERLRRCRE ELWQLLAEQRVERLGSLVAAEWRPEEGFVELKSPAGKFWQTMGFSEQGRQRLHPEEALYL LECVSGAREVGKELGPKNGKDTFYRRKSTHNPVFRELITKLLKQEVGSIHLFHQDLPLSI QEAYQLLLTDHTVTFLQYQGADKKQKQTEECLVMQEKNQSRITEAKRRSFKEEVVFSHLK RLGYVVRRFQPSSVLSPYERQLNLDASVQHLEDGDGKRKRSSSSPRSINKKAKALDNSLQ PKSLAASSPPPCSQPSQCPEEKPQESSPMKGPGGPFQLLGSLGPSPGPAREGVGCSWESG RAENGVTGAGKRRWNFEQISFPNMASDSRHTLLRAPAPELLPANVAGRETDAESWCQKLN QRKEKLSRREREHHAEAAQFQEDVNADPEVQRCSSWREYKELLQRRQVQRSQRRAPHLWG QPVTPLLSPGQASSPGTPSACHIFEGHWQLRNHRTLERAWMNWDGLRLKEDVGGGSGPTS TVSSPAAAAGPVWEGLEMYLVFCVLVAVVLQHISVLQTTHLPDGGARLLEKSGGLEIIFD VYQADAVATFRKNNPGKPYARMCISGFDEPVPDLCSLKRLSYQSGDVPLIFALVDHGDIS FYSFRDFTLPQDVSSGGCRLSKMRRFLRPGHDPVRERLKRDLFQFNKSWCEDYMSSCTNR RPRLAGGCSVRQHRSVALNKQCVPDPAAPAEGQVVLYWLSNGWAPGVSCSSHGGAKGTGL QAHPTCFSLQTVEHGFPHQPSALGYSPSLRILAIGTRSGAIKLYPPSPRSHSGRALGWSF PEPTPSYGAPGVEFMGLHQENNAVTQIHLLPGQCQLVTLLDDNSLHLWSLKVKGGASELQ EDESFTLRGPPGSGVDSPFVRPVAPLAVTGMRLARCIATLRAAPSATQITVVLPHSSCEL LYLGTESGNVFVVQLPAFRALEDRTISSDAVLQRLPEEARHRRVFEMVEALQEHPRDPNQ ILIGYSRGLVVIWDLQGSRVLYHFLSSQQLENIWWQRDGRLLVSCHSDGSYCQWPVSSEA QQPEPLRSLVPYGQCFTRRAGPTPSASWIQGGMPRASYGDRHCISVIHDGQQTAFDFTSR VIGFTVLTEADPAATFDDPYALVVLAEEELVVIDLQTAGWPPVQLPYLASLHCSAITCSH HVSNIPLKLWERIIAAGSRQNAHFSTMVGSAHRHEDGTVRFWDASGVCLRLLYKLSTVRV FLTDTDPNENFSAQGEDEWPPLRKVGSFDPYSDDPRLGIQKIFLCKYSGYLAVAGTAGQV LVLELNDEAAEQAVEQVEADLLQDQEGYRWKGHERLAARSGPVRFEPGFQPFVLVQCQPP AVVTSLALHSEWRLVAFGTSHGFGLFDHQQRRQVFVKCTLHPSDQLALEGPLSRVKSLKK SLRQSFRRMRRSRVSSRKRHPAGPPGEAQEGSAKAERPGLQNMELAPVQRKIEARSAEDS FTGFVRTLYFADTYLKDSSRHCPSLWAGTNGGTIYAFSLRVPPAERRMDEPVRAEQAKEI QLMHRAPVVGILVLDGHSVPLPEPLEVAHDLSKSPDMQGSHQLLVVSEEQFKVFTLPKVS AKLKLKLTALEGSRVRRVSVAHFGSRRAEDYGEHHLAVLTNLGDIQVVSLPLLKPQVRYS CIRREDVSGIASCVFTKYGQGFYLISPSEFERFSLSTKWLVEPRCLVDSAETKNHRPGNG AGPKKAPSRARNSGTQSDGEEKQPGLVMERALLSDERAATGVHIEPPWGAASAMAEVGAL GLSAAANRAGKGWEEEPRPHSPGSHGADTCPDDQESTMSGLSVGGWGTPSCPGKNEQLKT CRFKSCNTVKVCSFTPEPARPRTHQKEETPDMLSLRTVTLTVRVCGFIQVSGTKNPRIPD TEVPSVLTFTRKTTHLG >gi568815581r:75401083_75613804|GENSCAN_predicted_CDS_5|5814_bp atggagcccgagcccgagcccgcggccgtggaggttcccgcggggcgcgtgctcagcgcc cgggagctcttcgccgcccgctcgcggtcgcagaagctgccccagcgctcgcatggcccc aaggactttctgcccgacggctcggcagctcaggccgagcggctgcgccggtgccgggaa gagctctggcagctgctggcagagcagcgcgtggagcgcctgggcagcttggtggctgcc gagtggaggccagaagagggcttcgtggagttgaagtctcccgcgggcaaattctggcag accatgggcttctcagagcagggccggcagcgccttcacccggaagaggccttgtatctt ctggagtgtgtaagtggggcccgggaggtggggaaggagttgggaccaaagaacgggaag gacacgttttatcggagaaaaagcacacacaacccggtctttagagaactgataaccaaa cttctaaagcaggaggtgggctccatccacctcttccaccaagacctgccactgtctatc caggaagcttaccagctgctgctgaccgaccacactgtgaccttcctgcagtaccagggg gcagataagaagcagaaacagaccgaggagtgtctggtgatgcaggagaaaaaccaaagt cgcatcacagaagccaaaagaaggtctttcaaggaggaagtggtcttcagccacctgaag aggttgggttatgtggttcgacgattccaaccaagctctgtcctgtccccgtatgagagg cagcttaacctggatgccagcgtgcagcacttggaggatggagatggcaagagaaagagg agcagctccagccctcggtccattaataagaaggccaaggccctggacaactccctgcaa cccaagagtctggcagcctccagcccacctccctgcagccagcccagccaatgcccagag gagaaaccccaggagtcaagccccatgaagggcccagggggcccctttcagcttctgggg tccctgggccccagccctggcccggccagggagggggtggggtgcagctgggagagtggc agagccgagaacggagtcacgggagccggtaagcggcgctggaacttcgagcagatctcc ttccccaacatggcttcagacagccgccacacccttctgcgcgccccagccccagagctg ctcccggccaacgtggctgggcgggagacagacgctgagtcctggtgccagaagctgaac cagcgcaaggagaagctctccaggcgggaacgggagcaccacgcggaggccgcgcagttc caggaagatgtcaacgccgatcccgaggtgcagcggtgctccagctggcgggagtacaag gagctgctgcagcggcggcaggtgcagaggagccagcgccgggcccctcacctgtggggc cagcccgtcaccccgctgctgagtcctggccaggccagctccccaggtaccccctcagcc tgccacatcttcgagggccactggcagctgaggaatcacaggactttggaaagggcatgg atgaactgggatggattgaggcttaaggaagatgtgggaggagggagtggacccacaagc acggtcagttctccggcggctgcagcagggcctgtgtgggaaggcttagagatgtacctt gttttctgtgtccttgtagccgtggtccttcagcatatctctgtgctgcagacaacacac cttcctgatggaggtgcccggctgttggagaagtctgggggcttggaaatcatctttgat gtttaccaggccgacgctgtggccacattccgaaagaataaccctggcaaaccctatgcc cggatgtgcattagtggatttgatgagcctgtcccagacctctgcagcctcaagcggttg tcttaccagagtggggatgtccctctgatctttgccctggtggatcatggtgacatctcc ttctacagcttcagggacttcacgttgccccaggatgtctccagtgggggctgcagacta agcaaaatgaggcggttcctgaggccagggcatgaccctgtgcgggagaggctcaagcgg gacctgttccagtttaacaagagttggtgtgaggactacatgagttcctgcacgaatcga aggccacgtctggctggcggctgcagtgtccggcagcatcgttctgtggccctgaacaaa cagtgtgttcctgacccagcagcccctgcggagggccaggttgttctgtattggctttcg aatggctgggcccctggtgtcagctgcagcagccatggtggcgcgaaggggacaggtctg caggcccaccccacgtgcttctcgttgcagacggtggagcatggcttcccgcaccagccc agcgccctcggctacagcccgtccctgcgcatcctggccatcggcacccgttctggagcc atcaagctgtatcctccgtcccctcgctcccactcgggcagggccttggggtggagcttt cctgagcctactcctagctacggagccccaggcgtggagttcatggggctgcaccaggag aacaacgctgtgacgcagatccacctcctgcccggccagtgccagctggtcaccctgctg gatgacaacagcctgcacctttggagcctgaaggtcaagggcggggcatcggagctgcag gaggatgagagcttcacactgcgtggacccccaggctctggagtggactcaccctttgtg aggcctgttgcgcccctggcagtgactggcatgcgtttggcccgatgcatcgccacactc agggctgcccccagtgccacacagatcaccgtggtcctgccacattcctcctgcgagctg ctctacctgggcaccgagagtggcaacgtgtttgtggtgcagctgccagcttttcgtgcg ctggaggaccggaccatcagctcggacgcggtgctgcagcggttgccagaggaggcccgc caccggcgtgtgttcgagatggtggaggcactgcaggagcaccctcgagaccccaaccag atcctgatcggctacagccgaggcctcgttgtcatctgggacctacagggcagccgcgtg ctctaccacttcctcagcagccagcaactggagaacatctggtggcagcgggacggccgc ctgctcgtcagctgtcactctgacggcagctactgccagtggcccgtgtccagcgaagcc cagcaaccagagcccctccgcagcctcgtgccttacggtcagtgtttcacccgccgggca gggcccacccccagtgcctcctggattcagggtggcatgccacgggccagctacggggac cgccactgcatctcagtgatccacgatggccagcagacggccttcgacttcacctcccgt gtcatcggcttcactgtcctcacagaggcagaccctgcagccacctttgacgacccctat gccctggtggtgctggctgaggaggagctggtggtgattgacctgcagacagcaggctgg ccaccggtccagctgccctacctggcttctctgcactgttccgccatcacctgctctcac cacgtctccaacatcccgctgaagctgtgggagcggatcattgccgccggcagccggcag aacgcacacttctccaccatggtgggttctgcccacaggcacgaggacggcacggtgcgg ttctgggatgcctcgggtgtctgcctgcggctgctctacaaactcagcactgtgcgcgtg ttcctcaccgacacggaccccaacgagaacttcagtgcccagggcgaggacgagtggccc ccactccgcaaggtgggctcctttgacccctacagtgatgacccccggctgggcatccag aagatcttcctctgcaagtacagcggctacctggctgtggcaggcacggcagggcaggtg ctggtactggaactgaatgacgaggcagcggagcaggctgtggagcaggtggaggccgac ctgctgcaggaccaagagggctaccgctggaaggggcacgagcgcctggcagcccgctca gggcccgtgcgctttgagcctggctttcagcccttcgtgttggtgcagtgtcagcccccg gctgtggtcacctccttggccctgcactctgagtggcggctcgtggccttcggcaccagc catggctttggcctctttgaccaccagcagcggcggcaggtctttgttaagtgcacactg caccccagtgaccagctggccttggagggcccactctcccgcgtcaagtccctcaagaag tccttgcgtcagtcattccgccggatgcgtcggagccgggtgtccagccggaagcggcac ccggctggccccccaggagaggcacaggaggggagtgccaaggctgagcggccaggcctc cagaacatggagctggcgcctgtgcagcgcaagatcgaggctcgctcggcagaggactcc ttcacaggcttcgtccggaccctgtactttgctgacacctacctgaaggacagctcccgg cactgcccctcgctgtgggctggcaccaatgggggcaccatctatgccttctccctgcgt gtgcctcccgccgagcggagaatggatgagcctgtgcgggcagagcaggccaaggagatc cagctgatgcaccgggcgccggtggtgggcatcctggtgctcgacggacacagcgtaccc cttcccgagcccctcgaagtggcccatgatctgtcgaagagccctgacatgcagggaagc caccagctgctcgtcgtatcagaggagcagttcaaggtgttcacgctgcccaaggtgagt gccaagctgaagttgaagctgacggccctggagggctcaagagtgcggcgggtcagcgtg gcccacttcggcagtcgtcgagccgaggactacggggagcaccacctggcagtccttacc aacctgggcgacatccaggtggtctcgctgcccctgctcaagccccaggtgcgctacagc tgcatccgccgggaggacgtcagtggcatcgcctcctgcgtcttcaccaaatatggccaa ggcttctacctgatctcaccctcggagtttgagcgcttctctctctccaccaagtggctg gtggagccccggtgtctggtggattcagcagaaaccaagaaccaccgccctggtaacggt gcgggccccaagaaggccccgagccgagccaggaactcagggactcagagtgatggcgag gagaagcagcccggcctggtgatggagcgcgctctgctcagtgatgagagagcggcaact ggcgttcacatcgagccgccgtggggtgcagcctcagcaatggcggaggtgggggctctg ggcttgagtgcagctgccaaccgtgctgggaagggctgggaggaagagccccggccccac tcccctgggtcccacggggctgacacgtgccctgatgaccaggaaagcaccatgtctggg ctcagcgtgggcggctggggcaccccgtcctgcccagggaagaacgaacaactcaagacg tgccgctttaagagctgtaacaccgtgaaggtctgcagcttcactcctgagccagcgaga ccacgaacccaccagaaggaagaaactccggacatgctgtctttaagaactgtaacactc accgtgagggtctgcggcttcattcaagtcagtgggaccaagaacccacgaattccggac acagaagttccctctgtgttaacatttacaaggaaaaccacccatctgggctga >gi568815581r:75401083_75613804|GENSCAN_predicted_peptide_6|1642_aa MGRNQRKAPQRLERPGRPASGEQESGSASADGAPSRERRSDRGQADRAKPAAEPATAGGQ GTPGGRRKPTAEGNGGCRRPGAGLSPKAQERQSNAQRQGRGPRGGRGGRLEEGSLSGGEE LGGRRRRKRKDKGPSARRGRRTPRSLNGDTSGGDGGSSCPDSETREAQESGSQRGTAREL RPTPEPTDMGSEGTKTGPESALEPSSDGLDSDWPHADTRGREGSSGTGPLGASEHSGGDS DSSPLGTGPGRGSRAAMASRTFEDSSRAPRDTGPAKDASDNRAQRGAEPETMQASTARAP RHQVGKAVGQVPAAAGEGEAGAAAGAGPEDPAPLAALLVVRRLLARPPPGAASQAVGPRR AGLKERLLSVARALGLLRWLRRRLRLRRRPPEGEGQGTGPRASEGWGRRKPDEGRGHGRG SKGRGRGKADEGRGHERGDEGRGRGKADEGRGHERGYEGRGCGKADEGRGHERGDEGRDH QRGYEGWGREPGLRHRLALRLAGLAGLGGMPRASPGGRSPQVPTSPVPGDPFDQEDETPD PKFAVVFPRIHRAGRASSSRSSEEASADAPTGEGRGWPRAGVGGHSEGCRTSGEGVSGLR RGSLLAPTAPDGPSLDESGSSSEAELETLNDEPPVRWAQGSGPHEGPRLGAAVLLPRLSL ETRLQQEGDPGLRGSLRELWEPEDEDEAVLERDLELSLRPGLEAPPFPGAKGRSLGDGLE DMEDLARLRHIFAIVASAYDLAQNTGQDPCILLCGHSGSGKTEAAKKIMQFLSSLEQDQT GNRECQVEDMLPILSSFGHAKTILNANASRFGQVFCLYLQQGVIVGASVSHYLLETSRVV FQAQAERSFHVFYKLLAGLDSIERERLSLQGPETYYYLNQGQACRLQGKEDAQDFEGLLK ALQGLGLCPEELNAVWAVLAAILQLGNICFSSSERESQEVAAVSSWAEIHTAARLLRVPP ECLEGAVTRRVTETPYGQVSRSLPVESAFDARDALAKALYSRLFHRLLRRTNARLAPPGE GGSIGTVTVVDAYGFEALRVNGLEQLCNNLASERLQLFSSQMLLAQEEPPRESCLDLLVD QPHSLLSILDAQTWLSQATDHTFLQKSHYHHGDHPSYAKPRLPLPVFTVRHYAGTVTYQV HKFLNRNRDQLDPAVVEMLGQSQLQLVGSLFQEAEPQSRGGRGRPTLASRFQQALEDLIA RLGRSHVYFIQCLTPNPGKLPGLFDVGHVTEQLHQAAILEAVGTRSANFPVRVPFEAFLA SFQALGSEGQEDLSDREKCGAVLSQVLGAESPLYHLGATKVLLQEQGWQRLEELRDQQRS QALVDLHRSFHTCISRQRVLPRMQARMRGFQARKRYLRRRAALGQLNTILLVAQPLLQRR QRLQELGRLEIPAELAVMLKTAESHRDALAGSITECLPPEVPARPSLTLPADIDLFPFSS FVAIGFQEPSLPRPGQPLAKPLTQLDGDNPQRALDINKVMLRLLGDGSLESWQRQIMGAY LVRQGQCRPGLRNELFSQLVAQLWQNPDEQQSQRGWALMAVLLSAFPPLPVLQKPLLKFV SDQAPRGMAALCQHKLLGALEQSQLASGATRAHPPTQLEWLAGWRRGRMALDVFTFSEEC YSAEVESWTTGEQLAGWILQSS >gi568815581r:75401083_75613804|GENSCAN_predicted_CDS_6|4926_bp atgggcaggaaccagcgcaaagcgccccagcgcctggagaggcccgggaggccggcctca ggggagcaggagtcggggtcggccagcgcggatggcgcgcccagccgggaacgccgttcc gaccgcgggcaggcggacagggcgaaaccggcggccgagcctgccaccgccgggggccag ggaacccctggtggccgcaggaagcccactgcagaggggaacggcggctgcagacgccca ggggctgggctgtccccgaaagcccaggagaggcaaagcaacgcgcagcgtcagggacgc gggcccaggggcggccgcggggggcgcctggaggagggaagcctctccggaggagaagag ctgggcggccgccgtaggaggaagcggaaagataaggggccctcggctcggcggggccgc cggacgcccaggagcctcaatggggacacgtcgggtggggacggaggcagctcctgtccg gacagcgaaacccgcgaggcccaggagagcggcagccagcgcggcacagcccgggagctg cggcccacgccggagcctacggacatgggctcggaagggacaaaaaccgggccggagtca gcgctggagccaagcagcgacggcctggacagcgactggccccacgcagatacccggggc cgggaagggtcgtcggggacggggcccctgggagccagcgagcattccggcggggactcc gactcgagtccgctggggaccggacctggacggggctctcgggcagctatggcctccagg accttcgaggacagctcgcgggctcctcgggacactgggccggccaaggacgcgagcgac aaccgggcgcagcggggcgccgagccagaaacaatgcaggcctcgacggcccgggctccg cgccaccaggtcggaaaggcggtggggcaggtgccagcggcggcaggcgagggcgaagcg ggagccgcagcaggagcggggccggaggacccagccccgctggcggccctcctggtggtc cgcaggctcctcgcgaggcccccgccaggcgccgcttcccaggccgtgggcccccgccgc gctggcctcaaggagcggctcctgagtgtagcgcgagccctgggcctcctgcgctggctg cggcggcggctgcggctgcggcggcggccgccagagggcgaggggcagggtaccgggcca cgggcgagcgaggggtggggccgccggaaaccggacgaggggcggggtcatgggagagga agcaaggggcggggccgcgggaaagcggatgaagggcggggccacgagcgaggggacgag ggtcggggccgcgggaaagcggacgaagggcggggccacgagcgagggtacgaggggcgg ggctgcgggaaagcggacgaggggcggggtcacgagagaggtgacgagggccgggaccac cagagagggtacgaggggtggggccgtgagcccgggctgcggcaccgtctagcgttgcgc ctggctggcttagcagggctggggggtatgccgagggcttcccctggtggccgctccccg caggtcccgacaagcccagtccccggcgacccttttgatcaggaggacgagactccagat cccaagttcgcggtcgtgttccccaggatccacagggcagggcgggcgtcgagcagccgc agctctgaagaagcgtccgcagatgcccccacgggggaaggccgaggttggcctcgtgca ggggtgggggggcacagtgaggggtgcaggacgagtggggaaggggtgtccgggcttcgt cgcggctccctccttgccccgactgcacccgacgggccttccctcgacgagagcggctcc agcagtgaggcggagttggagaccctcaatgacgagcccccggtgcgctgggcgcagggc tcaggcccccacgagggtcctaggcttggcgccgccgtgctgctaccccgactctccttg gagacccgcctgcagcaggagggagacccgggcctccgtgggtccctgagggagctgtgg gaacccgaggatgaggacgaggcggtgctggagagggacctggagctgagcctccggccg ggcctggaggcgccacccttccccggtgccaagggcaggagcctcggagacggcctggaa gacatggaggacctggcgcggttgcgacacatctttgccatcgtggcatcagcctatgac ctggctcagaatactgggcaggacccatgcatcctcctgtgtgggcacagtggctcaggg aagacggaagccgccaaaaagatcatgcagttcctaagcagcctggagcaggatcagacg gggaaccgagagtgtcaggtggaggatatgctgcctatactcagcagctttggccatgcc aagaccatcctcaatgccaatgccagccgcttcggccaggtcttctgcctctacctacag caaggggtcatcgtgggagcctctgtgtctcattatctacttgagacctccagggtggtg tttcaggcccaggctgagcggagcttccatgttttttacaagctgctggcagggctggac tccatagagcgggagcggctctccctgcagggaccggagacttactactacctcaaccag ggccaggcctgcaggctgcaaggcaaggaggatgcccaggactttgaggggctgctgaag gcactgcaggggctcggcttgtgcccagaggagttgaatgccgtctgggctgtgctggcc gccatcctgcagctgggcaacatctgcttctcctcctcagagcgagagtcccaggaggtg gctgctgtgtctagctgggctgagatccacacagcagcccgactgctgcgggtaccacca gagtgcctggagggggctgtcaccaggagggtcacggagacgccctatggccaggtctcg cgatccctgcccgtggaaagtgcctttgatgccagggacgccctggccaaggcactgtat tcccgcctcttccaccggcttctgaggagaaccaatgcacggctggcaccaccaggggag ggaggcagcattggcaccgtcactgtcgtggatgcctacggctttgaggccctgcgggtg aatggcctggagcaactgtgcaacaacctcgccagcgagcgcctacagctcttctccagc cagatgctgctggcccaggaggagcctccgagggagtcctgcctagacctcctggtagat cagccccacagcctcctgagtatcctggacgcccagacatggctgtcccaggccacggac cacaccttcctccagaagagccactatcaccatggtgaccaccccagctatgccaagccc cggctgcccctgcccgtgttcaccgtgcgacattatgcagggactgtcacctaccaggtt cacaagtttttaaacagaaaccgggatcagctggaccctgctgtggtggagatgcttggc cagagccagctccagctggtgggcagcctgttccaggaggcagagccccagtccagggga gggcgaggcagacccacgctggcctctcgcttccagcaggccctggaggacctcatagcc cggctgggcaggagccatgtctatttcatccagtgcctcacccctaaccctggaaagctt ccaggcctctttgacgtgggacatgtgacagagcaactgcaccaggcagccatactggag gccgtgggcacccgcagtgccaacttccccgtgcgtgtgccctttgaggccttcctggcc agcttccaggccctggggtcagaagggcaggaagacctctctgaccgggagaagtgtggt gccgtcctgagccaggtgctgggggccgaatcacctctctatcaccttggagccaccaag gtcctgctgcaggagcagggctggcagcggctggaggagctccgggaccagcagcgctcc caggccctggtcgacctgcaccgcagcttccacacctgcatctcccgccagcgcgtcctg ccccggatgcaggctcgcatgcgtgggttccaggccaggaagcggtacctccggcggcgg gcagctttgggacagctgaacaccatcctgctggtggcccagcccctgctccagaggcgg cagagactgcaggagctggggcgcttggagatcccggctgagctggccgtcatgctgaag acggcggaaagccatcgggacgccctggctgggagcatcaccgagtgcctgccgcctgag gttcctgcccggcccagcctgactctcccagcagacattgacctgttccctttctccagc ttcgtcgccatcggctttcaggaaccgtccctgcccaggccagggcagccactggcgaag cccctaacccagctggatggagacaaccctcagcgtgccctggacatcaacaaagtgatg ctgcggctcctgggggacggatccctggagtcctggcagaggcagatcatgggcgcatac ctggtgcggcaggggcagtgccggccagggctgcggaatgagctctttagccagctggtg gcccagctatggcagaacccagatgaacagcagagccagcgtggctgggccctcatggct gttttgctcagcgcctttcccccactgcctgtcctacagaagccactgctcaagttcgtg tctgaccaggcccccaggggcatggcagcgctgtgccagcacaagctgctgggggccttg gagcagtcgcagctggcctcgggggccactcgggcccaccccccgacccagctggagtgg ctggccggatggcggcggggccgcatggcgctggatgtgttcaccttcagcgaggagtgc tactcggccgaggtggagtcttggaccaccggggagcagctggctgggtggatcctgcag agcagn