GENSCAN 1.0 Date run: 2-Nov-116 Time: 22:08:24 Sequence gi568815595r:49617954_49819465 : 201512 bp : 52.12% 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 + 4339 4403 65 0 2 67 85 24 0.234 0.58 1.02 Intr + 7022 7187 166 2 1 68 74 104 0.953 7.48 1.03 Intr + 7278 7430 153 2 0 95 91 78 0.956 9.58 1.04 Intr + 8430 8487 58 2 1 37 107 6 0.086 -3.65 1.05 Intr + 13096 13148 53 2 2 125 75 44 0.066 5.92 1.06 Intr + 24315 25199 885 2 0 138 94 402 0.913 38.00 1.07 Intr + 32659 33126 468 0 0 120 78 193 0.908 15.38 1.08 Intr + 33590 40243 6654 1 0 81 80 5747 0.674 562.70 1.09 Intr + 42533 44609 2077 1 1 120 90 2150 0.479 206.68 1.10 Intr + 44863 45713 851 2 2 56 119 452 0.799 36.86 1.11 Intr + 45834 45933 100 2 1 33 99 33 0.993 -0.92 1.12 Intr + 46470 46601 132 1 0 117 91 106 0.970 14.92 1.13 Intr + 47520 47662 143 1 2 72 26 107 0.076 3.48 1.14 Intr + 53885 54028 144 1 0 40 37 104 0.128 1.49 1.15 Intr + 56043 56157 115 2 1 102 103 49 0.206 8.32 1.16 Intr + 56498 56668 171 0 0 83 70 298 0.471 27.93 1.17 Intr + 57230 57356 127 0 1 49 83 199 0.999 15.74 1.18 Intr + 57741 57834 94 0 1 105 105 111 0.996 14.97 1.19 Intr + 57938 58013 76 1 1 21 77 148 0.994 6.58 1.20 Intr + 58103 58266 164 0 2 91 42 188 0.620 14.71 1.21 Intr + 58425 58562 138 2 0 66 76 133 0.998 11.07 1.22 Intr + 58656 58747 92 2 2 121 94 130 0.999 16.19 1.23 Intr + 58824 58864 41 0 2 109 103 59 0.999 7.85 1.24 Intr + 58950 59071 122 1 2 73 93 106 0.888 10.32 1.25 Intr + 59620 59680 61 0 1 108 94 38 0.994 5.20 1.26 Intr + 60899 60996 98 0 2 87 94 30 0.988 3.73 1.27 Intr + 61640 61715 76 1 1 81 74 80 0.579 5.48 1.28 Intr + 62588 62676 89 0 2 94 105 1 0.953 2.59 1.29 Intr + 63148 63286 139 0 1 111 89 153 0.968 18.24 1.30 Intr + 63769 63852 84 2 0 121 78 83 0.997 10.89 1.31 Intr + 63934 64014 81 2 0 115 95 12 0.901 4.71 1.32 Intr + 64395 64483 89 1 2 107 69 119 0.999 12.09 1.33 Intr + 64593 64783 191 2 2 73 70 222 0.999 17.80 1.34 Intr + 64890 64992 103 0 1 86 85 99 0.991 10.08 1.35 Intr + 65087 65193 107 1 2 60 109 92 0.961 8.01 1.36 Term + 65284 65389 106 1 1 75 48 91 0.981 1.98 1.37 PlyA + 65533 65538 6 1.05 2.20 PlyA - 66024 66019 6 -3.94 2.19 Term - 66236 66075 162 2 0 82 47 94 0.975 2.95 2.18 Intr - 66500 66361 140 0 2 120 73 147 0.983 17.09 2.17 Intr - 66703 66597 107 0 2 67 116 118 0.961 12.86 2.16 Intr - 66931 66785 147 0 0 3 87 108 0.698 2.06 2.15 Intr - 67136 67059 78 1 0 78 93 39 0.855 2.56 2.14 Intr - 67429 67309 121 2 1 57 85 185 0.866 15.16 2.13 Intr - 67553 67518 36 0 0 89 66 37 0.487 0.32 2.12 Intr - 67779 67643 137 2 2 90 89 174 0.999 18.42 2.11 Intr - 68009 67907 103 0 1 83 73 219 0.996 19.63 2.10 Intr - 68239 68109 131 0 2 -41 72 207 0.999 7.04 2.09 Intr - 68528 68360 169 0 1 35 61 196 0.998 11.12 2.08 Intr - 68849 68731 119 1 2 82 66 166 0.999 14.41 2.07 Intr - 69114 68994 121 1 1 74 44 136 0.466 7.86 2.06 Intr - 69332 69196 137 1 2 59 98 201 0.614 18.92 2.05 Intr - 69715 69599 117 0 0 120 11 108 0.415 6.38 2.04 Intr - 69944 69797 148 0 1 99 117 112 0.997 15.00 2.03 Intr - 71799 71595 205 0 1 39 -24 170 0.023 0.20 2.02 Intr - 72178 71963 216 1 0 80 94 149 0.930 13.93 2.01 Init - 73437 73375 63 0 0 66 61 39 0.181 -1.63 2.00 Prom - 74872 74833 40 -4.41 3.00 Prom + 76760 76799 40 -7.30 3.01 Init + 76891 77009 119 0 2 78 77 133 0.923 8.93 3.02 Intr + 79190 79269 80 2 2 87 75 125 0.676 10.79 3.03 Intr + 79410 79504 95 1 2 151 84 106 0.983 16.68 3.04 Intr + 79932 79986 55 2 1 98 100 79 0.973 9.14 3.05 Intr + 80099 80184 86 0 2 57 71 172 0.965 12.44 3.06 Intr + 80487 80573 87 2 0 88 100 153 0.798 17.16 3.07 Intr + 80802 80869 68 2 2 58 76 76 0.905 1.60 3.08 Intr + 81027 81174 148 0 1 87 -8 161 0.757 7.15 3.09 Intr + 81546 81629 84 2 0 48 77 77 0.569 3.11 3.10 Intr + 81715 81819 105 0 0 127 93 99 0.997 15.21 3.11 Intr + 82217 82399 183 1 0 20 78 235 0.742 16.20 3.12 Intr + 82519 82611 93 0 0 97 75 94 0.998 9.66 3.13 Intr + 83515 83655 141 0 0 -3 105 187 0.377 12.36 3.14 Intr + 83858 83957 100 1 1 80 82 221 0.999 20.88 3.15 Intr + 84130 84191 62 2 2 59 84 136 0.896 9.24 3.16 Intr + 84381 84452 72 2 0 90 61 83 0.979 5.90 3.17 Intr + 84680 84800 121 1 1 70 96 97 0.986 9.27 3.18 Intr + 85474 85575 102 2 0 76 93 185 0.979 18.45 3.19 Intr + 86697 86803 107 1 2 97 55 161 0.623 14.13 3.20 Intr + 87031 87229 199 0 1 99 48 253 0.674 21.85 3.21 Intr + 87581 87726 146 0 2 104 17 265 0.770 21.51 3.22 Intr + 88029 88112 84 2 0 34 86 107 0.979 5.61 3.23 Intr + 88838 88945 108 1 0 61 69 89 0.958 5.28 3.24 Intr + 94526 94703 178 1 1 69 64 364 0.578 32.11 3.25 Intr + 95560 95634 75 2 0 107 81 122 0.994 13.38 3.26 Intr + 95785 95872 88 2 1 81 73 174 0.994 14.73 3.27 Intr + 95957 96044 88 2 1 143 98 148 0.979 21.77 3.28 Intr + 96137 96221 85 1 1 109 70 143 0.997 14.49 3.29 Intr + 97622 97761 140 0 2 115 64 167 0.976 17.69 3.30 Intr + 97869 98057 189 2 0 36 64 241 0.975 16.80 3.31 Intr + 98149 98224 76 0 1 87 81 155 0.994 14.28 3.32 Term + 98440 98528 89 2 2 129 48 124 0.717 10.62 3.33 PlyA + 98896 98901 6 -4.33 4.02 PlyA - 98918 98913 6 1.05 4.01 Sngl - 101512 99998 1515 1 0 113 38 2167 0.999 208.20 4.00 Prom - 101586 101547 40 -12.60 5.00 Prom + 101798 101837 40 -13.02 5.01 Init + 101859 101935 77 2 2 63 -11 87 0.663 -5.10 5.02 Intr + 102558 102700 143 0 2 102 68 90 0.743 8.91 5.03 Intr + 102847 102941 95 2 2 100 105 114 0.989 14.48 5.04 Intr + 103067 103152 86 1 2 116 108 64 0.997 10.32 5.05 Term + 103232 103352 121 2 1 88 41 184 0.999 11.95 5.06 PlyA + 103556 103561 6 -1.95 6.13 PlyA - 103569 103564 6 -4.33 6.12 Term - 103930 103799 132 1 0 47 55 261 0.899 17.10 6.11 Intr - 104194 104012 183 1 0 79 94 236 0.972 23.80 6.10 Intr - 104405 104278 128 0 2 103 65 184 0.994 18.50 6.09 Intr - 104557 104479 79 1 1 84 72 63 0.919 3.92 6.08 Intr - 104801 104643 159 2 0 66 89 280 0.945 26.60 6.07 Intr - 105161 105019 143 0 2 66 95 166 0.996 15.68 6.06 Intr - 105349 105301 49 1 1 69 82 78 0.890 4.04 6.05 Intr - 105519 105439 81 0 0 94 72 137 0.997 13.03 6.04 Intr - 105778 105645 134 2 2 78 95 211 0.999 21.67 6.03 Intr - 106136 106008 129 0 0 39 9 197 0.263 8.07 6.02 Intr - 107734 107621 114 2 0 81 121 57 0.250 9.22 6.01 Init - 108357 108225 133 0 1 41 31 61 0.177 -5.17 6.00 Prom - 109012 108973 40 -2.81 7.03 PlyA - 109049 109044 6 -3.84 7.02 Term - 109702 109169 534 1 0 103 47 869 0.917 78.95 7.01 Init - 110365 110150 216 1 0 52 109 296 0.984 26.78 7.00 Prom - 113059 113020 40 -1.81 8.05 PlyA - 114153 114148 6 1.05 8.04 Term - 115019 114758 262 1 1 89 51 242 0.971 15.93 8.03 Intr - 117707 117642 66 1 0 62 99 42 0.685 1.21 8.02 Intr - 120469 120259 211 2 1 102 94 206 0.994 21.10 8.01 Init - 121892 121844 49 2 1 86 94 55 0.987 5.02 8.00 Prom - 122437 122398 40 -3.61 9.03 PlyA - 123562 123557 6 1.05 9.02 Term - 128900 128875 26 0 2 121 42 7 0.791 -1.93 9.01 Init - 130069 129865 205 1 1 76 86 252 0.907 22.79 9.00 Prom - 137306 137267 40 -4.11 10.00 Prom + 145711 145750 40 -1.91 10.01 Init + 147314 147367 54 1 0 73 95 9 0.325 1.33 10.02 Intr + 168693 168948 256 2 1 74 54 116 0.414 4.35 10.03 Term + 170465 170574 110 0 2 76 42 102 0.970 3.37 10.04 PlyA + 171277 171282 6 1.05 11.20 PlyA - 172803 172798 6 1.05 11.19 Term - 172934 172879 56 0 2 119 54 -4 0.600 -2.69 11.18 Intr - 173518 173488 31 1 1 92 86 21 0.531 0.49 11.17 Intr - 173848 173761 88 0 1 72 84 60 0.805 4.47 11.16 Intr - 174006 173950 57 2 0 97 82 35 0.692 2.29 11.15 Intr - 174657 174515 143 0 2 70 37 49 0.490 -2.34 11.14 Intr - 175121 174901 221 0 2 108 51 138 0.706 10.65 11.13 Intr - 175358 175208 151 2 1 107 75 193 0.996 20.15 11.12 Intr - 175769 175630 140 0 2 93 76 91 0.997 9.09 11.11 Intr - 176053 175850 204 2 0 49 30 257 0.985 15.70 11.10 Intr - 176748 176655 94 0 1 70 81 131 0.999 10.64 11.09 Intr - 177147 176994 154 2 1 75 34 155 0.540 9.39 11.08 Intr - 177426 177243 184 1 1 108 59 112 0.972 9.66 11.07 Intr - 177811 177675 137 0 2 31 69 182 0.675 11.32 11.06 Intr - 178093 177990 104 1 2 84 67 24 0.946 -0.63 11.05 Intr - 179079 178969 111 0 0 44 105 25 0.627 0.88 11.04 Intr - 180895 180873 23 2 2 98 115 -8 0.705 0.65 11.03 Intr - 181203 181041 163 0 1 36 94 166 0.972 12.06 11.02 Intr - 181484 181294 191 0 2 104 97 71 0.989 9.43 11.01 Init - 181859 181811 49 2 1 95 81 95 0.941 8.68 11.00 Prom - 182804 182765 40 -2.11 12.00 Prom + 183624 183663 40 -4.11 12.01 Init + 185434 185490 57 0 0 71 81 56 0.698 2.54 12.02 Term + 186228 187034 807 2 0 119 46 433 0.786 35.87 12.03 PlyA + 187056 187061 6 1.05 13.24 PlyA - 187276 187271 6 1.05 13.23 Term - 187484 187355 130 1 1 63 48 124 0.963 3.86 13.22 Intr - 188044 187944 101 1 2 103 99 70 0.998 9.01 13.21 Intr - 188212 188120 93 1 0 77 69 51 0.830 2.76 13.20 Intr - 189974 189783 192 2 0 69 101 249 0.999 24.51 13.19 Intr - 190159 190067 93 1 0 60 91 152 0.999 13.36 13.18 Intr - 190515 190433 83 1 2 102 98 92 0.908 11.45 13.17 Intr - 191206 191023 184 1 1 89 73 106 0.937 9.08 13.16 Intr - 191511 191437 75 0 0 67 89 38 0.749 2.01 13.15 Intr - 191772 191589 184 2 1 149 34 27 0.484 3.71 13.14 Intr - 191926 191862 65 1 2 126 70 91 0.960 9.11 13.13 Intr - 192230 192025 206 0 2 87 91 132 0.999 12.84 13.12 Intr - 192475 192310 166 1 1 94 86 202 0.640 20.65 13.11 Intr - 192719 192564 156 2 0 84 59 152 0.996 12.62 13.10 Intr - 192879 192799 81 0 0 105 93 60 0.825 8.53 13.09 Intr - 193138 193031 108 1 0 14 85 80 0.701 1.28 13.08 Intr - 193516 193320 197 2 2 30 86 147 0.635 8.35 13.07 Intr - 194590 194455 136 1 1 75 86 176 0.993 16.75 13.06 Intr - 194785 194695 91 0 1 76 94 94 0.999 9.30 13.05 Intr - 195215 195109 107 2 2 77 84 131 0.831 11.11 13.04 Intr - 195430 195296 135 1 0 69 76 145 0.825 12.67 13.03 Intr - 195694 195526 169 0 1 110 111 84 0.826 13.36 13.02 Intr - 195989 195843 147 1 0 112 36 54 0.410 2.46 13.01 Intr - 200194 200083 112 2 1 12 95 106 0.572 3.64 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 70696 70645 52 1 1 73 119 62 0.926 7.07 S.002 Term - 71799 71509 291 0 0 39 50 177 0.907 4.69 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815595r:49617954_49819465|GENSCAN_predicted_peptide_1|4770_aa MGEYKDRGHISRSPGVMMATMSTSRRLDPKEPLGNQRAASPTPKQASATTPGHESPRETR AQGPAGQEADGPRRTLQIAPLPSSTLCPICKTSDLTSTPSQPNFNTCTQCHNKVCNQCGF NPNPHLTQVRVYICHEVLWVWDVWFVRVLFSPIDSRELSQTLEKQVKEWLCLNCQMQRAL GMDMTTAPRSKSQQQLHSPALSPAHSPAKQPLGKPDQERSRGPGGPQPGSRQAETARATS VPGPAQAAAPPEVGRVSPQPPQPTKPSTAEPRPPAGEAPAKSATAVPAGLGATEQTQEGL TGKLFGLGASLLTQASTLMSVQPEADTQGQPAPSKGTPKIVFNDASKEAGPKPLGSGPGP GPAPGAKTEPGARMGPGSGPGALPKTGGTTSPKHGRAEHQAASKAAAKPKTMPKERAICP LCQAELNVGSKSPANYNTCTTCRLQVCNLCGFNPTPHLVEKTEWLCLNCQTKRLLEGSLG EPTPLPPPTSQQPPVGAPHRASGTSPLKQKGPQGLGQPSGPLPAKASPLSTKASPLPSKA SPQAKPLRASEPSKTPSSVQEKKTRVPTKAEPMPKPPPETTPTPATPKVKSGVRRAEPAT PVVKAVPEAPKGGEAEDLVGKPYSQDASRSPQSLSDTGYSSDGISSSQSEITGVVQQEVE QLDSAGVTGPHPPSPSEIHKVGSSMRPLLQAQGLAPSERSKPLSSGTGEEQKQRPHSLSI TPEAFDSDEELEDILEEDEDSAEWRRRREQQDTAESSDDFGSQLRHDYVEDSSEGGLSPL PPQPPARAAELTDEDFMRRQILEMSAEEDNLEEDDTATSGRGLAKHGTQKGGPRPRPEPS QEPAALPKRRLPHNATTGYEELLPEGGSAEATDGSGTLQGGLRRFKTIELNSTGSYGHEL DLGQGPDPSLDREPELEMESLTGSPEDRSRGEHSSTLPASTPSYTSGTSPTSLSSLEEDS DSSPSRRQRLEEAKQQRKARHRSHGPLLPTIEDSSEEEELREEEELLREQEKMREVEQQR IRSTARKTRRDKEELRAQRRRERSKTPPSNLSPIEDASPTEELRQAAEMEELHRSSCSEY SPSPSLDSEAEALDGGPSRLYKSGSEYNLPTFMSLYSPTETPSGSSTTPSSGRPLKSAEE AYEEMMRKAELLQRQQGQAAGARGPHGGPSQPTGPRGLGSFEYQDTTDREYGQAAQPAAE GTPASLGAAVYEEILQTSQSIVRMRQASSRDLAFAEDKKKEKQFLNAESAYMDPMKQNGG PLTPGTSPTQLAAPVSFSTPTSSDSSGGRVIPDVRVTQHFAKETQDPLKLHSSPASPSSA SKEIGMPFSQGPGTPATTAVAPCPAGLPRGYMTPASPAGSERSPSPSSTAHSYGHSPTTA NYGSQTEDLPQAPSGLAAAGRAAREKPLSASDGEGGTPQPSRAYSYFASSSPPLSPSSPS ESPTFSPGKMGPRATAEFSTQTPSPAPASDMPRSPGAPTPSPMVAQGTQTPHRPSTPRLV WQESSQEAPFMVITLASDASSQTRMVHASASTSPLCSPTETQPTTHGYSQTTPPSVSQLP PEPPGPPGFPRVPSAGADGPLALYGWGALPAENISLCRISSVPGTSRVEPGPRTPGTAVV DLRTAVKPTPIILTDQGMDLTSLAVEARKYGLALDPIPGRQSTAVQPLVINLNAQEHTFL ATATTVSITMASSVFMAQQKQPVVYGDPYQSRLDFGQGGGSPVCLAQVKQVEQAVQTAPY RSGPRGRPREAKFARYNLPNQVAPLARRDVLITQMGTAQSIGLKPGPVPEPGAEPHRATP AELRSHALPGARKPHTVVVQMGEGTAGTVTTLLPEEPAGALDLTGMRPESQLACCDMVYK LPFGSSCTGTFHPAPSVPEKSMADAAPPGQSSSPFYGPRDPEPPEPPTYRAQGVVGPGPH EEQRPYPQGLPGRLYSSMSDTNLAEAGLNYHAQRIGQLFQGPGRDSAMDLSSLKHSYSLG FADGRYLGQGLQYGSVTDLRHPTDLLAHPLPMRRYSSVSNIYSDHRYGPRGDAVGFQEAS LAQYSATTAREISRMCAALNSMDQYGGRHGSGGGGPDLVQYQPQHGPGLSAPQSLVPLRP GLLGNPTFPEGHPSPGNLAQYGPAAGQGTAVRQLLPSTATVRAADGMIYSTINTPIAATL PITTQPASVLRPMVRGGMYRPYASGGITAVPLTSLTRVPMIAPRVPLGPTGLYRYPAPSR FPIASSVPPAEGPVYLGKPAAAKAPGAGGPSRPEMPVGAAREEPLPTTTPAAIKEAAGAP APAPLAGQKPPADAAPGGGSGALSRPGFEKEEASQEERQRKQQEQLLQLERERVELEKLR QLRLQEELERERVELQRHREEEQLLVQRELQELQTIKHHVLQQQQEERQAQFALQREQLA QQRLQLEQIQQLQQQLQQQLEEQKQRQKAPFPAACEAPGRGPPLAAAELAQNGQYWPPLT HAAFIAMAGPEGLGQPREPVLHRGLPSSASDMSLQTEEQWEASRSGIKKRHSMPRLRDAC ELESGTEPCVVRRIADSSVQTDDEDGESRYLLSRRRRARRSADCSVQTDDEDSAEWEQPV RRRRSRLPRHSDSGSDSKHDATASSSSAAATVRAMSSVGIQTISDCSVQTEPDQLPRVSP AIHITAATDPKVEIVRYISAPEKTGRGESLACQTEPDGQAQGVAGPQLVGPTAISPYLPG IQIVTPGPLGRFEKKKPDPLEIGYQAHLPPESLSQLVSRQPPKSPQVLYSPVSPLSPHRL LDTSFASSERLNKAHVSPQKHFTADSALRQQTLPRPMKTLQRSLSDPKPLSPTAEESAKE RFSLYQHQGGLGSQVSALPPNSLVRKVKRTLPSPPPEEAHLPLAGQASPQLYAASLLQRG LTGPTTVPATKASLLRELDRDLRLVEHESTKLRKKQAELDEEEKEIDAKLKYLELGITQR KESLAKDRGGRDYPPLRGLGEHRDYLSDSELNQLRLQGCTTPAGQFVDFPATAAAPATPS GPTAFQQPRFQPPAPQYSAGSGGPTQNGFPAHQAPTYPGPSTYPAPAFPPGASYPAEPGL PNQQAFRPTGHYAGQTPMPTTQSTLFPVPADSRAPLQKPRQTSLADLEQKVPTNYEVIAS PVVPMSSAPSETSYSGPAVSSGYEQGKVPEVPRAGDRGSVSQSPAPTYPSDSHYTSLEQN VPRNYVMIDDISELTKDSTSTAPDSQRLEPLGPGSSGRPGKEPGEPGVLDGPTLPCCYAR GEEESEEDSYDPRGKGGHLRSMESNGRPASTHYYGDSDYRHGARVEKYGPGPMGPKHPSK SLAPAAISSKRSKHRKQGMEQKISKFSPIEEAKDVESDLASYPPPAVSSSLVSRGRKFQD EITYGLKKNVYEQQKYYGMSSRDAVEDDRIYGGSSRSRAPSAYSGEKLSSHDFSGWGKGY EREREAVERLQKAGPKPSSLSMAHSRVRPPMRSQASEEESPVSPLGRPRPAGGPLPPGGD TCPQFCSSHSMPDVQEHVKDGPRAHAYKREEGYILDDSHCVVSDSEARPPPAASPGVDGI LFLVSEAYHLGQEETDWFDKPRDARSDRFRHHGGHAVSSSSQKRGPARHSYHDYDEPPEE GLWPHDEGGPGRHASAKEHRHGDHGRHSGRHTGEEPGRRAAKPHARDLGRHEARPHSQPS SAPAMPKKGQPGYPSSAEYSQPSRASSAYHHASDSKKGSRQAHSGPAALQSKAEPQAQPQ LQGRQAAPGPQQSQSPSSRQIPSGAASRQPQTQQQQQGLGLQPPQQALTQARLQQQSQPT TRGSAPAASQPAGKPQPGPSTATGPQPAGPPRAEQTNGSKGTAKAPQQGRAPQAQPAPGP GPAGVKAGARPGGTPGAPAGQPGADGESVFSKILPGGAAEQAGKLTEEAGATELPEMVPD KSGGTLGEEPSTANCTSQLEVYVLGTEFKVILKDLLSGTWFQGGSEQVLPPGAANKPYTS LPCSEFSNPQTLTGCQTLGLPQMHPLNPFSRRPFYPPRSRAPGFRFHRAAPSPPRSNASP LARAGPDPGVSPAQVLLSEPEEAAALYRGLSRQPALSAACLGPEVTTQYGGQYRTVHTEW TQRDLERMENIRFCRQYLVFHDGDSVVFAGPAGNSVETRGELLSRESPSGTMKAVLRKAG GTGPGEEKQFLEVWEKNRKLKSFNLSALEKHGPVYEDDCFGCLSWSHSETHLLYVAEKKR PKAESFFQTKALDVSASDDEIARLKKPDQAIKGDQFVFYEDWGENMVSKSIPVLCVLDVE SGNISVLEGVPENVSPGQAFWAPGDAGVVFVGWWHEPFRLGIRFCTNRRSALYYVDLIGG KCELLSDDSLAVSSPRLSPDQCRIVYLQYPSLIPHHQCSQLCLYDWYTKVTSVVVDVVPR QLGENFSGIYCSLLPLGCWSADSQRVVFDSAQRSRQDLFAVDTQVGTVTSLTAGEQGFGD GGGSGGSWKLLTIDQDLMVAQFSTPSLPPTLKVGFLPSAGKEQSVLWVSLEEAEPIPDIH WGIRVLQPPPEQENVQYAGLDFEAILLQPGSPPDKTQVPMVVMPHGGPHSSFVTAWMLFP AMLCKMGFAVLLVNYRGSTGFGQDSILSLPGNVGHQDVKDVQFAVEQVLQEEHFDASHVA LMGGSHGGFISCHLIGQYPETYRACVARNPVINIASMLGSTDIPDWCVVEAGFPFSSDCL PDLSVWAEMLDKSPIRYIPQVKTPLLLMLGQEDRRVPFKQGMEYYRALKTRNVPVRLLLY PKSTHALSEVEVESDSFMNAVLWLRTHLGS >gi568815595r:49617954_49819465|GENSCAN_predicted_CDS_1|14313_bp atgggagaatacaaagaccgtggacatatatcgcgatctccaggtgtcatgatggctacc atgagcacttcccggagactggaccccaaggaacccctgggtaaccagagagcagcttcc ccaactccgaagcaggcttctgctaccactcctggccatgagagcccccgagagacaagg gcacagggaccagcaggccaggaggctgatggtccccgcaggacgctgcagatcgccccc cttcccagcagcacgctgtgtcccatatgcaagacttcggacctcacgtcgacccccagc cagccaaacttcaacacctgcacccagtgtcacaacaaggtctgcaaccagtgtgggttc aaccccaaccctcatctcacccaggtcagggtctatatatgccatgaggtgctgtgggtg tgggacgtgtggtttgtgagagtgcttttcagtcctattgatagccgggaactgtcccag acactggagaaacaggtgaaggagtggctctgtctgaactgtcagatgcagagggctctg ggaatggacatgaccactgcacctcgctccaagagccagcagcagctgcactccccagcc ctgtctcctgcccactccccggccaaacagcccctggggaagccagaccaagagagatct cggggcccaggaggaccacagcctgggtcccgccaggctgagacagccagggccacctca gtgccggggcctgcccaagcagctgcccctccagaggtggggagggtgtctcctcagccc cctcaacccaccaagccttccacagctgagcccaggccacctgcaggagaggccccggcc aaaagtgccaccgcagtgcccgctgggcttggtgccactgagcagacccaggagggcctc actggtaagctcttcggccttggcgcgtcactgctaacccaggcgagcaccctcatgtct gtgcagcccgaggctgacacccagggccagcctgcccccagcaaggggacacctaagatc gtcttcaatgatgccagcaaggaggctggcccaaaacccttgggctcagggcccgggcct gggccagcacctggagccaaaactgagcctggggctagaatgggtcctggatctggacct ggagccctgccgaaaactgggggaacaaccagtccaaagcatggcagagcagaacatcag gcagcatcgaaggctgctgccaagccaaagaccatgccgaaggaaagggccatctgccca ctgtgccaagccgagctcaacgtgggcagcaagagcccagccaactataacacatgcacc acctgcaggctccaggtgtgcaacctgtgtggcttcaacccaacaccccacctggtggag aaaacagagtggctctgtctgaactgccaaaccaagcggctactggagggcagcctagga gagccgacccccctgccgccgcccacctcacagcagccccctgtaggggcccctcaccgt gcatctggaacatcccctctgaagcagaaagggccacaggggctgggccagccttcaggc cccctgcctgccaaggccagccctctatccaccaaggccagccctctgcccagcaaggcc agcccccaggccaagcccctcagggcttctgaacccagcaagaccccaagcagtgtccag gaaaagaagacccgagtccccactaaagctgagcccatgccgaagccacctccagagact accccaacccctgcgactcctaaagtaaagagtggggtgaggagggctgaacctgccacc cctgtcgtcaaggctgttccagaagcccccaagggtggggaggcggaggacctggtgggc aagccttactctcaggatgcgtctcggagcccacagagcctcagtgacacaggctattcc tctgacggcatctctagctcccagagtgagatcacaggagtcgtgcagcaggaggtggaa cagctggacagtgcaggggtgacagggccacatccacccagcccctccgagatccacaag gtggggagcagcatgcggcctttgctgcaggcccagggcctggccccaagtgagcggagc aagccactctccagcggtactggcgaggagcagaagcagcggccccactccttgtccatc acgcctgaggcctttgactctgatgaggagctggaggatatcctggaggaagacgaagac tctgctgagtggaggcgccggagagagcagcaggacactgccgagtcctcagacgacttt ggcagccaattgaggcacgactatgtggaggacagcagtgagggtggcctgtcccctctt ccaccccagcccccagcccgggcagcagaactgactgatgaggatttcatgcgacggcag attctcgagatgagcgccgaggaagacaacctggaggaggatgacactgccacctccggg cgtggcctggccaaacatggcacccagaaaggtggccccagacccaggcctgagcctagc caagaaccagcagcactgcccaagaggcgcctgccccacaatgccaccacgggctatgag gagctgctccctgagggaggctcagcagaggctaccgatggcagtgggaccctgcagggt gggctccgtcgcttcaagaccattgagctcaacagcacgggaagttatggtcatgagttg gacctgggccaaggcccagaccccagtctggaccgggagcctgagctggagatggagagc ctaacgggctcccctgaggaccgctcccgtggtgagcactcctctacattgcctgcctcc acacccagctacacctcgggcacctctcccacctctctgtcctccctagaggaggacagt gacagcagccccagccgcaggcagcgtctagaagaagcaaagcagcagcgcaaggcccgg caccgctcccacgggcccctgctacccaccatcgaggactcctcagaggaggaggagctg cgggaggaagaggagctgcttcgtgagcaagagaagatgcgggaggtggagcagcagcgc atccgcagcacggcccgcaagacccggcgggacaaggaagaactgcgggcccagcggagg cgagagcgctccaagacaccacccagtaacttgtcacccatcgaggatgcctccccgacg gaggagctgaggcaggcggccgagatggaggagctacaccgctcctcctgctctgagtac tcaccctcaccctcccttgactctgaggctgaggccttggatggtggccctagccggctt tacaagtcaggcagtgagtacaacctgcccaccttcatgtccctctactcaccaaccgag acaccctccggcagctccaccactcccagttccggacggccgctcaagagcgctgaggag gcttatgaggagatgatgcgcaaagctgagctgctccagaggcagcaaggccaggcagca ggggcccggggaccccatggcggcccctctcagcccacaggcccccggggcctgggctcc ttcgaatatcaagacactacagaccgtgagtatggccaggctgctcagcctgccgcagag ggcacgccagccagcctgggagcagccgtgtacgaagaaatccttcagacatcacagagc atagtccgcatgcggcaggcctcctcacgagacctggcttttgctgaggacaaaaagaag gagaagcagtttctaaatgctgagagtgcatacatggacccaatgaagcaaaatggtggc ccccttacccctggtaccagtcccacccagctcgctgcccctgtgtccttctctaccccc acctcctcagacagcagcgggggccgagttattcccgatgtccgtgtcactcagcatttt gcaaaggagactcaggaccccctcaagctgcacagctctcctgcctcccccagctcagcc tccaaggagataggcatgcccttttcccagggccctgggaccccagccaccacagctgtg gctccttgtccagctgggctgccacgaggatatatgactccagcctccccagcaggctcc gagcgtagtccttcaccatcttccacagcccacagctatggacacagcccaaccactgca aactatgggtcccaaactgaggatctaccccaggcccccagtggccttgctgcagctgga cgagctgctagagagaagcccttgagtgcgagtgacggtgagggtggcactcctcagcct tcccgggcatattcctactttgcaagctccagcccacctctctccccgtcttccccctca gagagtcccacattctcccctggcaagatgggcccaagggccacagcagagttctctaca cagacgccaagtccagcccctgcctcagacatgccacggagccctggtgcccccactcca tcacctatggtagcccagggtacacaaacaccacatcgacccagcacgcctcgcctggtg tggcaggagtcctctcaagaggctccctttatggtcatcacgctggcatctgacgcctcc agccagaccaggatggtacatgccagtgcctccacctccccgctctgctcacctactgaa acccagcccaccacccatggctacagccagacaacacctccgagtgtgtctcagctgccc ccagagccacctgggccacctggctttccacgggtgcccagtgctggtgcagatgggccc ctggcactatatggctggggtgccctccctgctgagaacatctccctgtgccggatctcc tctgtccctgggacgtctagggttgagccaggccccaggacccctggcactgcagtggta gacctccgtacagctgtcaagcccactcccatcatcctcactgaccagggcatggacctc acctctcttgctgtggaagcgaggaagtatggtcttgccctggatccaatcccaggacgg cagtcgaccgccgtgcagcccttggttatcaacctcaatgcccaggagcataccttcctt gctactgccaccaccgtgagcatcaccatggcctcgtctgtgttcatggctcaacaaaag cagcctgtggtctatggagacccctaccagagccgccttgactttggccagggtgggggt agccctgtgtgcctggcccaggtcaaacaagtagagcaggctgtccagacagccccatac cgaagtgggccccggggaagacccagggaggccaagtttgccagatataacctacccaac caagtagctcctctggccagaagagacgttttgatcactcagatgggcaccgcccagagc attggcctcaagccaggcccagtgccagagccaggtgccgagccccaccgggccacccct gcagagctgcggtcacatgctctgccaggtgccaggaagccacacacagtggtggtgcag atgggagagggcacagcaggcactgtgaccacactgctcccagaggagcctgcgggtgcc ctggaccttaccgggatgaggcctgagagccagctggcatgctgtgacatggtctacaag ctcccctttggcagcagctgcactggcaccttccacccggcccccagtgtgcctgagaag agcatggcagatgctgccccacctggccaaagcagcagccccttctatggtccccgggac cctgagcctcctgagcccccaacctaccgggcacagggggtggtggggcctgggccccat gaggagcagaggccctacccacaaggcctgcctggtaggctgtactcctccatgtctgac accaatttggctgaggctggcctcaactaccatgcccagaggatcgggcagctcttccag ggtcctggacgagactcggctatggacctcagctcactgaagcactcctacagcctgggc tttgcggatggacgctacctagggcagggcttgcagtatggctcagtcacggacctgcgt catcctacagaccttttggctcacccgcttcccatgcggcgctatagctcagtgtcgaac atctactcagaccacaggtacggcccacggggagatgcagttggcttccaggaggccagc ctggcccagtacagtgccaccacagcccgtgaaatcagtcgcatgtgcgctgccctcaac tccatggaccagtatggtgggcggcatggcagtggtggtggtggccctgaccttgtgcag taccagccccagcacgggcccgggctcagtgctccacagagtctggttcccctcagacct ggactccttggtaaccccacctttccagagggccacccaagtcctgggaacttggcccag tatgggcctgcagcaggccaaggaacagcagtcagacagctgctgccgtccacagccact gtacgtgcagctgatggcatgatctactcgactatcaataccccaattgctgcaacactg cccatcaccacccagcctgcctcagtcctgcggcccatggtgcgtggtggcatgtacagg ccttacgcatctggtggaatcacagccgtgccactcaccagtctgacacgtgtgcccatg attgccccccgggtacctcttggacccacagggctgtaccgctatcctgcaccaagtaga tttcccattgcttccagtgttccacctgcagaagggcctgtctatctggggaaacctgct gctgccaaggcccctggggctgggggcccttcaaggccagagatgccagtaggggctgca cgggaagagcctcttcccacaaccacccctgctgccatcaaggaggctgcaggagcccca gctcctgccccactagctggccagaagccaccagcagatgctgctcctgggggtggcagt ggggccctcagccggccagggttcgagaaagaggaagcatcacaggaggagaggcagcgg aagcaacaggagcagctgctccagctagagcgggagcgggtggagttggagaagctgcga caacttcggctgcaagaggagctagagcgggaacgtgtggagctgcagaggcaccgtgag gaggagcagctgctggtgcagcgggagttgcaggagctgcagaccatcaagcaccatgtg ctgcagcagcagcaagaggaacgccaggctcaatttgcactgcagcgggaacagctagcg cagcagcgtctgcagctggagcagatccagcagctgcagcagcagctgcagcagcagcta gaggagcagaagcagcggcagaaggctccctttcctgcagcctgtgaggcacctggccga gggcctcccctagcggctgctgagttggcccagaatggccagtattggcccccccttaca catgcagccttcattgccatggcagggcctgaaggacttgggcagcctcgtgagcctgtg ctgcaccggggtctccccagctctgcctcagacatgtcactgcaaacggaggagcagtgg gaggccagccgtagtggcatcaagaagcggcactccatgccacgcctgcgggatgcctgt gagctagagtctgggactgagccctgtgtggtcaggaggattgccgacagcagcgtgcag acagacgatgaggatggggagagccgctacctcttgagtcggcgacgccgggcacggcgg agtgctgactgcagtgtgcagacggacgacgaagacagtgctgagtgggagcagccagtg cgccgccgcaggtctcgtcttccccgccactcagactcaggctctgacagcaagcacgat gccactgcctcatcatccagtgctgctgccactgtgagggccatgagcagcgtgggcatc cagaccatcagtgactgctccgtgcagacggagcctgaccagctgcccagggtctctcca gccatccacatcacagctgccaccgatcccaaggtggagatcgtcaggtacatatcggcg ccagagaagactgggcgtggggagagcctggcctgccagacggagccagatgggcaggcc cagggtgtagccgggccgcagcttgtagggccaactgccatcagcccctacctgcctggc atccagatcgtcaccccagggcctctgggcagatttgaaaaaaagaagccagatcccctg gagattgggtaccaggcccacctgcctccggagtctctctcacagcttgtgagccgccag cctcccaagtcccctcaggtcctctactcaccagtctcacccctgtcccctcaccggctc ctggacacctcctttgcttccagtgagaggctgaacaaagctcacgtgagtccccagaag cacttcacggctgacagcgctctccgccagcagacgctgcctcgccccatgaagaccctg cagcggtccctgtctgaccctaagcccctcagccccaccgccgaagagtctgccaaagag agattctccctctaccagcaccaggggggactgggtagccaggtgtcggcgttgccaccc aacagcctggtccgcaaggtgaagcggacactgcccagcccccctccagaggaggctcac cttcccctggctggccaggcctccccacagctgtatgcagccagcctgctgcagcgaggg ctgacggggcccaccactgtccctgctaccaaggccagcctgctccgggagctggaccgg gacctgcggctggtggagcatgagtccaccaaactgcgcaagaagcaggcagagctggat gaggaggagaaggagattgacgccaagctcaagtacctggagttgggtatcacacaacgc aaagagtctttggccaaagaccggggtggccgtgactacccacccttgcgtggtcttggc gagcatcgtgactacctatcggacagtgagctcaaccagctgcggctccagggctgcacc actcccgctggccagtttgtggacttccctgccactgccgctgctcctgccaccccctct ggtcccactgccttccagcagccccgcttccagcctccagccccacagtattctgcaggc agtggtgggccaactcagaacggattcccagcccaccaggcccccacctaccctggcccc agcacgtacccagctcctgcctttcctcctggtgccagttacccagctgagcctggcctg ccaaaccagcaggctttccgccccacaggccactatgcaggccaaacacccatgccaacc acacagagcaccctttttccagtccccgctgatagccgtgccccactgcagaagccacgc cagacatcgctagccgacttggagcagaaggtgcccaccaactatgaggtgatcgccagc cccgttgtgcccatgtcttcagccccatctgaaaccagctacagtggcccagcagtgagc agcggctatgagcagggcaaggtccctgaggtgccccgggctggtgaccgtggcagtgtg agccagagcccagcccccacctacccctctgactcacactataccagtctggagcagaac gttcctcgaaactacgtaatgattgatgacatcagtgaactgaccaaggacagcacctct actgctcctgatagccaacggctggagcccctggggccaggcagcagtgggcgtccaggg aaggagcctggagaaccaggtgtccttgacgggcccacactgccctgctgctatgccaga ggagaagaggaatctgaggaggactcatacgatccccgcgggaagggtggccacctccgg agcatggagagcaatggtcgaccagccagtacccactactatggtgacagtgactacagg catggggctcgagtagagaagtatggtccagggcccatggggcccaagcatccctccaag agcctggctccagctgccatctcctcaaagcgcagcaagcaccggaagcagggcatggag caaaagatatccaagttctcgcctattgaagaggccaaagacgtagagtcagacctggcg tcctaccccccacctgcagtcagcagcagcctggtctctcggggcaggaagttccaggat gaaatcacctatgggctcaagaagaacgtgtatgagcagcaaaaatactatgggatgtcc agccgggacgcagtggaggacgaccgcatttatggcgggagcagccggtcccgggcacct tctgcatacagtggggagaagctgtccagccacgacttcagtggctggggcaaggggtac gaaagggaacgggaggctgtggagcgacttcaaaaagcgggccccaagccctcatcccta agtatggcccacagccgggtacgaccccccatgcggagccaggcctctgaagaggagagc cccgtcagtcctttggggaggccccgccctgccggagggcccctccctcccggcggggat acctgcccacagttctgctccagccactccatgcctgatgtccaggaacatgtcaaggac ggacctcgggcccacgcatataagcgtgaggagggctacatcctggatgattcccattgc gtggtttccgacagcgaagctaggcctccccctgcggctagcccgggggttgatggtatt ctgtttttggtctctgaagcgtatcacctgggccaggaggagacggactggtttgataag ccccgggatgcccgctctgaccggttcaggcaccacgggggccatgcagtttcctcctcc tcccagaagcgaggccctgccaggcacagctaccatgactacgatgaaccccctgaggag ggcctgtggcctcatgatgagggtggcccaggccgccatgcctcagccaaggaacaccgg cacggtgaccacgggcggcactcaggccgccacactggtgaggagccgggacggcgtgct gccaaaccacacgctcgggacctgggtcgccatgaggcccggccccactctcagcccagc tctgctccagctatgccgaagaagggtcagcctgggtatcccagctctgctgagtactca cagccatcccgtgcttcatccgcataccatcatgcctctgacagcaagaagggctcccgg caagcccactccgggcccgctgcactgcagtcaaaggcagaaccccaggcgcagccgcag ctgcaaggtcggcaggcagctccaggaccacagcagtcacagtcaccatcatccaggcaa ataccctctggggcagcatcacgccagccacagacacagcagcagcagcaaggtcttggg ctgcagcccccacagcaggctctgacacaggctcggctgcagcaacagagccagccaacc acccggggctcagcccctgctgccagccagcctgcagggaagcctcagccaggccccagc acagccacaggtcctcaaccagcaggaccgccacgggcagaacagacaaatggctctaaa gggacagccaaagcaccgcaacaggggagggctcctcaggcccagccagcaccaggacct ggacctgcaggtgtgaaggctggagccaggcctggaggaaccccaggggctcccgccggc cagccaggtgccgatggggagagcgtgttctccaagatcctccctggcggggcagccgag caagctggcaaactgacggaagaggcaggggccacagagctgcctgagatggtgccagac aagtcaggtggcacccttggagaagagcccagcacggctaactgcacctcacaacttgaa gtctatgtgctgggcactgagttcaaagtcatcctgaaggacctgctttctgggacctgg ttccagggaggcagtgaacaagtgctgccccctggtgctgccaacaagccctacacctct ctgccttgctccgaattttccaacccccaaactctcaccggctgccagaccttaggcctt cctcagatgcaccccctcaaccccttctctcgtaggcccttctaccctccccgaagccgg gctcccgggttccgcttccacagggccgccccctctcctccgagatccaacgcctcgccc ctcgcccgggccgggcctgaccctggtgtgtcccctgcgcaggtgctgctgagcgagccc gaggaggcggcggctctgtatcggggccttagccgccagcccgcgctgagcgccgcctgc ctgggcccggaggtcaccacgcagtacggcggccaataccggacggtgcacactgagtgg acccagagggacctggaacgcatggagaacattcgattctgccgccaatacctggtgttc catgacggggactcagtggtgtttgcaggacctgcaggcaacagtgtggagacccggggg gaactgctgagcagagagtctccttcaggcaccatgaaagctgtgctgcgcaaggctgga ggcacgggccctggggaagagaagcagttcctggaggtctgggagaagaaccggaagctc aagagcttcaacctgtcagcgctggagaaacatgggcctgtttatgaggatgactgcttt ggctgcctgtcctggtcgcactcggagacacacttgttgtatgtggcagagaagaagcgc cccaaggccgagtccttctttcagaccaaagccttggacgtcagtgccagcgatgatgag atagccaggctgaagaagccagaccaagccatcaagggggatcagtttgtgttttatgaa gactggggagaaaacatggtttccaaaagcatccctgtgctctgcgtgctggatgtcgag agtggcaacatctctgtgcttgagggggtccctgagaatgtgtcccctggacaggcattt tgggcccctggagatgctggtgtggtgtttgtgggctggtggcatgagcccttccggttg ggcatccgcttttgcaccaatcgcaggtcagccctgtattatgtggacctcatcgggggg aagtgtgagctcctctcggatgactccctggctgtctcttctccccggctgagcccagac caatgtcgcattgtctacctgcagtacccatctctgatcccccatcaccaatgcagccag ctgtgcctgtatgactggtataccaaggttacctcagtggtggtagatgttgtgcctcgg cagctgggagagaacttctctgggatctactgcagccttctgcctttgggatgctggtca gctgacagccagagagtggtctttgactcggctcagcgcagccggcaggacctgtttgct gtggacacccaagtgggcactgtgacctccctcacagctggtgagcaaggctttggggat gggggagggtcaggtgggagctggaagttgctcacaattgaccaggacctcatggtggca cagttttccacacccagcctacctccaaccctgaaagttgggttcctgccttctgcaggg aaggagcagtcagtgttgtgggtgtccctggaggaggccgagcccattcccgacatccac tggggcatccgggtgctacagccacccccagagcaagagaatgtgcagtatgctggcctt gactttgaagcaatcctgctgcagcctggcagccctccagataagacccaagtgcccatg gtggtcatgccccacggggggccccattcatcctttgtcactgcctggatgctgttccca gccatgctttgcaagatgggctttgcggtactactagtgaactatcgtggctccacgggc tttggccaggacagcatcctctccctcccaggcaatgtgggccaccaggatgtgaaggat gtccagtttgcagtggaacaggtgctccaggaggaacactttgatgcaagccatgtggcc cttatgggtggttcccatggtggcttcatttcctgccacttgattggtcagtacccagag acctacagggcctgcgtggcccggaaccccgtgatcaacatcgcctccatgttgggctcc actgacatccctgactggtgcgtggtggaggctggctttcctttcagcagtgactgcctg ccagacctcagcgtgtgggctgagatgctggacaaatcgcccatcagatacatccctcag gtgaagacaccactgttactgatgttgggccaggaggaccggcgtgtgcccttcaagcag ggcatggagtattaccgtgccctcaagacccggaatgtgcctgttcggctcctgctctat cccaaaagcacccacgcattatcagaggtggaggtggagtcagacagcttcatgaatgct gtgctctggctacgcacacacttgggcagctga >gi568815595r:49617954_49819465|GENSCAN_predicted_peptide_2|818_aa MISAAPGPCWPQRLLVLGQPQTLYSRHKPLWVCTTPAPREGDFPDLGPSVGVHDRCPFTT RVVEDLIKLSHSFDEQTFQTPGVGSGSQLLRTQLHRTCQTSFRSEFRTQIPALQVPSHWT SPDREGNSRNPPGSEPCRPSLTRSLGRSDPAHNIRPTSWLRRQRSPLNDFQVLRGTELQH LLHAVVPGPWQEDVADAEECAGRCGPLMDCRAFHYNVSSHGCQLLPWTQHSPHTRLRRSG RCDLFQKKGKYTPTLRNGLEENFCRNPDGDPGGPWCYTTDPAVRFQSCGIKSCREAACVW CNGEEYRGAVDRTESGRECQRWDLQHPHQHPFEPGKFLDQGLDDNYCRNPDGSERPWCYT TDPQIEREFCDLPRCGSEAQPRQEATTVSCFRGKGEGYRGTANTTTAGVPCQRWDAQIPH QHRFTPEKYACKDLRENFCRNPDGSEAPWCFTLRPGMRAAFCYQIRRCTDDVRPQDCYHG AGEQYRGTVSKTRKGVQCQRWSAETPHKPQFTFTSEPHAQLEENFCRNPDGDSHGPWCYT MDPRTPFDYCALRRCADDQPPSILDPPDQVQFEKCGKRVDRLDQRRSKLRVVGGHPGNSP WTVSLRNRQGQHFCGGSLVKEQWILTARQCFSSCHMPLTGYEVWLGTLFQNPQHGEPSLQ RVPVAKMVCGPSGSQLVLLKLERSVTLNQRVALICLPPEWYVVPPGTKCEIAGWGETKGT GNDTVLNVALLNVISNQECNIKHRGRVRESEMCTEGLLAPVGACEGDYGGPLACFTHNCW VLEGIIIPNRVCARSRWPAVFTRVSVFVDWIHKVMRLG >gi568815595r:49617954_49819465|GENSCAN_predicted_CDS_2|2457_bp atgatcagtgcagctcctggcccctgctggccccagagacttctggtcctaggccagcca cagaccctctactcccgccacaaacccttgtgggtctgcaccacgcctgctcctcgggaa ggtgattttcccgacctcgggccctcggtgggcgtccatgatcggtgccccttcactacc agagtagttgaagatctgattaaactcagtcattcatttgatgagcagaccttccagaca cccggagtgggctccgggagtcagttgctgaggacccagctccacaggacctgccagacc agcttccgctcggagtttcgcacccagatccctgcgctgcaggtgccctcgcactggact agcccggaccgcgaagggaatagccggaacccgccaggctcagagccctgccgcccctca ctcacccggagcctcggccgcagcgacccggctcacaacatccgcccaacctcttggcta cggcggcagcgctcgccattgaatgacttccaagtgctccggggcacagagctacagcac ctgctacatgcggtggtgcccgggccttggcaggaggatgtggcagatgctgaagagtgt gctggtcgctgtgggcccttaatggactgccgggccttccactacaacgtgagcagccat ggttgccaactgctgccatggactcaacactcgccccacacgaggctgcggcgttctggg cgctgtgacctcttccagaagaaaggcaagtacacgcccactctccggaatggcctggaa gagaacttctgccgtaaccctgatggcgaccccggaggtccttggtgctacacaacagac cctgctgtgcgcttccagagctgcggcatcaaatcctgccgggaggccgcgtgtgtctgg tgcaatggcgaggaataccgcggcgcggtagaccgcacggagtcagggcgcgagtgccag cgctgggatcttcagcacccgcaccagcaccccttcgagccgggcaagttcctcgaccaa ggtctggacgacaactattgccggaatcctgacggctccgagcggccatggtgctacact acggatccgcagatcgagcgagagttctgtgacctcccccgctgcgggtccgaggcacag ccccgccaagaggccacaactgtcagctgcttccgcgggaagggtgagggctaccggggc acagccaataccaccactgcgggcgtaccttgccagcgttgggacgcgcaaatcccgcat cagcaccgatttacgccagaaaaatacgcgtgcaaagaccttcgggagaacttctgccgg aaccccgacggctcagaggcgccctggtgcttcacactgcggcccggcatgcgcgcggcc ttttgctaccagatccggcgttgtacagacgacgtgcggccccaggactgctaccacggc gcaggggagcagtaccgcggcacggtcagcaagacccgcaagggtgtccagtgccagcgc tggtccgctgagacgccgcacaagccgcagttcacgtttacctccgaaccgcatgcacaa ctggaggagaacttctgccggaacccagatggggatagccatgggccctggtgctacacg atggacccaaggaccccattcgactactgtgccctgcgacgctgcgctgatgaccagccg ccatcaatcctggaccccccagaccaggtgcagtttgagaagtgtggcaagagggtggat cggctggatcagcggcgttccaagctgcgcgtggttgggggccatccgggcaactcaccc tggacagtcagcttgcggaatcggcagggccagcatttctgcggggggtctctagtgaag gagcagtggatactgactgcccggcagtgcttctcctcctgccatatgcctctcacgggc tatgaggtatggttgggcaccctgttccagaacccacagcatggagagccaagcctacag cgggtcccagtagccaagatggtgtgtgggccctcaggctcccagcttgtcctgctcaag ctggagagatctgtgaccctgaaccagcgtgtggccctgatctgcctgccccctgaatgg tatgtggtgcctccagggaccaagtgtgagattgcaggctggggtgagaccaaaggtacg ggtaatgacacagtcctaaatgtggccttgctgaatgtcatctccaaccaggagtgtaac atcaagcaccgaggacgtgtgcgggagagtgagatgtgcactgagggactgttggcccct gtgggggcctgtgagggtgactacgggggcccacttgcctgctttacccacaactgctgg gtcctggaaggaattataatccccaaccgagtatgcgcaaggtcccgctggccagctgtc ttcacgcgtgtctctgtgtttgtggactggattcacaaggtcatgagactgggttag >gi568815595r:49617954_49819465|GENSCAN_predicted_peptide_3|1150_aa MVLLLLLLLWPPGETAGGRAVSQWLWVFRALNWDLGDPKRKPLNFQNLPEHLDQLLQVDN EEEESQGQVEGRLGPSTVVLDHTGGFEGLLLVDDDLLGVIGHSNFGTIRSTTCVYKGKWL YEVLISSQGLMQIGWCTISCRFNQEEGVGDTHNSYAYDGNRVRKWNVTTTNYGKAWAAGD IVSCLIDLDDGTLSFCLNGVSLGTAFENLSRGLGMAYFPAISLSFKESVAFNFGSRPLRY HFVKMADPPSADLVRAQRLLGCFRAVLSVELDPVEGRLLDKESSKWRLRGQPTVLLTLAH IFHHFAPLLGCLDQSGRPPPHQCLALVQRKVYLVEAVLMSFLLGIVEKGTPTQAQSVVHQ VLDLLWLFMEDYEVQDCLKQLMMSLLRLYRFSPIVPDLGLQSPALTPASFDVLRSVVFFY IKSPLRVEEAGLQELIPTTWWPHCSSREGKESTEMKEETAEERLRRRAYERGCQRLRKRI EVVEELQVQILKLLLDNKDDNGGEASRYIFLTKFRKFLQENASGRGNMPMLCPPEYMVCF LHRLISALRYYWDEYKASNPHASFSEEAYIPPQVFYNGKVDYFDLQRLGGLLSHLRKTLK DDLASKANIVIDPLELQSTAMDDLDEDEEPAPAMAQRPMQALAVGGPLPLPRPGWLSSPT LGRANRFLSTAAVSLMTPRRPLSTSEKVKVRTLSVEQRTREDIEGSHWNEGLLLGRPPEE PEQPLTENSLLEVLDGAVMMYNLSVHQQLGKMVGVSDDVNEYAMALRDTEDKLRRCPKRR KDILAELTKSQKVFSEKLDHLSRRLAWVHATVYSQEKMLDIYWLLRVCLRTIEHGDRTGS LFAFMPEFYLSVAINSYSALKNYFGPVHSMEELPGYEETLTRLAAILAKHFADARIVGTD IRDSLMQALASYVCYPHSLRAVERIPEEQRIAMVRNLLAPYEQRPWAQTNWILVRLWRGC GFGYRYTRLPHLLKTKLEDANLPSLQKPCPSTLLQQHMADLLQQGPDVAPSFLNSVLNQL NWAFSEFIGMIQEIQQAAERLERNFVDSRQLKVCATCFDLSVSLLRVLEMTITLVPEIFL DWTRPTSEMLLRRLAQLLNQVLNRVTAERNLFDRVVTLRLPGLESVDHYPILVAVTGILV QLLVRGPASE >gi568815595r:49617954_49819465|GENSCAN_predicted_CDS_3|3453_bp atggtcctactgctgctgctgctgctgtggccgccaggagagacagcaggtggtagggct gtcagtcagtggttgtgggtattcagggccctgaactgggacctaggagatccaaaaagg aaacccctgaacttccagaacctgccagaacatttggaccagttgctacaggtggacaat gaggaggaggaaagccagggacaggttgaagggcggcttggcccatccactgtggtcctg gaccacacaggcggctttgaggggcttctcctggtggatgatgacctgctgggggtgatt ggacacagcaactttggcaccatccgctctaccacatgcgtgtacaaagggaaatggctc tacgaggtcctcatctcctcccaggggctcatgcagatcggctggtgcaccatcagctgc cgcttcaaccaggaggagggggttggagatacacacaactcctatgcctatgatggcaac cgcgtgcgcaagtggaatgtgaccacaacgaattatggcaaggcgtgggcagcgggggac atcgtgagctgcctgattgacctggatgatggcactctgtccttctgcctgaacggtgta tcactgggcactgcctttgagaacctgtccaggggcctgggtatggcctacttcccagcc atcagcctctctttcaaggagtccgtggccttcaactttggcagccgtcctctgcgatat cattttgtgaagatggctgacccaccgagtgctgacctggtgcgggcacagaggttgctg ggctgcttccgggcagtgctgagtgtggagctggaccctgtggaggggcggctgttggac aaggagagctccaagtggcggttgcggggccagcccaccgtcctcctcacactggcccac atcttccatcactttgcaccgcttctggggtgccttgaccagagtggaaggccaccacct caccagtgcctggccttggtgcagcgcaaggtgtatctggtggaggctgtgctcatgagc ttcttgctgggcatcgtggagaagggcacacccacacaggcacagtccgtggtgcaccag gtcctggacctcttgtggctcttcatggaggactacgaggtacaagattgcctcaagcag ttgatgatgtctctgcttcggctgtaccgattctcacccattgtcccagacctgggccta cagagccctgccttgacacccgccagcttcgacgtgctccgctccgtcgtcttcttttac atcaagagccccctgcgtgtggaggaggccggcctgcaggagctcattcccaccacctgg tggccccactgctccagtagggagggcaaagagagcacggagatgaaggaggagaccgca gaggagcggctgcggcggcgagcctacgaacggggctgtcagcggctcaggaagcgcatc gaagtggtggaagaactacaggtccagatcctgaagctgctgctggacaataaagatgac aatgggggtgaagcttctaggtatatcttcctgaccaagtttcgcaagtttctgcaggag aacgccagtggccgggggaacatgcccatgctctgcccccctgagtacatggtctgcttc ttacaccggctgatctctgccctgcgctactattgggatgaatacaaggcttccaatcct catgcttccttcagtgaggaggcctacatcccgccccaggtcttctataatggcaaggtg gactactttgacctgcagcgcctggggggcctcctctcgcacctgcggaagaccctcaaa gatgaccttgcttccaaagccaacattgtgatcgacccactggagctccagtcaaccgcc atggatgacctagatgaggatgaggagccagccccagctatggcccagcgccccatgcag gccctggctgttggggggccactgcccctgccccggcccggctggctcagttctccaact ttgggccgagccaaccgcttcctcagcacagcggctgtgagcctcatgaccccacggcgg cctctgagcacctcggagaaagtgaaggtccgcacgctgagcgtggagcagaggacccgt gaggacattgaaggcagccactggaatgagggcttgctgctggggcggccccccgaggag cctgagcagcccctcaccgagaactcgctgctggaagtcctggatggggcggtcatgatg tacaacctcagcgtacaccagcagctgggcaagatggtgggtgtctccgatgatgtcaat gaatacgctatggctctgagggacacagaggacaagctccgccggtgccccaagaggagg aaggacatccttgcagagttgaccaagagccagaaggttttctcagaaaagctggaccac ctgagccgccgtcttgcctgggtccatgccactgtctactcccaggagaagatgctggac atctactggctgctgcgcgtctgcctgcggaccattgagcacggtgatcgcacagggtct ctctttgccttcatgcccgagttctacctgagcgtggccatcaacagctacagtgctctc aagaattactttggtcccgtgcacagcatggaggagctcccaggctatgaagagaccctg acccgcctggctgccattctcgccaaacactttgccgacgcacgcattgtgggcactgac atccgagactcactgatgcaggccctggccagctacgtgtgctacccacactccctgcgg gctgtggagcgaatccccgaggagcagcgtatcgccatggtgaggaacctcctggcgccc tatgagcagcggccctgggcccagaccaactggatcctggtgcggctctggaggggctgt ggcttcgggtaccgctatacacggctgccacatctgctgaaaaccaaacttgaggacgcc aatttgcccagcctccagaagccctgcccttccaccctgctgcagcagcacatggcggac ctcctacagcagggtcctgatgtggcacccagcttcctcaacagcgtcctcaatcagctc aactgggccttctctgaattcattggcatgatccaagagatccagcaggctgctgagcgc ctggagcggaactttgtggacagccggcagctcaaggtatgtgccacctgctttgacctc tcggtcagcctgctgcgtgtcttggagatgactatcacactggtgcctgagatattcctt gactggacccggcctacctctgagatgctgctgcggcgtcttgcacagctgctaaaccag gtgctgaaccgggtgacagctgagaggaacctgtttgatcgtgtggtcaccctacggctg cctggcctagagagcgtggaccactatcccattctggtggcagtgacgggcatcctggtg cagctcctggtgcgtggcccagcctcagagtga >gi568815595r:49617954_49819465|GENSCAN_predicted_peptide_4|504_aa MTWLVLLGTLLCMLRVGLGTPDSEGFPPRALHNCPYKCICAADLLSCTGLGLQDVPAELP AATADLDLSHNALQRLRPGWLAPLFQLRALHLDHNELDALGRGVFVNASGLRLLDLSSNT LRALGRHDLDGLGALEKLLLFNNRLVHLDEHAFHGLRALSHLYLGCNELASFSFDHLHGL SATHLLTLDLSSNRLGHISVPELAALPAFLKNGLYLHNNPLPCDCRLYHLLQRWHQRGLS AVRDFAREYVCLAFKVPASRVRFFQHSRVFENCSSAPALGLERPEEHLYALVGRSLRLYC NTSVPAMRIAWVSPQQELLRAPGSRDGSIAVLADGSLAIGNVQEQHAGLFVCLATGPRLH HNQTHEYNVSVHFPRPEPEAFNTGFTTLLGCAVGLVLVLLYLFAPPCRCCRRACRCRRWP QTPSPLQELSAQSSVLSTTPPDAPSRKASVHKHVVFLEPGRRGLNGRVQLAVAEEFDLYN PGGLQLKAGSESASSIGSEGPMTT >gi568815595r:49617954_49819465|GENSCAN_predicted_CDS_4|1515_bp atgacctggttggtgctgctggggacactgctctgcatgctgcgcgttgggttaggcacc ccggactccgagggtttcccgccccgtgcgctccacaactgcccctacaaatgtatctgc gctgccgacctgctaagctgcactggcctagggctgcaggacgtgccagccgagttacct gccgctactgcggacctcgacctgagccacaacgcgctccagcgcctgcgccccggctgg ttggcgcccctcttccagctgcgcgccctgcacctagaccacaacgaactagatgcgctg ggtcgcggcgtcttcgtcaacgccagcggcctgaggctgctcgatctatcatctaacacg ttgcgggcgcttggccgccacgacctcgacgggctgggggcgctggagaagctgcttctg ttcaataaccgcttggtgcacttggacgagcatgccttccacggcctgcgcgcgctcagc catctctacctgggctgcaacgaactcgcctcgttctccttcgaccacctgcacggtctg agcgccacccacctgcttactctggacctctcctccaaccggctgggacacatctccgta cctgagctggccgcgctgccggccttcctcaagaacggcctctacttgcacaacaaccct ttgccttgcgactgccgcctctaccacctgctacagcgctggcaccagcggggcctgagc gccgtgcgcgactttgcgcgcgagtacgtatgcttggccttcaaggtacccgcgtcccgc gtgcgcttcttccagcacagccgcgtctttgagaactgctcgtcggccccagctcttggc ctagagcggccggaagagcacctgtacgcgctggtgggtcggtccctgaggctttactgc aacaccagcgtcccggccatgcgcattgcctgggtttcgccgcagcaggagcttctcagg gcgccaggatcccgcgatggcagcatcgcggtgctggccgacggcagcttggccataggc aacgtacaggagcagcatgcgggactcttcgtgtgcctggccactgggccccgcctgcac cacaaccagacgcacgagtacaacgtgagcgtgcactttccgcgcccagagcccgaggct ttcaacacaggcttcaccacactgctgggctgtgccgtgggccttgtgctcgtgctgctc tacctgttcgccccaccctgccgctgctgccgccgtgcctgccgctgccgccgctggccc caaacacccagcccgctccaagagctgagcgcacagtcctcagtactcagcaccacaccg ccagacgcacccagccgcaaggccagcgtccacaagcacgtagtctttctggagccaggc cggaggggcctcaatggccgcgtgcagctggcagtagctgaggaattcgatctctacaac cctggaggcctgcagctgaaggctggctctgagtccgccagctccataggctccgagggt cccatgacaacctag >gi568815595r:49617954_49819465|GENSCAN_predicted_peptide_5|173_aa MGSKANPKVPVSLWLAALRRSFFLGEREQATSVLLADPCFQLRSICYLLGQPEPPAPGTA LPAPDRKRFSLQSYADYISADELAQVEQMLAHLTSASAQAAAASLPTSEEDLCPICYAHP ISAVFQPCGHKSCKACINQHLMNNKDCFFCKTTIVSVEDWEKGANTSTTSSAA >gi568815595r:49617954_49819465|GENSCAN_predicted_CDS_5|522_bp atggggagcaaggccaaccccaaagtccccgtcagcctttggctggcagctctccgccgc tcgtttttcctcggggagagagagcaagccacatcagtgctcctggcagatccctgcttc cagctacgctcaatatgctatctcctgggacagccagagcccccagcacctggcactgct ctgccagcccctgaccggaagcgcttctccctgcagagctatgcggattatatcagtgcc gatgagctggcccaagtggaacagatgctggcgcacctgacctctgcatctgcccaggca gcagctgcctccctgcccaccagtgaggaggacctctgccccatctgctatgcccacccc atctctgctgtgttccagccctgtggccacaagtcctgcaaagcctgtatcaaccagcac ctgatgaacaacaaggactgcttcttctgcaaaaccaccatcgtgtctgtagaggactgg gagaagggagccaatacgagtactacctcctcagctgcctag >gi568815595r:49617954_49819465|GENSCAN_predicted_peptide_6|487_aa MGGSLLPQVSAAVLLLDGLLLPGLKGCGPLRVSFPQAKFKAAALYGQEVTPISAIAKVST LSFEPRATLFIVTLGKCLFGFKARRTRALIGYVCRSAALQRSDAGGRATYAAADWPAVVA SLPAPGAMKALILVGGYGTRLRPLTLSTPKPLVDFCNKPILLHQVEALAAAGVDHVILAV SYMSQVLEKEMKAQEQRLGIRISMSHEEEPLGTAGPLALARDLLSETADPFFVLNSDVIC DFPFQAMVQFHRHHGQEGSILVTKVEEPSKYGVVVCEADTGRIHRFVEKPQVFVSNKINA GMYILSPAVLQRIQLQPTSIEKEVFPIMAKEGQLYAMELQGFWMDIGQPKDFLTGMCLFL QSLRQKQPERLCSGPGIVGNVLVDPSARIGQNCSIGPNVSLGPGVVVEDGVCIRRCTVLR DARIRSHSWLESCIVGWRCRVGQWVRMENVTVLGEDVIVNDELYLNGASVLPHKSIGESV PEPRIIM >gi568815595r:49617954_49819465|GENSCAN_predicted_CDS_6|1464_bp atgggtgggagtcttcttcctcaagtttcggcagctgtgctgctgctggatgggctgctc ctcccagggctcaagggctgtggtccgctcagggtctcatttccccaggccaagttcaag gcagcagccctttatggccaggaggtgacaccgatttcagccattgccaaggttagcacc ctctcctttgagcctagggccacactgttcattgtcactttaggcaagtgcctgtttggc tttaaagcccggcgtactcgggcgctcattggctacgtctgtcgcagcgctgcgctccaa cgttccgacgccggcggccgtgccacgtacgcggcagccgattggcccgcggtggtcgcg tcactgcccgcgccgggcgcgatgaaggcactgatcttagtggggggctatgggacgcgg ctacggccgctgacgctgagcaccccgaagccactggtggacttctgcaataagcccatc ttgctgcaccaagtggaggcgctagccgcggcaggcgtggaccacgtgatcctggccgtg agctacatgtcgcaggtgctggagaaggaaatgaaggcacaggagcagaggctgggaatc cgaatctccatgtcccatgaagaggagcctttggggacagctgggcccctggcgctggcc cgtgacctactctctgagactgcagaccctttcttcgtcctcaacagtgacgtgatctgc gatttccccttccaagccatggtgcagttccaccggcaccatggccaggagggctccatc ctggtgaccaaggtggaggaaccctccaagtacggtgtggtggtgtgtgaggctgacaca ggccgcattcaccggttcgtggagaagccacaggtgtttgtgtccaataagatcaacgca ggcatgtacatcctgagccctgcagtgctgcagcgcatccagctgcagcctacgtccatt gagaaggaggtcttccccattatggccaaggaggggcagctatatgccatggagttacag ggcttctggatggacattgggcagcccaaggacttcctcactggcatgtgcctcttcctg cagtcactgaggcagaagcagcctgagcggctgtgctcaggccctggcattgtgggcaac gtgctggtggacccaagtgcccgcatcggccagaactgcagcattggccccaatgtgagc ctgggacctggcgtggtggtcgaagatggtgtgtgtatccggcggtgcacggtgctgcgg gatgcccggatccgttcccattcctggcttgagtcctgcattgtgggctggcgctgccgc gtgggtcagtgggtacgcatggagaacgtgacagtgctgggtgaggacgtcatagttaat gatgagctctacctcaacggagccagcgtgctgccccacaagtctattggcgagtcagtg ccagagcctcgtatcatcatgtga >gi568815595r:49617954_49819465|GENSCAN_predicted_peptide_7|249_aa MVSVVVILLDRGPEFLLLENVVHHFKYPCVLDLKMGTRQHGDDASAEKAARQMRKCEQST SATLGVRVCGMQVYQLDTGHYLCRNKYYGRGLSIEGFRNALYQYLHNGLDLRRDLFEPIL SKLRGLKAVLERQASYRFYSSSLLVIYDGKECRAESCLDRRSEMRLKHLDMVLPEVASSC GPSTSPSNTSPEAGPSSQPKVDVRMIDFAHSTFKGFRDDPTVHDGPDRGYVFGLENLISI MEQMRDENQ >gi568815595r:49617954_49819465|GENSCAN_predicted_CDS_7|750_bp atggtgagtgtggttgtcattctccttgaccgtggcccagagttcctcctgcttgagaac gtggtgcaccacttcaagtacccctgcgtgttggacctgaagatgggcacgcggcagcat ggcgatgacgcgtcagctgagaaggcagcccggcagatgcggaaatgcgagcagagcaca tcagccacgctgggcgtcagggtctgcggcatgcaggtgtaccagctggacacagggcat tacctctgcaggaacaagtactatggccgtgggctctccattgaaggcttccgcaatgcc ctctatcaatatctgcacaatggcctggacctgcgacgtgacctgtttgagcctatcctg agcaaactgcggggcctgaaagctgtgctggagcggcaggcctcttaccgcttctactcc agttccctgcttgtcatctatgatggcaaggagtgccgggctgagtcctgcctggaccgc cggtctgagatgcgtctcaagcacctggacatggtgctccctgaggtggcgtcatcctgt ggccccagcaccagccccagcaacaccagccccgaggcgggtccctcctctcagcccaag gtggatgtccgcatgattgactttgcacacagcacattcaagggcttccgggatgacccc accgtgcatgatgggccagacagaggctacgtgtttggcctggagaacctcatcagcatc atggaacagatgcgggacgagaaccagtag >gi568815595r:49617954_49819465|GENSCAN_predicted_peptide_8|195_aa MGFRHVGQAGVELLISGVVSVCFEGDSDGYINLVAYPYVESETVEQDDTTEREQPRRKHS RRSLHRSGSGSDHKEEKASLSLETSESQQILFGQSASFMQGESFIPTSCSQEAKSPKVEL HSHSEVPFQMLDGNSGLSSEKISHNPWSLRCHKQQLSRMRSESKDRKLYSILVAPPSGVS TGSIGRVLGHHSAYG >gi568815595r:49617954_49819465|GENSCAN_predicted_CDS_8|588_bp atggggtttcgacatgttggccaggctggtgtggaactcctgatctcaggcgtggtatct gtctgttttgagggggacagtgatggttacatcaacttagtggcctatccttatgtggaa agtgagactgtggaacaggatgacacaacagaacgggagcaacctcggcgcaaacactcc cgccggagcctgcaccggtcaggcagtggcagtgaccacaaggaggagaaagccagcctg tcccttgagacctctgagagtcagcagatcctctttggccagtctgcatctttcatgcaa ggagagagcttcatacccacttcttgctcacaggaggcaaagagtccgaaggtggagctg cacagccactcagaggtccctttccagatgctagatggcaacagtggcttgagttctgag aagatcagccacaacccctggagcctgcgttgtcacaagcagcagctgagccgcatgcgc tccgagtccaaggaccgaaagctctacagtatcctcgttgcccctccttcaggagtgtct actgggtccataggtcgtgtgttggggcaccattctgcctatggctga >gi568815595r:49617954_49819465|GENSCAN_predicted_peptide_9|76_aa MEVGQYGKNASRAGDRGVLLEPFIHQVGGHSSMMRYDDHTVCKPLISREQRFYESLPPEM KEFTPEYKDLPIVDIS >gi568815595r:49617954_49819465|GENSCAN_predicted_CDS_9|231_bp atggaagtggggcagtatggcaagaatgcaagtcgggctggagaccggggagtcctcctg gagcccttcatccaccaagtaggcggacacagcagcatgatgcgttacgacgatcacact gtgtgcaagcccctcatctcccgggaacagcgcttttacgagtccctccctcccgaaatg aaggagttcacccctgaatacaaagatttgcctattgtagatatttcataa >gi568815595r:49617954_49819465|GENSCAN_predicted_peptide_10|139_aa MKGHQTVAKKKKKKYRTLGKCFLLTGQLTCQSESASQGLCRKRGARDCDGMGWRMRFVPG VAGGGVFAGYYEAGAPLASLRPWPSCGTGGVLSYTCAHTGNLSVQKLQILPKKTSTYSWQ IALKFDGTLKKQQWYNYCG >gi568815595r:49617954_49819465|GENSCAN_predicted_CDS_10|420_bp atgaagggacaccagacagtagctaaaaagaaaaagaaaaaatatagaacactggggaag tgcttcctgctgacaggtcagctcacgtgtcagtcagagtctgcctctcagggcctctgc cgaaagcgtggggcacgtgactgtgacggcatgggttggcgcatgcgcttcgttcccgga gtggctggcggcggagttttcgctggctactacgaggccggagcgcccttggcctctctg cgtccctggccctcgtgcggtaccggcggcgtcttgtcatacacttgcgcacacacaggg aatctcagcgtgcaaaagctccagatccttcccaagaaaacctccacatacagttggcaa attgccctgaagtttgatgggaccctcaaaaagcaacagtggtataactactgtggataa >gi568815595r:49617954_49819465|GENSCAN_predicted_peptide_11|766_aa MVLLRLLVFLFAPVVSDLCSLPCFINVSESQGPGTVLQFLSFNCSSYTPTPTLELLNVQP PTTFFNPPSLARWQGTYVGKLTLSSSAQLDALMVNHYKVQLKFTCGNHVMEGSLSVDVQR DLSHIQCAGQFASPGLELHGAQMSIISAQDLPHFPGPFSINEQGWLQAPSQGLLGQAQKV FQLQISVSFGQRQSCQGMVIVKVLPVPSSQVSFLEQAQNITIPENLAPGSEVVQVQARGV DLRYEILSPVPSPLFSIGRADGVVRTTTPLELARTSGTAVSRLQVKAFEQGQLWASAKLN LTMNVQLVNLWPPRCLPALLVSQIPETAPVGTVLNTLTCEDPDSVGATLDYKLWFRSSSN PASLCLYDRVLEVNATLDCDTPGACFQHAASILVLDGGQPQMTTEVPVLVMVTPINEFSP ACAPRTFRVQEDAAPHTLLGSVVGTDMDYPHDNIEYYTSGGPTTFAVDRLSGEVHLLGPL DYEQQRLYRLTVLVIDHGQDQNPNHHLSGSCTITIEVEDVNDHAPECEPPFQELTIYAPL GRSVEVTKMSCQIPQEPQRLIYSYSIVGGNSQNRFILQGAILVHSDLVLGPFWPEQPRTY ELLICVADAGPSTPHLSTTATIIVHLVPRRASTVATSTHRTTVPSTMTPMLVTDTEAFWQ PQPWFVVVLTATGALLLLALGWLLGRLLQGLAQLLQAPSKPAQALLLNSIQGTEGSIEGF LEAPKMEMSQAPSSVMSLQHFDGRAQDSRTGRDYLFNTHTGARRWL >gi568815595r:49617954_49819465|GENSCAN_predicted_CDS_11|2301_bp atggtgctgctcaggctcctcgtgttcctctttgctccggtggtctctgacctctgcagc ctgccctgctttataaatgtctctgagagccagggccctggcacagtccttcagttttta tccttcaactgctcctcctacacgcccacacccaccctggagttgctcaatgtccagcca cccaccaccttcttcaacccacccagcttggccaggtggcaagggacctatgtgggcaag ttgaccttgagcagctctgctcagttggatgccctgatggtgaaccactacaaggtgcag ctgaagttcacatgtggcaaccatgtgatggagggctcactctctgtggatgtgcagcgg gaccttagccatatccagtgtgctggtcaatttgccagcccaggcctagaactccacgga gcgcagatgagcattatcagtgcccaggacctgccacacttccctggacctttctccatc aatgagcaaggttggctgcaggcaccatcccagggcctcctaggccaggctcaaaaggtc ttccagctgcaaatctcagtgtcctttggacaaaggcaaagctgccaagggatggtgata gtgaaggttttgcctgttccctccagccaggtctccttcctcgagcaggctcagaatatc accatccctgagaatctggcccccggtagtgaggtggttcaggtccaggcccggggtgtc gacctgcgctatgaaatcctgtctccggtgcccagcccactcttctccattggtcgtgca gacggtgtggtccggaccaccacgcccctagagttagctcgcacctcaggcaccgcggtc tccaggctgcaggtgaaggcctttgagcagggccagctgtgggccagtgccaagctcaat ctcaccatgaatgtgcagctggtcaacctctggcctccacgctgcctcccagcgcttctg gtgtcccaaatcccggagactgcacccgtgggcaccgtgctgaatactctcacttgcgaa gatccggactctgttggtgccaccctggactacaagctgtggttccgcagctcttccaac cctgccagcctctgcctttatgacagagtccttgaggtgaatgccacactggactgtgac actcctggagcctgcttccagcatgcagcctccatcctggtgctcgatggtggccagccc cagatgaccactgaggtgccggtactggtgatggtgacacccatcaacgagttctcccca gcctgtgcccctcgcacgttccgggttcaggaggatgcggcgccccacactctactgggc tccgtggtgggcacggatatggattaccctcatgacaacattgagtactacacctctggt ggtcctaccacctttgctgtggaccgtctcagcggggaagttcacctcctgggacctttg gactatgagcagcagaggctgtacaggctcactgtccttgtgattgaccatggccaagac cagaaccccaaccatcacctctcaggctcctgtaccattaccatcgaggttgaggatgtg aatgaccatgcccccgagtgtgagcccccatttcaggaactcaccatctatgctcctctg ggccgtagcgtggaggtgaccaagatgtcatgccagatccctcaggagccacagcgcctg atctactcctatagcatcgtgggagggaatagccagaaccgattcatcctgcaaggggcc atcctggtgcacagtgaccttgtgttggggccgttctggccagagcagccccgtacctat gagctactgatctgtgtggccgatgcaggcccctccaccccccacctcagcaccacagcc accattattgtgcatctagttccccggagggccagcacagtggccaccagcacccacaga accacagtgccctcaacgatgacacccatgctcgtgacagacacagaggctttctggcag ccacagccctggtttgtggtggtgttgacagcaactggtgctcttctcctcttggcccta ggctggcttcttggcaggctcctccaggggttggcccagctgctgcaagcacccagcaaa ccagcccaggctttgctgctaaacagcatccagggaactgagggatccatcgagggtttc ctggaggcaccgaagatggagatgtcccaggcacccagcagtgtcatgagtctgcagcat tttgatggcagagcacaggactcccgtaccggaagagactacctgtttaacacacacaca ggagcccggcgctggctctga >gi568815595r:49617954_49819465|GENSCAN_predicted_peptide_12|287_aa MDMHSARLDSFLSQLRWELLCGRDTGSPSMPGPLQPTSQTGPDVQPSHQLRASGALEEDS VCCVEEEEEEEEEAVVTEDRDAALGGPREHALDWDSGFSEVSGSTWREEELPVSQRPAPS AQPLRRQCLSVSGLPMPSRAPVASVPPVHHPRPKSTPDACLEHWQGLEAEDWTAALLNRG RSRQPLVLGDNCFADLVHNWMELPETGSEGGDGGGHRARARPPQFLLGLSEQLRRRLARA RRTAMAGKRLSCPPRPEPELPADVSRFAALMSCRSRQPIICNDVSYL >gi568815595r:49617954_49819465|GENSCAN_predicted_CDS_12|864_bp atggacatgcacagcgctcggcttgacagcttccttagccagctccgctgggaactgttg tgtggtcgggacacaggctcaccctcaatgcctggtcccctgcagccaacctcccaaact ggcccagatgtgcagcccagccaccagcttagggcctcgggtgccttggaagaggactca gtctgctgtgtggaggaggaggaagaggaggaggaggaagcagtggtgacagaagacagg gatgcagccttgggaggccccagggagcatgccctggactgggactctggcttctcggag gtgtcaggcagcacatggcgagaggaagaactgcctgtatcccagcgcccagcaccctca gcacagccccttcgtaggcagtgcctctcagtcagtggcctccccatgcccagcagggcc cctgtagccagtgtaccacctgtccaccatccacggcccaagtccaccccagacgcctgc ctggagcactggcagggactggaagcagaggactggacagcagccctactgaacaggggt cgcagtcgccagcccctggtactaggggacaattgctttgctgacttggtgcacaactgg atggagctgcctgagacagggagtgaagggggtgacggaggtgggcaccgtgcccgtgct cggccccctcagttcctgcttggcctctctgagcagcttcggcgccggctggccagggct cggcggacagctatggcaggaaagcggctgtcatgcccacctcgcccagaacctgaactg cctgcggatgtctcacgctttgcagctctcatgagctgtcgtagccgccagcccatcatc tgcaatgatgtcagctacctctga >gi568815595r:49617954_49819465|GENSCAN_predicted_peptide_13|1003_aa XVWAVQEVWQQHLLPVKALGSFYSAEDNMQLACAETTWKRAVTSSVPYSLGLGSCLHWLQ QGTGPYCHRHLHKDPISERCSLLFSPRYVLGSPAMQRIQGARVLVSGLQGLGAEVAKNLV LMGVGSLTLHDPHPTCWSDLAAQFLLSEQDLERSRAEASQELLAQLNRAVQVVVHTGDIT EDLLLDFQVVVLTAAKLEEQLKVGTLCHKHGVCFLAADTRGLVGQLFCDFGEDFTVQDPT EAEPLTAAIQHISQGSPGILTLRKGANTHYFRDGDLVTFSGIEGMVELNDCDPRSIHVRE SYQQVDAETVVGLARDLEPLKRTEEEPLEEPLDEALVRTVALSSAGVLSPMVAMLGAVAA QEVLKAISRKFMPLDQWLYFDALDCLPEDGELLPSPEDCALRGSRYDGQIAVFGAGFQEK LRRQHYLLVGAGAIGCELLKVFALVGLGAGNSGGLTVVDMDHIERSNLSRQFLFRSQDVG RPKAEVAAAAARGLNPDLQVIPLTYPLDPTTEHIYGDNFFSRVDGVAAALDSFQARRYVA ARCTHYLKPLLEAGTSGTWGSATVFMPHVTEAYRAPASAAASEDAPYPVCTVRYFPSTAE HTLQWARHEFEELFRLSAETINHHQQAHTSLADMDEPQTLTLLKPVLGVLRVRPQNWQDC VAWALGHWKLCFHYGIKQLLRHFPPNKVLEDGTPFWSGPKQCPQPLEFDTNQDTHLLYVL AAANLYAQMHGLPGSQDWTALRELLKLLPQPDPQQMAPIFASNLELASASAEFGPEQQKE LNKALEVWSVGPPLKPLMFEKDDDSNFHVDFVVAAASLRCQNYGIPPVNRAQSKRIVGQI IPAIATTTAAVAGLLGLELYKVVSGPRPRSAFRHSYLHLAENYLIRYMPFAPAIQTFHHL KWTSWDRLKVPAGQPERTLESLLAHLQEQHGLRVRILLHGSALLYAAGWSPEKQAQHLPL RVTELVQQLTGQAPAPGQRVLVLELSCEGDDEDTAFPPLHYEL >gi568815595r:49617954_49819465|GENSCAN_predicted_CDS_13|3012_bp natgtctgggctgtacaagaagtgtggcagcagcatctgcttccagtgaaggcattaggc tccttctactcagcagaagacaacatgcagctggcatgtgcagagaccacatggaagaga gctgtgaccagcagcgtcccttattcgcttggccttggttcctgtttgcactggctacag cagggcactggcccctactgtcaccgccacctacacaaagaccctatctctgagcgctgc agcctactgttcagccccaggtatgtgctgggctcacctgccatgcagaggattcaggga gccagggtcctggtgtcaggcctgcagggcctgggggccgaggtggccaagaacttggtt ctgatgggtgtgggcagcctcactctgcatgatccccaccccacctgctggtccgacctg gctgcccagtttctcctctcagagcaggacttggaaaggagcagagccgaggcctctcaa gagctcttggctcagctcaacagagctgtccaggtcgtcgtgcacacgggtgacatcact gaggacctgctgttggacttccaggtggtggtgctgactgctgcaaagctggaggagcag ctgaaggtgggcaccttgtgtcataagcatggagtttgctttctggcggctgacacccgg ggcctcgtggggcagttgttctgtgactttggtgaggacttcactgtgcaggaccccaca gaggcagaacccctgacagctgccatccagcacatctcccagggctcccctggcattctc actctgaggaaaggggccaatacccactacttccgtgatggagacttggtgactttctcg ggaattgagggaatggttgagctcaacgactgtgatccccggtctatccacgtgcgggag tcctaccaacaggttgatgcagagactgtggtgggcctggcccgggacctggaaccactg aagcggacagaggaagagccactggaagagccactggatgaggccctagtgcggacagtc gccctaagcagtgcaggtgtcttgagccctatggtggccatgctgggtgcagtagctgcc caggaagtgctgaaggcaatctccaggaagttcatgcctctggaccagtggctttacttt gatgccctcgattgtcttccggaagatggggagctccttcccagtcctgaggactgtgcc ctgagaggcagccgctatgatgggcaaattgcagtgtttggggctggttttcaggagaaa ctgagacgccagcactacctcctggtgggcgctggtgccattggttgtgagctgctcaaa gtctttgccctagtgggactgggggccgggaacagcgggggcttgactgttgttgacatg gaccacatagagcgctccaatctcagccgtcagttcctcttcaggtcccaggacgttggt agacccaaggcagaggtggctgcagcagctgcccggggcctgaacccagacttacaggtg atcccgctcacctacccactggatcccaccacagagcacatctatggggataactttttc tcccgtgtggatggtgtggctgctgccctggacagtttccaggcccggcgctatgtggct gctcgttgcacccactatctgaagccactgctggaggcaggcacatcgggcacctggggc agtgctacagtattcatgccacatgtgactgaggcctacagagcccctgcctcagctgca gcttctgaggatgccccctaccctgtctgtaccgtgcggtacttccctagcacagccgag cacaccctgcagtgggcccggcatgagtttgaagaactcttccgactgtctgcagagacc atcaaccaccaccaacaggcacacacttccctggcagacatggatgagccacagacactc accttactgaagccagtgcttggggtcctgagagtgcgtccacagaactggcaagactgt gtggcgtgggctcttggccactggaaactctgctttcattatggcatcaaacagctgctg aggcacttcccacctaataaagtgcttgaggatggaactcccttctggtcaggtcccaaa cagtgtccccagcccttggagtttgacaccaaccaagacacacacctcctctacgtactg gcagctgccaacctgtatgcccagatgcatgggctgcctggctcacaggactggactgca ctcagggagctgctgaagctgctgccacagcctgacccccaacagatggcccccatcttt gctagtaatctagagctggcttcggcttctgctgagtttggccctgagcagcagaaggaa ctgaacaaagccctggaagtctggagtgtgggccctcccctgaagcctctgatgtttgag aaggatgatgacagcaacttccatgtggactttgtggtagcggcagctagcctgagatgt cagaactacgggattccaccggtcaaccgtgcccagagcaagcgaattgtgggccagatt atcccagccattgccaccactacagcagctgtggcaggcctgttgggcctggagctgtat aaggtggtgagtgggccacggcctcgtagtgcctttcgccacagctacctacatctggct gaaaactacctcatccgctatatgccttttgccccagccatccagacgttccatcacctg aagtggacctcttgggaccgtctgaaggtaccagctgggcagcctgagaggaccctggag tcgctgctggctcatcttcaggagcagcacgggttgagggtgaggatcctgctgcacggc tcagccctgctctatgcggccggatggtcacctgaaaagcaggcccagcacctgcccctc agggtgacagaactggttcagcagctgacaggccaggcacctgctcctgggcagcgggtg ttggtgctagagctgagctgtgagggtgacgacgaggacactgccttcccacctctgcac tatgagctgtga