Result of GENSCAN for pF1KE2495
GENSCAN 1.0	Date run:  8-Nov-116	Time: 02:45:22

Sequence gi568815584r:23282428_23507223 : 224796 bp : 48.16% 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..
----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------

 1.03 PlyA -   1532   1527    6                               1.05
 1.02 Term -   4250   3929  322  1  1   52   50   196 0.274   6.49
 1.01 Init -  11201  11104   98  2  2   50  107    65 0.419   4.38
 1.00 Prom -  14749  14710   40                              -4.26

 2.03 PlyA -  16553  16548    6                               1.05
 2.02 Term -  19431  19009  423  0  0  128   53   737 0.999  69.50
 2.01 Init -  20149  19733  417  1  0   78   96   545 0.999  50.73
 2.00 Prom -  22175  22136   40                              -6.06

 3.00 Prom +  22401  22440   40                              -4.96
 3.01 Init +  23540  23555   16  1  1   57   41     9 0.238  -6.25
 3.02 Intr +  24423  24467   45  1  0  132   49    38 0.610   2.68
 3.03 Intr +  24765  24852   88  1  1  149   92    46 0.714  10.13
 3.04 Intr +  25310  25772  463  2  1   33   86   434 0.715  30.86
 3.05 Intr +  26389  26505  117  0  0  136   53   107 0.542  12.66
 3.06 Term +  28546  28671  126  0  0   78   48    36 0.429  -3.12
 3.07 PlyA +  28948  28953    6                               1.05

 4.00 Prom +  37861  37900   40                              -2.26
 4.01 Init +  39043  39393  351  0  0  107   93   526 0.999  50.16
 4.02 Intr +  39754  39868  115  0  1   47  101   144 0.995  11.62
 4.03 Intr +  40572  40639   68  1  2   49   63    90 0.960   1.22
 4.04 Intr +  40950  41056  107  2  2  110  110    46 0.956   8.01
 4.05 Intr +  41734  41862  129  1  0   35   71   155 0.801   8.31
 4.06 Term +  43435  43444   10  1  1  110   42     8 0.377  -3.93
 4.07 PlyA +  43711  43716    6                               1.05

 5.17 PlyA -  44642  44637    6                               1.05
 5.16 Term -  64509  64221  289  2  1  129   53   381 0.998  33.55
 5.15 Intr -  64785  64674  112  1  1  116   97    91 0.999  12.24
 5.14 Intr -  65304  65033  272  2  2   81   34   283 0.514  19.39
 5.13 Intr -  65569  65464  106  2  1   98   63    54 0.955   3.17
 5.12 Intr -  65879  65734  146  1  2   92   90   121 0.991  12.63
 5.11 Intr -  66244  66079  166  2  1  117   52    78 0.614   6.12
 5.10 Intr -  66999  66845  155  2  2   70   85   125 0.989  10.12
 5.09 Intr -  69428  69325  104  2  2  101   94   155 0.994  16.37
 5.08 Intr -  70024  69521  504  1  0   72   94   799 0.620  72.07
 5.07 Intr -  70333  70219  115  0  1   14   83   189 0.787  11.45
 5.06 Intr -  75233  74866  368  2  2  119   20   286 0.336  18.84
 5.05 Intr -  76538  76449   90  2  0  100   60    97 0.910   8.29
 5.04 Intr -  77612  76890  723  2  0  103  105   522 0.885  47.03
 5.03 Intr -  77854  77714  141  1  0  112   78    20 0.916   3.95
 5.02 Intr -  78406  78239  168  1  0   72   34   227 0.561  15.84
 5.01 Init -  82598  82581   18  2  0   89  109    30 0.905   5.34
 5.00 Prom -  86924  86885   40                             -11.14

 6.00 Prom +  88866  88905   40                              -7.26
 6.01 Init +  88908  88991   84  2  0   94   72    49 0.863   4.72
 6.02 Intr +  90749  90969  221  1  2   80   61    85 0.506   2.10
 6.03 Intr +  93174  93423  250  0  1   57    3   264 0.407  12.24
 6.04 Intr +  94798  94950  153  0  0   13   52   224 0.965  11.57
 6.05 Intr +  95922  96074  153  2  0   74   81   264 0.999  24.57
 6.06 Intr +  96604  96696   93  0  0  100   59   166 0.932  15.06
 6.07 Intr +  96872  96956   85  1  1  106   96   166 0.986  18.59
 6.08 Term +  97047  97060   14  1  2   90   41     9 0.703  -5.24
 6.09 PlyA +  97325  97330    6                              -1.75

 7.77 PlyA -  99578  99573    6                               1.05
 7.76 Term -  99636  99613   24  0  0  123   47    39 0.867   1.52
 7.75 Intr - 100135 100001  135  1  0  103   98   267 0.999  29.96
 7.74 Intr - 100893 100798   96  0  0   98  101   247 0.997  27.21
 7.73 Intr - 102290 102015  276  2  0   96   80   645 0.999  62.21
 7.72 Intr - 102614 102489  126  2  0   84   95   238 0.999  24.98
 7.71 Intr - 103704 103501  204  0  0   73   94   520 0.998  50.50
 7.70 Intr - 104196 103888  309  0  0   99   83   640 0.999  61.11
 7.69 Intr - 105226 105102  125  2  2   72   78   191 0.904  16.80
 7.68 Intr - 105496 105331  166  1  1   41   49   327 0.904  23.63
 7.67 Intr - 105911 105728  184  1  1   53   38   390 0.998  30.29
 7.66 Intr - 106628 106432  197  2  2  116   63   406 0.999  39.11
 7.65 Intr - 107084 106966  119  0  2   78  100   126 0.654  12.98
 7.64 Intr - 107292 107166  127  0  1   79   64   264 0.813  23.35
 7.63 Intr - 108019 107666  354  1  0   56  -22   906 0.950  71.89
 7.62 Intr - 110225 110135   91  1  1  129   62   132 0.995  14.70
 7.61 Intr - 110630 110485  146  2  2   84   13   285 0.994  19.68
 7.60 Intr - 111091 110915  177  1  0   63   76   286 0.967  25.02
 7.59 Intr - 111481 111239  243  1  0  115  100   547 0.999  56.29
 7.58 Intr - 111896 111641  256  1  1   97   77   476 0.995  44.85
 7.57 Intr - 113993 113857  137  2  2  116   94   237 0.996  26.47
 7.56 Intr - 114390 114267  124  2  1  104  113   184 0.996  23.09
 7.55 Intr - 114653 114536  118  0  1  102   90   290 0.999  30.12
 7.54 Intr - 114830 114743   88  2  1  118   99   100 0.886  13.64
 7.53 Intr - 115219 115116  104  2  2   97   94    61 0.393   7.49
 7.52 Intr - 116610 116301  310  0  1   95  107   605 0.975  58.99
 7.51 Intr - 117999 117829  171  0  0  110   46   454 0.981  43.54
 7.50 Intr - 118550 118282  269  0  2   63   86   520 0.998  46.55
 7.49 Intr - 120175 120037  139  1  1   90   81   309 0.999  30.44
 7.48 Intr - 120373 120270  104  2  2   89   76   282 0.999  26.99
 7.47 Intr - 121019 120921   99  0  0  113    1   149 0.998   8.78
 7.46 Intr - 121351 121288   64  1  1  107   76    41 0.977   3.09
 7.45 Intr - 121961 121869   93  2  0   75   59   198 0.999  15.76
 7.44 Intr - 122395 122284  112  0  1   85   45   198 0.999  15.58
 7.43 Intr - 122700 122673   28  1  1  138   68    41 0.999   4.27
 7.42 Intr - 122952 122796  157  0  1   86   99   325 0.807  32.98
 7.41 Intr - 123343 123200  144  1  0   83   73   276 0.999  26.08
 7.40 Intr - 124809 124596  214  2  1   71  113   392 0.948  38.72
 7.39 Intr - 126865 126753  113  1  2   60  106   -27 0.227  -4.52
 7.38 Intr - 131466 131332  135  0  0  141   98   327 0.999  39.76
 7.37 Intr - 131675 131580   96  2  0   95  101   251 0.999  27.31
 7.36 Intr - 132843 132568  276  0  0   95   80   679 0.989  65.51
 7.35 Intr - 133079 132954  126  2  0   68   95   200 0.995  19.58
 7.34 Intr - 133405 133202  204  1  0  114   99   481 0.996  51.20
 7.33 Intr - 133885 133577  309  1  0   92   73   671 0.995  62.51
 7.32 Intr - 134565 134441  125  1  2   78   85   213 0.994  20.30
 7.31 Intr - 134891 134726  166  2  1   44   49   335 0.999  24.73
 7.30 Intr - 135259 135076  184  0  1  102   86   444 0.999  45.39
 7.29 Intr - 135979 135783  197  1  2   95   89   412 0.999  40.21
 7.28 Intr - 136868 136750  119  0  2   54  116   224 0.998  21.98
 7.27 Intr - 137182 137056  127  1  1  111   89   228 0.999  25.45
 7.26 Intr - 137807 137454  354  2  0   60  -22   906 0.906  72.29
 7.25 Intr - 138621 138531   91  2  1  124   94   192 0.999  23.40
 7.24 Intr - 139898 139753  146  2  2   95   18   383 0.999  31.08
 7.23 Intr - 141386 141120  267  2  0  -30   76   425 0.842  27.23
 7.22 Intr - 141722 141480  243  2  0  122  116   493 0.999  53.19
 7.21 Intr - 142597 142342  256  0  1   58   77   448 0.995  38.15
 7.20 Intr - 142991 142855  137  2  2   72   66   217 0.983  17.27
 7.19 Intr - 143391 143268  124  2  1  104  100   199 0.999  23.29
 7.18 Intr - 143654 143537  118  0  1  115   90   287 0.999  31.12
 7.17 Intr - 144437 144350   88  2  1   90   94    60 0.998   6.34
 7.16 Intr - 144880 144813   68  2  2  121   96    73 0.999  10.02
 7.15 Intr - 145467 145158  310  0  1  114   96   622 0.999  61.49
 7.14 Intr - 146243 146073  171  2  0  110   46   455 0.999  43.64
 7.13 Intr - 146677 146528  150  1  0  104   76   253 0.999  26.06
 7.12 Intr - 146920 146802  119  2  2  100   94   192 0.999  21.18
 7.11 Intr - 147486 147348  139  0  1   43   81   173 0.992  12.14
 7.10 Intr - 148236 148133  104  1  2  112   76   215 0.982  22.59
 7.09 Intr - 148572 148474   99  1  0   97   92    66 0.996   7.98
 7.08 Intr - 149054 148991   64  2  1  128   76    68 0.999   7.89
 7.07 Intr - 149250 149158   93  0  0  114   69   188 0.999  19.66
 7.06 Intr - 149442 149334  109  2  1   69  102   175 0.656  17.29
 7.05 Intr - 150079 150052   28  2  1  141   94    32 0.999   6.27
 7.04 Intr - 150368 150212  157  2  1   98   94   307 0.973  31.88
 7.03 Intr - 150800 150657  144  2  0   22   83   328 0.999  26.18
 7.02 Intr - 151313 151105  209  0  2   56   98   397 0.105  36.30
 7.01 Init - 166015 165946   70  1  1   84  101    32 0.189   5.33
 7.00 Prom - 180386 180347   40                              -2.46

 8.00 Prom + 184140 184179   40                              -6.86
 8.01 Init + 186420 186470   51  2  0   75  115    25 0.839   5.23
 8.02 Intr + 187247 187300   54  1  0   33  105    73 0.443   2.68
 8.03 Intr + 187615 187674   60  0  0  100   89    62 0.983   6.43
 8.04 Intr + 188479 188550   72  0  0   64  116    28 0.864   2.80
 8.05 Intr + 192744 192881  138  2  0   79   72   126 0.999  10.76
 8.06 Intr + 193131 193215   85  2  1   45   83    93 0.982   3.89
 8.07 Intr + 193299 193351   53  1  2   72  116    22 0.951   2.03
 8.08 Intr + 193602 193725  124  2  1   71   30   105 0.946   3.16
 8.09 Intr + 193812 193980  169  1  1   74   41   213 0.977  14.20
 8.10 Intr + 194773 194929  157  1  1   82   78    99 0.997   8.31
 8.11 Intr + 195076 195133   58  0  1   86   86    71 0.905   5.16
 8.12 Term + 195580 195599   20  2  2  131   38    14 0.840  -0.82
 8.13 PlyA + 195723 195728    6                               1.05

 9.03 PlyA - 196037 196032    6                               1.05
 9.02 Term - 203004 202895  110  1  2   68   39    68 0.178  -1.43
 9.01 Init - 217243 217165   79  1  1   55   77    84 0.574   5.22

Suboptimal exons with probability > 0.800

Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr..
----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------

S.001 Init + 181815 181882   68  2  2  114   60    65 0.860   6.84
S.002 Term + 184940 184970   31  2  1   90   55    51 0.845  -0.67


Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_1|139_aa
MSAQRIYSSLSVVSETRYAEEQNQHEEQTPQERLLRSSSFRVARHLIPLENKFPVALGAL
LQLTLLVAVGLSAGKGAARLYGSGGGTEKVFLEGFLQKETNWELLAVQTVQQSAVSLLGE
FRKDPGPVYSKGPAPIGRR

>gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_1|420_bp
atgtcggcacagagaatttactcttcactaagtgttgtaagtgaaacaagatatgctgaa
gagcagaatcagcatgaggagcagacaccccaggagaggctcctaaggtcctcgtctttc
cgggtggcaagacatctgatccctctcgagaacaagttcccagttgctttaggcgctttg
ttacagctgacgctgctggtggcggttgggctctcggctgggaaaggcgcagctcgtttg
tatggctccggagggggcactgaaaaggtcttcctggagggcttccttcagaaggaaaca
aattgggagttgttggcggtccagacagttcagcaaagtgcagtatccctccttggggaa
tttcggaaggatcctggtccggtgtattccaaaggtccggcgccgataggtcgacggtag

>gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_2|279_aa
MSRERPPGTDIPRNLSFIAALTERAYYRSQRPSLEEEPEEEPGEGGTRFGARSRAHAPSR
GRRARSAPAGGGGARAPRSRSPDTRKRVRFADALGLELAVVRRFRPGELPRVPRHVQIQL
QRDALRHFAPCQPRARGLQEARAALEPASEPGFAARLLTQRICLERAEAGPLGVAGSARV
VDLAYEKRVSVRWSADGWRSQREAPAAYAGPAPPPPRADRFAFRLPAPPIGGALLFALRY
RVTGHEFWDNNGGRDYALRGPEHPGSGGAPEPQGWIHFI

>gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_2|840_bp
atgtcccgtgagcggcccccgggcaccgacattccccgcaacctgagcttcatcgccgcg
ctaacggagcgcgcctactaccgtagccagcggcccagcctcgaggaggagccggaggag
gagccaggcgagggcgggacgcggttcggggcccgatcccgcgctcacgcaccgagtcgg
ggccgccgggcccgatctgcaccagccggaggcggcggggcccgggcgccccgcagccgt
agcccagacacccgcaagagagtgcgtttcgccgacgcactggggttggagctggctgtc
gtgcgccgcttccgtcccggtgagctgccccgggtgccccgccacgtgcagatccaattg
cagagggacgccctccgccacttcgcgccctgccagccccgcgcccgcggcctccaggag
gcgcgcgccgccctggagccggccagcgagcccggcttcgccgcccgcttgctgacgcag
cgcatctgcctggaacgcgccgaggcgggcccgctgggcgtggccgggagcgcgcgcgtg
gtggacctggcctacgagaagcgcgtgagcgtgcgctggagcgccgacggctggcggagc
caacgcgaggcgccagccgcctacgccggtccggccccgcccccgccgcgcgccgaccgc
ttcgccttccgcctgcccgcgccgccgattgggggcgccctgctcttcgccttgcgctac
cgtgtgacaggtcacgagttctgggacaacaacggcggccgtgactatgctctacgtggg
cccgagcacccgggcagtggcggagctccggagccgcagggctggatccactttatctga

>gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_3|284_aa
MWISYAPAPGNGPDPGSGLTRLHAGQEDERPQLGAPCHQCCVLRAAIPAGLSSLPLIAAR
MATPASAPDTRALVADFVGYKLRQKGYVCGAGPGEGPAADPLHQAMRAAGDEFETRFRRT
FSDLAAQLHVTPGSAQQRFTQVSDELFQGGPNWGRLVAFFVFGAALCAESVNKEMEPLVG
QVQEWMVAYLETQLADWIHSSGGWAEFTALYGDGALEEARRLREGNWASVRTVLTGAVAL
GALVWSTLFTLPSTTGHISLLAFPGTFSQEELQGPWPGYQNALL

>gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_3|855_bp
atgtggatcagctatgctcctgcaccaggaaacggcccggatcccggcagcggcctgacc
cggctccacgctggccaggaggatgaaaggccccagctgggggctccttgccaccagtgc
tgtgtcttaagagctgccatcccggctggtctttcatccttgcctcttatagccgcccgg
atggcgaccccagcctcggccccagacacacgggctctggtggcagactttgtaggttat
aagctgaggcagaagggttatgtctgtggagctggccccggggagggcccagcagctgac
ccgctgcaccaagccatgcgggcagctggagatgagttcgagacccgcttccggcgcacc
ttctctgatctggcggctcagctgcatgtgaccccaggctcagcccaacaacgcttcacc
caggtctccgatgaactttttcaagggggccccaactggggccgccttgtagccttcttt
gtctttggggctgcactgtgtgctgagagtgtcaacaaggagatggaaccactggtggga
caagtgcaggagtggatggtggcctacctggagacgcagctggctgactggatccacagc
agtgggggctgggcggagttcacagctctatacggggacggggccctggaggaggcgcgg
cgtctgcgggaggggaactgggcatcagtgaggacagtgctgacgggggccgtggcactg
ggggccctggtatggagcacactcttcaccctaccctctaccacaggacacatatccctg
ttagcattccccgggacctttagccaagaggagctgcagggaccatggccaggttaccaa
aatgccctgctctga

>gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_4|259_aa
MAAAAAAAAAAGAAGGRGSGPGRRRHLVPGAGGEAGEGAPGGAGDYGNGLESEELEPEEL
LLEPEPEPEPEEEPPRPRAPPGAPGPGPGSGAPGSQEEEEEPGLVEGDPGDGAIEDPELE
AIKARVREMEEEAEKLKELQNEVEKQMNMSPPPGNAGPVIMSIEEKMEADARSIYVGNVD
YGATAEELEAHFHGCGSVNRVTILCDKFSGHPKGPGISTTDRGFPRARYRARTTNYNSSR
SRFYSGFNSRPRGRVYRFL

>gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_4|780_bp
atggcggcggcggcggcggcggcagcagcagcgggggctgcgggcggtcggggctccggg
ccggggcggcggcgccatcttgtgcccggggccggtggggaggccggggagggggccccg
gggggcgcaggggactacgggaacggcctggagtctgaggaactggagcctgaggagctg
ctgctggagcccgagccggagcccgagcccgaagaggagccgccccggccccgcgccccc
ccgggagctccgggccctgggcctggttcgggagcccccggcagccaagaggaggaggag
gagccgggactggtcgagggtgacccgggggacggcgccattgaggacccggagctggaa
gctatcaaagctcgagtcagggagatggaggaagaagctgagaagctaaaggagctacag
aacgaggtagagaagcagatgaatatgagtccacctccaggcaatgctggcccggtgatc
atgtccattgaggagaagatggaggctgatgcccgttccatctatgttggcaatgtggac
tatggtgcaacagcagaagagctggaagctcactttcatggctgtggttcagtcaaccgt
gttaccatactgtgtgacaaatttagtggccatcccaaaggaccaggcatcagcacaaca
gaccggggttttccacgagcccgctaccgcgcccggaccaccaactacaacagctcccgc
tctcgattctacagtggttttaacagcaggccccggggtcgcgtctacaggtttctgtag

>gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_5|1158_aa
MAIATSTQLARALYDNTAESPQELSFRRGDVLRVLQREGAGGLDGWCLCSLHGQQGIVPA
NRVYVVPPPARPCPTSGPPAGPCPPSPDLIYKIPRASGTQLAAPRDALEVYDVPPTALRV
PSSGPYDCPASFSHPLTRVAPQPPGEDDAPYDVPLTPKPPAELEPDLEWEGGREPGPPIY
AAPSNLKRASALLNLYEAPEELLADGEGGGTDEGIYDVPLLGPEAPPSPEPPGALASHDQ
DTLAQLLARSPPPPHRPRLPSAESLSRRPLPALPVPEAPSPSPVPSPAPGRKGSIQDRPL
PPPPPRLPGYGGPKVEGDPEGREMEDDPAGHHNEYEGIPMAEEYDYVHLKGMDKAQGSRP
PDQACTGDPELPERGMPAPQEALSPGEPLVVSTGDLQLLYFYAGQCQSHYSALQAAVAAL
MSSTQANQPPRLFVPHSKRVVVAAHRLVFVGDTLGRLAASAPLRAQVRAAGTALGQALRA
TVLAVKGAALGYPSSPAIQEMVQAPAVGKLAPRVATGTPEPNGGGGGKIDNTVEITPTSN
GQVGTLGDAVPTEQLQGEREREREGEGDAGGDGLGSSLSLAVPPGPLSFEALLAQVGALG
GGQQLQLGLCCLPVLFVALGMASDPIFTLAPPLHCHYGAFPPNASGWEQPPNASGVSVAS
AALAASAASRVATSTDPSCSGFAPPDFNHCLKDWDYNGLPVLTTNAIGQWDLVCDLGWQV
ILEQILFILGFASGYLFLGYPADRFGRRGIVLLTLGLVGPCGVGGAAAGSSTGVMALRFL
LGFLLAGVDLGVYLMRLELCDPTQRLRVALAGELVGVGGHFLFLGLALVSKDWRFLQRMI
TAPCILFLFYGWPGLFLESARWLIVKRQIEEAQSVLRILAERNRPHGQMLGEEAQEALQD
LENTCPLPATSSFSFASLLNYRNIWKNLLILGFTNFIAHAIRHCYQPVGGGGSPSDFYLC
SLLASGTAALACVFLGVTVDRFGRRGILLLSMTLTGIASLVLLGLWDCEHPIFPTVWAQQ
GNPNRDLNEAAITTFSVLGLFSSQAAAILSTLLAAEVIPTTVRGRGLGLIMALGALGGLS
GPAQRLHMGHGAFLQHVVLAACALLCILSIMLLPETKRKLLPEVLRDGELCRRPSLLRQP
PPTRCDHVPLLATPNPAL

>gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_5|3477_bp
atggccattgccacgtcgacccagctggcccgggcactgtatgacaacaccgctgagtcc
ccccaggagctgtccttccgccgaggggatgtcctacgggtcctgcagagagagggcgct
ggtggactggacggctggtgcctctgctccctacacggccagcagggcattgtgcccgcc
aacagggtgtatgtggtgccgcccccagctcggccctgtccaacctcaggacctccagct
ggaccttgcccaccctctcctgacctcatctacaaaatccccagagctagtgggacccag
ctggctgctcccagagatgccttggaggtctacgatgtgccccccaccgccctccgggtg
ccctccagtggcccctatgactgccctgcctccttttcccaccctctgacccgggttgcc
ccgcagccccctggagaggatgatgctccctatgatgtgcctctgaccccaaagccacct
gcagagctggaaccagatctggagtgggaaggaggccgggagccggggccccccatctat
gctgccccctccaacctgaaacgagcgtcagccttactcaatttgtatgaagcacccgag
gaactgctggcagacggggagggcgggggcactgatgaggggatctacgatgtgcctctg
ctggggccagaggctcccccttctccagagccccctggagccttggcctcccatgaccag
gacaccctggcccagcttctggccagaagccccccacccccacacaggccccggctcccc
tcagctgagagcctgtcccgccgccctctgcctgccctgcctgtccctgaggcccccagc
ccctccccagtgccctctcctgccccaggccggaagggcagcatccaggaccggcctctg
cccccacccccaccccgcctgcctggttatggaggccccaaggtcgagggggatccagag
ggcagggagatggaggatgacccagcaggacaccacaatgagtacgagggcattccgatg
gccgaggagtatgactatgtccacctgaagggcatggacaaagctcagggatctaggccc
ccggatcaggcctgcacaggggatcctgaactgcccgagagggggatgccggcgccgcag
gaggccctgtccccaggggagccactggttgtgtccaccggagatctgcagctcctgtac
ttctatgctgggcaatgccagagccactactcagccctgcaggcagccgtggcagccctg
atgtccagtacccaggctaatcagcccccgcgccttttcgtgccccacagcaagagggtg
gtggtggctgctcatcgcctggtgtttgttggggacaccctgggccggctggcagcctct
gcccctctgagagcacaggtcagggctgcaggtacagcactgggccaggcattgcgggcc
actgtgctggctgtcaagggagctgccctgggctacccatccagccctgccatccaagag
atggtgcaggcccctgcggtcggcaagctggctccccgggtggccaccgggacccccgag
cccaatggcgggggcggcggcaaaatcgacaacactgtagagatcacccccacctccaac
ggacaggtcgggaccctcggagatgcggtgcccacggagcagctgcagggtgagcgggag
cgcgagcgggagggggagggagacgcgggcggcgacggactgggcagcagcctgtcgctg
gccgtgcccccaggccccctcagctttgaggcgctgctcgcccaggtgggggcgctgggc
ggcggccagcagctgcagctcggcctctgctgcctgccggtgctcttcgtggctctgggc
atggcctcggaccccatcttcacgctggcgcccccgctgcattgccactacggggccttc
ccccctaatgcctctggctgggagcagcctcccaatgccagcggcgtcagcgtcgccagc
gctgccctagcagccagcgccgccagccgtgtcgccaccagtaccgacccctcgtgcagc
ggcttcgccccgccggacttcaaccattgcctcaaggattgggactataatggccttcct
gtgctcaccaccaacgccatcggccagtgggatctggtgtgtgacctgggctggcaggtg
atcctggagcagatcctcttcatcttgggctttgcctccggctacctgttcctgggttac
cccgcagacagatttggccgtcgcgggattgtgctgctgaccttggggctggtgggcccc
tgtggagtaggaggggctgctgcaggctcctccacaggcgtcatggccctccgattcctc
ttgggctttctgcttgccggtgttgacctgggtgtctacctgatgcgcctggagctgtgc
gacccaacccagaggcttcgggtggccctggcaggggagttggtgggggtgggagggcac
ttcctgttcctgggcctggcccttgtctctaaggattggcgattcctacagcgaatgatc
accgctccctgcatcctcttcctgttttatggctggcctggtttgttcctggagtccgca
cggtggctgatagtgaagcggcagattgaggaggctcagtctgtgctgaggatcctggct
gagcgaaaccggccccatgggcagatgctgggggaggaggcccaggaggccctgcaggac
ctggagaatacctgccctctccctgcaacatcctccttttcctttgcttccctcctcaac
taccgcaacatctggaaaaatctgcttatcctgggcttcaccaacttcattgcccatgcc
attcgccactgctaccagcctgtgggaggaggagggagcccatcggacttctacctgtgc
tctctgctggccagcggcaccgcagccctggcctgtgtcttcctgggggtcaccgtggac
cgatttggccgccggggcatccttcttctctccatgacccttaccggcattgcttccctg
gtcctgctgggcctgtgggattgtgagcatcctatcttccccacagtgtgggctcaacaa
gggaaccccaacagagatctgaacgaggctgccatcaccactttctctgtccttgggctc
ttctcctcccaagctgccgccatcctcagcaccctccttgctgctgaggtcatccccacc
actgtccggggccgtggcctgggcctgatcatggctctaggggcgcttggaggactgagc
ggcccggcccagcgcctccacatgggccatggagccttcctgcagcacgtggtgctggcg
gcctgcgccctcctctgcattctcagcattatgctgctgccggagaccaagcgcaagctc
ctgcccgaggtgctccgggacggggagctgtgtcgccggccttccctgctgcggcagcca
ccccctacccgctgtgaccacgtcccgctgcttgccacccccaaccctgccctctga

>gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_6|350_aa
MPGTCKCTGAEASRIWKGEDVCEYWGQRVVAFLAMVMGTHTYSHWPSCCPSKGQDTSEEL
LRWSTVPVPPLEPARPNRHPESCRASEDGPLNSRAISPWRYEPDKCRPHRLDRDLNRLPQ
DLYHARCLCPHCVSLQTGSHMDPRGNSELLYHNQTVFYRRPCHGEKGTHKGYCLERRLYR
VSLACGAVLVGPTKMLSARDRRDRHPEEGVVAELQGFAVDKAFLTSHKGILLETELALTL
IIFICFTASISAYMAAALLEFFITLAFLFLYATQYYQRFDRINWPCLDFLRCVSAIIIFL
VVSFAAVTSRDGAAIAAFVFGIILVSIFAYDAFKIYRTEMAPGASQGDQQ

>gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_6|1053_bp
atgcctggcacatgtaagtgcacaggagctgaggccagcaggatatggaagggagaggac
gtctgcgagtactgggggcagagggtggttgcattcttggcaatggtcatgggaacccac
acctacagccactggcccagctgctgccccagcaaagggcaggacacctctgaggagctg
ctgaggtggagcactgtgcctgtgcctcccctagagcctgctaggcccaaccgccaccca
gagtcctgtagggccagtgaagatggacccctcaacagcagggccatctccccctggaga
tatgagcctgacaagtgccgcccccacaggttggacagagacttgaaccggctcccccag
gacctgtaccacgcccgttgcctgtgcccgcactgcgtcagcctacagacaggctcccac
atggacccccggggcaactcggagctgctctaccacaaccagactgtcttctaccggcgg
ccatgccatggcgagaagggcacccacaagggctactgcctggagcgcaggctgtaccgt
gtttccttagcttgtggggctgtgttggtgggccctacgaagatgctcagtgctcgagat
cgccgggaccggcaccctgaggagggggtagttgcagagctccagggcttcgcggtggac
aaggccttcctcacctcccacaagggcatcctgctggaaaccgagctggccctgaccctc
atcatcttcatctgcttcacggcctccatctctgcctacatggccgcggcgctactggag
ttcttcatcacacttgccttcctcttcctctatgccacccagtactaccagcgcttcgac
cgaattaactggccctgtctggacttcctgcgctgtgtcagtgccatcatcatcttcctg
gtggtctcctttgcagctgtgacctcccgggacggagctgccattgctgcttttgttttt
ggcatcatcctggtttccatctttgcctatgatgccttcaagatctaccggactgagatg
gcacccggggccagccagggggaccagcagtga

>gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_7|3954_aa
MIGSFLRPPQKQMPLCFLYSLQNGTAMGDSEMAVFGAAAPYLRKSEKERLEAQTRPFDLK
KDVFVPDDKQEFVKAKIVSREGGKVTAETEYGKTVTVKEDQVMQQNPPKFDKIEDMAMLT
FLHEPAVLYNLKDRYGSWMIYTYSGLFCVTVNPYKWLPVYTPEVVAAYRGKKRSEAPPHI
FSISDNAYQYMLTDRENQSILITGESGAGKTVNTKRVIQYFAVIAAIGDRSKKDQSPGKG
TLEDQIIQANPALEAFGNAKTVRNDNSSRFGKFIRIHFGATGKLASADIETYLLEKSRVI
FQLKAERDYHIFYQILSNKKPELLDMLLITNNPYDYAFISQGETTVASIDDAEELMATDN
AFDVLGFTSEEKNSMYKLTGAIMHFGNMKFKLKQREEQAEPDGTEEADKSAYLMGLNSAD
LLKGLCHPRVKVGNEYVTKGQNVQQVIYATGALAKAVYERMFNWMVTRINATLETKQPRQ
YFIGVLDIAGFEIFDFNSFEQLCINFTNEKLQQFFNHHMFVLEQEEYKKEGIEWTFIDFG
MDLQACIDLIEKPMGIMSILEEECMFPKATDMTFKAKLFDNHLGKSANFQKPRNIKGKPE
AHFSLIHYAGIVDYNIIGWLQKNKDPLNETVVGLYQKSSLKLLSTLFANYAGADAPIEKG
KGKAKKGSSFQTVSALHRENLNKLMTNLRSTHPHFVRCIIPNETKSPGVMDNPLVMHQLR
CNGVLEGIRICRKGFPNRILYGDFRQRYRILNPAAIPEGQFIDSRKGAEKLLSSLDIDHN
QYKFGHTKVFFKAGLLGLLEEMRDERLSRIITRIQAQSRGVLARMEYKKLLERRDSLLVI
QWNIRAFMGVKNWPWMKLYFKIKPLLKSAEREKEMASMKEEFTRLKEALEKSEARRKELE
EKMVSLLQEKNDLQLQVQAEQDNLADAEERCDQLIKNKIQLEAKVKEMNERLEDEEEMNA
ELTAKKRKLEDECSELKRDIDDLELTLAKVEKEKHATENKSSMDLDMELPTDGTKLVTFD
PKGDGILGRQVKNLTEEMAGLDEIIAKLTKEKKALQEAHQQALDDLQAEEDKVNTLTKAK
VKLEQQVDDLEGSLEQEKKVRMDLERAKRKLEGDLKLTQESIMDLENDKQQLDERLKKKD
FELNALNARIEDEQALGSQLQKKLKELQARIEELEEELEAERTARAKVEKLRSDLSRELE
EISERLEEAGGATSVQIEMNKKREAEFQKMRRDLEEATLQHEATAAALRKKHADSVAELG
EQIDNLQRVKQKLEKEKSEFKLELDDANLEKMCRTLEDQMNEHRSKAEETQRSVNDLTSQ
RAKLQTENGELSRQLDEKEALISQLTRGKLTYTQQLEDLKRQLEEEVKAKNALAHALQSA
RHDCDLLREQYEEETEAKAELQRVLSKANSEVAQWRTKYETDAIQRTEELEEAKKKLAQR
LQEAEEAVEAVNAKCSSLEKTKHRLQNEIEDLMVDVERSNAAAAALDKKQRNFDKILAEW
KQKYEESQSELESSQKEARSLSTELFKLKNAYEESLEHLETFKRENKNLQEEISDLTEQL
GSSGKTIHELEKVRKQLEAEKMELQSALEEAEASLEHEEGKILRAQLEFNQIKAEIERKL
AEKDEEMEQAKRNHLRVVDSLQTSLDAETRSRNEALRVKKKMEGDLNEMEIQLSHANRMA
AEAQKQVKSLQSLLKDTQIQLDDAVRANDDLKENIAIVERRNNLLQAELEELRAVVEQTE
RSRKLAEQELIETSERVQLLHSQNTSLINQKKKMDADLSQLQTEVEEAVQECRNAEEKAK
KAITDAAMMAEELKKEQDTSAHLERMKKNMEQTIKDLQHRLDEAEQIALKGGKKQLQKLE
ARVRELENELEAEQKRNAESVKGMRKSERRIKELTYQTEEDRKNLLRLQDLVDKLQLKVK
AYKRQAEEAEEQANTNLSKFRKVQHELDEAEERADIAESQVNKLRAKSRDIGTKEQRVAG
EGKSLCVQMRMCKCVHPCTQKKVEKKSASLSGGSTKMTDAQMADFGAAAQYLRKSEKERL
EAQTRPFDIRTECFVPDDKEEFVKAKILSREGGKVIAETENGKTVTVKEDQVLQQNPPKF
DKIEDMAMLTFLHEPAVLFNLKERYAAWMIYTYSGLFCVTVNPYKWLPVYNAEVVAAYRG
KKRSEAPPHIFSISDNAYQYMLTDRENQSILITGESGAGKTVNTKRVIQYFASIAAIGDR
GKKDNANANKGTLEDQIIQANPALEAFGNAKTVRNDNSSRFGKFIRIHFGATGKLASADI
ETYLLEKSRVIFQLKAERNYHIFYQILSNKKPELLDMLLVTNNPYDYAFVSQGEVSVASI
DDSEELMATDSAFDVLGFTSEEKAGVYKLTGAIMHYGNMKFKQKQREEQAEPDGTEDADK
SAYLMGLNSADLLKGLCHPRVKVGNEYVTKGQSVQQVYYSIGALAKAVYEKMFNWMVTRI
NATLETKQPRQYFIGVLDIAGFEIFDFNSFEQLCINFTNEKLQQFFNHHMFVLEQEEYKK
EGIEWTFIDFGMDLQACIDLIEKPMGIMSILEEECMFPKATDMTFKAKLYDNHLGKSNNF
QKPRNIKGKQEAHFSLIHYAGTVDYNILGWLEKNKDPLNETVVALYQKSSLKLMATLFSS
YATADTAPVDYFSSRCLGDSGKSKGGKKKGSSFQTVSALHRENLNKLMTNLRTTHPHFVR
CIIPNERKAPGVMDNPLVMHQLRCNGVLEGIRICRKGFPNRILYGDFRQRYRILNPVAIP
EGQFIDSRKGTEKLLSSLDIDHNQYKFGHTKVFFKAGLLGLLEEMRDERLSRIITRMQAQ
ARGQLMRIEFKKIVERRDALLVIQWNIRAFMGVKNWPWMKLYFKIKPLLKSAETEKEMAT
MKEEFGRIKETLEKSEARRKELEEKMVSLLQEKNDLQLQVQAEQDNLNDAEERCDQLIKN
KIQLEAKVKEMNERLEDEEEMNAELTAKKRKLEDECSELKKDIDDLELTLAKVEKEKHAT
ENKVKNLTEEMAGLDEIIAKLTKEKKALQEAHQQALDDLQVEEDKVNSLSKSKVKLEQQV
DDLEGSLEQEKKVRMDLERAKRKLEGDLKLTQESIMDLENDKLQLEEKLKKKEFDINQQN
SKIEDEQVLALQLQKKLKENQARIEELEEELEAERTARAKVEKLRSDLSRELEEISERLE
EAGGATSVQIEMNKKREAEFQKMRRDLEEATLQHEATAAALRKKHADSVAELGEQIDNLQ
RVKQKLEKEKSEFKLELDDANLEKVSRTLEDQANEYRVKLEEAQRSLNDFTTQRAKLQTE
NGELARQLEEKEALISQLTRGKLSYTQQMEDLKRQLEEEGKAKNALAHALQSARHDCDLL
REQYEEETEAKAELQRVLSKANSEVAQWRTKYETDAIQRTEELEEAKKKLAQRLQDAEEA
VEAVNAKCSSLEKTKHRLQNEIEDLMVDVERSNAAAAALDKKQRNFDKILAEWKQKYEES
QSELESSQKEARSLSTELFKLKNAYEESLEHLETFKRENKNLQEEISDLTEQLGEGGKNV
HELEKVRKQLEVEKLELQSALEEAEASLEHEEGKILRAQLEFNQIKAEIERKLAEKDEEM
EQAKRNHQRVVDSLQTSLDAETRSRNEVLRVKKKMEGDLNEMEIQLSHANRMAAEAQKQV
KSLQSLLKDTQIQLDDAVRANDDLKENIAIVERRNNLLQAELEELRAVVEQTERSRKLAE
QELIETSERVQLLHSQNTSLINQKKKMESDLTQLQSEVEEAVQECRNAEEKAKKAITDAA
MMAEELKKEQDTSAHLERMKKNMEQTIKDLQHRLDEAEQIALKGGKKQLQKLEARVRELE
GELEAEQKRNAESVKGMRKSERRIKELTYQTEEDKKNLLRLQDLVDKLQLKVKAYKRQAE
EAEEQANTNLSKFRKVQHELDEAEERADIAESQVNKLRAKSRDIGAKQKMHDEE

>gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_7|11865_bp
atgattggaagcttcctgaggcctccccagaagcagatgccactatgcttcctgtacagc
ctacagaacggcacagccatgggagattcggagatggcagtctttggggctgccgccccc
tacctgcgcaagtcagagaaggagcggctagaagcgcagaccaggccttttgacctcaag
aaggatgtcttcgtgcctgatgacaaacaggagtttgtcaaggccaagatcgtgtctcga
gagggtggcaaagtcactgccgagaccgagtatggcaagacagtgaccgtgaaggaggac
caggtgatgcagcagaacccacccaagttcgacaaaatcgaggacatggccatgctgacc
ttcctgcatgagcccgcggtgctctacaacctcaaggatcgctacggctcctggatgatc
tacacctactcgggcctcttctgtgtcaccgtcaacccttacaagtggctgccggtgtac
actcctgaggtggtggctgcctaccggggcaagaagaggagcgaggccccgccccacatc
ttctccatctccgacaacgcctatcagtacatgctgacagacagagaaaaccagtccatc
ctgatcaccggagaatccggagcagggaagacagtcaacaccaagagggtcatccagtac
tttgctgttattgcagccattggggaccgcagcaagaaggaccagagcccgggcaagggc
accctggaggaccagatcatccaggccaaccctgctctggaggcctttggcaatgccaag
accgtccggaacgacaactcctcccgcttcgggaaattcattcgaattcattttggggca
acaggaaagttggcatctgcagacatagagacctatcttctggaaaaatccagagttatt
ttccagctgaaagcagagagagattatcacattttctaccaaatcctgtctaacaaaaag
cctgagctgctggacatgctgctgatcaccaacaacccctacgattatgcattcatctcc
caaggagagaccaccgtggcctccattgatgacgctgaggagctcatggccactgataac
gcttttgatgtgctgggcttcacttcagaggagaaaaactccatgtataagctgacaggc
gccatcatgcactttggaaacatgaagttcaagctgaagcagcgggaggagcaggcggag
ccagacggcactgaagaggctgacaagtctgcctacctcatggggctgaactcagccgac
ctgctcaaggggctgtgccaccctcgggtgaaagtgggcaatgagtacgtcaccaagggg
cagaatgtccagcaggtgatatatgccactggggcactggccaaggcagtgtatgagagg
atgttcaactggatggtgacgcgcatcaatgccaccctggagaccaagcagccacgccag
tacttcataggagtcctggacatcgctggcttcgagatcttcgatttcaacagctttgag
cagctctgcatcaacttcaccaacgagaagctgcagcagttcttcaaccaccacatgttt
gtgctggagcaggaggagtacaagaaggagggcatcgagtggacattcattgactttggc
atggacctgcaggcctgcattgacctcatcgagaagcccatgggcatcatgtccatcctg
gaagaggagtgcatgttccccaaggccaccgacatgaccttcaaggccaagctgtttgac
aaccacctgggcaaatccgccaacttccagaagccacgcaatatcaaggggaagcctgaa
gcccacttctccctgatccactatgccggcatcgtggactacaacatcattggctggctg
cagaagaacaaggatcctctcaatgagactgtcgtgggcttgtatcagaagtcttccctc
aagctgctcagcaccctgtttgccaactatgctggggctgatgcgcctattgagaagggc
aaaggcaaggccaagaaaggctcgtcctttcagactgtgtcagctctgcacagggaaaat
ctgaacaagctgatgaccaacttgcgctccacccatccccactttgtacgttgtatcatc
cctaatgagacaaagtctccaggggtgatggacaaccccctggtcatgcaccagctgcgc
tgcaatggtgtgctggagggcatccgcatctgcaggaaaggcttccccaaccgcatcctc
tacggggacttccggcagaggtatcgcatcctgaacccagcggccatccctgagggacag
ttcattgatagcaggaagggggcagagaagctgctcagctccctggacattgatcacaac
cagtacaagtttggccacaccaaggtgttcttcaaggccgggctgctggggctgctggag
gaaatgagggacgagaggctgagccgcatcatcacgcgtatccaggcccagtcccgaggt
gtgctcgccagaatggagtacaaaaagctgctggaacgtagagactccctgctggtaatc
cagtggaacattcgggccttcatgggggtcaagaattggccctggatgaagctctacttc
aagatcaagccgctgctgaagagtgcagaaagagagaaggagatggcctccatgaaggag
gagttcacacgcctcaaagaggcgctagagaagtccgaggctcgccgcaaggagctggag
gagaagatggtgtccctgctgcaggagaagaatgacctgcagctccaagtgcaggcggaa
caagacaacctggcagatgctgaggagcgctgtgatcagctgatcaaaaacaagattcag
ctggaggccaaggtgaaggagatgaacgagaggctggaggatgaggaggagatgaatgct
gagctcactgccaagaagcgcaagctggaagatgagtgctcagagctcaaaagggacatc
gatgatctggagctgacactggccaaagtggagaaggagaaacacgcaacagagaacaag
agcagcatggaccttgacatggagctccccacagatggcaccaagctggtgacctttgac
cctaaaggagatgggattcttggtcggcaggtgaaaaacctgacagaggagatggctggg
ctggatgagatcattgccaagctgaccaaggagaagaaagctctgcaagaggcccaccaa
caggctctggatgaccttcaggccgaggaggacaaggtcaacaccctgactaaggccaaa
gtcaagctggagcagcaagtggatgatctggaaggatccctggagcaagagaagaaggtg
cgcatggacctggagcgagcgaagcggaagctggagggcgacctgaagctgacccaggag
agcatcatggacctggagaatgacaagcagcagctggatgagcggctgaaaaaaaaagac
tttgagctgaatgctctcaacgcaaggattgaggatgaacaggccctcggcagccagctg
cagaagaagctcaaggagcttcaggcacgcatcgaggagctggaggaggagctggaggcc
gagcgcaccgccagggctaaggtggagaagctgcgctcagacctgtctcgggagctggag
gagatcagcgagcggctggaagaggccggcggggccacgtccgtgcagatcgagatgaac
aagaagcgcgaggccgagttccagaagatgcggcgggacctggaggaggccacgctgcag
cacgaggccactgccgcggccctgcgcaagaagcacgccgacagcgtggccgagctgggc
gagcagatcgacaacctgcagcgggtgaagcagaagctggagaaggagaagagcgagttc
aagctggagctggatgacgctaacctggagaagatgtgccggaccttggaagaccagatg
aatgagcaccggagcaaggcggaggagacccagcgttctgtcaacgacctcaccagccag
cgggccaagttgcaaaccgagaatggtgagctgtcccggcagctggatgagaaggaggca
ctgatctcccagctgacccgaggcaagctcacctacacccagcagctggaggacctcaag
aggcagctggaggaggaggttaaggcgaagaacgccctggcccacgcactgcagtcggcc
cggcatgactgcgacctgctgcgggagcagtacgaggaggagacggaggccaaggccgag
ctgcagcgcgtcctttccaaggccaactcggaggtggcccagtggaggaccaagtatgag
acggacgccattcagcggactgaggagctcgaggaggccaagaagaagctggcccagcgg
ctgcaggaagctgaggaggccgtggaggctgttaatgccaagtgctcctcgctggagaag
accaagcaccggctacagaatgagatcgaggacttgatggtggacgtagagcgctccaat
gctgctgctgcagccctggacaagaagcagaggaacttcgacaagatcctggccgagtgg
aagcagaagtatgaggagtcgcagtcggagctggagtcctcgcagaaggaggctcgctcc
ctcagcacagagctcttcaaactcaagaacgcctatgaggagtccctggaacatctggag
accttcaagcgggagaacaaaaacctgcaggaggagatctccgacttgactgagcagttg
ggttccagcggaaagactatccatgagctggagaaggtccgaaagcagctggaggccgag
aagatggagctgcagtcagccctggaggaggccgaggcctccctggagcacgaggagggc
aagatcctccgggcccagctggagttcaaccagatcaaggcagagatcgagcggaagctg
gcagagaaggacgaggagatggaacaggccaagcgcaaccacctgcgggtggtggactcg
ctgcagacctccctggacgcagagacacgcagccgcaacgaggccctgagggtgaagaag
aagatggaaggagacctcaatgagatggagatccagctcagccacgccaaccgcatggcc
gccgaggcccagaagcaagtcaagagcctccagagcttgttgaaggacacccagattcag
ctggacgatgcagtccgtgccaacgacgacctgaaggagaacatcgccatcgtggagcgg
cgcaacaacctgctgcaggctgagctggaggagttgcgtgccgtggtggagcagacagag
cggtcccggaagctggcggagcaggagctgattgagactagtgagcgggtgcagctgctg
cattcccagaacaccagcctcatcaaccagaagaagaagatggatgctgacctgtcccag
ctccagactgaagtggaggaggcagtgcaggagtgcaggaatgctgaggagaaggccaag
aaggccatcacggatgccgccatgatggcagaggagctgaagaaggagcaggacaccagc
gcccacctggagcgcatgaagaagaacatggaacagaccattaaggacctgcagcaccgg
ctggacgaagccgagcagatcgccctcaagggcggcaagaagcagctgcagaagctggaa
gcgcgggtgcgggagctggagaatgagctggaggccgagcagaagcgcaacgcagagtcg
gtgaagggcatgaggaagagcgagcggcgcatcaaggagctcacctaccagacggaggag
gacaggaaaaacctgctgcggctgcaggacctggtagacaagctgcagctaaaggtcaag
gcctacaagcgccaggccgaggaggcggaggagcaagccaacaccaacctgtccaagttc
cgcaaggtgcagcacgagctggatgaggcagaggagcgggcggacatcgccgagtcccag
gtcaacaagctgcgggccaagagccgtgacattggcacgaaggagcagagggtagcaggg
gagggcaaaagcctatgtgtgcaaatgcggatgtgcaaatgtgtgcatccatgtacacaa
aagaaagtagaaaagaaatctgcaagcttgagtgggggaagcaccaagatgaccgatgcc
cagatggctgactttggggcagcggcccagtacctccgcaagtcagagaaggagcgtcta
gaggcccagacccggccctttgacattcgcactgagtgcttcgtgcccgatgacaaggaa
gagtttgtcaaagccaagattttgtcccgggagggaggcaaggtcattgctgaaaccgag
aatgggaagacggtgactgtgaaggaggaccaggtgttgcagcagaacccacccaagttc
gacaagattgaggacatggccatgctgaccttcctgcacgagcccgcggtgcttttcaac
ctcaaggagcgctacgcggcctggatgatatatacctactcgggcctcttctgtgtcact
gtcaacccctacaagtggctgccggtgtacaatgccgaggtggtggccgcctaccggggc
aagaagaggagtgaggccccgccccacatcttctccatctccgacaacgcctatcagtac
atgctgacagatcgggagaaccagtccatcctcatcacgggagaatccggggcggggaag
actgtgaacaccaagcgtgtcatccagtactttgccagcattgcagccataggtgaccgt
ggcaagaaggacaatgccaatgcgaacaagggcaccctggaggaccagatcatccaggcc
aaccccgctctggaggccttcggcaatgccaagactgtccggaacgacaactcctcccgc
tttgggaaattcattaggatccactttggggccactggaaagctggcttctgcagacata
gagacctacctgctggagaagtcccgggtgatcttccagctgaaagctgagagaaactac
cacatcttctaccagattctgtccaacaagaagccggagttgctggacatgctgctggtc
accaacaatccctacgactacgccttcgtgtctcagggagaggtgtccgtggcctccatt
gatgactccgaggagctcatggccaccgatagtgcctttgacgtgctgggcttcacttca
gaggagaaagctggcgtctacaagctgacgggagccatcatgcactacgggaacatgaag
ttcaagcagaagcagcgggaggagcaggcggagccagacggcaccgaagatgctgacaag
tcggcctacctcatggggctgaactcagctgacctgctcaaggggctgtgccaccctcgg
gtgaaagtgggcaacgagtatgtcaccaaggggcagagcgtgcagcaggtgtactactcc
atcggggctctggccaaggcagtgtatgagaagatgttcaactggatggtgacgcgcatc
aacgccaccctggagaccaagcagccacgccagtacttcataggagtcctggacatcgct
ggcttcgagatcttcgacttcaacagctttgagcagctctgcatcaacttcaccaacgag
aagctgcagcagttcttcaaccaccacatgttcgtgctggagcaggaggagtacaagaag
gagggcattgagtggacattcattgactttggcatggacctgcaggcctgcattgacctc
atcgagaagcccatgggcatcatgtccatcctggaggaggagtgcatgttccccaaggcc
actgacatgaccttcaaggccaagctgtacgacaaccacctgggcaagtccaacaatttc
cagaagccacgcaacatcaaggggaagcaggaagcccacttctccctgatccactacgcc
ggcactgtggactacaacatcctgggctggctggaaaaaaacaaggatcctctcaacgag
actgttgtggccctgtaccagaagtcctccctcaagctcatggccactctcttctcctcc
tacgcaactgccgatactgctcctgttgattatttctcctctcgctgtttaggggacagt
ggtaaaagcaaaggaggcaagaaaaagggctcatccttccagacggtgtcggctctccac
cgggaaaatctcaacaagctaatgaccaacctgaggaccacccatcctcactttgtgcgt
tgcatcatccccaatgagcggaaggctccaggggtgatggacaaccccctggtcatgcac
cagctgcgctgcaatggcgtgctggagggcatccgcatctgcaggaagggcttccccaac
cgcatcctctacggggacttccggcagaggtatcgcatcctgaacccagtggccatccct
gagggacagttcattgatagcaggaaggggacagagaagctgctcagctctctggacatt
gatcacaaccagtacaagtttggccacaccaaggtgttcttcaaggcagggctgcttggg
ctgctggaggagatgcgggatgagaggctgagccgcatcatcacgcgcatgcaggcccaa
gcccggggccagctcatgcgcattgagttcaagaagatagtggaacgcagggatgccctg
ctggtaatccagtggaacattcgggccttcatgggggtcaagaattggccctggatgaag
ctctacttcaagatcaagccgctgctgaagagcgcagagacggagaaggagatggccacc
atgaaggaagagttcgggcgcatcaaagagacgctggagaagtccgaggctcgccgcaag
gagctggaggagaagatggtgtccctgctgcaggagaagaatgacctgcagctccaagtg
caggcggaacaagacaacctcaatgatgctgaggagcgctgcgaccagctgatcaaaaac
aagattcagctggaggccaaagtaaaggagatgaatgagaggctggaggatgaggaggag
atgaacgcggagctcactgccaagaagcgcaagctggaagacgagtgctcagagctcaag
aaggacattgatgacctggagctgacactggccaaggtggagaaggagaagcatgcaaca
gagaacaaggtgaagaacctaacagaggagatggctgggctggatgaaatcatcgctaag
ctgaccaaggagaagaaagctctacaagaggcccatcagcaggccctggatgaccttcag
gttgaggaagacaaggtcaacagcctgtccaagtctaaggtcaagctggagcagcaggtg
gatgatctggagggatccctagagcaagagaagaaggtgcgcatggacctggagcgagca
aagcggaaactggagggcgacctgaagctgacccaggagagcatcatggacctggaaaat
gataaactgcagctggaagaaaagcttaagaagaaggagtttgacattaatcagcagaac
agtaagattgaggatgagcaggtgctggcccttcaactacagaagaaactgaaggaaaac
caggcacgcatcgaggagctggaggaggagctggaggccgagcgcaccgccagggctaag
gtggagaagctgcgctcagacctgtctcgggagctggaggagatcagcgagcggctggaa
gaggccggcggggccacgtccgtgcagatcgagatgaacaagaagcgcgaggccgagttc
cagaagatgcggcgggacctggaggaggccacgctgcagcacgaggccactgccgcggcc
ctgcgcaagaagcacgccgacagcgtggccgagctgggcgagcagatcgacaacctgcag
cgggtgaagcagaagctggagaaggagaagagcgagttcaagctggagctggatgacgca
aacctggagaaagtgtctcggacgctggaggaccaggccaatgagtaccgcgtgaagcta
gaagaggcccaacgctccctcaatgatttcaccacccagcgagccaagctgcagaccgag
aatggagagttggcccggcagctagaggaaaaggaggcgctaatctcgcagctgacccgg
gggaagctctcttatacccagcaaatggaggacctcaaaaggcagctggaggaggagggc
aaggcgaagaacgccctggcccatgcactgcagtcggcccggcatgactgcgacctgctg
cgggagcagtacgaggaggagacagaggccaaggccgagctgcagcgcgtcctgtccaag
gccaactcggaggtggcccagtggaggaccaagtatgagacggacgccattcagcggact
gaggagctcgaagaggccaaaaagaagctggcccagcggctgcaggatgccgaggaggcc
gtggaggctgttaatgccaagtgctcctcactggagaagaccaagcaccggctacagaat
gagatagaggacttgatggtggacgtagagcgctccaatgctgctgctgcagccctggac
aagaagcagagaaactttgacaagatcctggccgagtggaagcagaagtatgaggagtcg
cagtctgagctggagtcctcacagaaggaggctcgctccctcagcacagagctcttcaag
ctcaagaacgcctacgaggagtccctggagcacctagagaccttcaagcgggagaacaag
aaccttcaggaggaaatctcggaccttactgagcagctaggagaaggaggaaagaatgtg
catgagctggagaaggtccgcaaacagctggaggtggagaagctggagctgcagtcagcc
ctggaggaggcagaggcctccctggagcacgaggagggcaagatcctccgggcccagcta
gagttcaaccagatcaaggcagagatcgagcggaagctggcagagaaggacgaggagatg
gaacaggccaagcgcaaccaccagcgggtggtggactcgctgcagacctccctggatgca
gagacacgcagccgcaacgaggtcctgagggtgaagaagaagatggaaggagacctcaat
gagatggagatccagctcagccacgccaaccgcatggctgccgaggcccagaagcaagtc
aagagcctccagagcttgctgaaggacacccagatccagctggacgatgcggtccgtgcc
aacgacgacctgaaggagaacatcgccatcgtggagcggcgcaacaacctgctgcaggct
gagctggaggagctgcgtgccgtggtggagcagacagagcggtcccggaagctggcggag
caggagctgattgagaccagcgagcgggtgcagctgctgcattcccagaacaccagcctc
atcaaccagaagaagaagatggagtcggatctgacccagctccagtcggaagtggaggag
gcagtgcaggagtgcagaaacgccgaggagaaggccaagaaggccatcacggatgccgcc
atgatggcagaggagctgaagaaggagcaggacaccagcgcccacctggagcgcatgaag
aagaacatggagcagaccattaaggacctgcagcaccggctggacgaggccgagcagatc
gccctcaagggaggcaagaagcagctgcagaagctggaagcgcgggtgcgggagctggag
ggtgagctggaggccgagcagaagcgcaacgcagagtcggtgaagggcatgaggaagagc
gagcggcgcatcaaggagctcacctaccagacagaggaagacaaaaagaacctgctgcgg
ctacaggacctggtggacaagctgcaactgaaggtcaaggcctacaagcgccaggccgag
gaggcggaggagcaagccaacaccaacctgtccaagttccgcaaggtgcagcatgagctg
gatgaggcagaggagcgggcggacatcgctgagtcccaggtcaacaagcttcgagccaag
agccgtgacattggtgccaagcaaaaaatgcacgatgaggagtga

>gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_8|346_aa
MHCQSLNQVLLKTCVTARSGSTTPEGVGFAKMAALGVLESDLPSAVTLLKNLQEQVMAVT
AQVKSLTQKVQAGAYPTEKGLSFLEVKDQLLLMYLMDLTHLILDKASGGSLQGHDAVLRL
VEIRTVLEKLRPLDQKLKYQIDKLIKTAVTGSLSENDPLRFKPHPSNMMSKLSSEDEEED
EAEDDQSEASGKKSVKGVSKKYVPPRLVPVHYDETEAEREKKRLERAKRRALSSSVIREL
KEQYSDAPEEIRDARHPHVTRQSQEDQHRINYEESMMVRLSVSKREKGRRKRANVMSSQL
HSLTHFSDISALTGGTVHLDEDQNPIKKRKKIPQKGRKKKGFRRRR

>gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_8|1041_bp
atgcactgccagagtttgaaccaagttctgctgaagacctgtgtgaccgcgcgctcagga
agtacgacaccggaaggggtgggctttgcgaagatggcggcgctgggggtgctggagtcc
gacctgccaagtgccgtgacacttctgaaaaatctccaggagcaagtgatggctgtaact
gcacaagtgaaatcactgacacaaaaagttcaagctggtgcctatcctacagaaaagggt
ctcagcttcttggaagtgaaagaccagctgctgctcatgtaccttatggatttgacccac
ctcattctggacaaagcctcaggaggatctcttcagggacatgatgcagttttgagactg
gtggagattcgcacggttttggaaaagcttcgtcccttggaccaaaagctgaagtatcaa
attgacaagctgatcaagactgcagtgacaggcagccttagtgagaatgacccacttcgt
tttaagcctcatcccagcaatatgatgagcaagttgagctctgaggatgaggaggaagat
gaagcagaagatgaccagtctgaggcttcagggaagaaatctgtgaagggagtgtctaag
aaatatgttcctccacgcttggttccagtacattatgatgaaacagaagctgagcgggag
aagaagcgtctagaacgagccaagagacgggcattgagcagctctgtcattcgtgaactt
aaggagcagtactcagatgctccagaggaaatccgtgatgctcggcatccccatgttacc
cgccagagtcaggaggaccaacacaggattaactatgaggagagcatgatggtgcgtttg
agcgtcagtaagcgagagaaaggacggcgaaaacgagcaaatgtcatgagctcacaactt
cattcccttacacacttcagtgacatcagtgctttgacagggggaactgttcatcttgat
gaggatcagaatcctattaagaagcggaagaagatacctcagaaaggtcggaagaaaaaa
ggttttcggaggcggcggtga

>gi568815584r:23282428_23507223|GENSCAN_predicted_peptide_9|62_aa
MQRPMGVYITETKEEEFQEEKFNRSNASGQPRPAFDTKPGHVAAFKAASGSGDELETLVS
KG

>gi568815584r:23282428_23507223|GENSCAN_predicted_CDS_9|189_bp
atgcaaagaccaatgggagtgtacatcacagaaaccaaggaagaagagtttcaagaagaa
aagttcaacaggtcaaatgcatcaggccaaccaaggccagcttttgacacaaaacctggc
cacgttgctgccttcaaggctgccagtggctctggggatgaattggagacattggtttct
aaggggtag
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