ClCG04G002830 (gene) Watermelon (Charleston Gray) v2.5

Overview


Name	ClCG04G002830
Type	gene
Organism	Citrullus lanatus subsp. vulgaris cv. Charleston Gray (Watermelon (Charleston Gray) v2.5)
Description	DNA-directed DNA polymerase
Location	CG_Chr04: 10777760 .. 10828413 (+)
RNA-Seq Expression	ClCG04G002830
Synteny	ClCG04G002830

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonCDSpolypeptide

Hold the cursor over a type above to highlight its positions in the sequence below.

ATGGCCTCCCACCATCTTCACACGGCGACTGCTAGTGCTTCGCATATTTGCAGAAATTTCTTGGGATTCATTTTCACCTCCAAATTTCCTAATCCTCTTCGTTTCTCTTCTTCTTCGTCTTCTTTGAGGATACAGTCTCTCGGCCATCATTCTTTTCCGTCTTACTCCCTTCTGCTATCCCCGAAGGTATCTCAGTTTCTGCTAATTCATACTTCTTATTCTTAATTGATTCTAGTATTTACCTAGTAACTTAGTTTTATAAAATTAGGAGGCTCATTAATGGCGGGGTGTTATAGCGTAGATGTGAAATGGGCGAAGTATTTTCTGCTAGCAAGTGTAGTTCGAGAAATCACTTATGAGCAGAATGTGGAAGATGGCTATCATTGCAATAACTTTTCATTGTGATCTTAGCCTCTAATTTTAGCGTTTGCTTTTATTCAAATCAATATACAACTTTTGCCTCTGTTTTCTTCTGCAGTTTTGACTTTTGTTGAGGAATTTTTCTCTGTTTCTCAGGGTTACTGTAGTTCATCTGGAAGTATAAATGCTGCCAATACCGTAGATGACAATGCAACTTATCATGGTAGTTATGCATCTTCTAGAAGCCAGCAAATGCTGCAATTCCAAGATTCATTATCGAATTCACTTACGTACAAAGAAGAAACCGGAATTGATAATCCTTCAGATGCTAGAGTAATGCTCATTGATGGCACATCAATCATTTATAGAGCATACTACAAGCTTTTGGGTATGTTAGAGTTGTCAGTCAGAATGTTTTAGTTTGACTTAGTTTGTTATCGTAACTTATATTTTCAAATTCGTATTATATGCCCAGAGGATGATTGATAACAGAAAAGTGGTCCACATAAACCCGTTGGTAAAGATAAGTAGACATTACATTCTAACCATTTTTATTTTTTGATAAGAAACACAAACAAACTTCATTAGTAGAAAAGAAGATCCCCGAATGCCAAGGGGATTACAAAAAGGATTCCCGATTGGCATTAATTTGCATCAAATTAGAATTACAGAAATGAGGGAGCAAAGAACACCATGTTGATGAAACAATCTAACTTGCTCCATAGTCATATATTCATCATTAGAGGCGTCATTGCCTTGAAAAGTCCTCTTGTTACCCATAAAAGCACTAGCACTGAATTGAACCACAACACTCTAGATTTGCCCCTGAAAAGAAGTCCCATAAATGAGCTGAAAAAAAGCCTCCGAACACCCCTTGGGGAACACCCAACTTAAATTAATAACTTGGAAAAGACTAGACCAACCAAAAGCAACCTACGATTTTTTGCAATATTTACTTCGTTGATTTTATTTGTTTGTTTGGATTTTTCTCTGGGAGCAGCAAAACTTCATCATGGCTATTTATCACATGCGGATGGCAATGGAGATTGGGTGCTAACAATATTTACTGCCTTGTCACTTGTAAGTAACATTCTTATTAGGTTCTCGTTTAAAATGCTATTTTACCAATCGTTTTTCCCACAATAATATACATTCTACTAATAGTGACTCTAACCCTGATGCTATTGTTCTTGTCATCCTCATCTTCGTTGTTGTTTGCCATGAAGTAATTTATGTTAAAATATTACAATAAAATATTGGACTATCAATTTCCATCACTTCTAGTTTTGTTATTAAAAATAAAGAAATTTTAATACAATTAAATTTGTGGCATTGATACGACTGAAAATTGAGAAGGAAGGTGATATAATGACTCTTGGAGGTTTCTTGGAGAAAACAGGAATGCTACTACTTGCCTCAAAAATAAGGAAAACAACCATATATACAGGCTGTGAGAGTAAAGTACAAAGCCGGGCAAACTAACTACCAGCAACTAACCTAACTCTTAGAAATAGAAATAAAGCAACAACTAACAAACATTACAACAACTGAATACATCATAAAGGGTTTCTTAAATAAACAAACACCCATTACAAATAAGAAAATACAAAATCACCAAATATAGTACAATAAATAAAAAGATATATTAACATGAAAAGAAATAATCAACACTCCTCAAGTTGGTTAGGAGATATTGTACATTGTCAGCTTGTCAATCAAATTATTGAATTGCCACTTCCGGAGACCTTTTGTTAATACATCAAGGTAATACTCTAAAAGGGGTGGAAAAGGAATGTACCCTCGACAAGTTAGTGATGTGGGGGTAGGGGGACCGTCATGTTAGTGCAGGTAGTATATACGAAGGAAGGAAATGTTAGCTGGATTTATGTTACTTCTGTTGTTTGCTTTTGTGCATAGAGAGGAGGGAGTTTACATGGCTTGACTTCCTCTGTTTGTTGATCAATACAAGTAAGGAGATACCTTACAACATGCTCCTCTCTTAACCCCTTATTCTAAGAACCCTTCTCATTGATCCCTTCAAACAACTTGATCCTCTCCAAAGTTCTTGCTTTTTTATCATTATATCTCCGATGACCTTATTCCAAGCGTTCAAAACTTTCTTTAGCGAGCAGAGTTTTCCTATGAATTTGAGACCTTCACACTTTCAGGAACATTGGTGAGCCACCAAGAACACAAGGATGACTTAAAAATGAGTGTTGGGAGAGCCAGATATTTTCAAACATAAAAGGATAGGGTTCCCACGTTTGCTCCCATGAATTCGGGCAAATTGGCCAATGACCTGATGTGACTTTATGACGTAGGGATTACCTAGCACTAAAAAAATATCCATCAAACCTTTAGATAACAGTCTACTTCATACCACACTCAAATGGTAGTTCTATCTTCTCCAAAGTTTAATTATTTCTTTGGGTCGATTTCCTCCTTCCTTCACCAATTGAACCAAAAGAGGGTAGCTCCCTAGATGTCCTATGTTGTTTGACCCTTTGAGGAACTTGAGATTTACTCGAAAGAAGTGTAGAAAGTGTCTCATAAAAAATCTTCCAACCATTGCATGCAATACCTTCAGGGACAACTGTCAAGGGGTTCCAAACAATAATACAACATGTACCTTTTTGATTGGCCATTGGCTAAACCCATATTAAACATTATATCAGATATCTATTACAAAAGAACCTCTCTATTTTTGATCCCATAGTGATAAAAGAAAAACAATCCCTTATCCACATGAATATCCACAAATGAACATTCACCTTTGGAACCTTCCCGCCTATAATGCTGTTCAATTGGCTTTTCAGGCCCTCCTTAGTCTCATTTTAGCTGAAAGGGTAAAAGATTACCAAGACAAGCGGATTTGGTCTTTAGAAGCTAACAATGTATTTTTGGTTAAGTGCCTTGTTTTCTTGAAAAGAAAACAGTCTCTTTCATTGATATAATGAAGTGAGATAAAGGCTCAAAGTACAATAAAAGATACTACAAAATAAACATCTACGGATCAACGAGTGCACCCGGACATCTCAACTAGTTGACACTCCCGTAGCACTCTCATCATCTCCACATACTAAAGACAAAGGACAAAACAAGCTTCAAACAAGCAAGTCCAAATAAATAACAACTGCTAGAAACCCCTGATACAATGGGGCCAAATAAAATAAAGGTTAAAATATCATTTTGGTCCCTATACTTTAGAGTTTGTTCAATTTTAGTCCCTATACTTTTGCATGTCCAATTTTAGTCCCTGTACTTTCAATAAATCTTAAATTTAGTCCTTATTACTTGTTTGTTGTAGATTTTTCACTACTTTTTATTTTTTATTAACATTTTCACTATAAATTTTGAAAACATATTCACATATTGTGTTTTTTTTGCATGAAAATTATTATGGTTATGTAATCAATTTCAATAAAAATTCACTTCGAGGGACTATATTTAAGATTTATTGAAAGTACAAGGACTAATATTGAACATTTGAAAGTATAGGGACTAAAATTGAACAAATTGTAAAGTACATGTACCAAAATGATATTTAAACCTGAAATAAAAAAGAATATAATGAGAACTAACACATCAAATCAGAAGTAGCTAATACATTAAGAAAACTGTATGGTTGTTGAAACATTGCTAGAATCACGAAGCTGGAAAGATGAAAGCCGACCAATTAAGGCATATATCTTGAGTGGTGCAAAGGTGTTTGAAAGGGTGCACCATAAGGAGGTGTTGAGTCATGCAATCTCGAAATGGTCTAAGGAGTTATCTTATCGTGAAAGACTCTTTGGTTCCTTTCAAACCATAATTTAGAAAGTAATATTTAACAACATTGATCCATAATAGCTCTGGAGTAGACTTAAGCTTTGGACCAATTAGAATTTGCAGCACATTATCACAAAAGGACTTATCAAAGACCCAATTCAACTTGAAATGGGCAAAAAGGTGTTGCCAGCATTTATCAGCATAGCTGCAAGTAAAAAACACATATGGTAGGTCCTTTCCAGCAGACAAACAAAGAGGACAGATGTGGGGGGACAGATAATGAGTGGGGAGCTTTGATTGCATGATTTCAGAGCAATTAAGAGACCCAAATATCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGGGGGGGGGGGGTGCTGCAGATAAATGAGAAGTGAGGGACTTTACCGTGAACAAACCATTGGCATCCATTGACTAGCTTCTTTTGTCACAATCAGCCGAGACTCTCTTCTTTGATATTAGCCTTAGCAAATTCTAGAAGGCCTCAATCTCATCATCCTTAAGAAGTTGTTTGAAGAAAATAGACTAGGATGAAGAATAGTGATCCCAATGATCAGAAACTGACCCATTAGGATTATTAGCAATTTTGAACAGAGAGGGGAAGCAAACTTGCAGGGGAGAATTTTCAATCCAAGGATCTGTCCAAAAGGCTATTCGGCTTCCATTCCCAAGTTTATATAGAGCCATGCTTCAACTTTCATCTAGGATCTTGATATACTTAACCAAGGGCTTCAAAGACTTACACCAGTTTTTCCAGCCGTGTGCCAATTGTACATGCTTCTCCCATTAATACTTTGGACAACTTGGCACCAAAGAGAGTTTTCTTCATTTAAAATCGCTAGCCCCATTTGGCCAAGAGAGCCAGATTTTTTGCTTTTGAATCACCAAATCCAAGGCCTCTATATTCTTTCGGTCGTTTAACAAGATTCCATTATCTGAGAAGAGTCACTTGCCTATCCTTCAGTTTGCTGATGACATTCTCATCTTTTGTAAGTATGATGATGGTATGTTAGATAATTTGAATAGAACCATTGCTTTGTTTCAATGGTTTTCAGGATAGAAACTGAATTGGGAAAAATCAGCCGTGTATGGGATCGATGTGGAAGAAGAAAGTTGCTGTCCACCGCCTCTCACCTTAATTACAAGGCCGAGCTATGCCTTTCTTGTATCTCGGTTTGCCTTTGGGAGGCTACCCAAAGGAAGTATCATTCTGGCAGCTGATTATTGACAAAATTCACAAAAAACTAGTCAAATGGAAGAGATTTAGTCGATCTTGAGGAGGAAAAGCCACCCTTTGTTAGTCTATTCTCTCTAACCTTCCTACTTACTACATGTCTTCTTTCTTAATGCTAGAAAAAGTAATATCAATCCTGGAGCGTATCATGAGAAATTTCTTTTGGGAGGGTCATAAAAGAAGCAAAATTAATCACTTGGTGAACTGGGATTTGGTTACAAGGTCCCAAGCTGATGGGGGTCTTGGATTTGGGGGGCTAAAAGCTACGAATATGGCTTTGCTAGCATATTGGGGGTGGAGATACTTTAATGAGGAGAACTCCCTTCGGTGTCAGGTTGTGAGGAGCATTCATGGCAATAATACTTATAACTAGCATACGAAGGCTAATCTAAGCCTAAGAAGCCCTTGGATAAGCATCTCCCGAAATTGGCTAAATGTAGAGGCTTTTGCTATTGTTAAGGTCAGGAATGGCAGCAAAATAGCTTTTTGGCTTGACCCCTGGATTGATTTGATCCCTCTAAGTTTATGTTACCCGAAGCTCTTTAAAATTGCAATCCATCCTAATGGATCGGTTTATGATCATTGGGATGCATCTTCCTCTTCGTGGTCTATCTCTTTCCGCTGGCTACTCAAGGACGATGGAATCACTGATTTTCAAAGTCTCATCTATCAAATTTCGAATAAAAAGGTGGCTGCAAGTGAAGATCGAAGAGTCTGGTCATTAGAAGCTTTAGGCAAGTTTTCGGTAAAATCTCTGGCTAATCATTTATCACCTTCTTCAACTATAGATAAGAGGCTCTTTAAAGCTCGGTGGAAGACTAAGAGTCCCAGGCGGGTAGACATTCTTGTGTGGATAAATTCTATTTGGTAATTTGAACTGCTCATCGATTATGCAAAGGAAGCTCCCCTCACATTGTTTATCACCTTCTATGTGCCCCTTTTGTTTGCCTGAAAGTTAAGAACCGGATCATCTCTTCTTTGATTGTAGCTATTCAAAATATTGCTGGTGGCAGTTGTTTTCTTTTTGTAATTTGTATTGGGTGTTTGGTAATGAATTTCGAAAGAATGTCATGCATATTTTGATAGGGCTAGCTTTGAAAGTGGGACCTTAGTTGCTTTGGGCCAATGCTGTAAAATTATTACTTGCTGAAATTTGGTTTGAAAGGAACCAAAGGGTCTAGTCTTTTCCCTAGATGGATGGTTTTGAAGTTGCTCGGATTAGTACTTCCTCGTGGTTCTCCAAAGCCTTTGCTAACTTCTCATCCAAGATTTGTACCTAAACTGAAGGGCTTTTATTTTTCCAAACTACTGATGTATTGAGTTTGTTTATGTATTGTATTGTTGGAACTCAATTTTTTTAAAACTTTTATATTTAAAATTTTTTTTGTATGCTCTCAGACTTGCTAGTTTGTTTTTTCCTATATTTGGACATCATGAGGGTGCTAAGGGGTATCAACCCAATTGAGATGCCCAGGTGCACTTACTGATCCTATAGTTCTTTGTACTATTGTATCTTTGTACTTTGAGCATTAGTCTCATTTCATTATTTCAATGAAGAGGCTTGTTTCCATTTCAAAAGAAAAAGTAGTAACTAATCCTATTGCAAATTGAATTTGAGCTAGGATCAATCTCTTATACCAATTGATGTATTAAAAAAAAAAATACCTCACAGGAACATCTTTTATCAGAGAGAATAATATGAAATTAGCAACTCTCAGCCATATATATAGGCTGAGGCAGCAACCTAGGGAAGAGAACAGGGCTCTTTAGCAACAACTAGCTAACTGAAATTACTAACTACAACAGAACAGCAACAAAGCTGAAAAAATAAAAGAAAAAGGATGAAACCCAAAAATAAAGGAATAACCAACTTAAACTAAAAATGACTACAAGATTTACAAGAAACACCCCAAGAAAGAACAAGAAGCCCAAGAATAAACCAAGAACAGAAGCCCTACATCAGCATCTGTGATTTTTCTGCAAGTAAAGTTAAAGTTCTCTGTTTAGTTTAGTGGTTAATGTGTTTAGTCATTATTATTTATTCTCTTGCAGATTGTTGATGTTCTGGAGTTTATGCCTTCTCATGTGGCGGTAGCTCTTCTTTTTCCCTCAACACCGTCTTTAATTATGTTATTGCAAACATTTACCAAAGTTTGTTTGGTATTTGAGATTTGGCTTTTGAGTTTGGTCTTCATTTGATTCATAGTTTTAAATAAATTGGGTTTCATTAATCCTTCCTTTTGGTTTTTACTTTTTTTATTTTTTATTATTTTTATTATTTTTTATTTTTTTATATATATTTTTTTTTATTGTGGTGGGGAGGGCTGAAAATGAGAAAGATTGGCACGGTTGGTGGGGAGGGAGAAGTAAGGGAGGTGACAGAGGTTGAAGAGAAACTATTTTAAAATAATTTTTGGTCACCTCAACAAAATTAAATTATAAAATAGTTGATTATTGTAAGAAAATACCTACAAAAGCTATGGGATCCTTTTATCAAGGAAACTAACAAACAGTCACAGGGACCAAAATGAAGCATTATTGAAAGCTAAAAAACGTAATCCTTTTCTTTCATTTTTGTATTCTGTATCTATGTTCTTCACAAGCTCTTTTTAATGTCCTTTCTCTGATCTCTCTGATTGTATTTGAAAGCTAAAAAACATAAGATTTTTGAAACCTAGAGACAAATTGGATATTAAACTCCAACGGTAGGGATCAAAAGGGTATTTATCCCTATAATATGTTAGTTAGACTAATAACTGAGAGATGAGTCATTTGATTTGTTGATACTTAGGCAGGCAAGTGTATGTAGAATCCTTCATCCATCTTTAAGTACTCATCTTTGATTTCTGAGGATAACTAATCAATAACCAACCCTTTACGTGGTTTGGTGTTTAACTTGTGCCTCTCATAATTATTCTCTTAACTATGGATGGAATAGCAATATTCATGTATATATTCTCAATGTTGTACAGGTTGTGTTCGACCATGATGGTAAGATATAGGATTCAAAAATTGTCACGTTATTGACTTCTACAAGAACACGTACGTGCTTGTATTCCGTTACTTTTCTTGGATATGAAATTTTCATAATTATCTACTTGCATGTACTTCACTTGGTGTTTTAGGCACATTGAAGTGGTTCATAGAGAAATATTCACATTTAGCTCTTATGGCCCCATATGTAGTTGAGTTCATTATTTATTCCATTCATTTTTTATTTAAGTATGCATGTATTAGTTATTTATTAAGTTTTTAAGTATGTCATTTGTAATGGTTTGTATTGTACTCAGTAATCTGGAAAATATATTCCACCCCTCTTATTAAGAATAAAGTTACATATATATAGGGAACAAGGAAACCCTAGACTAGGTATGTACAATTACGATTAAGGACAATTATATACAAATGTAAAATATGTATTATAACACTCCCCCTCAAGCTGGAGCAAATATATCAACCATGCCCAGCTTGTTACATAGATAGCTTATTCTTGCTCCATTTACAACTTTGGTAAGGATATCACCCAATTGTTCTCCAGTCTTCACATATCCTGTAGACACCAACCCTTCTTGTATTTTCTCGCGAACGAAATGACAATCCACTTCAATATGTTTTGTCCGTTCATGAAACACTGGGTTCCATGCAATGTGAAGTGCAGCTTGATTATCACACCATAATTTGGCTGGTACGATAACATTGAATCCCATTTCGGATAATAGTTGATATATCCACACTATTTCGCACACGGATTGTGCCATGACCCTATATTCTGACTCAGCACTTGAACGAGAAACTACATTCTGTTTCTTACTCTTCCACAACACTAAGTTTCCTCCTACAAAGACACAATATCTAGAGATCGTTCTCCTATCTTCTCGAGATCCAGCCCAATCAACATTTGAGAAACACTCAACTCTTGTATGGCCATGATCTTTATATAAGATTCCACGTCCAGGTGCGGCTTTTAAATAACATAGAATTTGTTCTACTGTAGCCCAATGGTCCACTGTAGGAGAAGACATAAACTGACTTACAATACTTATAGAATAAGCAATGTCTGGTCGTGTCACTGTTAAATAGTTCAACTTCTGAACTAATCTTCTATATCTCTCAGGATCTTTAAATAATTCTCCTTCTTTAGTAAGTTGTAGATTTGGTATCATTAGGGAACTGCATGGTTTAGCTCCTAATTTTCCTGTCTCAGACAACAAATCAAGTACATATTTTCGTTGAGATAAATAGATACCTTTTCTTGCTTCTCATTACTTCTATAAAAATACTTCAATTGTCCCAAATTTTTCGTATGGAATTGACCCTGAAGGAAAGTCTTGAGGGAAGTTATACCCGATACATCATTTCCAGTAATAACAATATCATCAACATATACAACCAGTAGAGCAATACCGTTATCCGATTGCCGATAGAAAACAGAATGATCAGACGTACTTTTCTTCATACCAAAACATTCAAGTGCTTGGCTAAACTTACCAAACCATGCACGAGGACTTTGTTTCAAACCATACAAAGATTTTCGAATGCGACATACTTTATCACTCTCCCCCTGAGCAACAAACCCAGGTGGTTGCTCCATATAAACTTCCTCTTGGAGATCACCATGCAAGAAAGCATTCTTGATGTCAAGTTGATGCAAAGGCCAATTGTGAGTAGCAGCCATGGAAAGAAAAAGTCTGATGGAGTTTAATTTGGCGACGGGAGAAAATGTATTTGAATAATCAGTCCCATAGATTTGGGCATAACCTTTAGCAACAAGACGAGCTTTCAATCGAGCCACTGTTCCATCAGGGTTAACTTTGATAGCAAACACCCATTTACATCCAATTGCCTTCTTTCCAACAGGACGAGAGACTAAATCACAAGTACCATTTTCATCTAAAGCAGTCATCTCCTCAATCATTGCACCACGCCAACCAGGATGAGATAAAGCTTCATGAACAGAGTTAGGAATAGAAATGGAATTAAGGGAAGTGAGAAAAGAATATGTGGGTGAGGCCAACTGATGATATGAAACAAACGAAGAAATGGGATAAGTACAAGTGCGTTTACCTTTTCGAAGGGCTATGGGAAGATCATCACTTGGTCTTGGATCAATTGTCGAAGAAGTCATTGGTGTAGGACAGGTGCCGGAGGGTTGTTGTGGAGGTCACCTGGAGTAGACTTGAGTAATGGGTGGACGAGAAGGAAGGGAGACGGAGGAAGACGGAGTAGATGATGATATGGGAGAGGTAATCTCATAGATAAAAAGATTATCATCCTCCCCCTGACACGAACTCGGCGAGGATGGACTAAATGACATATCTTCAAAAAACGTAACATCAGGAGAGACAAGATACCGATTAAGAGTAGGACAAAAACAACGATACCCTTTTTGAACACGCGAATAGCCTAGGAATCTGCATTTCAAGGATTTGGGATCTAACTTGGTACGATGAGGACGAACATCCCGAGCAAAACAAACACAACCAAATATTTTTGAAGCAATAGGATATAAAGATTTGGTAGGGAAAAGAACACGATAAGGAATCTCACCATTAAGAACAGAGGAAGGCATTCTATTAATTAGAAAGCAAGCTGTGGAAACAGCATCAGCCCAAAATTGCTTTGGAACATGCATTTGAAAGGACAATGCACATGCAGTTTCAAGTAAGTGCCTATTCTTTCGTTCAGCAACCCCATTTTGGAATGGAGTGTCTGCACAAGATGATTGATGAATGATGCCATGTTCACTTAAGTACGATCCAAGCACATTACAAAAATATTCGCAAGCATTATCAATGCGCAAAGTTTTGATAGAAACATTGAACTGATTTTGAATTTCAGCATGAAAAGCACAAAAGTGAGATAATAACTCAGAACAATTTTTCATTAAGTATAACCAAGTCAAACGAGAATAATTGTCAACAAAAGTAACAAAGTAATGAAAACTTGTTTGGGACACAACTGGGCACGGACCCCAAATATCAGAATGAACTAATTCAAATGGAGCACTTGCTCGTTTATTGACTTTAGGACTAGAACTAAGACGATGAAATTTAGCGAACTGACACGAATCACAATTCAAAGAGGACAAAGATTTAAATTCTGGATATAGTTTCTTCAGAATGTAACACAGAAGACAGAGAAAAGGATGGAGAAAGGTTAATGGTGTCAGAACTAAGGACAGAGGATGTTGAGCCATTTGCCAAAGTGACAGATGGGGAAGAGGCAGGGGACAATGGTGTAGAGAATAAGCTAGAATTACTTGTCATATGAGCTGTGGCACCAGAGTCTATGACCTATTTGGTAGATGATGTAAGTAGACATTTCGTATTACCTGTGTCAGCAATGGTGGCAGTAGGATTAGATGAAGATGATGCTTGCAATGAGTCCGGTACGCGTGAAATTTAGCAAACTCCTCTGTGGAAATGGTAACTCACTTCTCTGTCATATCATTGGTGGAAGCTATTTGAGCCTGCTGAGATCGTTGATTCTTATACAACAATTTCTGACAGTCACGTTTCAAATGACCAGGCTTACGGCAGTAGTTACAGACAATCTCCTGAGAATCTGGTTTTCGGTTATCATAATTAGTTCTCTGAAAGTTGTTATCCATCCCTCCAGCCTTGGAGTTATTATTCTTGCTAATAAGGGCGCTGCTGGATTGAAGAATAGATAAATTGGATTGAGAACTCTCAATACGAAGAACACGACTGAAAGCCTCGTCTAATGACGGGATTTTAAAGTAAAAAAGAATTTGTGTTTTGGCCATTCCAAATTCAGGTAAAAGTCTATTCAGAAAGATCATAACAACCATCTTTTCTCGCTGAGCTTGTTGCACCTTAACATTTGGGCTGAAAGGTAGTAACAAAGTAAGTTCGGCAGCTATTCTCTTAAGTCTCATAAAGTAGTTGGTCACAGACTCTGCTTTCTATTCGGTGCGAAAGAACTGCATACAAACTTCAAACATTCTATGGACTTGCTCTTTACCTGAGTAGAGAAATTCTAAAAATTCTAAGAGTTTCTTCACTGAATTACAATGATCGACCAAACCAATTACCTCGCTCTCAATCTAATTTTTGATCTGAAGATAAAGTCGTGCGTCATCACGAAGCCAATCCTTCTTCTGTTTTTCATCTTCAGGTGGGTCTGCAGTCATATGATCATCCATATCCATACTTCGTAAATAAAACAGAATTGTCCGACGCCAATCATAGTAATTAGATCCATTTAACTTGTGTTCTGTGATCTTTGAGGCTAGGGGAATCACATTAGATATCACTAAATTCTTCATTGCATCCATAATGAATTTATACACGGACTGTAGCTCTCACAAACGGAACAAGAAGAAACAACCAGAATAAAATTCTAGGGTAAAATCACTCCAAATGATCAAAACAGCCACGAAATTGACAAAAAATAGTCACAAACCCTAGAACTAAAGATGTATTCTTCGAATACTTTCACGGCCGAATAGTTTTCGATGAAACCAAATGCATAGACTAATTGGGAAAGAGAACTTGAGACGAACCCAATTGACCGACGGCGAAACAAACCTTCCACGCGCTGGCGCGTGGCGACGGAGCAGTTTTCTTTTGGCGGCGCGTGAGGGTCACACGCGGCGATTTCCGGCAACCAACGAAGGCAGACGACAGCGGATGACGGCGGCGCTCCTCTTGAGGTGGGTGGTGTAGACAAACGGCCAAACATTGTGACTTAAACTTCAAACCCTAATTTGTGTGGGAGGCTAGCCGTCAAAGGAATATTCTAAAGTTTTAAACCCTAGAGGCTCTGATACCATGTACTCAGTAATCTAGAAAATATATTCTACACCTCTTATGAAGAATAAAGTTACATATATATAGGGAACAGGGAAACACTAGACTAGGTATGTACAATTACGATTGAGGACAATTATATAAAAATGTAAAATATGTATTATAACATGTATAATCTTTATAGCGGCGCTCCTCTTGAGGTGGGTGGTGTAGACAAACGGCCAAACATTGTGACCTAAACTTCAAACCCTAATTTGTGTGGGAGGCTAGCCGTCAAAGGAATATTCTAAAGTTTTAAACCCTAGAGGCTCTGATACCATGTACTCAGTAATCTAGAAAATATATTCTACACCTCTTATGAAGAATAAAGTTACATATATATAGGGAACAGGGAAACACTAGACTAGGTATGTACAATTACGATTGAGGACAATTATATAAAAATGTAAAATATGTATTATAACATGTATAATCTTTATATTTTTCTGCTTTTTGCTTTTTACTCCTTTTGGTGTTTGTATCCTTTGAGCAATAGTCTTTTTTTTTTTATCTTGATGTAAGTAGGAAGGAGTTAAATTGGGTAATTAGGTAATAGGTTTAGGTTAATTCCTTTTTTACTCTTTACTTGTATTAAAACTCTATAAACAGGTGTTTCCCCCATGTATGCACAATTAATGAAGAAGATTTTCCCTCAAGAACTCTTCAAGATTTGTAGTTTACATCAAATTGGTATCAGAGCACCTTTGTGAAAGGGCCTGATGGTGACCAGGAACACCTCCAAGAATCCTGGCCCTCCTTCCTTAGATGCTTCATCCTCTTCTCATCGATCCCTCAACCAACGCTTGACTCATGTGGAAGCTTCTATTGGAGAGCTTAACACAAGGCTTCTAGATGTGCAGTCCAACATGGTTGGCCTTACGGCTACAATGGTATGGAGCTCCTAACTCAAGAAAGAAGTAAACATGCTACTGCCAACATTCAAGAACAAATCCCAACCCCCATCGATTCCAAGAACAACACCATAACCGTCTATCCAATCAAGAACAATTCGACAATGCAATTCGCGGCCAAGAATGTGGGAATTATCATCAAGATTTTCACGGGCGTGATCAACAAAATCGCCAAGAATATCAAAGACGTGACCAACGAAATTGCCAAGAATATCAAAGGCGTGATCGATGTGCTCAAGAGCTTCAAGAAGATCCACCCCACCATTTACAAGGGCTTCAAGAATGACCAAGAAGTTCATCAAGACCCTTCATTCAAAGAAATCAACGGGTACGAACAATTTTAATCCAGTTTTTGAACAACACCATCCTCCTCATAGACCTTATCTTCAAAAATTGGTTGGTTTTGATCCTGACTCTTATGATGAGAAAGTAAACAATCACCATGTTCAATATTACCAAAAGATTCAAGGAAAATGCCCATTACAATTTCATGAACAAGGTAAAACCTACAATCCCTTCCCAAGCAGCAAACAAATACCACAAAATGTGGTTGGGTTTGATTTTGAAACATCAAAGGAAGAAGAAGTTGGTTGGCAAGGTTTTTCTTAGTTTTCATATGAAAATATGAGCAACAGCACCGATTCAAGAATGTCAAAGAATGGGTTCAAGAATCGTTTCAAGATCAAACAAACACTCAACCAAATGTTCAAGAACATGTTGCTATCCTTCAAGAACTTCAAGCCAACCCACATTGTGTTCAAAATTGAGTGACCATGCTGCAAGAACATCAAGATAGGAGTAAAAGTTTTAATGTTTTAGGTCGTTATTTGACTATGGTTCGAATAGAACCAATTTTGACTATTGTTGCTCGTCTCAATGTGAGACCCTTTTCTAACGCCACTTGAGAAGAAAGATTCTCCAGAAGCGGCAAAATCCCAATTTTCACAAGATCATAGTGATCACCTTGCTATTATTTGAGCCTATGGGGGATGGAAAGAAGTTGAGAGGAACTTTGGAGGATATAACTTCTGGTTGAGGAACTTTCTTTCTGTACAATTGGTGAAGGATATTGATTCACTAAGGAAGATGTTTTTTCTTTGCTTAAAGATATTAGCTTGGGTTTTACCTTTACCTATTGTATTTCTCACTTTTGATTAACATTTTGTAATCTCTTGTACTCAGTAGGGCATAAAGCTTAGAGCTTAGAGATTTTGGTTATCCAGATATATTGGCTTTTGTATTGGTTTGTTTTATCAAGGATGTGATGAGGGTGCGATGGGGTGTCAACCTAGTTGAGATGCCGGGGTGCACCTCCTGATACTTATCTTGTTACGGTGTGTACAGTTTATTATTGTACTATGAGCTTTGTCTCAATTCATTATATCAATGGAAGAGACCGTTTTCTTTTCAAAGAAAAAAAAGATATTAGCTTGGTCAAGGGGTTCTTGAACACCTACAACGTTTGGAGTCTTGATGAAAATTTTATATCTTGGACTTTTTTTCATAATATCATTTTTCAAGTTGTAGGAGGTTGATTTGGCCATACTCCATTGTACAAGGTTATTTTATTTCTTAATTGTTTCAATTTTTTCTTTTTAAAACTTGAGGACGAGTTTTTCTTGGAAGGGTAGAATGATGCAAGTAGAAAGGGGTTGAATTGGGTAATTAGGTAACAGGTATAGGTTAATTCCCTTTTTACCCCTCATTGTATTAAAACTCTATAAATAGGAGTCTTCTCCCCATGTATGCACAATTAATAATAAGATTTCCCCTTAAGAACTCTTCAAGATTTGTAGTCTACATCACATCTTTTTAATGAACTAGTTAAAAAAACTAAAGAACAAAAGAAAAAAAGAATGGGGGTTTACATAGGGTAAGATTTGAGATAGATTTAGGCACACTGGCTTGGCTTTGGAATTGCTTTGTCTCAACCTCTAAGTTGGAAAATTCAATTGGTATTTGGAGGAGAAGAAGATTGGGGACCTTGGTTATTATTTTCTTTTAGTTTCAAACTGCTAGCAAATGCCAAAGAAAGGCTTAGTTTGGTTACTATGAAAACATTGAGAGGGAAGAGAACCTCAATGTTTATCCTAGTGGGTAAGGGAGGAGGGGTTGGTCTTCTTTGTCAAAAGTGCATTTGGAGCTTTTACCTAAACTGTCAAGCTCTTTCAGACTGAAGATAACTCTTCGAGTAATTTGGACATAAAAGCATCCTTTACACAAGTGGCGAGGGGGCATCCTAGCAACGAAGAAATTGATATGGATTTGGTGAAGCTTAGGCCTGCCCTTGCCCTTTTGGAGGAATTCAGTTTTTGAAACCATTGGCCACCATTTGATAAGGCTTATTACTATGGGTTTGGGTGGAGAAGGATATCTGAATTTCATGGGAATTGAATTTGGACATCCTGAGTGGATCGGTTTTCCAAGGGCGATCAACATTTTCCTGGTGGGGCAATAATTAATGGAAACAACTTCAGTTATGAGTGATATTTGTTGGTGTAGATTTGATTTGATCACCTTTCACTGCATTTAAAGATTTCATGAGTCTTCGGGTGTTTGATTGCTTGTTGGGCTTGTTTTGAGATAATTTTGGGGAAAGTTTGGAAAGTTTGCCTAAACTTTATGGATCTGTTGGCAGCTTGGTTGGATTTTATAGCCTGTCATGCCTAGTGAAGGATTTTGGTAATCTGGTAGATTTTGGTTTTGATGTTCGGAAGAGGGTCATAGATTGGTCGATAGTTAAGCCTGAAGAAGCTGGTTTTTTCAGAATTCAATCAAGAAGTCTCATTCCATGTCAAGCTTTTATTCTCTTCTTTTATTTGATATTTTGGTCTAGTTTTGATTTTCTATTCTTATACTGGCAAGCTTTTGATTAGTTTTTATAATTTGAGCATTAGTCTCTTTTCATTATTTCTATGTCTCTGTTTCCAAAAAAAAAAAAAAAAAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCTTTTTCCAAAAAAAAAAAAAAAAAAGAAAAGAAAAAAAAAAAAAAGAAAGCTTACAACACTGGTCCCAAATATCATTAAAATCAATGTCACCTTTATATGCTGTTGGTAATTCATGAAAGGCTATAACCCGTCTGGAAGTAGAGTGAGTAGTTTAACCTTTCTACTCAAGGCATCTGTCGCTTTATTGATAGCCTCTGCTTTGTGTTTAATAAGAAAATTGAATCTTTGTGTATAGGACAGCCTCCAGCATGTTTTTTTATTTTATTTTTATTATTTATTTTTTATTTATTAAATGGAAACAAGTCTCTTCATTGAATTAATAAAATCAAACTAATTCTCAAAGTACAATAATAAGATACTAGGAAACAATAATTCTATTTGCCCCCTTTGTGAAGGAGTCGGAGAGGACATGATGCACATTTTCTTTCGGTGCCCTATGTCATGAATTGTTGGTGGAAGATATTCTCTATTTTTGAGGTGGATTGGGTATTTGGCAATGATTTTTGCGAAAACATTCAACAAATGTTGATTTGACCTTCACTCAAAAAGGGGCCAAGGTTGATTTGGGCAAATGCAATAGAGGCAATATTAGTGGAAATTTGGTTTGAGAGGAACCAAAGAGTATTTCAAGACAAAAAATCAAGTTGGTCAAACCGGTTGGAGGTGATATTATTAAATGCCTCTTCTTGGTGCACATTATCAAAAGCGTTTGAAGACTTCCCCATCCAAGTTCTTTGTCAAAATCAGAAGGCGTTTATTTTTCCAGCTCCATAGCTTTAGAGGAATTATTGTATTTACTGTTTCTTATTACTTCTAGAGTACTTTTGACCTCTCCCCCTTGTATTTGGGGTTACTTTTGAGTTGTACCATTGGTTCTCTTTGTACTCTTCTATGCATATTTCAAGTGTAGCATTTGTTTGGAGATGATGAGAGTGCTAAGGGGGTGTCAACCTAGTTGAGATGCCCGGGTGTATTGCCTGATCCATTATTAGGATCTTCTCATTAGTATTATCTCTTGTACTATGAGATTTTATCTCATTTTATTATATCAATGAAAGAGATAGTTTCCTTTTCAAAAAAGAAAAAAAAAAAGAAACAAATGGCAGCCCCAAGTCGGATTCTTTCTCTATGGACTTGCTCTGTTTTACCGATACTGAAATAGAGGATTGTGTTTGACCTTTTAACTTCACCTTATCTTTTTTTATTTTAAGCCAACCATTGAAGCCTTTCATTAACATTGGTCGACTGTGTTTGAATATGTACCACTTCTTAAACGACAAGTGGAAGGGTCCCATCGTCTGCCATTTCCCTGGGTCTTCAATTAAATCCTCTAGTGTTCCATCTTCTAGTTTAACTAGGGCATTCTCTGCAAACAACGGGTTTATGTTTTTCTTGCTGTTTTGTATAGCTTCCTTATGTATTAAGGCCCAGTTTTATTTTTTGTTTGTTCTTGGTGGCTACTGTTTTTGTGTTCTTTGTGCTTCAAGCTGTTTTCGCCCCATTGTATTCGGGTGTATTTTTGTTCTGTTTGGATTGATTATTGGCCATTGGATATTTTGCTTTTGTTTGGAGATGATGAGAGTGCTAAGGGGGTGTCAACCTAGTTGAGATGTCCGGGTGCACTCATTGATCCTAATGTAGTAGGATTATGGTAAACATAAAGCAGGGTATCTTGGTTAAATCCTTAATTCATTAGGTCTAGGATTAGTTTCATTGATTGATTAGGATTAGGATTAGTTTCCTTGGTTTATTAGAATTAGGATTAGTTCGCTTTCCAATTCTCTATAAATAGAGAGATTTTGTTCTTGTTTTGATAACTTTTGATTCATAATAAAGATTTTGATTTTATTCTTGGAGAATTATCTCCTTTTTATCCTTTAGGCTACATCAGATCCATAGGTTTTACACTCTTGTATCCTTCTTTGTAACTTGAGCATTAGTCTCATCTCATTATTTCAATGAAGAGACTTTTTTTTTAAAAAAAAAGAAAAAATTATGAATGAAAAGTTGTCAATACCAAAAACAGTTCCTCTATTTATAAAAATTGAAAAGTAAACTAAACCTAATTATAATAAACTAAAGAAACTAATCCTTAATCCTAATCCTAATAAATCAAAGAAACTAATCCTGATCCTAATCAATCAAGAAAATCAATCTTGGTTAAGATTCTTGGCTGCTTCTGTGGCTTTTCATAAGGAAATTTTCAAGGGTTTGTGGAAGTCTAATAGCCCAAAAAGAATGAATATTCTTGTTCGGGCCGTGATTTATGGAACGTTGAATTGTTCCTCGGTTCTTCAAAGAAAGTTCTGCCTTTGCACTACTTATCTCCATCAATTTGTCCACTTTGTCAAGCCAGAAGTGAAGACCTACAACATCTGTATTCTAGAATCACGAAGCTGAAGAAAACTACTTGCTATCTTCCATTTACAGTGGGTTTTTGATAGATCTTTCAAGGAGAATGTTATACAAATTTTTGGAGGTTCTGTGATGAAGCCTCAATCTATTTTGCTTTGGACTGATGCGGTCAAAGCTTTACTTTCTAAAATTTGGTTTGAAAGAAATCAAAGGATTTTTTCATGAAAAATCACTCTCATGGCTTGATTGTTATGAAGTTGCAGGATTTGATTCTTCCACTTGATGTTCTCTATCCAAGCTATTTTCAAGTTTTTCAGTGCAAGATATCCATTTGAATTGGAGTGCTTTTCTTGATTAGTTTAACTTCTTCTATATTTTTGGATTGCCAATGCATGTATTCTTCTAGTTCCTGTTTTCATTTAATTGTTTCTTTATGTTTCCTTGTAAGTTGAGCATTAGACTATTTTCATTATATCATTGAAAAGTTTGTTTCCATACGAGGGAGATATCAAGGAAACCAATTCTCATCCTAATCAAGGATTTATCAAGATATCTTAATTTCTCTGATCCTACTATATCATGGTAGTTTGCATTGAATAAACTTTGCTCCACAAAAAGTTACGAGGAATAAATTTCCTGCTCGAATTCTTTTGATATTAGTCGAAAGTACTCCATATTCATTAGTGGAAGGCCTAGAGGCCGGATTCAAGCCACAAGGGGAATTCGTCAAGGGGATCCCTTATCACCCTTTCTTTTCCTCCTAGTAAGTGAAGTCTTTAAGTTCTTTGATTGCTAGACTCCATGATAGAGGCATGTATGAAGGATTCAGGGTTGGAAGAGACAAAATACATGTCTCGATCCTACAGTATGTAGATGATAGTCTGATTTTTTGCAAAGATGATGAAATGCTAGCTAAACTCAAAGAGATTATTGATCTATACGAATGGTGTTCTGGGCAGAAAGTGAATTGGGAAAAATCAGCACTAATAAGAGTAAATATGGAAGAGCAAATTTGCATATTAGCATCTGCCAACTTGAATTGCAAAGTAGGTAATCTACCTTTCTTTTATCTTGAGCTGCCTTTGGGAGGTTACCCAAAAAAGATGTCCAAGGCAACTGGTCATAGATAAAATTCAATTCAAGCTTGACAAATGAAAAAGATACAACCTTTCTAGAGGGGGTAGAGCCACCCTATGTAAGTCAATTCTAGCTAATATCCCATCTTACTACATGTGCTCTTTCCTCATGCCGAATAAGGTAATTAAATTAATTGAGCAATCGATGAGGAATTTTTTTGGGAAGGGGACGAAGGCAGTAAATTGAATCACTTGATAAAATGTAGTGCAAAACCAAAAGGATGGAGGTTTAAGCCTTGGCGGTCTAAAGATAAAAAATTTGGCTCTTCTAGCTGAGTGGGGGTGGAGGTACTTCAATGAAGCAGATCCTTTTGGCACCAAGTAACAAAAAGCATTCATGGCCAAGATTTATTGAATTGGCACACATCCGGGAAAACCAGTTGCAGTCTTAGAAGACCCTGGATCAATATCTCAAGAACATGGATAAAGGTGTAAGTTCTAGCAACTTATAAGCTCGGCTATGGAAGTAGAATCAGATTCTGGATGGATCCATGGATTAATAACCTATCACTGAACTTAAACATTTCCTAAACTTTTCAAAATTGCTCTTAACGCACAAGGGACAATAGTAGAACACTGGGACAGGACTCTCAACTCTTGGTTAGTGGTCTCCCATAGATCATTAAAAGAAGAGGAATTGGCTGAATTTTAGAATCTTATTGGACTTCTATCTAGGAGGAAAGTGGCGAACTTTCCTGATAAAAGACTGTGGTCTCCAGAATCTAGAGGTGCTTTTTTCGGTAAAATCATTAGTTTCTCATCTCAAAATCTCTTCTCCAATAGGAAATAAATTGGAAAATGCAATTTGGAAGAATAAAAGCCCTCGTCGAGTTAACATAGTTTGGTGCCTTGAACTGCTCTGAAATTCTTCAAAAGAAGCTACCAACACACAGTTTGTCCCCTTCAATTTGTCAATTTTGTACAGATGCAAATGAATCACAGCTGCACCTCTTTTTTGATTGCATATATGCGATCAAATGCTGGCAGAACCTCATGGGAATCTTCAGCATAAGCTGGGTTTTCGGTAAGTCCTTGAGAGAGAATGTTGAGCAGATTCTGGTGGGTCCTCTATTATATCTGATTTATGGTTCGAAAGGAATCAACGGGTTTTTCATGGCAAAAAGATAGATTGGCAGATCCGACTTGAGTCAGCAAACAACACTTCTTTGTGGTGTTCTCTCTCCAAATCCTTCAGTGAAATCACTGTGCAAGACATCAGCCTAACCTGGAAGGCATTTATTAGACAAAATTGATAGATGTACTATATTTTCATTATATCAATGAAAATATGTTTCCTTTTAAAAAAAAAAAAGATATAATATTAAATTTACCTTTACCCATCAACTTAAGGTTTTGGGTCAATCGTTGATTTATCATAGTATCAGAGTAGGAGGTCTTGTATTCAAACCCTACAATGTGATTTCCTCTCCAATTAATATTGACTTCTACTTGTTGGGTCTTCTACTTATTTCAAGCCCACAAGTGAGGAGTGTTAGAGTTGTTGATATAATATTAAGTTTACATTCATCCATCAACTTAAGCTTTTGGGTCAATTGGTGATTTGACAATAAGGTTGTAAAAATTTGATAATTTCCTCTTCAAGTTTTTTTTTTTTTTTGGCAAGATAGTCAACCTGTTAACCACCAAGAATTTTCTTTTTCCACTTTCATTCTTTAATTGTGATTCAATGCTGACAGAAACAGTATGCAGAGGTGCTTTAGTTGTTTTTGGTTTTGTTATTATCATTTCTTTAAATCTAAAGTGTCAAATTGTACTTTGGATGTTGGATAAATGAAGTTATTGAGTAAAAAAATAGTAGAATAATTCAGAAATATGAATCAATGCCATCGTATTATGACCAATATCCCAGGCTTTTTTTTTCTTTGATTGGGTAAGTAGAACCACATCTGGAGTTCTCTCAATTCTAGTTTTCCGTCATTTACATTATTTTCTATTTCTCAAAAATTAGAAATCATATCATTCAGTTGAACTTCAATCTAGAATCTCATATAGTGGACTTATAGGCAAATTAGTTACTTATAAGTGATTTTTATCTAATTTCAAGACTGGGCTTGTGCACCTCGATGACATACCAACGAGTACTTGGCAATTTTATACTTCCTGTTGTAAAGTTTCAATTGGTATCTGTCTATCAAAATGGGAGTTCCGGGGGTCTAGTGTCAATTCCCTTCCCAATTCTCATGTGTTGTAGTTAGTTATCTTGCTATGTATTGAAAATTGAACTATTGTAACAGGAGCTTTGTCTCATTTCATTTTATTAATGAAAGAGACTGTTTCCTTTTCAAAAAAAAAAAAAAAGAAAAAATCCCTTCCCAATTGTGGTGGGTAGGTCATTGAGGAATTTCAAAGTTGCTAGAATGAACTAATCGTTTTGGTAAAAACAAACCTTTTCTTTCAGGACACCCATATGGTCATACTTGTATTTCATCCAATGAAAATTTCATGGCAAAAGGTATGCTCTTCATCTTTGAATGATAGAGTTGATAGTAACATTTTTTCCCTCTCTTCTAAACTAAGAATTAAATGATGTAACATGTTAAAATTAAGGAAATTAATATTTGTTGGTTACACTTTTTTAATCTAGATGACTTTTATTTGAATACTATTCTAACTGCAAGTATTTTGGTTTTTATAATGCCTTTTGTATGGAAATGATCTAGGTTTTTTCCGTTCTTTTTTTTTTTTTTCTTTTCTTTGAAAAGGAAAAAACCTCTTCATTTTTCAATGAAGGGAGATAAATGCTCAAGATACAAAGAGGGATACAAGAGCACAAAACCTAAGGATTAGTGAGTGCACCCAGACATCTCAACTAGGTTGACACCTCCATAGCACTCTCATCATCTTTGAACAAAAACAAAGACAAAGCATCCAAAGGCCTATAAGCAGACCAACAATACAAGAAAACACCCCCCAATACAATGGGGCAAGTCAAAACTAGAAATTACAATTTTTTTTTTTTTGAAAAGGAAACAATGTTTTTCATTGATGTAAATTGTAATGAAGAGAGACTAATGCTATATAATACAATGAGATCTAAAAGGACAAACAACATAAAACATAAAACAAATACAACCAGAAAGACCAAAGCTGGACAAGACCGAAAAAACAAATACAAACAAAAACAAACAATGTGAACAAATACACCCCAAATTAAGATAAAATGACTTTTTACACCAAATCCTAGAAACCATCAACTTAAATCTAATAGAACAATCAGTAAGATTTGAAACTTGAGATCCAAAAAGATTTGAATGCAGAGGGGGCTTGAGGATGAGCTCGTAACTAGACTGACTTGCAAGCTGCCAATCCCTAGAATACCACCTAACCAAGATAATATAATAGCTCCTCGGCAGAAACAAACAGAATGTTGAAAGCACTGCCACTAACCAACAAAACATCCTTGCAAATAATGAAAGGTCCCAAGTCCACCTCCACAACTCTTCTATGCCATTTGAAACAAAGTTGCGATCGAGAGCTTCTATGAGCAAATTGAACTGATTACCCAAAAATCAAACCACATTCTTCAATCAAGGAGGAGAATTTAGGTGGGATTTGAGAAGGGGATAACTGATAATGCATTGAGCAAGGCTTCTGATTAGAAAATTTCTTAGCCGGGCTTTGGAAGAGGGATGCTACATCTTTAAAAATATCTTCCTCAGAGGGAACTTCTTCCGGTGCTGGACTTACAGTAAAAAAATTCGCCTTCATCGCTACTCACACTAACAATGGAATCCTTAATAGAGTTTTCTTGTGTCTGGAAAGCTTTTGTAGAGGAAGAAAAAGACACTTCCTTAATGAACTCCACCCTTGAATCAAGAGATAATGGTTTTAGAGGGACCAATAGGTGATCGTTGAGGATTTGAGGAGTTTGGATTTGCCTTTTTTGATGCCAAGGATTAAACTTGCAATAAGAACTCATCTTTCCTCTAGAACATCTGGATTAACTCCATCTTCTTTGAAATGACTATCAAAACTCTTATAAGACTCTGGATTACTCTTAGCTGCTAATGACTTAAGAATCTCTTCCTTCTTGGAGAAATGCTTTGGAAATGGTTTCAATAATCTCTTGAATACAAATAGATAACTACTACCAAAACAGATTCACTACAAACCCTACCACCAAAAATGCTACAGCAGCAAAGTCTAGTTAAAAGCTAAAAACAAAAGTCCCTTTGAAGAGCAACAAACTAAAGTGCTGGTTGAGTGAAAGCCCTCCAATTAAGACTAATATCCTGAGCCGAGAAGTCTTCAAAAGATTTTGAGAGCACACCAGGAGGAAGCATTAAGTCTTGCTGTCTCAAAGCGATCCAACCAAGTAGTTACTTTATGATTGAGTACCCTTTGATTCCTTTCAAATCATAATTTTGTTAACAAGGCTTTGACAGCATTATTCCAAAGCAAACGGGGGCTGGATTTCAACAATGGACCAACCAAAACCTGCAAGATGTTGTCCTGAAAATTGCTGCCAGAAACCCAGCTTAAATAAAAAAGGCCGAACAAACTTTACCAACATTTTCCAGCATACTAACAATCAAAAAACAGGTGCTGCAAATCCTCAGTGGCAGACATACAGTGGGGCAAATTGAAGGAGACAAGCAATAAAATGATAGTTTCCTTTGCATAACCGATGCACAATTCAGAAGGCCAAAATTCATTATCCAAACTGTTATATTGTCACAACGTGGGCTCTTAGTCTTCCAAAGGACTTTCTCTACTTGCTTCTCGAGAGGGGAAGAAAAGACAAATGGATCACAAGAGATTTTACCAAAACCCGACTAGCTTCGAGTGACCATATTCGACTATCCAAGCTGTACTTAGAAAAAATTATGCGTCCATGAGGGCCTTGGGGCTGACGCATGGTGGCTATGCGTCTATGCTAGGTGTCACAATCTAACTTTGAGATAGTAGATTGTGACCCCACTTGTGTAGACAATGTGGCGGCGACACAAAAGTGTCGACATATCTGGCAATGACAAATGGCCAGAAGAAGTGTCGTGATGCAACCGAGGAGGACGGTGCATCATCCAACACACCAAGATAAGTGGACAAATATGTCAAGTTGAACAACAAGCAAGAAGACAAGCATTGGTGCCATCGACAGTGTCAGCGACAAGCTCAGTGGCCTCAGGCCATGACTTCAGAAGTAGGGGTCTCGTTACGAATTTGGACGAGCGGCTCTAGAGTTAGATCCATATTGTTCAAAATGTACTATAAGAGGGAGGCATGGTGTTAGCTCTCCACCACCCCTGGGCCCTGTGGCCTAAGTGAGCTACCCCGTGGCACACGAGTGTGTCATGGTATGGGCGAGCATTACAAGACGAGTGTATTGGGCGTTTTCCATCGGGAATGGGATCTTGAGGACAGTGTCGGACGGCACGGGTGTGCAGGCATTGTGTCCCTTCCATGCATGGTATGGGCGAGCGTTACAAGACGAGTGTATTGGGCGTTTTCTATCGGGAATGGGATCTTGAGGATAGTGTCGGACGGCACGGGTGTGCGGGCATTGCGTCCCTTCCATGGGTTGGAGGTTCAATATAGTATCCGGTATGCCGTCTTGGCTTGGCATTGACCTAACATGGACTCGGGAGGGTTCATGCCTAGATATGTCCGGATGGATGGATGTCCGAGAAGTCTCGAGATGGGAAAATACCCATGGGGTGATTATGATGGTTCTCGATAAGCCGACCCGAGCAAGAGAGAGAAAGCTGATGTTGTCTCCACACTCGGGAGGACATCTCGATGCATCTGTGGGATTCGATAGTCCCTGTTGACATGGTATTTGCTTGAGTTGTCCCCATAAGCAGTATAATGTCCCGAGAAGCCCCAGTAGATTGTTATAAGCCTGTTTGGCCCAATGAATGGATCGAACTCATCCGACAAGGTTTCGAAACGATGTAGAATTACGGGGTTCGTATTGTTGAGAATCACGATGACGGAAAGAGTCGCGAAGGAGGGAAGTCACATGTACAGGCGACGTGTAGGCCGAATGAAGTCAGGTTTGCATGAGTTCAAGTTCGGTTGAGGACAAAAGAACCTCGCTTATGGTCCAACGAAGCTTAAAAAAGAACGGGCAAAAAGTAGATTGGTACTTGTGTTTCCCTTAAGGCTGACCATGATCAAGCGTGAATCATGGTGCCGCACGGTTGAAGAAGTATGACCGTGACAGTAGGCGCCCAAGTCGGCCAATGGGGATTGTGTGCAAGATAGCCAGCTAATCTCAAATGGATGCGTGGAGAAAGCTTTGCCCGAGGATGCGTACACCTTTTCTTCTTGGTTAAGCAAAGCCTAGACTTCAGTGTTAAGCAAGTCAGATTAGGTGTCAAATTGAGGTTAAGCGTGGCATAGGCATGCATGCAAGCATGAGGTGGCTAGCTAGGAGTTTGCATGCAGATTTCTGTAAAGTCTATAAATAGAAGGGTCAGCTGATGAGATTAGTGTGTGCAAATCACTCATGCCATTTGCGATTTTCTTCGACAAATTATTCTAAATTGAGTCTAGTTTCACCGGGAGGGCTGCCGAAAAGAAACTCTGTGAGGAAGAACTCGGAATTCAAGCTTGTTCAGCTATCGGGTAATCTGGAGCAAATCGGGAAGATTTAGTGATATCTGACGGAAAAAGAGGAATTAGAGGCTGAAATTTTGAGGTAAGATAGCTAAGATAATTATCTACAAGTTTGTAAGAGGAAGGAAGGTTTAATTTTGGCTAGAAACCTTACTTTTGGCAGCTAGAAAAGAAGACAGTGTTTTGAGGTTGCTTAAGAGGCTGTGTGTGCAGGCGAGCAAGGGCAGTGGCCGGAAGAAAGAACCCTTTGAGGTTATTTTGACAAGTTTTAGACGCCCAGGAGGCGGGCCGACACGCAACTAGCAACGGAAGGGTGAGCGAGAGGCGCACGACACGGACTGTCGACGCAGACACGTGCGCGCTTTGCCTCTTTTGAGGTTATTTCGGCAGTAGGTGCGCGGGAATTGCCGCCCACGAGGGGCAGTGTGGGCGAGGCAGTGGCTGGGTGTGCAGGGTAGTGTGCTGTGCGAGGTTTGCTGCCCATTTGAGGTTAGGATGGCTGGGTGTGTGTGCTGCAGGGCTGTTGGACATGCCTAAGGCAATTTTCCACTTTTGGACATTTTGGTTAATTTTTACTTATTGATGAGCCTTTTGAGCTAAAATGTCTTAAAATATGCCATGAAAGGAATTTTAAGGATATTGACAAAAGAATTAATTTATTCCAGGTCGGAAAGAGCTAGGGCTCACCAGCTGTGAGTGACTTAATTTTGTTTTAGAGCCCAGGACAAGTTGTGACTGACTTAATTTCGTTTAAAATGATTTATACTCTCGATGTTTCTAGTATGCTCGGTTTATTACAAAATATGGGATTTATGGCGTAAGTTGAATTTCATAAAGCATGTGTTTCTTATGATTTTGAACATGCTTTTACATGATTTTGAGCATGATGATTTATAATATCGAGCTTTGCGAAAAGCATGCTGTTTGAGAAATATTCTGAAATTCTGAGAAATTGTTTAAACCCATGTTTATAAATGATTTAGCATGCTTTATTTTCAAAAGATGGTCCCAATGCCGAAGGACATAGAGAAGGCATATGGGCAACCTTAACATTGGGCCCTAGTACTGAAGGACTAGAGAAGGTACACAAGCAGCCCGGATTATAATTCCTATGGGCACATAGAGGGAAATTCGATGTTGTTGTGTTGAGATCACTCTACACAGCTAAGGTTATTTGACGTTGGGTATGATTAAATTATTCCATCCCAACTAAGGTTGTTTTCGATGTTGGGCGTGTTGAGATTACTCCATCCAGACTAAGGTTGTTTTCGACGTTGGGCGTGTTGAGATTACTCCACCTTGACTAAGGTTGTTTTCGACATTGAGTAGTGTTGAGTTTACTCCGCTTCAACTAAGGGAAGATCTTTAAAAAATACGCAAATGTTTATAAGCTTTCGAAAGCTTTATTATTTGATTATCAAGCATGATTTCGTTGAGCTTTTAAGCCAAGCATAGTTTTATAAACTTGTCACTCACTAGGCAACCTAGCTCATGTTTTCAATTTTCCAGGTAGTGAGCAGAATGGGGGTGCTTAGCCTACTCGTCAAACTCGTCTAGATCTGCTTCTTAGTTTTAAGCATTGTAAATATTTGTACTTAGACTTAGCATTGTACATATTGGGGTGTAAGGAGGGGTGGATATGTGTAAAAACTCTGATGTATTTATTATAAAGTATCATTTGGTATTATTTATGGTTTGGATGTAAATTATAATTATGTTATCAAGTGCTTGGTAAGGATTTGAGGAGAGTTAAGTTGACAGTAGATGTCGTAAAGGATCGATGTCTGCTGTCGTCACGCCTCTTTTCGGGCTAAGAGGATTGCTCAGGAGGGGGTGTGACATATAGGGTGGAGGAACACAATTTAATCCAAAAAGCAAATTGGATTGGATTAGATTGGGAGATGAAAATACCAGCTTCTTCCATCGCTTCTTAACAGCAATGAAAAGAAGGAATATGATTACAGAATTGATGAATGATCAAGGAGAGCCAACCACTTCATTTCGGGGTATTGAAAGCCTAATATTGGGCTTTTATGATTCGTTGTATACAAAATCCTTTGGGATTCGCTATATTTCCCTTAATTTTCATTGGTCGTGTGTCACTCCAAATCAGAATTCTATGCTCATTTCTCATTTTCAGCAGAGGAAATAAAAAATGCATTAAAGTCTCTTGGTAAGAGTAAAGCTCCAGGGCCCGATGGATGACTGTTGAATTTTTTCTCCATTATTGGGATTTGGTGAATGAGGACTTTCTAACCTTATTTGAGCAATTTTATGATAATGGTAGACTTAATGCTTGCATTCAAGAGAACTTCATTTGTTTGATTCAGATAAAAGAAGTCTCACTACTTCCATTTACAAGGCAATTGCAAAGTCCTTGCTGAAAGATTGAAGAAGATAATGCCTAGTATTATTGCTCCAACTCAAAGCGCTTTTATAGGGAGAAGACGAATTCACAATCTGGTTCTAATAGCTAATGAAGTAGTAGAAGATTACTGAGCTAAGAAGAAAAAAGGTTGAATTCTTAAATTAGAACTAGAAAAAGCCTTTGACCGTGTGGATTGGGTTTTTCTTAAGAAAAATTATGTGCTGCAAAAACTTTGAAGATTGTTGGATCTCTTGGATTATGGGGTGCATTAAGAACCCTAGATTTTCCGTATTCATTAATGGAAGACCTTGAAGAAGGATTTTTGCATCAAGGGGGATTAGGCAAGGTGACCCCTTTCACCTTTCCTTTTCTTATTAGTAAGTGAGGTCTTGGGTGCTCTACCGGAAAAGCTTCATGGTAACGGGCTGTTTGAAGGCTTTGTGGTCGGAAGAGAGAGGATTCATGTATCCATTCTCCAATTTGTTGATGAAACCCTCATGGGATGCTTGACAAACTACGACAAACTGTTGAGCTATTCAAACGGTGTTTGGGTCAGAAAATAAATTGGGAGAAATCAGCACTGTATGGTGTCAATATTGATGAAAACAAGCTGCTTTCTACTGCCTCACGACCGAACTGCAAAGCTGAATATTTGCCCTTCACTTATCTTGGTTTTACCCTCAGGGCCCGGGGGGTTATCCCAAGAAAGTTTCTTTTTGGCGGCCAATGGTTGATAAAATTCACACAAAACGTGACAAATGGAGAAGATTCAACTTATCTAGAGACGGGAGGGCCACTTTATGTAAGTCCATATTCTCCAACCTTCCGACATATTATATGTCTATTTCTAATGCCTGAAAAAGTAGTCTCTATGCTAGAAAGAATTATGAGAAACGTCTTCGGGGAAGGACATAAAAGAAGCAGAATTAACCATTTGGTAAAATGAGATTTGGTCATCAAGCAACAAGTTGATGGGGGCCTCGGTTTTGGGGGCCTAAGAGCAAAAAACCTAGCACTCTTAGCTAATTGGGGTGGAGATACATGGATGAGGAAAACTCCTTATGGTGCCAGGTTGTTAGAAGTATTCATGGCAAAGATTCTTATAACTGGCACATGGCAGGAAAGCAAGGTAACAACTTGAGAAGTCCTTGTATTAGCATTTCCAGAACTTGGCTGAAAGTGGGGGCTTTGGCCACATTTAAACTTGGTAATGGATCTAAAATTTCTTTTTGGTTATACCTGTGGAATGGTCTAATCCCTTTGAGTAGTAGCTATCTAAGATTGTTTAAGATTGCTTTGTTTCCTAAAGGGTCGGTGGTAGAACATTGGTATGAGGACTCTTGTTCTTGGTCCATTGTTTTTCATAGATTGTTAAAGGATGATGAGATCATTGATTTCCAAAATTTGCTTGGGCACCATCTGAAGATTATGATAGGAGGATGTGGTCTTTAAAAGCATCAGGGAAGTCCTCAGTGAAATCACTTTCAGCTCATTTGTCACTATCATCGCCTTTAGATAAAAGGCTTTTTAAAGCCTTATGGAAAACTAAAAGCCCTCAGAGAGTCAACATTCTAGTATGGATAATGGGTTTTGGGCACTTAAATTGTTCATCGATCATGCAACGGAAGCTTCCATTCCATTAGCTATCTCCTTCTATCTGTCCTCTTTGTGAAGTAGAAGGAGAGGATGTACTGCATTTATTCTTTTGTTGCCCTTGTAACATTTGAGCCTGGCAATTTAAATTCTGATTGAGTAAAAAATCTATGTTGTACTTTTGAGTTAATGACCTGTCTGGAATAATGCTAGGGATCTGAACTTTAACACAACATTCCTCAAGTAGATCTGAATTTGCAATTGCTGACCATGAATTAAGAAAGGAAGTCTTCTTTTTGGTGAAATGTTTGGGGAAAGGCTTCAACAAATGTGCACGTTTTTCAAATGTTACAAGGGAAGAAAATATCCCAAGGACCAAATGATGATAAAAAGGCCCAAGATGAGTAATTTCGTGAGATTCTTGCCCACTTAAATGGTTGATGACCCTCCATTCTTGCTCAAACTTGGCACTCTGATGTGTAGTTGACTTATGATCTTTGGCACACTCTTAATTGATCTTGTTGTCTGGAGTCCTCTCCATTTCAATAAGAATTCTAACAAGTCCCTCCTAGGTCGTCATACTTAGTATGTTCTTTTAACCAAAAAAAAAAAAAAAAATCAACTTTGTTCAGCTTGATTCTTCATCATGACAGCCGGTTGCAACTCTTTGTTCTTCGTTGGGATTAGGGTAGTAAGGTTTCAAGTTACTAGTTGCCCTTGGTCTTTTGCACTAGTTGCCATTGTAGTAAGGTTGATTGACTCTTCATACTTTTGCACTAGTTGCCATTGATCAAGTTTTTGTTGAAAGTGGTGCTGCTTGAACCACAACTTGATTAACACTTAGGAGCTCTGTTTGAAACTCTTGTAGTCTACATTTCATGCTCAACCATTTCTTCACACGCTTTGACACTTCCTCAAGGTAATCCCAAGTTTATATCTGATGCTTATTTCCACTCTTTGGTAAAATTGTAAGCCTCAGGATTCTTCCTCACCTTACACAATGGTGACAACATGTGGCATGGTTGAGCATATGATTTTGAATATTTCATCAATGAAAAGTGTTGTTTCGGTTTAAAAAAAAGTTGTGTGGTTAGAACAATTTAGTTCAAGAAGTCCATGTGAATCATCAATCTTCATCGCTTCCTATACTTTCAAAAACACCCAGACCTTGACTACATTTTTGAAGAACAACTTTGCATTATCTCATCCGAGCACATCTTCATGGTTGTGACAAAATTGGCATATTTGAACAATTTAGCAACAATCACATGCTTTTCTTGATGGCTTCGTAGATAGTTCCACTGAAACTTACTGGCTTTTAGGTGAACTGACATGCATAGTGTCACATGTTCACTCTTTCGACTGAGGGCATTGGTAGCTTTGTTAGTTTGATCATGCTTATGCTCAAATTGAAAATTGAAAACGTGGCATTTTTGCATTGAGTTTTCTTTGATGACATCAGTTGGTTGAATCAATGACATATGAAGCAATGACATATCAAACTATTCTCAGTCCTAACCAGAATCTTGGCCCTTAGGAGATATCGTCTCTCGACCCTTAGTTAGTGGACCACAACTAACATCTCTTTTGCAAAGGTGACATACCTTCTCTCAACATCATTCCATTTCTTACTCTAATACGTGATGTGATATTTGTCTTAGAGGAGGATGCCGCCCAAGACGAAATCTGATTCATCTCTCTCCACTTCAAAAGGTTTGGTCAGATTGACAATCCCAGGCATCAGTTGTCAAAAGCCCCTGAAAGTGGCTTGACATTCTAGAATCCAACTCCAATAACCATTTTTCTTCAGCTTCTCGGTCAAGCACCCCACCCATTTTGAACATTCTTCAATGAATAGGCAGGTAATTTGATAATCTAGGAAAGAGTGCAATTCTATGATGCAAATCAACACCTTCCTCAGGTCTTGGATGAGTTTAATCTTCTGATCAGATGGCCGAGAAAGTTGATCACTCTTATGCAAAGTAGCATTTCTTTGTTTTCACGTACAGCTAATCTTTCCTCAGCTTCTCAAAGATGAGTTATAGGTGAGTATGACATTCTTTTATAGTCAAGGCATAGGCCACTATGTCATCCAAGTAGACCAGGACAAACTTTCCCAGTTACTCGTGGAACACTTGGTTCATTATTGTGAATAAGGTGGTTGATACATTTGTAAGGCCAAAAAGCATGAAAAGAAGCTCAAAGGCCCTATACTAGGCGATAAGCATCGTCTTGCGTCTCGTGTCCTACAACATGCAATTCATATTAACTCAATCTCATGTCCAGGTTCTAGAAGCACTTTGCCCCATAAAGTTGGTCTAATAAATCATCGATGATGGGCAAAGGGCATTTGTTGCAAACTCTGAGCTTATTTAGAGTATGGTAGTCTATGTGTGGGCCAAAACTTCTATTCTTTTTCCTTTGGAGGGGACTCAGGCTCCGTTAGGAACTTTTGCATGCTGGATGAACCTGCCCTTCATTAATTTACTGAATGTTTCTGAGTTTAGCTAACTCAGAAAGGGCCATGCGATACATGTTCATCGTGGGCAGTTTCTTCCTTGGCAACAATTCTATCATGATCTATCTGTGTATGGGGAGGTACAATCTCTATCAGGCTGTCAAGCATGCACCATATACTCTTCTAACACTCATTGGATCTCTTCAAGGGGATTCTTTAGATCTCTCATCTTCGATCATGAAAATGGCTGTGAATGGTTGTTTTCATAAGCAAGACCTTATGTTTTCTTAATTCAATATCAGTTGGGTCTTTACAGAGGATGCAATATTTAAGGTCTTTAATCATCACGTGTTCAGATATTTCCATCAGCCAAATTATTATGGTTTAATGCTACCATGGCCATTGTTTCATATATTTAGTTGGAAAGAACTAAAAATATTTTTCTAGAGAGGTATACAGTTTGGTTGGATTGGTTTGAGCTTATCAAGATAGTCGATGGTGTTCTTTGTCTAAATTCTTTGATGATCATTCTTCTAGTGACTACGTACTAATAATTGGAGGGCTTTCTTGTAGGATTTCAGAATTCTTGGGATGCTTTGTTTTTTGTATTTATTTTGTGCATTTTACATTTGTTTATTTTTATTTTTAAGTTTACACTTTGCAGTCTTTGAATTCTGGCACTCTCTTATAGCTTGAGCCTAAGAAGGCTTTGTAGGCTTTAACATAAGAGATTCCATTTAAATGCTATCTCTGTTTCATGTTCATGGCACGACAAATTTGATGGCAAATATATTTTTTTCATTATTTAAGAAACCATATTTACATTTAAACGCACTTGTATTAATAGACTGTTCACTTCAAACTAATTATCAATTAAGTTCCATTATCTTCTGTATCTATGTAGGATCCACTTTTCGTCATACACGTTACCCTGCATACAAGAGTAACAGGCCACCTACACCTGATACCATAGTCCAGGGGCTCCAGTACTTGAAGGCATCCATAAAGTCCATGTCTGTAAAGGTGATTGAGGTAATAAATTGTTGAGATTTCTACTATTTATGAACGCTCGTGTACAATATTGCTTGTCAAATATTTGGTCTTTATTCTCTTAATTATTTACCATATTTGTAGGTCTTTTCTATATTTGTACTAGGTCTTTCTCCTAAATAAGAAAACCTAAGTTACACATAGTACACAACTAAAATAGTTTAGAAATTCTAACTTAGAATTTAGTTCTTGTGGTTTATAATTTGAACTTAGTTCCATGGTTTGATAAAACCTTCATAAATAGTTCCTATAGGTTTATAATTGGAACTATTTAGGAAGGTTTTATCAAACTATGAGGACTACTTATGAGATTTTACCAAACCATAGGGACTAAAATTCTAACTTTTAAAACCAACGGACTAGACTCTAACTTTCTCCAAACCATAGGTACCAAATTTATAATTTTACCTTATTTTCTGGGCTATTTTCAAATATAGGAAAATGAGAGAACTATTTACAAATATAGAAAAAATTCATAATTTATCCCGCGATAGACTACAATAGACTTCTATCACTCAAACGATAGACCGTGATAGACGTCTATCGCTTGAGCGACAGACTGCGATAAACTTCTATTACTCAAGAAATAGAAGTCTTATCACTAATAGACAGTAATTTTTTTCTATATTTGTAGGTAGTTTGATATTTTTTTCTATGTATAATAATTTTCCTTATTTTTTCATAGTTTTTTATTAGACTACTTCTAGATTTTTATTTTACGGATTTTCCCGGCTTTGCTTTTGCATTTAAACTTTTTTCTAGCAGCTAGAGGAAATTTGTGTATCTTTTCCTGGAATCTGTACAATGATTACCTGTACTACTTATCATCTTCTAGAATTAGTTGTATTTTTCATTACTATTATTATTTAGCTTATGATTCTCTGATGGTTGACTTTTATTAGACTCAATGATAGGTACCTGGAGTGGAAGCTGATGATGTAATTGGCACATTGGCTTTGAGAAGTGTTGCTTCTGGGTGTAAGGTGATACACTGAAAAGATATTTCAGAATGACATAGGGGTCCTTTTGAAATTTATTTTGCATGCTTGCTAAAATTGTACACTTTTATGGGGCTATATTTAATCATCCACTACTTGATCTTGTTGGGTGTCAAACAGGTTCGTGTAGTCTCCCCTGACAAAGACTTCTTCCAGATTCTATCGCCTTCATTACGTCTTTTACGGATAGCTCCACGTGGGTTTGAGTAAGAACATATGGATTACTTGCTTATTCATTAAAAATGAACTTCTTTAATTTTATCAAAGAATAGTTTTTTCCCTACAAATTTGCCGTCATTTTCTCTATGGACTCTGAGGGTTCAATAGTTATATTTGATACTTTTATGTCATTAGTATTTCTCTCATCGTATTTGAGAGATTGGCATGTGATTGTTGTCCAAAATGAAACACCTGTGTATAAAAACTTTTCTCCGTATTAAAGGACAACAGTTAGACATGTCTAAAATGATGTCTGGGCTCTTTTTTTCAATATTTTGAATAGAAAACTAAAAAAATCTTTGTTTTTCTTTATGTATTTCTTTAGAGTTAGTGGGAAGAAGAAAGATAATCTATTTTGTTCGGTTCATAGTGTTTGTTTTAGATAGTGTTTTCTCTAGAGAAATGAGATGTACAAGTATTCCACAAGAGTCAGGGAATAAGATCCCTTCATTGTGAGGATTAAACAAGAGCAGTTTGTTGCTAGAACTAGTAAATTAGGAATGAAGGTGGAGATCGAGGAAATTTGCAAAGGAAATATGTCAAAGATTTTGTTGAACCTTAGGCTGCATTTGGGTTGAGGTACTTGGGTATGGATCTATTATGATGATGTTGGTTGTGTCTGAAACATTAATCTAGATTAGATGGTTGCAAACCCTGGGAGAATCGGTTTGTCGTAGGGGTGGAGCGTTCCAAGTGGGGAAGGTCTTCTTTTATCATCCACAGAGGAGAAGAAAGATAAAGTAGATACTTGTTTTACTACAAGCCTACATTGCTCCAAATCGAGGGGACAGTCATTCAGGGAATTCTTTCACCTATTCAATTTCTTCAGTCACTTATTTGGTTAAGGAAGCAAGGGGTTTGACGTTTGAAGAAGATATGGTTACTTAGAGGAGGAGATGGAATTCTCTTATGAGGTTCTTAAGTGTTCTGGTAGTAAGGAGGGTGTGGCTGATCCATGGTCGATGTTCGAATAGGAAGTTAGAAGGAAACTTGAGAAAGCACTAAAAGTGATGGAATTTTGTGGCAACATGGCTATTATTCCTATAGTTGTCTTAGGTTGAAACCTTTGGAGTTAGAGTTCGACAGGGGAGTCTTGTGTACTAATGGTGAGTCCATTGTTATGGAACACTAAGACTATAGCCGAGGGTAGGTGCATGGTCTTCAATAGAGTTTCGGTAAAGGTTCTTGTGTCTGGACTGGATGTAGGGGATGATAGGATTAGCTTGGCAGAGGGTGTAGGGGTAGGTGCATTTTCTTCATCTTTTTGCTTTCAACGAAGTCCTTTAGTTGATCTTTTCTCCTGAGCTATAGCATGGTGCTGCTTTGGAACTTTGGCAGGAGTGGTTTTTGCTGCTATTGTGGTTTGTTGGCTTTTCAAGATCTTTGGCATTTTTGTTTTTCAATATTTGGAGATCCTTACTCTCTCTGGGTTTGATCCTAACATTTCTCTATATTTTCATCTATCAATCAAAAATTTGTTTCTTGCTAAAAAGAAATATATAACTATTGAAAGAGAATGCTTAGAGAGAGGGGTGAATGGTTATAAAGATATGAGAATAGGCTCCGAGAGGGGATGCTTAGAGAGAGTGAGGATGTTTAAATGATATAATACAAAATGAAACCTACTAAAAGTGTATTCTCAATTTAATTTATGGTACCTTCAACTTCAACATTTACTGAACTCTCTGCCCATTTCTAGGATGGTTTCTTTTGGGTTGGAGGATTTTGCTGAAAAATATGGAGTTCTGGAACCTTCTCAGTTTGTTGACGTGATGTCTTTAGTTGGTGACAAATCCGATAATATTCCAGGTGATTCATGAATCTCTTTCTGAAAACCTCCATAAATTTGTTTTGCACCAATTTCAACACAACCGCAACTTTGATGAGCTGGAATGGTCTTGTTGCAACACTTGGTGTCCATCGAACGTGTTTGAACTTGACATTGAATTGGAGTACTTTTCCATGCTTCAGGTCTAATCCACAGGAAAATAATTACGCTAGGGGCAAAAATAATCATTGTAACTGACATGTAATATTGTTACCAACATAAACATGCTGAATTTCGAAAATTTAACCAAAAACTAAGGCCCTGTAAGAGAATGTTATTACTTTGATTTTGTTTATTAAGAGTTTTCTAGAATCAGAATTGAAACCTAACGCTGCTGATTCCTAAAAGCTGTCAAGAATCGGAATAGGATCCAAACATACTATAATTACTAGAACTTCTCTTTGTTGATTATTTTCTTTTATGTTAAATATATTCATTGTATTTACTGTATTATATTTGCTGATTTTGTATTTTTCTTATTTGTATTGAGTGTTTCTGTTATGTAAGGAGCCCACTCCTTCTCAAAGAAAATAAGACAATAATTATTATTTTCAGCATGGTATCAAAGCAAAAAAAACACTAATTTTATAAGAAACCCTAAAATTAGCCCTAACATGAGAAGCACGGACATGGACACATGACACGACACCATAACATGGTGACATGCCAATTTCTAGAAATGTAGGACACAACACGTTGGGGGACGTTATATTTTTTTTGGCGAACATAGATGAAAAGACGACAAACCCAAGATTCGAAGCTAACCATGAAGTCGCTCGCAATAGACTATAAATCTATAACAACTTGAGCCTTACTTAACAATGTCAGACTACTACGACATGCATACCTAAACTTTTCTATCATGAGATGAGTGTTGGTCAAAAATTTTAAAAGTGAACATCAAAACTTCTATTAGTTAAGTAAAATCTTTACAAAAAGTTTCTTTTACATAACACCAGGATCCATAAAACTTTAGCGTAGTGGAATAAATGCATATATGACCAAAACAATGAGTTTGATGGTTGGCCCTCTGAGTGACATCATGTCATGCCTTCTACGTTGTGCCCTCCCCTACAAAGTCTGGAATAGGATGAGTACATAATATACCCAGTAAGTAGCTCTCACCTAAGGTAGTGCCTAAATGCACAATCACATGAAACATGTAATGAAAACATATGATTGGGACCCAAAACATGAACTCATCATAACATGAGGTAATCGGATATGCTTCCAACATGAGTTCCTCCGCATTGATAGGACGATGTGGACTTAAACGAAACTAACTCATCTGATGATTAGTGGGTCATGCAGTCAGTAGAGCCAGAGTCGCATCCAACATCAACCATTAACATAGACATAAGATTGGACTAGAGGAGTGCAACCATACATACCCTGCTAGCCCTGGAAGCATAACCTATACCCAAATAAAATTTGATCTTAACATAATCATGAACATACATAATGCATGGGGTCTCTTATAGATAAACTTATTTTAAACATGTAATGCAACACAACAATAATAACATTATAATGCAACATAACAAAGGCACACTACCATAAAACACTTAAAGAGGGTGATTTAAGCTATTTACCTCTTTGGTTGCTTCTATATTTTTCTTATGCTTGGTTTGGAATGATGTGAGAAGACTTCAATAGAAAGTTTGTGGAAGAAAAGTTGGGAGATCTTTTATGAGGGTTTATGGGTGAGAAATTTGGGCGGTTCTTTCCAACCTTGTGTTACAAAGGAGCCCCCATGGGGTATTTATAGCCCTCCACATCCTTAATGGATGGTAAGGATTGATTTGATCCAATGGTTAGGATCTTCCTCTAGATTATTCTATATCTTTCTATACAAGTTCATGCTTCTCTATACATTTTTAGATTTCTCCATACAATTCTAGCTTTACCTAGAACTTTCTAGATTATGCTAGCTCTTCCTAGACTTTTATAAAATTCTCTAGAAACATCTAGAATATTCATACTTCTTCTAGAACATTCTAGAGGTATCTAGGATATTCACACACCTTTTAGAACTTTCTAGAGACATCTGGGGGATTCATGGATGTTCTCGAACTTTCTAGCACTTTCTAGACCTTTTGCACATTTTGATGGTCCTGAGCATTGTGGTGCTCTCAGTTTGAGTGATTGAGATAGGCTCAATATATACAAGCGGATTATCAATCAATGTGTTGAAATTAAGCTATCAATCTAAACTTACACGGAAAGAAAGACAATTTCAATATACAAGGAAATAATCTGAATTGGTTCTCTAATTTACAGCTGCATAATTTAGCTTGATTTCCTACACTCCTACTCAAGTTGAATGGTATATACTAGTCATTCCAAGCTTGGAAACTAGTCCACTAAGGCTTGTTCGATGCAACGCCTTAGTTAATATGTTTGCAAATTGTTGTTTGGAAGGCACATATCTCAACTTGATAATATTTGTTTCAATCTTTTCACTGATAAAGTGATGATCTATCTTGACATGCTTCATTCTATCATGATGGATTGGATTCCTTGCAATGGCTATGGTAGATTGATTATCACACAGTACTTCTATAGTACCTTCAATCTCAACTTTGAGCTTAGTGAGAAGACGTTTTAGTCAAATTCCTTAACAAATTCCATGGGCTAATGATCGAAATTCAACTTCAGCACTACTTTAAGCTACGACTTGTTGACTTATGATCAATACGGGATCCAGCCCAATCTACATCAGTGTAAGTTTCGTGATCTAGTCATGGTTTTTCTAACATGAGGCCCTTTCCAAGATCGTTTTTGAGATATATCAATATTCTATACACAGCTTCCATATGTTCCTTCAACAATTTGTCCAGAAATTGACTTGCCACGCTAACAGCAAAGCTAATATCTGGTCGGGTGTGAGTCAAGTATATTAACTTTCCCACCAACCATTGATACCTGTCTCGATTAACTGGTTCATCTTCGATATTAACTCCAAGTTTTGAATTTGCATCCATAGGTGTATTAGTTGGTCTACAACTACTTATCCTAATCTCCTTTAAGAGATCTAAAGTGTATTTTCGTTGAGTGATAGAGATACCTTTGCTGGATCTTGCTACTTCCATCCCTAGGAAGTACCTTAGATGTCCCAAGTATTTGGTATCAAATTTCTTTGACAGGAGTTGCTTCAGTCGAGTTATTTCATTGGAAACATTTCCTGTAAGAATTATATCATCAACATATACAATTAACACGGTAATCTTACTTAGGGAGAAATGTTTGATGAATAGAGTGTAATCGGATTGACACTATGTATATCCATCTTGTTTCAACACAATTGTAAACTTTTCAAACCACGCTCTAGGTGACTGTTTTAGTCCATAAAGAGACTTCTTGAGTTTACATACCTTCCCTCTTGTATCTATCTTCAAATCTGGGGAGTATATTCATGTATACTTCTTCCACTAGATCACCATTTAAAAATGCATTCTTCACATCAAGTTGAAATAATGGTCAATCTAGATTTGCAGCAATAGAAAGACGTACCCGAATAGTGTTTAACTTGGTGACTGGGGCAAAAGTTTCTTGATAGTCAATTCCACAAGCTTGGGTGAATCCTTTAGCTACAAGGCGAGCTTTGAATCTCTCTATACTACCATCTGGTTTGTGTTTGGTCTCAAGGGCCTGCAATTCCTCTAGAGTAGCTGTTTTCCATTCAGGTTTCTATAGTGCTTCCTAAACAGTGTTTGGAGTTTGTACCTGATCTAGTGATGTCACAAATGCTCTAAAAAGTGGTGACAGATTAGTATAAGATAAGTGGTACTAAATAGGATGTCGAGTACATGAGCGAACACGTTTTCTTATAGCAATGGGTCTATCCATGTCATCTTCTAACGTCTCGTGTACTATTTCAGAGACACTGGGATTTTGGTTTAGATCTTGGCTTTGCTGAATTTGTGTAGATTGTATATCATTTCTCTCCATTTGTCTTGCTCTTGTGAGTAAACTTGTAACTCAGACTTAGAGGTAGATATGGGAGTTGGCTCAGAAGAGGGTACAGGAGCATTTTCAGAAGATGAAGTGGAAGGAAAGTTAGGAATATAGTCCCAATTTTGTGGTTCAAGATCATAATGTTCCCCCTGAATCGCAAAATTGGAAAAATAGGACTGGTTTTCAAAGAATGTGACATCCATGGTGTGAAAGAATTGGTGAGTTGGAGGATGATAACATTTGTACCCTTTCTTGTTTGGAGAGTACCCGAGGAAGACGCATTTTAGAGATCTTGCATCAAGTTTACTACGATTTTGGGAATAGATATGGACAAACGCACACCCAAATATTTTTATGGTAAAGGAGACACAAGATGGGATGTAGGATAGAGTGAAAGTAAACTTTGTAACGGTGTGTTGAACTTCAAAATCCGGGCGATTTATGAGATAGGTAGCAATTAGGACAACTTCACCCCAAAAATGCTTCGGAACCTGTGAAGTGAGCATTAGGGATCAAGCTACGTCGAGGAGGTGGCGACTTTTGCGTTCATCAACACCATTTTGTTGGGGTGTGTCAACATAAGAACTTTGGTGAACTATACCATGAGATTGAAGATAGGTACCTAGAGTAGAGTTTAAAAAATCATGAGCATTGTCTATTATAAGGACTTTGATATTTGTTTGAAACTGGGTTTGATCATTTTATGAAAGATTGTGAATAAATGGCTAGTCTCAGATTTATCTTTCATAAGGAATGTCCAACTCAAATGTGTTTGATCATCAACAAGAAGAAACCAACTTGCCCCATTAATATTTTTTACCCTTGAAGGTCCCCAAATATCTCCATGAATAAGAGAAACTGGTTGAGATGGACAGTAAGTATGAGGTGAAAAATGAGCACGTGTATGTTTGGAGAGTTAACAAATTTCACATTGAAAAACTTGACTCTTTTTATTGAGGAATAAACTAGGGAACCAATACTTGAGGTAGACAAAATTGGGATGACCAAGATGATAGTGCAACATCATGACAAGACTATTCTTATTTAAAGACTCAGAAACAGGCGCAAACTTATATTTAGATTGGGTTGCAAGTTTACTGCATTCCATGGATGATGGAGGACTCAATCCAGCACATAATTCAGCATTGCCAATCATCTTCCCCCATCCCAAGTTTTGAAAAATACAAGAGTTGGCAAGGAATTTAGTTTCACAATTCAAGTCTTTATTCAACTTGCTCACAGACAACAAATTATACTCCAATTTTGACACAAACAAAACTGATTCAAGAGTTATTGGGCTTAAAATTTGAATACTTTTGATCCCAATTACTTTAGCAGGTGTACCATCAACAATTCGAATAGAAATGTTGCCCGTATGGAGAGAAAAAGATGAGAATAAAGATCTATCACCTATCATATGATCTGATGCTCTAGAATTCACTATCCATTCGGACGGATGAGTTTGAGTATGGAGAGCAAGGGGCTTTTGGTTACCTCGGTGCCATTCCCAATACCACTTACTGAAGGTTGATTTGTTTTATTCAGCAATTGATGAAGCATGTCCAACAAATCTTTGGTAAGTGGTTGTTGGTTTGAAGTGTCAGATATAGCAGCAAGAGGTTGTTGGTTGTTGCCCCTAGTTTCACGATCTCAGCATTTGGCTTCCAATTTGCTAGTTTTCCATGTAACTTCCAACGAGTGTCTTTGATATGTCCCAGTTTATGACAATGGTCGCACCATGGTCGTCCTTTACGTTGTCGACTATCTCCTTGAGCAACAAGAGCAATTGGATCATGTGGACGATCTTGTTGGGAAATGAGAGCAGATCCAGTTGGAGTAAGTGGATGTTTAGAAGTCGATCCCATCCTTACTTGCTTTCAACTCTCTTCTTTACAGACTTCAGCAAAAATTTCTCGAAGACTAGGTGCTTAGTACTGAGGATTCGACCACAAACTTCATCCAAAGACTTATTGAGACCCATAAGGAACTTGAAAATTCTTTTTGTCTCCACAATTTTTCGAAAAGGAGCACCACCACTAGAACATTTCCATTCATGAGTTTCAAATAAATCCAACTGTTGCCAATAGCGAGACAAAGTGGTATAGTAAGTTGTAACAGATAAGTCACCTTGTTTGAGATCTCAAAAAGTAGTCTCGATCTGAAAAAGTTTAGCAGTGTTCTCCTGATTTGAGAAAGTATCTCGAGCAGCATCCCAAATTTCTTTGGTGGTGGAATATAGGAGAAAATTCTCTCTGATCTCAGTAGTCATAGAGTTGATTAACCAACTCATAACTTGATTGTTTTCAACCCTCCATATGCAAAATTTAGGATCTTCGGATTTAGGTGAGGTTGCCTTACCCATGATATAGTCTTCTTGTCCACGACCATATATGAACATCATCACAGATTGTGACCATTGGAGATAATTAGGGCCTTTGAGTTTGTGACATGTTATTTGAGTATTGTTACTCTCGATGAAGGGAACTTGAGATTCTGCTCCTGATATTGGAACAAAAGAGGGGAAAAAAATTAGTTTATAAACTACTGCGGTGGCGGCTGCGACAGAGGAGTTGATGATGGCAGCGGTGGTGAGGACTTCAGACAGTGACGGCCAATCAACGAGCAACATCAGAGAGAAGAACAGATACTTCAGCGACTTCATGAAGGCTGAACAGCGACTTGGTGCGAAGGCAACGGCCAATCAGCGACTTCGTGAAGGCTGAACAGAAACCAAAAGGAGGCAGATCGACGGTGTCTTCGTGCAAGCCGGTGGTGGGGACTTCGTGTGAAGGATGATGACTGTGGGCGCAACCATGGTGAGGCGAATGGCTAGGGTTTGTAGATCTAGAATTTATAGATCTGTGATTTTCTTAGATTGCAAATGGGTGATGTCCGACGGCAATGATGCTGGTTTTCGATTCAGCTAGGGTTTTTCGGTGATTTTTCTTGATATGAATGTAGATTTCCGTCGGCGGCAACTAGAGTTTTGGCGAGGTTTTTTTTTATTAGAAAAAATAATGAAAATCACAGATTTGATACAATGAAGCTGAGTATAGGAAAAGATAAATTTTCTTATTTTTTTGAGTGATTGAGATAGGCTCAATATATACAATAGGATTATCAATCAATATACTGAAATTAAGCTATCAATCTAAACTTATATGAAAAGAAAGACAATTACAATATACAAAGTAATAATCTGAATTGGTTCTCTAATTTATAGTTGCATAATTTAGCTTGATTTCCTCATTTCTATTGTTACTAGTTTACAATGTCTTTTATCAACTTGATAGTGCTTGATGTTCTCATAACTCTAAATGCAGGAGTGGATGGAATTGGAAATGTCAATGCTGTGCAACTTATCACTAGATTTGGTGAGTAGGTTTAAGAGACCAATGCCTTAGCCAAAGAATTGTAGACTACAATATTTATTCAATCACATGTTTTCTTACCTTCTGTATTTTATTATTATTGGGAATAATGGTAAAGGTGGATGCCTCTGCCTATTCAATTAAAAAAATAATAATAAAATATTTAAAAAAGAGAAAAACAATTGTAAGTTGGGAGATAAATTTTCGATCAAGATACAAGTCCTGAACTATTGACAATATAAATGAGTATAAATCTTCAACTCTTGCATATACAAATTAGCGAGAACACGGAAAATGAATAAAAAATATTTTTGCAATTTGATTTAAATTTCTCCTGGTATATTTTCATAACTGCTGTTTCAACTTGTAATCTTATGTTCAAGATATCCCTTTTTCTTCTCTCTTTTTGATTTGATGAAATAAAATATATCATGGGAAAAATATTTAAAAGAATGGAAAATGGAGGAGATATCCTCCAACTGAAAAACAAAAATATATATATATATATAAAACACTTCCTGCAATTGCTTTGAATAGATTTTGTATTTTGTGTTTTGGGGCTGTGTGTGTGTGTTTTCTATTTAAAAATTTTTGGAAGTAAAGAAAAGTAACAATAAGCACTTTCTGCAAAAGTAATCATAAAATTTCCCTTTTTTTTTTTTTTTTTTTTGACCGTAGAGGTAAGAATAAGAATTAAAACTGTATTGTGCAAAATAAAATGAGAATGCCATGGTACTCTACTTTTGTGTTCCTTTATTATATTTCTCATCTTTATCTTTTATTCTGTTGTCTGTGGTGCCTGAAATGTAATGGTTTGCGTGTACTTACAAATTCGAACTGGTCAGGCACGTTAGAAAATTTGTTGCAACATGTTGATCAAGTGGAAGATGAACGTATTAAGAAGGTATGTCTATCAGAGTACAATAACTGGCTTCTGAACCAAAATATTTATAAAACCACTTCGATTTATTCATATTCGTGTCGTTAATTTATTAAAAGGGGTAAGCTTTTACAGTTGAGGAATTTTATTAATTTATTCATGTTGTTCGGTGCTGGACTTGATTGCATTCAGCTTTTTAGATGTCTGGACTGAAGTCATACTTATAAAACAAATTCTGACAACCAATTGTGTATATAGATTAGACTAAGATTGCAAAGCAATTTAGGAGTACAAAACAAGACAAAGAAGTTCTGGTAAACAAACTTATTTTTCCAAAACAGAAACAAAATTATAACGGGCTTAAATGATCGAAGCTATGTTTGAAGTCAGTTTTAAATGTGTGTAGTATATACAATCCCAAGAGAACCATTCATGATGACAAAGATTAGCCAGGAGAAAAAGAACCCCAATAGACAACAATCTAGAGTAGAAAATACATAAGATCTTCAGAAAATGGCACGAAGGAAAACGGATATCCTTGCAGCTTCTAAACGATAAACTGATAAAGACTAACATTGAAATCCCTTTGAATCCTCATGAATCAAAAATCTTAAAAGAGGTGTCCGAAAGCCAAAGCAGATGAAAAAAGATGATAAAATCTTCCAATATGCTCCAATAGCATGATACAAAAAGAGATGTCATAAAGCTCACAGATAGACATGAAACGCACAAAATTTAGCATCTTCTAACAAACTTCTAAAATAAACCCATGATGAAGTTTCAATTTCAATCCTTCCAACTTTCTTTCTAGTTTATGCGTAATTAGATTTGTTTATGGAAACTACCTGATACTAAGCTCCTTATTTTTCACCCTTAATGACTGAATTTTATTGGAAGTTGGTCCAGAACAAATCATTCACTCCTAAAATTATGAAAATATGTTTTGTATCTGGTCGCAAATAAATTATCCTCCCCTGCTAAAAAAATCAGTTAAAATTGGAATTCTATTAAATAATTCCTCTTTTTTATTTTCCAATACTACAATGGTCTATCTTAAATAGAAGAAAACCCTAATACATAAAAGGAAAAAATCCTACCATAATAATTACATACTAATTACAGCTAATATAATAAAACAAATATTAAAGTATAAATCAACTCCCCCTCAAGCTGGTATAAGAATTTCTTCCATTTTTAGCTTGTCAAATCGTATGTTTATTGACCTCGACTGGGTTGTGAGTTATTGAAATGACAACCTTATTATAATAAACATGCATAGGCATCACTTGGATGAATTTCAATTCTTCCAAAAATCTTTTTTATTCATATACCCTCACAAATGTCATGGGCTAAACTCCTATACCTTGCTTCAGCACTACCATCTAGCTACCACACTTTGTTTTTTGTTTCACTGCATCTAACAAAGGAGAAACAACCAAAAGTTGACCTTCAATTTGTGGTCTTCCTGCCAAGTTAGCATTAGGGTAAATTTCATCAAGTAAATGATCATGCTTCTAAATAATGGGGTTAATAAAATATATTTCTGATATGTCTCTCTCTTTATTATATGACCCTTCCCTGACCTTTCCTAAACCCTAGTCACCAGCGTTTTAGCCTCAGGTCGTTGCAGTTGCTTGCCAAAAATATGTTAGATAAATATAATAGAAAATTATCACCAAAAGGTTGAAGGTTCAAATTCATACTGAACTAAAAAAAAGTTATTGATGGTAAGAATAAGTAGCCGTGCCAAAGATTTCCCAGCTAGTTCAAATAACTTGAGTAACACCGAATCGGAAAGAAAAAAAATAAGTTAAAATTATAGAGTTTAGTCCATGAACTTTTAAGTTTGTTTCTATGAGGCCCCTAAGCTTAACCTTCAATTTTGGGTCCAACATGTCTCTATCATGTTATAATGTTAAAAATTAATTGAGATACTAGACATAACATTGATTTTTGTGTTTAGGGAGATATTACATACTAATTACAACTAATGTAATAAGCATAGATCAACAACTCTGGAAAATTAATTTTCTCGATAAATCTACTTGTTACCTCAATCTGCTTCAGTAAACTTGTTAGACACATATATCATACTTTGTGATAGTTGAATTTAAAGGTGTGATATATACAATATTCTAAGAACTGAGCATCAGTTCTTGCAAATACAACAAATACTTAATGTCTTTATTTTCGTTTCTTCTTTTTCTTGTAGATGTTGGTAACAAATGCTGAACAAGCTATCTTGAGCAAGGACCTGGTAATTTCCCTTTAGTTTTATTGGTGTACTTCTGTAGAAAATTAATTAATTTTTTATTATTATTATTATTTTTCTTATACTATATGGTTAATATTTTGGGATAATTCTCTTTTTCTTCTGAACCGTAAGGACTATTTGACCCTTTTCTCCTTGTTACTCTTTATGGTCTTAATCAATAATCAGTACTTTGGAAAGCGTGCCTTGCAAGAGGCTCCTCATTAAGATATGGTGGTCATGGCCCTCAACTTCTTTAATTATTTCTTTATAACTTTTTGTAAATATATTAAGAAAAATGTTCTGAAAACTGTAATTTTTCTAAACAAATATACATTTAATCCCTTGGAATGGTCGACGGGTTAGGTTAGGCAGGGGAGTGGGATTCTAAGTATGTATCCATCGTTCCTTCTCATCACATAAATGGAAAAACCTATACTTGATGTAACTATTGTTATCCACCATATTATTTTAACTTGTTACTTCATCCAAATCATTTATTCTGCAGGCAATCTTGCGATCTGATCTTCCACTCTATATGGTACCATTTACCACCAGAGATCTTTTATTCAAGAAACCGGAGGTTTGTGCTATTATTCATAGGACATGCCACTTTTAATTCAATTTTCTACCTTTCAATCCGGGGATGCATTGCTATAATTCATTAAAAATTTAGGAAAGGACTTAACTTGGCCCACCAATTGGGTCTCGATTTGGCAAAATATTGATTTGAGAAATGAGACACTTAAAGGGAAAACTAAAACTGTCCATGAATATTGTTAAAAGTATTGATATAATTAAATTTAATAGCTTATAACCTTAAGTTTTTGAGTTGATTGGTGATTTAACATAATATCGAGCAACAGATTTTGTGTTTGAACTTCTTAACGTCATTTTCTCTCAATTAATCTTGATTATGTTTTTGAGCCTTCGAAAAATTTTCAAGCCAACAATTGAAGAGGAGTCTTAGAGTATTTATATAACTAAATTTAGTGTAACCTAAAGACAGTGCCAGTTGAATATTTAGCTACTTGTAATATGTGTTCTCCTTTCAAATGCTATATGGTAATTATTCTTCTTGAGTTTGAGTTTTTCTACCATTTTAAAATATATAATAAATATCGAGTCAAGGGTAGTCTTTGAACTTTGTTAGATGATATAATATTAATTTGCTTTCACCTATTAGCTTAAGCTTTTGGGTTAATCGATGATTCAACATGGTGTAAGAGCAGGTTGTCCAGGAGGTCCTGTGTTCAAACCTCTGCAATATTATTTTCTCCCCGATTAAAATTGATTTCCTTGTTGGGTCTTCTTCATATTTCAAACCTACAAATGAGGGATTGTTAAATGATATAATATCAAATTTTCTTTCATCAAGCTTTTTGATCATTGGGTGATTTAAGAAATTTTTTTTAAAAAAGAACATTGAAGTTCAAATATGTATGCTTAAGCACCCACCCTTTTAGTCTACCTTTGTTCTATTCTCTTTTTGTGCTCATAAAAAAATGGTTATATGTTCCCTCTTTATAAAAGAATTTGAATATTCCCCCTGAATTTCTTAGTTTTCGTGTTATTTGTACATTTTTCTTTTTGGCCTCAAATGTTAAGAGGTTTGATAGAATATTTGGATTTGGATTATATAGAATACAAGTCTATATTGTGACTGAAATTTTTGGTTGTAGGATAATGGGGAGAAATTCACAAGCCTCTTAACTGCTATCGGTGCATATGCAGAAGGATTCTCAGCTGATCCAATCATCAGAAGAGTACTTTATTTATGGAAGAAGCTAGACAAAAATTAA

mRNA sequence

ATGGCCTCCCACCATCTTCACACGGCGACTGCTAGTGCTTCGCATATTTGCAGAAATTTCTTGGGATTCATTTTCACCTCCAAATTTCCTAATCCTCTTCGTTTCTCTTCTTCTTCGTCTTCTTTGAGGATACAGTCTCTCGGCCATCATTCTTTTCCGTCTTACTCCCTTCTGCTATCCCCGAAGGGTTACTGTAGTTCATCTGGAAGTATAAATGCTGCCAATACCGTAGATGACAATGCAACTTATCATGGTAGTTATGCATCTTCTAGAAGCCAGCAAATGCTGCAATTCCAAGATTCATTATCGAATTCACTTACGTACAAAGAAGAAACCGGAATTGATAATCCTTCAGATGCTAGAGTAATGCTCATTGATGGCACATCAATCATTTATAGAGCATACTACAAGCTTTTGGCAAAACTTCATCATGGCTATTTATCACATGCGGATGGCAATGGAGATTGGGTGCTAACAATATTTACTGCCTTGTCACTTATTGTTGATGTTCTGGAGTTTATGCCTTCTCATGTGGCGGTTGTGTTCGACCATGATGGACACCCATATGGTCATACTTGTATTTCATCCAATGAAAATTTCATGGCAAAAGGATCCACTTTTCGTCATACACGTTACCCTGCATACAAGAGTAACAGGCCACCTACACCTGATACCATAGTCCAGGGGCTCCAGTACTTGAAGGCATCCATAAAGTCCATGTCTGTAAAGGTGATTGAGGTACCTGGAGTGGAAGCTGATGATGTAATTGGCACATTGGCTTTGAGAAGTGTTGCTTCTGGGTGTAAGGTTCGTGTAGTCTCCCCTGACAAAGACTTCTTCCAGATTCTATCGCCTTCATTACGTCTTTTACGGATAGCTCCACGTGGGTTTGAGATGGTTTCTTTTGGGTTGGAGGATTTTGCTGAAAAATATGGAGTTCTGGAACCTTCTCAGTTTGTTGACGTGATGTCTTTAGTTGGTGACAAATCCGATAATATTCCAGGAGTGGATGGAATTGGAAATGTCAATGCTGTGCAACTTATCACTAGATTTGGCACGTTAGAAAATTTGTTGCAACATGTTGATCAAGTGGAAGATGAACGTATTAAGAAGATGTTGGTAACAAATGCTGAACAAGCTATCTTGAGCAAGGACCTGGCAATCTTGCGATCTGATCTTCCACTCTATATGGTACCATTTACCACCAGAGATCTTTTATTCAAGAAACCGGAGGATAATGGGGAGAAATTCACAAGCCTCTTAACTGCTATCGGTGCATATGCAGAAGGATTCTCAGCTGATCCAATCATCAGAAGAGTACTTTATTTATGGAAGAAGCTAGACAAAAATTAA

Coding sequence (CDS)

ATGGCCTCCCACCATCTTCACACGGCGACTGCTAGTGCTTCGCATATTTGCAGAAATTTCTTGGGATTCATTTTCACCTCCAAATTTCCTAATCCTCTTCGTTTCTCTTCTTCTTCGTCTTCTTTGAGGATACAGTCTCTCGGCCATCATTCTTTTCCGTCTTACTCCCTTCTGCTATCCCCGAAGGGTTACTGTAGTTCATCTGGAAGTATAAATGCTGCCAATACCGTAGATGACAATGCAACTTATCATGGTAGTTATGCATCTTCTAGAAGCCAGCAAATGCTGCAATTCCAAGATTCATTATCGAATTCACTTACGTACAAAGAAGAAACCGGAATTGATAATCCTTCAGATGCTAGAGTAATGCTCATTGATGGCACATCAATCATTTATAGAGCATACTACAAGCTTTTGGCAAAACTTCATCATGGCTATTTATCACATGCGGATGGCAATGGAGATTGGGTGCTAACAATATTTACTGCCTTGTCACTTATTGTTGATGTTCTGGAGTTTATGCCTTCTCATGTGGCGGTTGTGTTCGACCATGATGGACACCCATATGGTCATACTTGTATTTCATCCAATGAAAATTTCATGGCAAAAGGATCCACTTTTCGTCATACACGTTACCCTGCATACAAGAGTAACAGGCCACCTACACCTGATACCATAGTCCAGGGGCTCCAGTACTTGAAGGCATCCATAAAGTCCATGTCTGTAAAGGTGATTGAGGTACCTGGAGTGGAAGCTGATGATGTAATTGGCACATTGGCTTTGAGAAGTGTTGCTTCTGGGTGTAAGGTTCGTGTAGTCTCCCCTGACAAAGACTTCTTCCAGATTCTATCGCCTTCATTACGTCTTTTACGGATAGCTCCACGTGGGTTTGAGATGGTTTCTTTTGGGTTGGAGGATTTTGCTGAAAAATATGGAGTTCTGGAACCTTCTCAGTTTGTTGACGTGATGTCTTTAGTTGGTGACAAATCCGATAATATTCCAGGAGTGGATGGAATTGGAAATGTCAATGCTGTGCAACTTATCACTAGATTTGGCACGTTAGAAAATTTGTTGCAACATGTTGATCAAGTGGAAGATGAACGTATTAAGAAGATGTTGGTAACAAATGCTGAACAAGCTATCTTGAGCAAGGACCTGGCAATCTTGCGATCTGATCTTCCACTCTATATGGTACCATTTACCACCAGAGATCTTTTATTCAAGAAACCGGAGGATAATGGGGAGAAATTCACAAGCCTCTTAACTGCTATCGGTGCATATGCAGAAGGATTCTCAGCTGATCCAATCATCAGAAGAGTACTTTATTTATGGAAGAAGCTAGACAAAAATTAA

Protein sequence

MASHHLHTATASASHICRNFLGFIFTSKFPNPLRFSSSSSSLRIQSLGHHSFPSYSLLLSPKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKEETGIDNPSDARVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAVVFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSMSVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMVSFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQHVDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSLLTAIGAYAEGFSADPIIRRVLYLWKKLDKN

Homology

[Close]

BLAST of ClCG04G002830 vs. NCBI nr
Match: XP_038899891.1 (DNA polymerase I isoform X1 [Benincasa hispida])

HSP 1 Score: 847.8 bits (2189), Expect = 4.3e-242
Identity = 425/450 (94.44%), Postives = 441/450 (98.00%), Query Frame = 0


Query: 1   MASHHLHTATASASHICRNFLGFIFTSKFPNPLRFSSSSSSLRIQSLGHHSFPSYSLLLS 60
           MA HHLHTATASASHICRNFLGFIFTSKFPNP RFSSSSSSLRIQSLGHHS PS+S+LLS
Sbjct: 4   MACHHLHTATASASHICRNFLGFIFTSKFPNPFRFSSSSSSLRIQSLGHHSLPSFSVLLS 63

Query: 61  PKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKEETGIDNPSDA 120
           PKGYCSSSGSI+ ANTVD  AT+HGS ASSRSQQMLQFQDSLS+SLTYKEETGI+NPSDA
Sbjct: 64  PKGYCSSSGSIDNANTVDSKATHHGSSASSRSQQMLQFQDSLSSSLTYKEETGIENPSDA 123

Query: 121 RVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180
           RVMLIDGTS+IYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV
Sbjct: 124 RVMLIDGTSVIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 183

Query: 181 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240
           VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM
Sbjct: 184 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 243

Query: 241 SVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV 300
           S+KVIEVPGVEADDVIGTLALRSVA+GCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV
Sbjct: 244 SIKVIEVPGVEADDVIGTLALRSVAAGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV 303

Query: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360
           SFGLE+FAEKYGVL+PSQFVDVMSLVGDKSDNIPGVDGIGNVNAV+LI RFGTLENLLQH
Sbjct: 304 SFGLEEFAEKYGVLQPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVELIIRFGTLENLLQH 363

Query: 361 VDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420
           VDQVEDERI+KMLVTNAEQAILSKDLAILRSDLP+YMVPF+TRDLLFKKPEDNGEKFTSL
Sbjct: 364 VDQVEDERIRKMLVTNAEQAILSKDLAILRSDLPVYMVPFSTRDLLFKKPEDNGEKFTSL 423

Query: 421 LTAIGAYAEGFSADPIIRRVLYLWKKLDKN 451
           LTAIGAYAEGFSADPIIRRVL LWKKLD+N
Sbjct: 424 LTAIGAYAEGFSADPIIRRVLRLWKKLDRN 453

[Close]

BLAST of ClCG04G002830 vs. NCBI nr
Match: XP_038899892.1 (DNA polymerase I isoform X2 [Benincasa hispida])

HSP 1 Score: 837.8 bits (2163), Expect = 4.4e-239
Identity = 422/450 (93.78%), Postives = 438/450 (97.33%), Query Frame = 0


Query: 1   MASHHLHTATASASHICRNFLGFIFTSKFPNPLRFSSSSSSLRIQSLGHHSFPSYSLLLS 60
           MA HHLHTATASASHICRNFLGFIFTSKFPNP RFSSSSSSLRIQSLGHHS PS+S+LLS
Sbjct: 4   MACHHLHTATASASHICRNFLGFIFTSKFPNPFRFSSSSSSLRIQSLGHHSLPSFSVLLS 63

Query: 61  PKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKEETGIDNPSDA 120
           PKGYCSSSGSI+ ANTVD  AT+HGS ASSRSQQMLQFQDSLS+SLTYKEETGI+NPSDA
Sbjct: 64  PKGYCSSSGSIDNANTVDSKATHHGSSASSRSQQMLQFQDSLSSSLTYKEETGIENPSDA 123

Query: 121 RVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180
           RVMLIDGTS+IYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV
Sbjct: 124 RVMLIDGTSVIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 183

Query: 181 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240
           VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM
Sbjct: 184 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 243

Query: 241 SVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV 300
           S+K   VPGVEADDVIGTLALRSVA+GCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV
Sbjct: 244 SIK---VPGVEADDVIGTLALRSVAAGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV 303

Query: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360
           SFGLE+FAEKYGVL+PSQFVDVMSLVGDKSDNIPGVDGIGNVNAV+LI RFGTLENLLQH
Sbjct: 304 SFGLEEFAEKYGVLQPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVELIIRFGTLENLLQH 363

Query: 361 VDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420
           VDQVEDERI+KMLVTNAEQAILSKDLAILRSDLP+YMVPF+TRDLLFKKPEDNGEKFTSL
Sbjct: 364 VDQVEDERIRKMLVTNAEQAILSKDLAILRSDLPVYMVPFSTRDLLFKKPEDNGEKFTSL 423

Query: 421 LTAIGAYAEGFSADPIIRRVLYLWKKLDKN 451
           LTAIGAYAEGFSADPIIRRVL LWKKLD+N
Sbjct: 424 LTAIGAYAEGFSADPIIRRVLRLWKKLDRN 450

[Close]

BLAST of ClCG04G002830 vs. NCBI nr
Match: XP_022967800.1 (uncharacterized protein LOC111467206 [Cucurbita maxima])

HSP 1 Score: 823.9 bits (2127), Expect = 6.6e-235
Identity = 419/450 (93.11%), Postives = 433/450 (96.22%), Query Frame = 0


Query: 1   MASHHLHTATASASHICRNFLGFIFTSKFPNPLRFSSSSSSLRIQSLGHHSFPSYSLLLS 60
           MA HHLHTATASASHICRNFLG+IFTSKF +PLRFSSSSSSLRIQS GHH FPS+S+LLS
Sbjct: 1   MACHHLHTATASASHICRNFLGYIFTSKFASPLRFSSSSSSLRIQSPGHHCFPSFSVLLS 60

Query: 61  PKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKEETGIDNPSDA 120
           PKGYCSSS S+NAA  VD NATYHGS ASS SQQMLQ QDSLSNS T KEET ID+PSDA
Sbjct: 61  PKGYCSSSRSVNAAINVDSNATYHGSPASSSSQQMLQVQDSLSNSPTCKEETEIDSPSDA 120

Query: 121 RVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180
           RVMLIDGTSIIYRAY+KLLAKLHHG+LSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV
Sbjct: 121 RVMLIDGTSIIYRAYHKLLAKLHHGHLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180

Query: 181 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240
           VFDHDGH YGHTC SSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM
Sbjct: 181 VFDHDGHAYGHTCYSSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240

Query: 241 SVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV 300
           SVKVIEVPGVEADDVIGTLALRSVA+GCKVRVVSPDKDFFQI+SPSLRLLRIAPRGFEMV
Sbjct: 241 SVKVIEVPGVEADDVIGTLALRSVAAGCKVRVVSPDKDFFQIISPSLRLLRIAPRGFEMV 300

Query: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360
           SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH
Sbjct: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360

Query: 361 VDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420
           VDQVEDERI+KMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL
Sbjct: 361 VDQVEDERIRKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420

Query: 421 LTAIGAYAEGFSADPIIRRVLYLWKKLDKN 451
           LTAIGAYAEGFSADPI+RRVL LWKKL+K+
Sbjct: 421 LTAIGAYAEGFSADPIMRRVLNLWKKLEKS 450

[Close]

BLAST of ClCG04G002830 vs. NCBI nr
Match: XP_022933106.1 (uncharacterized protein LOC111439872 isoform X1 [Cucurbita moschata])

HSP 1 Score: 820.1 bits (2117), Expect = 9.5e-234
Identity = 417/450 (92.67%), Postives = 431/450 (95.78%), Query Frame = 0


Query: 1   MASHHLHTATASASHICRNFLGFIFTSKFPNPLRFSSSSSSLRIQSLGHHSFPSYSLLLS 60
           MA HHLHTATASASHICRNFLG+IFTSKF +PLRFSSSSSSLRIQS GHH FPS+S+LL 
Sbjct: 1   MACHHLHTATASASHICRNFLGYIFTSKFASPLRFSSSSSSLRIQSPGHHCFPSFSVLLP 60

Query: 61  PKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKEETGIDNPSDA 120
           PKGYCSSS S+NAA  VD NATYHGS ASS SQQMLQ QDSLSNS T KEET ID PSDA
Sbjct: 61  PKGYCSSSRSVNAAINVDSNATYHGSPASSISQQMLQVQDSLSNSPTCKEETEIDRPSDA 120

Query: 121 RVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180
           RVMLIDGTSIIYRAY+KLLAKLHHG+LSHADGNGDWVLTIFTA+SLIVDVLEFMPSHVAV
Sbjct: 121 RVMLIDGTSIIYRAYHKLLAKLHHGHLSHADGNGDWVLTIFTAMSLIVDVLEFMPSHVAV 180

Query: 181 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240
           VFDHDGH YGHTC SSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM
Sbjct: 181 VFDHDGHAYGHTCYSSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240

Query: 241 SVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV 300
           SVKVIEVPGVEADDVIGTLALRSVA+GCKVRVVSPDKDFFQI+SPSLRLLRIAPRGFEMV
Sbjct: 241 SVKVIEVPGVEADDVIGTLALRSVAAGCKVRVVSPDKDFFQIISPSLRLLRIAPRGFEMV 300

Query: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360
           SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH
Sbjct: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360

Query: 361 VDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420
           VDQVEDERI+KMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL
Sbjct: 361 VDQVEDERIRKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420

Query: 421 LTAIGAYAEGFSADPIIRRVLYLWKKLDKN 451
           LTAIGAYAEGFSADPI+RRVL LWKKL+K+
Sbjct: 421 LTAIGAYAEGFSADPIMRRVLNLWKKLEKS 450

[Close]

BLAST of ClCG04G002830 vs. NCBI nr
Match: KAG6603161.1 (DNA polymerase I, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 815.1 bits (2104), Expect = 3.1e-232
Identity = 415/450 (92.22%), Postives = 431/450 (95.78%), Query Frame = 0


Query: 1   MASHHLHTATASASHICRNFLGFIFTSKFPNPLRFSSSSSSLRIQSLGHHSFPSYSLLLS 60
           MA HHLHTATASASHICR FLG+IFTSKF +PLRFSSSSSSLRIQS  HH FPS+S+LLS
Sbjct: 1   MACHHLHTATASASHICRIFLGYIFTSKFASPLRFSSSSSSLRIQSPSHHCFPSFSVLLS 60

Query: 61  PKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKEETGIDNPSDA 120
           PKGYCSSS S+NAA  VD +ATYHGS ASS SQQMLQ QDSLSNS T KEET ID+PSDA
Sbjct: 61  PKGYCSSSRSVNAAINVDSHATYHGSPASSSSQQMLQVQDSLSNSPTCKEETEIDSPSDA 120

Query: 121 RVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180
           RVMLIDGTSIIYRAY+KLLAKLHHG+LSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV
Sbjct: 121 RVMLIDGTSIIYRAYHKLLAKLHHGHLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180

Query: 181 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240
           VFDHDGH YGHTC SSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM
Sbjct: 181 VFDHDGHAYGHTCYSSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240

Query: 241 SVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV 300
           SVKVIEVPGVEADDVIGTLA+RSVA+GCKVRVVSPDKDFFQI+SPSLRLLRIAPRGFEMV
Sbjct: 241 SVKVIEVPGVEADDVIGTLAVRSVAAGCKVRVVSPDKDFFQIISPSLRLLRIAPRGFEMV 300

Query: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360
           SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH
Sbjct: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360

Query: 361 VDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420
           VDQVEDERI+KMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL
Sbjct: 361 VDQVEDERIRKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420

Query: 421 LTAIGAYAEGFSADPIIRRVLYLWKKLDKN 451
           LTAIGAYAEGFSADPI+RRVL LWKKL+K+
Sbjct: 421 LTAIGAYAEGFSADPIMRRVLNLWKKLEKS 450

[Close]

BLAST of ClCG04G002830 vs. ExPASy Swiss-Prot
Match: P52026 (DNA polymerase I OS=Geobacillus stearothermophilus OX=1422 GN=polA PE=1 SV=2)

HSP 1 Score: 165.6 bits (418), Expect = 1.3e-39
Identity = 106/306 (34.64%), Postives = 166/306 (54.25%), Query Frame = 0


Query: 121 RVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180
           +++LIDG S+ YRA++  L  LH+    H +    + + +   L+      E  P+H+ V
Sbjct: 4   KLVLIDGNSVAYRAFF-ALPLLHNDKGIHTNAVYGFTMMLNKILA------EEQPTHILV 63

Query: 181 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240
            FD                  A  +TFRH  +  YK  R  TP  + +    L+  +K+ 
Sbjct: 64  AFD------------------AGKTTFRHETFQDYKGGRQQTPPELSEQFPLLRELLKAY 123

Query: 241 SVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGF-EM 300
            +   E+   EADD+IGT+A R+   G  V+V+S D+D  Q+ SP +  + I  +G  ++
Sbjct: 124 RIPAYELDHYEADDIIGTMAARAEREGFAVKVISGDRDLTQLASPQV-TVEITKKGITDI 183

Query: 301 VSFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQ 360
            S+  E   EKYG L P Q VD+  L+GDKSDNIPGV GIG   AV+L+ +FGT+EN+L 
Sbjct: 184 ESYTPETVVEKYG-LTPEQIVDLKGLMGDKSDNIPGVPGIGEKTAVKLLKQFGTVENVLA 243

Query: 361 HVDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTS 420
            +D+++ E++K+ L    + A+LSK LA +  D P   V  T  D+++K   ++ EK  +
Sbjct: 244 SIDEIKGEKLKENLRQYRDLALLSKQLAAICRDAP---VELTLDDIVYK--GEDREKVVA 277

Query: 421 LLTAIG 426
           L   +G
Sbjct: 304 LFQELG 277

[Close]

BLAST of ClCG04G002830 vs. ExPASy Swiss-Prot
Match: O52225 (DNA polymerase I, thermostable OS=Thermus filiformis OX=276 GN=polA PE=1 SV=1)

HSP 1 Score: 165.2 bits (417), Expect = 1.7e-39
Identity = 100/275 (36.36%), Postives = 155/275 (56.36%), Query Frame = 0


Query: 121 RVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180
           RV+L+DG  + YR +Y          LS     G+ V  ++     ++  L+     V V
Sbjct: 13  RVLLVDGHHLAYRTFYA---------LSLTTSRGEPVQMVYGFARSLLKALKEDGQAVVV 72

Query: 181 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240
           VFD                  AK  +FRH  Y AYK+ R PTP+   + L  +K  +  +
Sbjct: 73  VFD------------------AKAPSFRHEAYEAYKAGRAPTPEDFPRQLALVKRLVDLL 132

Query: 241 SVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV 300
            +  +E PG EADDV+GTLA ++   G +VR+++ D+DFFQ+LS  + +L   P G  + 
Sbjct: 133 GLVRLEAPGYEADDVLGTLAKKAEREGMEVRILTGDRDFFQLLSEKVSVL--LPDGTLVT 192

Query: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360
               +D  EKYGV  P ++VD  +L GD+SDNIPGV GIG   A++L+  +G++ENLL++
Sbjct: 193 P---KDVQEKYGV-PPERWVDFRALTGDRSDNIPGVAGIGEKTALRLLAEWGSVENLLKN 252

Query: 361 VDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPL 396
           +D+V+ + +++ +  + E   LS DLA +R+DLPL
Sbjct: 253 LDRVKPDSLRRKIEAHLEDLHLSLDLARIRTDLPL 254

[Close]

BLAST of ClCG04G002830 vs. ExPASy Swiss-Prot
Match: Q04957 (DNA polymerase I OS=Bacillus caldotenax OX=1395 GN=polA PE=1 SV=1)

HSP 1 Score: 164.5 bits (415), Expect = 2.8e-39
Identity = 105/306 (34.31%), Postives = 168/306 (54.90%), Query Frame = 0


Query: 121 RVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180
           +++LIDG+S+ YRA++  L  LH+    H +    + + +   L+      E  P+H+ V
Sbjct: 4   KLVLIDGSSVAYRAFF-ALPLLHNDKGIHTNAVYGFTMMLNKILA------EEEPTHMLV 63

Query: 181 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240
            FD                  A  +TFRH  +  YK  R  TP  + +    L+  +++ 
Sbjct: 64  AFD------------------AGKTTFRHEAFQEYKGGRQQTPPELSEQFPLLRELLRAY 123

Query: 241 SVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGF-EM 300
            +   E+   EADD+IGTLA R+   G +V+V+S D+D  Q+ SP +  + I  +G  ++
Sbjct: 124 RIPAYELENYEADDIIGTLAARAEQEGFEVKVISGDRDLTQLASPHV-TVDITKKGITDI 183

Query: 301 VSFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQ 360
             +  E   EKYG L P Q VD+  L+GDKSDNIPGV GIG   AV+L+ +FGT+EN+L 
Sbjct: 184 EPYTPEAVREKYG-LTPEQIVDLKGLMGDKSDNIPGVPGIGEKTAVKLLRQFGTVENVLA 243

Query: 361 HVDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTS 420
            +D+++ E++K+ L  + E A+LSK LA +R D P   V  +  D+ ++   ++ EK  +
Sbjct: 244 SIDEIKGEKLKETLRQHREMALLSKKLAAIRRDAP---VELSLDDIAYQ--GEDREKVVA 277

Query: 421 LLTAIG 426
           L   +G
Sbjct: 304 LFKELG 277

[Close]

BLAST of ClCG04G002830 vs. ExPASy Swiss-Prot
Match: P30313 (DNA polymerase I, thermostable OS=Thermus thermophilus OX=274 GN=polA PE=1 SV=1)

HSP 1 Score: 157.1 bits (396), Expect = 4.5e-37
Identity = 100/275 (36.36%), Postives = 147/275 (53.45%), Query Frame = 0


Query: 121 RVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180
           RV+L+DG  + YR ++ L               G+ V  ++     ++  L+     V V
Sbjct: 12  RVLLVDGHHLAYRTFFALKGL--------TTSRGEPVQAVYGFAKSLLKALKEDGDVVVV 71

Query: 181 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240
           VFD                  AK  +FRH  Y AYK+ R PTP+   + L  +K  +  +
Sbjct: 72  VFD------------------AKAPSFRHEAYEAYKAGRAPTPEDFPRQLALIKELVDLL 131

Query: 241 SVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV 300
            +  +EVPG EADDV+ TLA R+   G +VR+++ D+D +Q+LS  + +L   P G+ + 
Sbjct: 132 GLVRLEVPGFEADDVLATLAKRAEKEGYEVRILTADRDLYQLLSERIAILH--PEGYLIT 191

Query: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360
              L    EKYG L P Q+VD  +L GD SDNIPGV GIG   A +LI  +G+LENL QH
Sbjct: 192 PAWL---YEKYG-LRPEQWVDYRALAGDPSDNIPGVKGIGEKTAQRLIREWGSLENLFQH 251

Query: 361 VDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPL 396
           +DQV+   +++ L    E   LS+ L+ + +DLPL
Sbjct: 252 LDQVKPS-LREKLQAGMEALALSRKLSQVHTDLPL 253

[Close]

BLAST of ClCG04G002830 vs. ExPASy Swiss-Prot
Match: P52028 (DNA polymerase I, thermostable OS=Thermus thermophilus (strain ATCC 27634 / DSM 579 / HB8) OX=300852 GN=polA PE=3 SV=2)

HSP 1 Score: 155.6 bits (392), Expect = 1.3e-36
Identity = 99/276 (35.87%), Postives = 153/276 (55.43%), Query Frame = 0


Query: 121 RVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIF-TALSLIVDVLEFMPSHVA 180
           RV+L+DG  + YR ++ L               G+ V  ++  A SL+  + E     V 
Sbjct: 13  RVLLVDGHHLAYRTFFALKGL--------TTSRGEPVQAVYGFAKSLLKALKEDGYKAVF 72

Query: 181 VVFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKS 240
           VVFD                  AK  +FRH  Y AYK+ R PTP+   + L  +K  +  
Sbjct: 73  VVFD------------------AKAPSFRHEAYEAYKAGRAPTPEDFPRQLALIKELVDL 132

Query: 241 MSVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEM 300
           +    +EVPG EADDV+ TLA ++   G +VR+++ D+D +Q++S  + +L   P G  +
Sbjct: 133 LGFTRLEVPGYEADDVLATLAKKAEKEGYEVRILTADRDLYQLVSDRVAVLH--PEGHLI 192

Query: 301 VSFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQ 360
                E   EKYG L P Q+VD  +LVGD SDN+PGV GIG   A++L+  +G+LENLL+
Sbjct: 193 TP---EWLWEKYG-LRPEQWVDFRALVGDPSDNLPGVKGIGEKTALKLLKEWGSLENLLK 252

Query: 361 HVDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPL 396
           ++D+V+ E +++ +  + E   LS +L+ +R+DLPL
Sbjct: 253 NLDRVKPENVREKIKAHLEDLRLSLELSRVRTDLPL 256

[Close]

BLAST of ClCG04G002830 vs. ExPASy TrEMBL
Match: A0A6J1HVF9 (DNA-directed DNA polymerase OS=Cucurbita maxima OX=3661 GN=LOC111467206 PE=4 SV=1)

HSP 1 Score: 823.9 bits (2127), Expect = 3.2e-235
Identity = 419/450 (93.11%), Postives = 433/450 (96.22%), Query Frame = 0


Query: 1   MASHHLHTATASASHICRNFLGFIFTSKFPNPLRFSSSSSSLRIQSLGHHSFPSYSLLLS 60
           MA HHLHTATASASHICRNFLG+IFTSKF +PLRFSSSSSSLRIQS GHH FPS+S+LLS
Sbjct: 1   MACHHLHTATASASHICRNFLGYIFTSKFASPLRFSSSSSSLRIQSPGHHCFPSFSVLLS 60

Query: 61  PKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKEETGIDNPSDA 120
           PKGYCSSS S+NAA  VD NATYHGS ASS SQQMLQ QDSLSNS T KEET ID+PSDA
Sbjct: 61  PKGYCSSSRSVNAAINVDSNATYHGSPASSSSQQMLQVQDSLSNSPTCKEETEIDSPSDA 120

Query: 121 RVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180
           RVMLIDGTSIIYRAY+KLLAKLHHG+LSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV
Sbjct: 121 RVMLIDGTSIIYRAYHKLLAKLHHGHLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180

Query: 181 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240
           VFDHDGH YGHTC SSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM
Sbjct: 181 VFDHDGHAYGHTCYSSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240

Query: 241 SVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV 300
           SVKVIEVPGVEADDVIGTLALRSVA+GCKVRVVSPDKDFFQI+SPSLRLLRIAPRGFEMV
Sbjct: 241 SVKVIEVPGVEADDVIGTLALRSVAAGCKVRVVSPDKDFFQIISPSLRLLRIAPRGFEMV 300

Query: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360
           SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH
Sbjct: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360

Query: 361 VDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420
           VDQVEDERI+KMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL
Sbjct: 361 VDQVEDERIRKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420

Query: 421 LTAIGAYAEGFSADPIIRRVLYLWKKLDKN 451
           LTAIGAYAEGFSADPI+RRVL LWKKL+K+
Sbjct: 421 LTAIGAYAEGFSADPIMRRVLNLWKKLEKS 450

[Close]

BLAST of ClCG04G002830 vs. ExPASy TrEMBL
Match: A0A6J1EY78 (DNA-directed DNA polymerase OS=Cucurbita moschata OX=3662 GN=LOC111439872 PE=4 SV=1)

HSP 1 Score: 820.1 bits (2117), Expect = 4.6e-234
Identity = 417/450 (92.67%), Postives = 431/450 (95.78%), Query Frame = 0


Query: 1   MASHHLHTATASASHICRNFLGFIFTSKFPNPLRFSSSSSSLRIQSLGHHSFPSYSLLLS 60
           MA HHLHTATASASHICRNFLG+IFTSKF +PLRFSSSSSSLRIQS GHH FPS+S+LL 
Sbjct: 1   MACHHLHTATASASHICRNFLGYIFTSKFASPLRFSSSSSSLRIQSPGHHCFPSFSVLLP 60

Query: 61  PKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKEETGIDNPSDA 120
           PKGYCSSS S+NAA  VD NATYHGS ASS SQQMLQ QDSLSNS T KEET ID PSDA
Sbjct: 61  PKGYCSSSRSVNAAINVDSNATYHGSPASSISQQMLQVQDSLSNSPTCKEETEIDRPSDA 120

Query: 121 RVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180
           RVMLIDGTSIIYRAY+KLLAKLHHG+LSHADGNGDWVLTIFTA+SLIVDVLEFMPSHVAV
Sbjct: 121 RVMLIDGTSIIYRAYHKLLAKLHHGHLSHADGNGDWVLTIFTAMSLIVDVLEFMPSHVAV 180

Query: 181 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240
           VFDHDGH YGHTC SSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM
Sbjct: 181 VFDHDGHAYGHTCYSSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240

Query: 241 SVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV 300
           SVKVIEVPGVEADDVIGTLALRSVA+GCKVRVVSPDKDFFQI+SPSLRLLRIAPRGFEMV
Sbjct: 241 SVKVIEVPGVEADDVIGTLALRSVAAGCKVRVVSPDKDFFQIISPSLRLLRIAPRGFEMV 300

Query: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360
           SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH
Sbjct: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360

Query: 361 VDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420
           VDQVEDERI+KMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL
Sbjct: 361 VDQVEDERIRKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420

Query: 421 LTAIGAYAEGFSADPIIRRVLYLWKKLDKN 451
           LTAIGAYAEGFSADPI+RRVL LWKKL+K+
Sbjct: 421 LTAIGAYAEGFSADPIMRRVLNLWKKLEKS 450

[Close]

BLAST of ClCG04G002830 vs. ExPASy TrEMBL
Match: A0A6J1D5H5 (DNA-directed DNA polymerase OS=Momordica charantia OX=3673 GN=LOC111017796 PE=4 SV=1)

HSP 1 Score: 809.7 bits (2090), Expect = 6.2e-231
Identity = 415/453 (91.61%), Postives = 432/453 (95.36%), Query Frame = 0


Query: 1   MASHHLH--TATASASHICRNFLGFIFTSKFPNPLRFSSSSSSLRIQSLGHHSFPSYSLL 60
           MA HHLH  TATA+ASHICRNFLG+IFTS++ +PLR  SSSSSL+IQSL HHSFPS+SLL
Sbjct: 1   MACHHLHSATATATASHICRNFLGYIFTSRYASPLR--SSSSSLKIQSLLHHSFPSFSLL 60

Query: 61  LSPKGYCSSSGSINAANTVDDNATYHG-SYASSRSQQMLQFQDSLSNSLTYKEETGIDNP 120
            SPKGYCSSSG +NAAN VD NATYHG S ASS+SQQMLQFQDSL NSL +KEE GID+P
Sbjct: 61  QSPKGYCSSSGGVNAANPVDSNATYHGSSSASSKSQQMLQFQDSLPNSLLHKEEIGIDSP 120

Query: 121 SDARVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSH 180
           SDARVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSH
Sbjct: 121 SDARVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSH 180

Query: 181 VAVVFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASI 240
           VAVVFDHDGHP GHTCISSNENFMAKGSTFRH  YPAYKSNRPPTPDTIVQGLQYLKASI
Sbjct: 181 VAVVFDHDGHPNGHTCISSNENFMAKGSTFRHNIYPAYKSNRPPTPDTIVQGLQYLKASI 240

Query: 241 KSMSVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGF 300
           KSMSVKVIEVPGVEADDVIGTLALRSVA+GCKVRVVSPDKDFFQILSPSLRLLRIAPRGF
Sbjct: 241 KSMSVKVIEVPGVEADDVIGTLALRSVATGCKVRVVSPDKDFFQILSPSLRLLRIAPRGF 300

Query: 301 EMVSFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENL 360
           EMVSFGLEDFAEKYG LEPSQFVDV+SLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENL
Sbjct: 301 EMVSFGLEDFAEKYGALEPSQFVDVISLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENL 360

Query: 361 LQHVDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKF 420
           LQHVDQVEDERI+KMLVTNA QAILSK+LAILRSDLPLYMVPFTTRDLLFKKPEDNGEKF
Sbjct: 361 LQHVDQVEDERIRKMLVTNAGQAILSKNLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKF 420

Query: 421 TSLLTAIGAYAEGFSADPIIRRVLYLWKKLDKN 451
           TSL+TAIGAYAEGFSADPIIRRVLYLWKKL+KN
Sbjct: 421 TSLMTAIGAYAEGFSADPIIRRVLYLWKKLEKN 451

[Close]

BLAST of ClCG04G002830 vs. ExPASy TrEMBL
Match: A0A1S3BMJ7 (DNA-directed DNA polymerase OS=Cucumis melo OX=3656 GN=LOC103491482 PE=4 SV=1)

HSP 1 Score: 787.7 bits (2033), Expect = 2.5e-224
Identity = 404/450 (89.78%), Postives = 422/450 (93.78%), Query Frame = 0


Query: 1   MASHHLHTATASASHICRNFLGFIFTSKFPNPLRFSSSSSSLRIQSLGHHSFPSYSLLLS 60
           MASHHLHTATASASHICRNFLGF+FTSKFP P RFS+SSS +       HSFPS SLLLS
Sbjct: 19  MASHHLHTATASASHICRNFLGFVFTSKFPVPFRFSTSSSRI-------HSFPS-SLLLS 78

Query: 61  PKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKEETGIDNPSDA 120
           PKGYCSSSGSIN++N +D  ATYHGS AS+R Q M+QFQDSLSNSLT+KE+TGIDNP+DA
Sbjct: 79  PKGYCSSSGSINSSNIIDTIATYHGSSASTRRQSMVQFQDSLSNSLTFKEDTGIDNPADA 138

Query: 121 RVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180
           RVMLIDGTSII+RAYYKLLAKLHHG+LSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV
Sbjct: 139 RVMLIDGTSIIFRAYYKLLAKLHHGHLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 198

Query: 181 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240
           VFDHDG+ YGHT ISSNENF++KGSTFRHT YPAYKSNR P PDTIVQGLQYLKASIKSM
Sbjct: 199 VFDHDGYSYGHTYISSNENFVSKGSTFRHTIYPAYKSNRAPVPDTIVQGLQYLKASIKSM 258

Query: 241 SVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV 300
           SVKVIEVPGVEADDVIGTLALRSVA GCKVRVVSPDKDFFQILSPSLRLLRIA RG EMV
Sbjct: 259 SVKVIEVPGVEADDVIGTLALRSVAVGCKVRVVSPDKDFFQILSPSLRLLRIASRGIEMV 318

Query: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360
           SFGLEDFA+K+GVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH
Sbjct: 319 SFGLEDFADKFGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 378

Query: 361 VDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420
           VDQVEDERIKKMLVTNAEQAILSKDLA LRSDLP YMVPFTTRDLLFKKPEDNGEKFTSL
Sbjct: 379 VDQVEDERIKKMLVTNAEQAILSKDLATLRSDLPFYMVPFTTRDLLFKKPEDNGEKFTSL 438

Query: 421 LTAIGAYAEGFSADPIIRRVLYLWKKLDKN 451
           LTAIGAYAE FSADPIIRRVLYLWKKLDKN
Sbjct: 439 LTAIGAYAERFSADPIIRRVLYLWKKLDKN 460

[Close]

BLAST of ClCG04G002830 vs. ExPASy TrEMBL
Match: A0A6J1F3S3 (DNA-directed DNA polymerase OS=Cucurbita moschata OX=3662 GN=LOC111439872 PE=4 SV=1)

HSP 1 Score: 773.1 bits (1995), Expect = 6.4e-220
Identity = 401/450 (89.11%), Postives = 415/450 (92.22%), Query Frame = 0


Query: 1   MASHHLHTATASASHICRNFLGFIFTSKFPNPLRFSSSSSSLRIQSLGHHSFPSYSLLLS 60
           MA HHLHTATASASHICRNFLG+IFTSKF +PLRFSSSSSSLRIQS GHH FPS+S+LL 
Sbjct: 1   MACHHLHTATASASHICRNFLGYIFTSKFASPLRFSSSSSSLRIQSPGHHCFPSFSVLLP 60

Query: 61  PKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKEETGIDNPSDA 120
           PKGYCSSS S+NAA  VD NATYHGS ASS SQQMLQ QDSLSNS T KEET ID PSDA
Sbjct: 61  PKGYCSSSRSVNAAINVDSNATYHGSPASSISQQMLQVQDSLSNSPTCKEETEIDRPSDA 120

Query: 121 RVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLIVDVLEFMPSHVAV 180
           RVMLIDGTSIIYRAY+KLLAKLHHG+LSHADGNGDWVLTIFTA+SLIVDVLEFMPSHVAV
Sbjct: 121 RVMLIDGTSIIYRAYHKLLAKLHHGHLSHADGNGDWVLTIFTAMSLIVDVLEFMPSHVAV 180

Query: 181 VFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240
           VFDHD                  GSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM
Sbjct: 181 VFDHD------------------GSTFRHTRYPAYKSNRPPTPDTIVQGLQYLKASIKSM 240

Query: 241 SVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSLRLLRIAPRGFEMV 300
           SVKVIEVPGVEADDVIGTLALRSVA+GCKVRVVSPDKDFFQI+SPSLRLLRIAPRGFEMV
Sbjct: 241 SVKVIEVPGVEADDVIGTLALRSVAAGCKVRVVSPDKDFFQIISPSLRLLRIAPRGFEMV 300

Query: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360
           SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH
Sbjct: 301 SFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQLITRFGTLENLLQH 360

Query: 361 VDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420
           VDQVEDERI+KMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL
Sbjct: 361 VDQVEDERIRKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLFKKPEDNGEKFTSL 420

Query: 421 LTAIGAYAEGFSADPIIRRVLYLWKKLDKN 451
           LTAIGAYAEGFSADPI+RRVL LWKKL+K+
Sbjct: 421 LTAIGAYAEGFSADPIMRRVLNLWKKLEKS 432

[Close]

BLAST of ClCG04G002830 vs. TAIR 10
Match: AT3G52050.2 (5'-3' exonuclease family protein )

HSP 1 Score: 517.7 bits (1332), Expect = 9.4e-147
Identity = 271/401 (67.58%), Postives = 322/401 (80.30%), Query Frame = 0


Query: 51  SFPSYSLLLSPKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKE 110
           S  S SL  S K YCSS      A +   N    GS  +S S+ +       S    +K 
Sbjct: 31  SLISPSLARSAKYYCSS-----VAVSEFSNEAASGSTLTSISEDV----TPQSIKYPFKS 90

Query: 111 ETGIDN---PSDARVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLI 170
           E  + +    S+ RVMLIDGTSIIYRAYYKLLA+L+HG+L+HADGN DWVLTIF++LSL+
Sbjct: 91  EERVASTAASSNGRVMLIDGTSIIYRAYYKLLARLNHGHLAHADGNADWVLTIFSSLSLL 150

Query: 171 VDVLEFMPSHVAVVFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIV 230
           +DVL+F+PSHVAVVFDHDG PYG T  SS     AKG  FRHT YPAYKSNRPPTPDTIV
Sbjct: 151 IDVLKFLPSHVAVVFDHDGVPYGTTSNSSTGYRSAKGMNFRHTLYPAYKSNRPPTPDTIV 210

Query: 231 QGLQYLKASIKSMSVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSL 290
           QGLQYLKASIK+MS+KVIEVPGVEADDVIGTLA+RS+++G KVRVVSPDKDFFQILSPSL
Sbjct: 211 QGLQYLKASIKAMSIKVIEVPGVEADDVIGTLAMRSISAGFKVRVVSPDKDFFQILSPSL 270

Query: 291 RLLRIAPRGFEMVSFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQL 350
           RLLR+ PRG EM SFG+EDFA+K+G LEP+QFVD+++L GDKSDNIPGVDGIGNV+AV+L
Sbjct: 271 RLLRLTPRGSEMASFGMEDFAKKFGNLEPAQFVDIIALAGDKSDNIPGVDGIGNVHAVEL 330

Query: 351 ITRFGTLENLLQHVDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLF 410
           I+RFGTLENLLQ VD++++ +IK+ L+ +A+QAILSK LA+LRSDLP Y+VPF T+DL F
Sbjct: 331 ISRFGTLENLLQSVDEIKEGKIKESLIASADQAILSKKLALLRSDLPDYIVPFDTKDLTF 390

Query: 411 KKPEDNGEKFTSLLTAIGAYAEGFSADPIIRRVLYLWKKLD 449
           KKPEDNGEK +SLL AI  YAEGFSADP+IRR   LW+KL+
Sbjct: 391 KKPEDNGEKLSSLLIAIADYAEGFSADPVIRRAFRLWEKLE 422

[Close]

BLAST of ClCG04G002830 vs. TAIR 10
Match: AT3G52050.1 (5'-3' exonuclease family protein )

HSP 1 Score: 517.7 bits (1332), Expect = 9.4e-147
Identity = 271/401 (67.58%), Postives = 322/401 (80.30%), Query Frame = 0


Query: 51  SFPSYSLLLSPKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKE 110
           S  S SL  S K YCSS      A +   N    GS  +S S+ +       S    +K 
Sbjct: 31  SLISPSLARSAKYYCSS-----VAVSEFSNEAASGSTLTSISEDV----TPQSIKYPFKS 90

Query: 111 ETGIDN---PSDARVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLI 170
           E  + +    S+ RVMLIDGTSIIYRAYYKLLA+L+HG+L+HADGN DWVLTIF++LSL+
Sbjct: 91  EERVASTAASSNGRVMLIDGTSIIYRAYYKLLARLNHGHLAHADGNADWVLTIFSSLSLL 150

Query: 171 VDVLEFMPSHVAVVFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIV 230
           +DVL+F+PSHVAVVFDHDG PYG T  SS     AKG  FRHT YPAYKSNRPPTPDTIV
Sbjct: 151 IDVLKFLPSHVAVVFDHDGVPYGTTSNSSTGYRSAKGMNFRHTLYPAYKSNRPPTPDTIV 210

Query: 231 QGLQYLKASIKSMSVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSL 290
           QGLQYLKASIK+MS+KVIEVPGVEADDVIGTLA+RS+++G KVRVVSPDKDFFQILSPSL
Sbjct: 211 QGLQYLKASIKAMSIKVIEVPGVEADDVIGTLAMRSISAGFKVRVVSPDKDFFQILSPSL 270

Query: 291 RLLRIAPRGFEMVSFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQL 350
           RLLR+ PRG EM SFG+EDFA+K+G LEP+QFVD+++L GDKSDNIPGVDGIGNV+AV+L
Sbjct: 271 RLLRLTPRGSEMASFGMEDFAKKFGNLEPAQFVDIIALAGDKSDNIPGVDGIGNVHAVEL 330

Query: 351 ITRFGTLENLLQHVDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLF 410
           I+RFGTLENLLQ VD++++ +IK+ L+ +A+QAILSK LA+LRSDLP Y+VPF T+DL F
Sbjct: 331 ISRFGTLENLLQSVDEIKEGKIKESLIASADQAILSKKLALLRSDLPDYIVPFDTKDLTF 390

Query: 411 KKPEDNGEKFTSLLTAIGAYAEGFSADPIIRRVLYLWKKLD 449
           KKPEDNGEK +SLL AI  YAEGFSADP+IRR   LW+KL+
Sbjct: 391 KKPEDNGEKLSSLLIAIADYAEGFSADPVIRRAFRLWEKLE 422

[Close]

BLAST of ClCG04G002830 vs. TAIR 10
Match: AT3G52050.3 (5'-3' exonuclease family protein )

HSP 1 Score: 517.7 bits (1332), Expect = 9.4e-147
Identity = 271/401 (67.58%), Postives = 322/401 (80.30%), Query Frame = 0


Query: 51  SFPSYSLLLSPKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKE 110
           S  S SL  S K YCSS      A +   N    GS  +S S+ +       S    +K 
Sbjct: 54  SLISPSLARSAKYYCSS-----VAVSEFSNEAASGSTLTSISEDV----TPQSIKYPFKS 113

Query: 111 ETGIDN---PSDARVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLI 170
           E  + +    S+ RVMLIDGTSIIYRAYYKLLA+L+HG+L+HADGN DWVLTIF++LSL+
Sbjct: 114 EERVASTAASSNGRVMLIDGTSIIYRAYYKLLARLNHGHLAHADGNADWVLTIFSSLSLL 173

Query: 171 VDVLEFMPSHVAVVFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIV 230
           +DVL+F+PSHVAVVFDHDG PYG T  SS     AKG  FRHT YPAYKSNRPPTPDTIV
Sbjct: 174 IDVLKFLPSHVAVVFDHDGVPYGTTSNSSTGYRSAKGMNFRHTLYPAYKSNRPPTPDTIV 233

Query: 231 QGLQYLKASIKSMSVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSL 290
           QGLQYLKASIK+MS+KVIEVPGVEADDVIGTLA+RS+++G KVRVVSPDKDFFQILSPSL
Sbjct: 234 QGLQYLKASIKAMSIKVIEVPGVEADDVIGTLAMRSISAGFKVRVVSPDKDFFQILSPSL 293

Query: 291 RLLRIAPRGFEMVSFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQL 350
           RLLR+ PRG EM SFG+EDFA+K+G LEP+QFVD+++L GDKSDNIPGVDGIGNV+AV+L
Sbjct: 294 RLLRLTPRGSEMASFGMEDFAKKFGNLEPAQFVDIIALAGDKSDNIPGVDGIGNVHAVEL 353

Query: 351 ITRFGTLENLLQHVDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLF 410
           I+RFGTLENLLQ VD++++ +IK+ L+ +A+QAILSK LA+LRSDLP Y+VPF T+DL F
Sbjct: 354 ISRFGTLENLLQSVDEIKEGKIKESLIASADQAILSKKLALLRSDLPDYIVPFDTKDLTF 413

Query: 411 KKPEDNGEKFTSLLTAIGAYAEGFSADPIIRRVLYLWKKLD 449
           KKPEDNGEK +SLL AI  YAEGFSADP+IRR   LW+KL+
Sbjct: 414 KKPEDNGEKLSSLLIAIADYAEGFSADPVIRRAFRLWEKLE 445

[Close]

BLAST of ClCG04G002830 vs. TAIR 10
Match: AT3G52050.4 (5'-3' exonuclease family protein )

HSP 1 Score: 502.7 bits (1293), Expect = 3.1e-142
Identity = 265/401 (66.08%), Postives = 317/401 (79.05%), Query Frame = 0


Query: 51  SFPSYSLLLSPKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKE 110
           S  S SL  S K YCSS      A +   N    GS  +S S+ +       S    +K 
Sbjct: 31  SLISPSLARSAKYYCSS-----VAVSEFSNEAASGSTLTSISEDV----TPQSIKYPFKS 90

Query: 111 ETGIDN---PSDARVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLI 170
           E  + +    S+ RVMLIDGTSIIYRAYYKLLA+L+HG+L+HADGN DWVLTIF++LSL+
Sbjct: 91  EERVASTAASSNGRVMLIDGTSIIYRAYYKLLARLNHGHLAHADGNADWVLTIFSSLSLL 150

Query: 171 VDVLEFMPSHVAVVFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIV 230
           +DVL+F+PSHVAVVFDHDG+              AKG  FRHT YPAYKSNRPPTPDTIV
Sbjct: 151 IDVLKFLPSHVAVVFDHDGYR------------SAKGMNFRHTLYPAYKSNRPPTPDTIV 210

Query: 231 QGLQYLKASIKSMSVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSL 290
           QGLQYLKASIK+MS+KVIEVPGVEADDVIGTLA+RS+++G KVRVVSPDKDFFQILSPSL
Sbjct: 211 QGLQYLKASIKAMSIKVIEVPGVEADDVIGTLAMRSISAGFKVRVVSPDKDFFQILSPSL 270

Query: 291 RLLRIAPRGFEMVSFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQL 350
           RLLR+ PRG EM SFG+EDFA+K+G LEP+QFVD+++L GDKSDNIPGVDGIGNV+AV+L
Sbjct: 271 RLLRLTPRGSEMASFGMEDFAKKFGNLEPAQFVDIIALAGDKSDNIPGVDGIGNVHAVEL 330

Query: 351 ITRFGTLENLLQHVDQVEDERIKKMLVTNAEQAILSKDLAILRSDLPLYMVPFTTRDLLF 410
           I+RFGTLENLLQ VD++++ +IK+ L+ +A+QAILSK LA+LRSDLP Y+VPF T+DL F
Sbjct: 331 ISRFGTLENLLQSVDEIKEGKIKESLIASADQAILSKKLALLRSDLPDYIVPFDTKDLTF 390

Query: 411 KKPEDNGEKFTSLLTAIGAYAEGFSADPIIRRVLYLWKKLD 449
           KKPEDNGEK +SLL AI  YAEGFSADP+IRR   LW+KL+
Sbjct: 391 KKPEDNGEKLSSLLIAIADYAEGFSADPVIRRAFRLWEKLE 410

[Close]

BLAST of ClCG04G002830 vs. TAIR 10
Match: AT3G52050.5 (5'-3' exonuclease family protein )

HSP 1 Score: 386.0 bits (990), Expect = 4.3e-107
Identity = 208/325 (64.00%), Postives = 250/325 (76.92%), Query Frame = 0


Query: 51  SFPSYSLLLSPKGYCSSSGSINAANTVDDNATYHGSYASSRSQQMLQFQDSLSNSLTYKE 110
           S  S SL  S K YCSS      A +   N    GS  +S S+ +       S    +K 
Sbjct: 54  SLISPSLARSAKYYCSS-----VAVSEFSNEAASGSTLTSISEDV----TPQSIKYPFKS 113

Query: 111 ETGIDN---PSDARVMLIDGTSIIYRAYYKLLAKLHHGYLSHADGNGDWVLTIFTALSLI 170
           E  + +    S+ RVMLIDGTSIIYRAYYKLLA+L+HG+L+HADGN DWVLTIF++LSL+
Sbjct: 114 EERVASTAASSNGRVMLIDGTSIIYRAYYKLLARLNHGHLAHADGNADWVLTIFSSLSLL 173

Query: 171 VDVLEFMPSHVAVVFDHDGHPYGHTCISSNENFMAKGSTFRHTRYPAYKSNRPPTPDTIV 230
           +DVL+F+PSHVAVVFDHD                  G  FRHT YPAYKSNRPPTPDTIV
Sbjct: 174 IDVLKFLPSHVAVVFDHD------------------GMNFRHTLYPAYKSNRPPTPDTIV 233

Query: 231 QGLQYLKASIKSMSVKVIEVPGVEADDVIGTLALRSVASGCKVRVVSPDKDFFQILSPSL 290
           QGLQYLKASIK+MS+KVIEVPGVEADDVIGTLA+RS+++G KVRVVSPDKDFFQILSPSL
Sbjct: 234 QGLQYLKASIKAMSIKVIEVPGVEADDVIGTLAMRSISAGFKVRVVSPDKDFFQILSPSL 293

Query: 291 RLLRIAPRGFEMVSFGLEDFAEKYGVLEPSQFVDVMSLVGDKSDNIPGVDGIGNVNAVQL 350
           RLLR+ PRG EM SFG+EDFA+K+G LEP+QFVD+++L GDKSDNIPGVDGIGNV+AV+L
Sbjct: 294 RLLRLTPRGSEMASFGMEDFAKKFGNLEPAQFVDIIALAGDKSDNIPGVDGIGNVHAVEL 351

Query: 351 ITRFGTLENLLQHVDQVEDERIKKM 373
           I+RFGTLENLLQ VD++++ +IK++
Sbjct: 354 ISRFGTLENLLQSVDEIKEGKIKEV 351

The following BLAST results are available for this feature:

BLAST of ClCG04G002830 vs. NCBI nr


Match Name	E-value	Identity	Description
XP_038899891.1	4.3e-242	94.44	DNA polymerase I isoform X1 [Benincasa hispida]	[more]
XP_038899892.1	4.4e-239	93.78	DNA polymerase I isoform X2 [Benincasa hispida]	[more]
XP_022967800.1	6.6e-235	93.11	uncharacterized protein LOC111467206 [Cucurbita maxima]	[more]
XP_022933106.1	9.5e-234	92.67	uncharacterized protein LOC111439872 isoform X1 [Cucurbita moschata]	[more]
KAG6603161.1	3.1e-232	92.22	DNA polymerase I, partial [Cucurbita argyrosperma subsp. sororia]	[more]

BLAST of ClCG04G002830 vs. ExPASy Swiss-Prot


Match Name	E-value	Identity	Description
P52026	1.3e-39	34.64	DNA polymerase I OS=Geobacillus stearothermophilus OX=1422 GN=polA PE=1 SV=2	[more]
O52225	1.7e-39	36.36	DNA polymerase I, thermostable OS=Thermus filiformis OX=276 GN=polA PE=1 SV=1	[more]
Q04957	2.8e-39	34.31	DNA polymerase I OS=Bacillus caldotenax OX=1395 GN=polA PE=1 SV=1	[more]
P30313	4.5e-37	36.36	DNA polymerase I, thermostable OS=Thermus thermophilus OX=274 GN=polA PE=1 SV=1	[more]
P52028	1.3e-36	35.87	DNA polymerase I, thermostable OS=Thermus thermophilus (strain ATCC 27634 / DSM ...	[more]

BLAST of ClCG04G002830 vs. ExPASy TrEMBL


Match Name	E-value	Identity	Description
A0A6J1HVF9	3.2e-235	93.11	DNA-directed DNA polymerase OS=Cucurbita maxima OX=3661 GN=LOC111467206 PE=4 SV=...	[more]
A0A6J1EY78	4.6e-234	92.67	DNA-directed DNA polymerase OS=Cucurbita moschata OX=3662 GN=LOC111439872 PE=4 S...	[more]
A0A6J1D5H5	6.2e-231	91.61	DNA-directed DNA polymerase OS=Momordica charantia OX=3673 GN=LOC111017796 PE=4 ...	[more]
A0A1S3BMJ7	2.5e-224	89.78	DNA-directed DNA polymerase OS=Cucumis melo OX=3656 GN=LOC103491482 PE=4 SV=1	[more]
A0A6J1F3S3	6.4e-220	89.11	DNA-directed DNA polymerase OS=Cucurbita moschata OX=3662 GN=LOC111439872 PE=4 S...	[more]

BLAST of ClCG04G002830 vs. TAIR 10


Match Name	E-value	Identity	Description
AT3G52050.2	9.4e-147	67.58	5'-3' exonuclease family protein	[more]
AT3G52050.1	9.4e-147	67.58	5'-3' exonuclease family protein	[more]
AT3G52050.3	9.4e-147	67.58	5'-3' exonuclease family protein	[more]
AT3G52050.4	3.1e-142	66.08	5'-3' exonuclease family protein	[more]
AT3G52050.5	4.3e-107	64.00	5'-3' exonuclease family protein	[more]

InterPro

Analysis Name: InterPro Annotations of Watermelon (Charleston Gray) v2.5
Date Performed: 2022-01-31


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
IPR002421	5'-3' exonuclease	SMART	SM00475	53exo3	coord: 120..408 e-value: 1.7E-102 score: 356.5
IPR008918	Helix-hairpin-helix motif, class 2	SMART	SM00279	HhH_4	coord: 316..351 e-value: 1.1E-11 score: 54.9
IPR020046	5'-3' exonuclease, alpha-helical arch, N-terminal	PFAM	PF02739	5_3_exonuc_N	coord: 121..312 e-value: 3.7E-40 score: 137.4
None	No IPR available	GENE3D	3.40.50.1010		coord: 114..314 e-value: 3.2E-44 score: 152.3
None	No IPR available	GENE3D	1.10.150.20		coord: 316..403 e-value: 5.4E-26 score: 92.8
None	No IPR available	PANTHER	PTHR10133:SF54	5'-3' EXONUCLEASE FAMILY PROTEIN	coord: 56..449
None	No IPR available	CDD	cd09859	PIN_53EXO	coord: 124..309 e-value: 7.63287E-52 score: 170.239
IPR020045	DNA polymerase I-like, H3TH domain	PFAM	PF01367	5_3_exonuc	coord: 315..410 e-value: 2.4E-26 score: 92.2
IPR020045	DNA polymerase I-like, H3TH domain	CDD	cd09898	H3TH_53EXO	coord: 316..389 e-value: 4.33062E-29 score: 106.714
IPR002298	DNA polymerase A	PANTHER	PTHR10133	DNA POLYMERASE I	coord: 56..449
IPR036279	5'-3' exonuclease, C-terminal domain superfamily	SUPERFAMILY	47807	5' to 3' exonuclease, C-terminal subdomain	coord: 314..403
IPR029060	PIN-like domain superfamily	SUPERFAMILY	88723	PIN domain-like	coord: 120..312

Relationships

The following mRNA feature(s) are a part of this gene:


Feature Name	Unique Name	Type
ClCG04G002830.2	ClCG04G002830.2	mRNA

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0071897	DNA biosynthetic process
biological_process	GO:0006261	DNA-dependent DNA replication
molecular_function	GO:0003677	DNA binding
molecular_function	GO:0003887	DNA-directed DNA polymerase activity
molecular_function	GO:0016787	hydrolase activity
molecular_function	GO:0003824	catalytic activity