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Identifier: 118431127

GI number:

Start: 419623

End: 425475

Strand: Reverse

Name: Not Available

Synonym: APE_0620.1

Alternate gene names: NA

Gene position: NA

Preceding gene: 118431129

Following gene: 118431126

Centisome position: NA

GC content: NA

Gene sequence:

>5853_bases
TTGAATATACACGCCTCGCCATGGCCCATACGCCTCCTACCTGCTCTCGCGATGCTTGCTATACTGGCCCTGGCGGTATC
GCCGCCACTCTACTCCGCCGCACCAGGCGAAAGCCCCCAGCAGGCCCTTCTGGTCGGCGAGGAGCTGGAGTGGTTCTACA
CCAGGGTGTACGGGCTTAGGGGCTATAGCTTGCCCGGGGGTGTTGCGGTCCAGCTCTCGGCGTACTCCGAGGGCAGGGGC
CTCCTGGTGGCGGCCGGCTCCGCGCCGGGGCTCGGGAGCCTGATTATGGGTGTCGACCTTGAGTCTAGGAGGCTATCCTG
GAGCCAGGCCCTGGTCGGCGACCCGGTGGAGCTCGCGGTAGACGGCTCCACAGGCTCCTGGGCGGCGGTCGGCACCTCCA
CGGGAGAAGTGGCGGTCGTAAGCCTTGACAACCCCAGCGTGAGGGCCGACTTCTACACAGCCTCCAGGCTAGGCGTAACC
AGCCTCCTAGTGTGGAGCGGGGGAGACAGCCCAAGGTTAGTGGTGGTTGATGGAGGTGGGGCTGCGTACTTCGCAGACCC
CACAGAGGAGGGGTGGGTCGAGTTCAGCCCCACAGGCGGCGGGGGGGTTGAGAAGGGCTTCCACTCCCCGCCCTTCTCGG
CTGTGCTGGGCGACAAGATAGTCCTCCAGGGGGGCCGGTGGAGCCTGGGCTCGACAGCCTACCTGGTGTTCGGCTCGCTG
CAGAACGGCTCCACCCTCTCCAACACCGCTGACTCATACTACGAGGGCCTCGACGCCCGGGTCTCGGGCCTCCTGTTCTA
CAGGACACCCTCCGGGGCTATACTTCCCGCGACTCCCCAGGAGATACTCGACAGCGAGAGGGGGGTGCTGACGAGGTACA
CCCTATACATGGCTTCAACCCCGGCGGAGGGCCTCCGCATCCTAGTGCAGCCGAGCTGGTCGGGTCTTGAGGGGGAGGCG
GGCTATGTCGACGAGGAGACGGGTCTTGCCGTGCTGCCAAGCGAGGTCCTCGACGCATTTATACCCGCCTCCGACCAGAC
CCTCGTGTTTATCTACACTGAAGAGACGTACCTAGTAGACGAGCAGGGGAACGAGAGGCTCGTAAGCACAGTATGCTACG
CGGCGGAGGAGACCCTAGACCCGCCCCCAGGCTCCAGCGTGGACCTTGACATAGTCGTGATGGATCTGGTGAGCGATGCC
GACAGCCTCGAGTCGTGCATGGACATACTAGGCCTGGAGCCGGGGGTGAGGACGCTCCAGCCACTGCTGGGCATGACTCT
GGAGAGCAGCCAGGCAGGGTTCGACTATGTCGCCGACACGTGGATGGCCTGGCTCCCCATGCCCGAGGACCTAAGGGGCG
GCGGCCTCGAGGGTGCTACGGTGGCTGAGGTCTACACTCCTGTGAACCCGGTGTTCGAGGACTTCTCCAAGCTGCTCCTG
GTGGGCAGCCCCCAGGGCTTCCTCCACATATACTACCTCGACGACAACGGCTACCCGGCCTCCGGCAAGCCGGCCCCCCA
GTCCATATTCCTGGGGGGCGCGCCCACGGAGGTGGAGATAGCCTCGGGGGGAGGTGTCATATACGTTGGCACCTCCAGCG
GCCACGTCTACATGCTAAAGTATAGGCCGGACACAGGGCTCTACACAGTGTCCCGGTCCCTCTCGGTGGACGAGAGCCCC
GTAACCTCCATACTAAACCTCGAGACACACATAATAGTGGCTAGCCAGCAGGGCCTCCTCCAGGCCGTGGATGTTGGGAG
GTGGGAGCCCCTATGGAGGAACCTCCCCGGGTTCCAGGGGGTGGAGACGGGGCTGGATAACCCCGTTATAGTCAGCGTCA
CAGCCGAGCCCGCGGTGATCGCCTCCCTGGGCGGCGGCTCCATATACACGTTCGAGAGCCCGGGGTTCGACCTGAACCCA
ATCATACTGGACTTCAGGGTTGTGCTTGAAACGGTTGGGGGAGCCCGGGAGGTCGGCCCCGGAGATCTGGGCCTGGGCGG
CGGCTCCAGAGCGGCTATACGTGGCCCAGGGGGCGAGGTCTATGCCGTGGACGAGGAGGTGTGGGAGAGGGGCTCCATAA
CCCTCTACGTCCCCCGGGGAGACTATACTATAGAGGTCGAGCTGCCGGGCTTGGGCAAGCTCTACAGGGAGGTGGAGGTC
CTCCAGCCCCTCATACTAGACAGCATTGAGGTCGCCCTAAGGGAGGTTGTGGTGGAGGCTGTAGTGCCCGCCACGCCCCC
GAGCCCCGAGTACAGGGTGGCGTACGATCTCTACTCAGGCCCCGTAGGGGGGGTGGAGCTGACCCTAGCACCATCCCAGG
CCGCCACTGAGGACCTCGGCTACACACCCGACCCCCTGCCCGTCGCTACCGTAACCGGGGATGATGGGAGGGCGACGGCC
ATACTCTGGAGCGGGGTTGAGTACAGCGTTGACGGCTCCTCGGAGGTGGTGTCGAGGGTCGAGGGGAGCGTTGCCGCCTG
GGGGCTGGGGCCGTTCACGGTTGAGGCGGTGCTTAGCCTGTACCCGCTTGACATAGTGGTTTACGACGCGGAGGCATACC
AGGCGGGGGTGGCGTTCCAGGTCAAGCCCAGCTCGGTGGAGATAACCGCGCCCACAGGACGGAGCGCCCGGGTTGCGGAG
CCGGGCGACAGCGTCAGGATCCCCCTCCCCCCGGGATCATACATCATAAGGGTTGAGGCTCCTGGCTACAGCCCCGCCGA
AGCCCAGGCGGAGGTGGGGCGGGCTGCCTCGCTAGTCACCGTGCTCATGGAGCCCGCGTACAACGAGGTAACCGTTAGGG
CGGTGTTGAGCGACCCCACGGGCCTCTTCGGCGGCAGCATTAAGGGGGCTAGGATAGCCTTCACGCTGGAGGAGCCGAGC
CTAGGGTACAGGGTGGAGGTTGACACGGGGGAGGAGGGCGAGGCCCAGGTAACACTCAGGAGCGGCGTCTACAGAGTTGA
GGTGGAGCACCACATTCTAGGCAAGACGGTCTACAGCGGCGTGGAGATACTCTCCCCCGGCCCCCTCGAGATACCCCTCC
CCGCCGGGGCCTCGAGCCTCTCCCTCAGGCTTATAGACGGCGAGCTGGGGGTTGACGCTCCCGGGGGCTTCACAGTAACC
CTAACCTACCTCCTCACCGGGGAGTCGCGGAGCTTCGTGACACGCTCTAGTAGCTTCTCCCTAGAGGCCCCCGAGGGCCT
CTACAGGATCCTGGTATCGTCGCTGGAGGGCTACTACGAGGACACGGAGGCCAGCTTGTCCCTCGAGCGGGGTGCTGGAG
AGTCGGTTACGCTTTCGCTAAAGCCGGTCAAGATACCCCTTTTGGTGGAGGCTGTCTACAACGACCCCACAGGCGTCGCT
GTCGGGGGGGTTGGAGACGCCCTCGTAGTGGCGACACCGCTGGAGACGCCGGTGGAGGTGGCGAGCGAGGTGCAGACAAC
AGACAGTCAGGGTAGGGCGGTGTTCCTGCTGAGACCCGGCGTTTACGAGATCACCGTCACACACCCCTACACTGAGGGCG
CCAGGCTTGAGATAGACCTTTTCAAGGCTAGCCGGAGCGGTGTCCAGGTTAAACTCGGCTTGAAGCCTATCTACGGCGAG
CTAGAGGTAGCCCTGCTCGACTCGGACCTGGGCGTCGAGCTCCCCTCAGCCCTACTCAGGATAACGTGGCACGGGTACAG
CCAGTCATCCCAGAAGACCCTCCAGGTGGAGGGGGGCACAGCCCTGGTAAGGCTGCCCTTCGGCAGCTACACCCTCGAGG
CCGAGCTGCCCGGCTACTATAGGCCGAGCCTGTACAGCCTGACTCTGGCGCAGGACAGGGTTTTCGCAACAATAACGCTC
GACCCTGTGGTAGTGGAGGTGGAGGTTAACGTCTACTATTCCCACTCCACCGCTATAATAGGCTCCTCGAAAGTGGATCT
CCCACCATCCCCCGCCGGGCTGGCCTCGGTGACCCTGAGGCCCGACGACCCCGTGCTAGAAGCCCTGGGAGTGGACCCTG
TTTCCGTGGTTGCCGACGAAACGGGCTCAGCAGTGGCCAGCGTGAGGGCCGGCTCGTACATAATAGAGGCCGCTGCAGGC
AGCTCCGTAAGCGGCTCGAGAGCATTCATAGGGGAGGAGACGACTGCAGTGTCTATATCGATAAAGCCTAAGGCCTACAC
CGTCGACCTCGTGGGCTACGACCAGGACCTCGGCGTTGAGAGGGGGGTGATAGAGGGTGCCAGGGCAGTTCTAATAGCGT
TCAACGGCGTTACCTTAGAGGAGCCCCTGGAGTTCACGCTGCCCGAGAGAGCGGTGCTGCCCGAGGGCGTCTACACGCTG
GAGGTGTCAGCCGAGGGCTACCCGGGGTCCACCGTTGAGGCCGCCATAAGCTCCCCCGGGACAGTCTACATCCCCATAGA
GCCTCTCAAGGTGGACGTCGCGTTCACAGTTTCAGCAGATGTCGGCGGGTCTAGGGTGCCGGTGCTATGGGGCGCCCTCT
ACCTGGACCACGCTTCCATAGAGGAGGAGAGGCCTTTCGAGGTTGAGATAAGCCAGGGCGGCGGCGAGGCCAGGCTCAGG
CCCGGCGTCTACAGGGCCGAGTACAGGGTTTCGATAGCCGGTGTTGAGGTGGCGGTTGACGCGGGCAGCATAGTGGTGCC
GGAGGAGGGTGGCGGCGTTGAGGTGGTTTTGAAGCCGCCGCTCGCCGCTGTCAAGATAGCTGCTGTCGACAAGGAGTTCT
CAGTTAGGCTCCCCGAGTTCTCGGTAGCCTACATATACTCGGGCCCCTTCGGCGAGCTGGAGGGCGAGGTTGAGGGGATA
GGCGGGGAGGCGGTGCTCCAGCTGCCCCCCGGGCTGGCGACCCTGGAGGTGAGGGCACTGGGCTTCAAGCCCGCGAGCAC
AACGCTGGAAATCTGGGGGGACGCTAGTCTGGAGGTCGAGATGGAGCCCATAGTGTTCGGGGTGGCTATAAGGCTTGCGG
ATCCAGACGGCAACCCAGTTGAGGAGGAGGTGGAGCTTATCCTTAGACATACCAGCCTCCCCCTCGAGCTGAGGGCCCGG
GGCGAGGGCCCTATACTGAGGCTTGAGGGCGTCAGGCCTGGAAGCTACATAGCCGAGGTTAAAATTCTCGAGGAGAACAC
GCTCCTAACAGACACGCAGCTCAGGCTGACCGTGACCCAGGAGGGCGCGCTCCTCCCCGGCGTACTAACGGTAGAGTACA
GGAGGTTCACCGTGGAGCTCTGGCTCCTCGACGCCCTAACCGGCGAGCCGATAGGGTTCCCCTACATCGTCGAGCTGGAG
AGGCAGGCCCCCGAAGGGGGGTTCGGCTATAGCGTGGAGACCGTGGTCAGGGGTAAAGCCCTCCTCTCCCTCCCGCCGGG
GACCTACCAGGCCAGGCTAACCCCCGAGGCCGGCCAGTCCTTCTACAGGGTGGACACGACATTCACCTTCACCGTCGACG
AGCCCGGGAAAGTGGAGCTCAGGATAAGCCCCATAATGTACAGCGCCACAATACTAGTGGTCGACGACAGGGGGACCCCC
CAGCAGGGGGCCCTGGTGAGGGTGCTGTCCGAGGAGGGGGTCGAGGTCGCCTCAGGCCTCACCGACGCCAGCGGCGTCTT
CACGTTCCAGGCCCCCTACGGCCTCTACATTCTGGAGGCTGAGAAGCCCGGGTACAGGGAGTCCACAGGAACCATACAGA
TACCCCAGTCCACAACCCTAACCATAACCCTCCAGCCCGGCCCCATGGTGCTACTCCAGAGGTACGGGCCAATAGCGGTG
GGCTTCACAGGGCTCGCCCTACTCGCTGTGGGTCTCTACAGGGTGAGGGAGAGGATAGCCCGGAGGCTCCTGGAGGAGGA
GGAGTACTTCTAG

Upstream 100 bases:

>100_bases
TACCCGGCCCGCGCCCTTGTACACCACGACCACTCACTTTACGCAGGCAAGACCATAAACCCCCCCGCGGGCCACTCTAT
ACCCAAGGGGTTAACCTAGG

Downstream 100 bases:

>100_bases
CCAGCGGGGCCTTCAGCCTTATAGGCCCGCGGCCCCGCCCGCCTAGCCTGGGGTGTATACGGGGGTTGAGGCTCACCAGC
CTCCTGCTGGCCCTGCTAGT

Product: hypothetical protein

Products: NA

Alternate protein names: NA

Number of amino acids: NA

Protein sequence:

>1950_residues
MNIHASPWPIRLLPALAMLAILALAVSPPLYSAAPGESPQQALLVGEELEWFYTRVYGLRGYSLPGGVAVQLSAYSEGRG
LLVAAGSAPGLGSLIMGVDLESRRLSWSQALVGDPVELAVDGSTGSWAAVGTSTGEVAVVSLDNPSVRADFYTASRLGVT
SLLVWSGGDSPRLVVVDGGGAAYFADPTEEGWVEFSPTGGGGVEKGFHSPPFSAVLGDKIVLQGGRWSLGSTAYLVFGSL
QNGSTLSNTADSYYEGLDARVSGLLFYRTPSGAILPATPQEILDSERGVLTRYTLYMASTPAEGLRILVQPSWSGLEGEA
GYVDEETGLAVLPSEVLDAFIPASDQTLVFIYTEETYLVDEQGNERLVSTVCYAAEETLDPPPGSSVDLDIVVMDLVSDA
DSLESCMDILGLEPGVRTLQPLLGMTLESSQAGFDYVADTWMAWLPMPEDLRGGGLEGATVAEVYTPVNPVFEDFSKLLL
VGSPQGFLHIYYLDDNGYPASGKPAPQSIFLGGAPTEVEIASGGGVIYVGTSSGHVYMLKYRPDTGLYTVSRSLSVDESP
VTSILNLETHIIVASQQGLLQAVDVGRWEPLWRNLPGFQGVETGLDNPVIVSVTAEPAVIASLGGGSIYTFESPGFDLNP
IILDFRVVLETVGGAREVGPGDLGLGGGSRAAIRGPGGEVYAVDEEVWERGSITLYVPRGDYTIEVELPGLGKLYREVEV
LQPLILDSIEVALREVVVEAVVPATPPSPEYRVAYDLYSGPVGGVELTLAPSQAATEDLGYTPDPLPVATVTGDDGRATA
ILWSGVEYSVDGSSEVVSRVEGSVAAWGLGPFTVEAVLSLYPLDIVVYDAEAYQAGVAFQVKPSSVEITAPTGRSARVAE
PGDSVRIPLPPGSYIIRVEAPGYSPAEAQAEVGRAASLVTVLMEPAYNEVTVRAVLSDPTGLFGGSIKGARIAFTLEEPS
LGYRVEVDTGEEGEAQVTLRSGVYRVEVEHHILGKTVYSGVEILSPGPLEIPLPAGASSLSLRLIDGELGVDAPGGFTVT
LTYLLTGESRSFVTRSSSFSLEAPEGLYRILVSSLEGYYEDTEASLSLERGAGESVTLSLKPVKIPLLVEAVYNDPTGVA
VGGVGDALVVATPLETPVEVASEVQTTDSQGRAVFLLRPGVYEITVTHPYTEGARLEIDLFKASRSGVQVKLGLKPIYGE
LEVALLDSDLGVELPSALLRITWHGYSQSSQKTLQVEGGTALVRLPFGSYTLEAELPGYYRPSLYSLTLAQDRVFATITL
DPVVVEVEVNVYYSHSTAIIGSSKVDLPPSPAGLASVTLRPDDPVLEALGVDPVSVVADETGSAVASVRAGSYIIEAAAG
SSVSGSRAFIGEETTAVSISIKPKAYTVDLVGYDQDLGVERGVIEGARAVLIAFNGVTLEEPLEFTLPERAVLPEGVYTL
EVSAEGYPGSTVEAAISSPGTVYIPIEPLKVDVAFTVSADVGGSRVPVLWGALYLDHASIEEERPFEVEISQGGGEARLR
PGVYRAEYRVSIAGVEVAVDAGSIVVPEEGGGVEVVLKPPLAAVKIAAVDKEFSVRLPEFSVAYIYSGPFGELEGEVEGI
GGEAVLQLPPGLATLEVRALGFKPASTTLEIWGDASLEVEMEPIVFGVAIRLADPDGNPVEEEVELILRHTSLPLELRAR
GEGPILRLEGVRPGSYIAEVKILEENTLLTDTQLRLTVTQEGALLPGVLTVEYRRFTVELWLLDALTGEPIGFPYIVELE
RQAPEGGFGYSVETVVRGKALLSLPPGTYQARLTPEAGQSFYRVDTTFTFTVDEPGKVELRISPIMYSATILVVDDRGTP
QQGALVRVLSEEGVEVASGLTDASGVFTFQAPYGLYILEAEKPGYRESTGTIQIPQSTTLTITLQPGPMVLLQRYGPIAV
GFTGLALLAVGLYRVRERIARRLLEEEEYF

Sequences:
NA

Specific function: NA

COG id: NA

COG function: NA

Gene ontology:

Cell location: NA

Metaboloic importance: NA

Operon status: NA

Operon components: NA

Similarity: NA

Homologues:

NA

Paralogues:

NA

Copy number: NA

Swissprot (AC and ID): NA

Other databases:

NA

Pfam domain/function: NA

EC number: NA

Molecular weight: NA

Theoretical pI: NA

Prosite motif: NA

Important sites: NA

Signals:

NA

Transmembrane regions:

NA

Cys/Met content:

NA

Secondary structure: NA

PDB accession: NA

Resolution: NA

Structure class: NA

Cofactors: NA

Metal ions: NA

Kcat value (1/min): NA

Specific activity: NA

Km value (mM): NA

Substrates: NA

Specific reaction: NA

General reaction: NA

Inhibitor: NA

Structure determination priority: NA

TargetDB status: NA

Availability: NA

References: NA