Definition | Aeropyrum pernix K1, complete genome. |
---|---|
Accession | NC_000854 |
Length | 1,669,696 |
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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