| Definition | Shewanella woodyi ATCC 51908 chromosome, complete genome. |
|---|---|
| Accession | NC_010506 |
| Length | 5,935,403 |
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Identifier: 170725784
GI number:
Start: 1792372
End: 1800624
Strand: Reverse
Name: Not Available
Synonym: Swoo_1423
Alternate gene names: NA
Gene position: NA
Preceding gene: 170725785
Following gene: 170725783
Centisome position: NA
GC content: NA
Gene sequence:
>8253_bases ATGAGCCAGACCTCTAAACCCTCAAAGCCATTAGCTGATAAAAAATCAGCAAAAGCATCCTCGACAAATACAGCTGAAAT GAATCAAGATCCCCAAGCTGATAAGCGTCTTAATAAACGCCTTAAAGATATGCCTATCGCCATCGTCGGCATGGCCAGTA TCTTTGCTAACTCCCGCTACCTAAACAAGTTCTGGGATCTTATCAGCGAAAAAATCGATGCGATCACTGAGCTGCCCTCC ACTCACTGGCAGCCTGAAGAGTATTATGATGCGAATAAGAGCACCCCAGATAAGAGTTACTGTAAGCGTGGTGGTTTCCT TCCAGATGTTGACTTCAATCCAATGGAGTTTGGCCTGCCGCCAAATATCCTTGAGCTAACCGATTCATCACAGCTGCTAT CACTGATCGTGGCAAAAGAGGTCTTGGCCGATGCGAATCTGCCAGAGGGCTATGACAGAGACAAGATAGGCATCACACTG GGTGTGGGTGGTGGTCAGAAGATCAGCCACAGCCTAACCGCGCGCCTGCAGTACCCTGTACTAAAGAAAGTCTTTGCTAA CAGCGGCATTAGCGACGAAGACAGCGCGATGCTTATCAAAAAGTTCCAAGATCAATATGTACACTGGGAGGAGAACTCAT TCCCAGGTTCACTGGGTAACGTTATTTCGGGTCGTATCGCCAACCGCTTCGATTTAGGTGGTATGAACTGCGTGGTCGAT GCAGCCTGTGCAGGCTCTCTTGCTGCGATGCGCATGGCGTTAACCGAGCTGACCGAAGGTCGCTCAGAGATGATGATCAC AGGTGGTGTGTGTACCGATAACTCACCGTCCATGTACATGAGTTTCTCAAAGACACCAGCCTTTACCACTAATGAAACTA TTCAGCCATTTGATATCGACTCAAAAGGCATGATGATTGGTGAAGGGATCGGCATGATTGCCCTTAAGCGTCTTGAAGAT GCCGAGCGCGATGGCGATCGTATCTACTCAGTCATTAAAGGCATAGGCTCATCATCCGATGGTAAGTTTAAGTCCATCTA CGCTCCACGTCCTGAAGGTCAAGCTAAAGCGCTCAACCGCGCCTATGATGATGCAGGTTTTGCGCCGCACACATTAGGCT TAATCGAAGCCCATGGTACAGGTACTGCCGCTGGTGATGCAGCCGAGTTTGCAGGCCTTTGTTCTGTATTTGCTAATGGC AACGACACTAAACAGCATATTGCCCTTGGCTCAGTTAAGTCTCAAATTGGTCACACTAAATCAACCGCTGGTACTGCGGG TTTGATTAAAGCCGCCCTTGCACTGCACCATAAGGTTCTGCCGGCAACCATCAATGTCAGTCAGCCTAGCCCTAAACTTG ATATTGAAAACTCGCCATTTTATCTCAACACTGAAACACGCCCTTGGTTACCACGTGTTGACGGCACCCCCCGCCGCGCA GGTATCAGCTCCTTTGGTTTCGGTGGCACTAACTTCCACTTCGTGTTGGAAGAGTACAATAATGAACACAGTCGCCTAGA TAGCGAAAAAGCTAAATACCGTCAGCGCCAAGTGGCTCAAAGCTTCTTAATCAGTGCATCCTCAAAAGATGCACTTATCG CTGAGTTAAATAAGTTAGCGACTGCAGCAACAACCGATGAGTTTATCATCGCCACTGCTGCACAAGATTACGGTCTACGT GAACTAGATGCCAACGCTCCGCGTATCGGTTTAGTTGCTAATACAGCCGAAGAGCTAGCAACACAGATCAAGCAAGCAAT TGCTAAACTTGCTACAGATACTCTTGCCGCTCAAGAAGGCTTCCAGCTTCCAGGTGGCACTAGCTATCGTGCAAACGCTG TAACAGGTAAAGTCGCGGCACTATTTGCTGGTCAAGGTTCTCAATATCTTAATATGGGCCGAGATCTAGCTTGTTACTAC CCTGAGATGCGTCAGCAATTTGTAGCCGCCGATAAAGTCTTCGCTGCTAACGATAAAACGCCGCTTTCACAGACACTTTA CCCAAAGCCTGTCTTTAATAAAGATGACCTTAAAGCCCAAGAAGCCATTTTGACCAACACCGCTAATGCACAAAGTGCTA TCGGTGCCATCTCAATGGGTCAGTACGAGCTGTTCACAGCCGCAGGCTTTAATGCCGATATGGTAGCGGGACACAGCTTT GGTGAACTAAGCGCACTTTGTGCATCTGGCGCTATCTCAACGGATGACTACTACAAGCTAGCCTTTGCCCGTGGTGATGC CATGGCAACCAAAGCTCCGGCTAAAAATGGCGTTGAGGCCGACGCTGGTGCCATGTTCGCCATCATTACCAAATCTGCTG CCGATCTAGAGTCAGTTGAAGCGACTATCGCTAAGTTCGATGGCGTAAAAGTGGCTAACTACAATGCGCCGACACAATCT GTCATTGCAGGCCCAACCTCATCAACTGGCGAAGCCGCTAAAGCCCTTAGTGAACTTGGTTATAAGGCGATCAACTTGCC AGTATCGGGTGCCTTCCATACTGAGCTTGTGGGTCATGCTCAAGCCCCTTTTGCTAAAGCTATCGACGGCGCAAAATTCA GCAAGCCGACTCGCGCACTATATTCAAACGCCACTGGTGAACTTTATGCCAATACAGGCGCTAAGATTAAGGCCTCGTTC AAGAAACATATGCTTCAATCGGTACGCTTTACCGCAGAGTTAGAAGCGATGTACAAAGACGGTGCACGTATCTTTGTTGA GTTTGGACCTAAGAACATATTGCAGAAGTTGGTACAAGGTACACTTGCTGACAGAATGAATGAGCTGTGTGCTATCTCTA TCAACCCAAGCCCTAAAGGCGATAGCGATCTTCAACTTAAGCAAGCCGCCGTCCAGTTAGCCGTTGCTGGTATCAAACTC GATAATATCGATCCATACCAAGCTGATATTGCTGCGCCAGAGAAACGCTCTCCAATGAGCATCTCCCTTAATGCGGTTAA CCATATCAGCAAATCAACCCGCGCTAAGATGGAAAAATCTCTCCACACTGGTGCAGTCACTAGCTCAACTATCGTTGAAG AGAAGGTTGTTGAAAAAGTAGTCGAAGTTGAAAAGATCGTTGAAGTGGAAAAAATTGTAGAAGTCCCAACAGTCGTTGAG AAAATTGTTGAAGTATCAACAGCTCAAGCAAACCCTGTGATAACCCATTCTGTTCAAGAGAGTCAAGTAGTGTCTCAAAA CAAACCAGCCTTTAATACCGAGCCTTCAGCGGTTCTAAATGTTAGCAGCGATGCGCTTACTAGCTTCTTTGCAGCCCAGC AGCAAGCAGCAGAGCTTCATCAACAGTTCCTTGAGATCCCGCAGCAATATGGCGAGACCTTCACGACCTTGATGACAGAG CAGACGAAGCTTGCAGGTTCTGGAGTTGCCATTCCAGAGAGCCTACAACGCTCAATGGAGCAGTTCCACCAGCTTCAAGC TCAAACACTGCAAAGCCACACTCAATTTCTTGAGATGCAAGCTGGTAGCAATATCGCAGCGCTTAATTTACTCAATGGCA CGCCAGCACCAGTTCAAGTCGCTCCTATTGCTCAACCAGCTGTCATCCAAGCAGCACCAAGCACCGTGGCTCCTATTGTT AGTGCACCAGTTCAAGCTGCTCCTGCGAAAGTGGCAACTCCAGCTCCAATGGCCGCACCTGTAGTTCAAGTAGCTCCAGC CATAACACCTGTGCAAGCAGTCACTGTTGCTCAAGCAGCAAAAGTAGAAAGCAGAGTTGAGCCTGTCGCTACATCTAATA CAAGCGCCGCTGACTCTCCACCTTTAAAAGCCGCTGAAGGCTCACTCTCCGCACAAAAAGTCCAAGCGACCATGCTTGAA GTGGTTGCCGAAAAAACTGGTTATCCAACTGAGATGTTAGAGCTTGAGATGGATATGGAAGCCGACCTTGGTATCGACTC TATCAAGCGTGTTGAGATCTTAGGTACGGTTCAAGATGAACTACCAGATCTGCCAGAGCTAAGCCCTGAAGATCTAGCCG AGTGCCGTACACTGGGTGAAATCGTAAGCTACATGAATTCGAAACTACCATCTGTTGGTTCTCAAGCAACAGCAACAAGC ACTACTGACTCTTCAACTTTAAAAGCCGCTGAGGGCTCACTCTCTACAGGTTTAAGTGCGGAAAAAGTACAAAGCACTAT GATGTCTGTAGTTGCCGAGAAAACTGGCTACCCAACTGAGATGTTAGAGCTTGAGATGGATATGGAAGCCGACCTTGGTA TCGATTCTATCAAGCGTGTTGAGATCTTGGGTACGGTTCAAGATGAGCTACCTGGCCTGCCCGAGCTAAGCCCTGAAGAT CTAGCCGAGTGTCGTACACTGGGTGAGATCGTAAGCTACATGAATTCGAAACTACCATCTGTTGGTTCAGCAACAAGCAC TACTGACTCTTCACCTTTAAAAGCCGCTGAGGGCTCACTCTCTACAGGTTTAAGTGCAGATCAAGTACAAGGCACTATGA TGTCTGTTGTAGCCGAGAAAACTGGTTACCCAACTGAGATGCTAGAGCTTGAGATGGATATGGAAGCCGACCTGGGTATC GACTCTATCAAGCGTGTTGAGATCTTGGGTACAGTTCAAGATGAACTACCTGGTCTACCAGAGCTAAATCCAGAAGATCT TGCTGAGTGTCGTACACTGGGCGAAATCGTGACTTATATGAATAGCAAGTTGCCTTCTGTAGGGACTAATACAAGTGCCG CTGCAGCGCCAGCTACCAGCGGACTCTCTGCGGAAACAACCCTGAGCGCCGAGACAGTACAAAGCACTATGATGTCTGTT GTAGCCGAGAAAACTGGCTACCCTACTGAGATGCTAGAACTTAGCATGGATATGGAAGCAGACCTTGGTATCGACTCTAT CAAGCGTGTTGAGATTTTAGGTACTGTTCAAGATGAGCTTCCAGACCTGCCTGAACTAAACCCAGAAGATCTTGCCGAGT GTCGTACTCTGGGTGAAATCGTGACTTATATGAATAGCAAGTTGCCTTCTGTAGGGGCTAATACAAGTGCCGCTGCAGCG CCAGCTACCAGCGGACTCTCTGCGGAAACAGCCCTGAGCGCGGCTCTTTCTGCAGAGAAGGTCCAAGCCACTATGATGTC AGTGGTTGCCGATAAGACTGGCTACCCAACTGAGATGCTAGAACTTAGCATGGATATGGAAGCAGACCTTGGTATCGACT CTATCAAGCGTGTTGAGATTTTAGGTACTGTTCAAGATGAGCTTCCAGGCTTGCCTGAACTAAACCCAGAAGATCTTGCT GAGTGTCGTACACTGGGCGAAATCGTAAGCTACATGAATTCGAAACTACCATCTGTTGGTTCTCAAGCAACAGCAACAAG CACTACTGACTCTTCACCTTTAAAAGCCGCTGAGGGCTCGCTCTCTACTGCGTTAAGTGCAGATCAAGTGCAAGGCACTA TGATGTCTGTGGTTGCTGAGAAGACTGGCTACCCAACTGAGATGCTAGAACTTAGCATGGATATGGAAGCAGACCTAGGT ATCGACTCAATCAAGCGTGTTGAAATTCTAGGTACTGTTCAAGATGAGCTTCCAGGCCTTCCTGAGCTAAATCCAGAAGA TCTTGCTGAGTGTCGTACACTGGGCGAAATCGTAAGCTACATGAACAGCAAACTCTCTACAACAGACGCTGAAGGCTCAC GATCTACAGTAGGTGCTGCTGTATCAGGTGCTGTAAAGTCAGTAGCAGAGACAATTACCTCTTCACTAGAACTGCCTCCT CACAGTGAGGTAGCGCTAAAAAAGCTTAAAGCGGCGGATCAAATCAACAACTGTTTCGCCGCAGACGCAACCGTAGTGAT TAACGATGATGGTCACAACGCAGGCGTACTCGCAGAGAAACTAACTAAACAAGGCCTTAAGGTTGCCGTTGTGCGTTTAC CTAAGGGTGCGGCACAATCACCACTTAACAGTGATGTTGCAAGCTTTCAAGCAACAAGCCTTGATGAAACAGGTATCAGC GCTATTATTGCTCAAATTGAGCAGCAACTAGGTCAAATTGGTGGGTTTATCCATCTACAACCTGAAGCTGATAGCAACAG CGTTAATAACGCAGTCAACCTTAGCGATGACAGCTACACTCATGTTAGCCAAGCCTTCCTTTGGGCTAAGTTGCTACAGC CAAAGTTAACAACATCAAGTGATAAGCGTCGTAGCTTTATCACGGTTAGTCGTATCGACGGTGGTTTTGGTTACTTAGAC GCGAGAGCACTAGAAAATGCAGAGCTAAACCAAGCTGCACTTGCAGGTTTAACTAAGACACTGAGCCATGAGTGGCCAAG CGTCTTCTGCCGTGCACTCGACATTGCAACAAGCCTAGATGCAACCCATCTTGCCGATGCTATCACAGCTGAGTTATTCG ATAGCGTTACAGGGCTTCCTGAAGTCGGTTTATCTATTGATAACAAGGGCAACGTGAGTCGCTGCACCTTAGTTGCGGGA GAGGCAAGTAACAAAACTGCCAAAGCAGAGCTTAACTCTATTGATAAAATCCTAGTGACGGGTGGTGCAAAAGGTGTGAC CTTTGAATGTGCCCTAGCCCTTGCTAAGCGTACTCAGTCACACTTTATCCTAGCAGGTCGTAGTGAACTTCAAGCTATTC CAACTTGGGCAACGGGTAAGCAAATAAGCGAGCTAAAGCCCGCAGCGATTGCGCATATTATCTCTACAGGCAGCAAGCCA ACCCCTAAACAGGTTGAAGCGTTAGTTTGGACTGTTAAGAGCTCTATTGAGATCAACACAGCCCTGAATGCTTTTGCAGA GGTTGGCGCAAGTGCTGAATATGTCAGCATGGATGTGACCGACACCGCCGCAATTACAAAAGCATTAAATGGACGCTCAA GCGAGATAACTGGCCTTATCCATGGTGCTGGCGTGCTTGCCGATAAGCATATTCAAGATAAAACAATCGAAGAGCTTGCT CGCGTATACGGCACTAAAGTTAACGGCCTTAAAGCCCTGCTTGCTGCACTTGATTCAAGCAAGGTGAAACTGCTGGCGAT GTTCTCATCTGCTGCTGGTTTCTACGGCAACACAGGCCAGAGCGATTACGCTATGTCTAACGACATCCTCAACAAGGCAG CACTGCAGTTCACTGCACGTAACCCACAAGCTAAGGTAATGAGCTTTAACTGGGGCCCTTGGGATGGCGGCATGGTGACA GACGCACTTAAGAAGATGTTTACCGAACGTGGCGTGTACGTTATCCCACTAAAGGCAGGGGCGGAGCTATTTGCCACCCA ACTGCTCAGTGAGACCGGCGCTCAGCTGCTTATCGGTACCTCTATGCAAGGTGGCGACGATGCTTCAAAGAAGGACGCTT CTGTAAAAAAGCTTAATGCGGGTGAGGTGTTTTATGCATCACACCCGCTAGCACCAGTCTCTCTAACTAGAGCATTAAAC CCTAATGACATGGTCTTCATCCAAGACCACCGCATTAGCGGTAATCCAGTGCTCCCCACAGTATGTGCAATACAGTGGAT GCGAGAAGCTGCAAGCAAGGTGCTTGGTGCTCAAGTCAAAGTACTCGACTATAAACTGCTTAAGGGGATCATCTTCGACA GCAGTAATGCTCAAGAGATAACCCTTGAGTTGACGCCTACTGACAACAACCAAATTGCTGCATTAATCAGCAGTCAAGGT CGTCCGCAGTACAAGGCCACACTTGCCGTATCTAATGAGACCTTTGCCACTAAGTCTATCGATTTAACTGGTGAAGCCAT TACGGATAGCGCAGAGCTCTACAGCAATGGCACCCTATTCCATGGGCCACGTCTGCAGGGCATAAAGCAGGTCTTTAACT TTGATGATGCGGGGCTGCTGGCTAGTTGTCAGTTACCACAAGTCGATGACAGTGATTGCGGCCAGTTTGTTGCCACGCAG CATATCGGTGGTAGTCAGCCATTTGCAGAAGATCTACTGCTGCAGGCGATGCTGGTATGGGCAAGGATTAAATACGGTGC GGCAAGCTTACCTTCTACTATCGGCGAGTTTGTCTCAAATAAGCCGCTGGCATTTGGTGACAAAGCAGTGCTAACACTTG AAGTTGTCAAAACAAGTGCTCGTTCACTTGAGGCTAATGTCGCGCTATACCATGAAAATGGTGAGCTTAGCGCCATGATG AAAGGGGCGAAAGTCACCATCAGTAAAAACCTCAATAGTGCTTTTTTGAATGAAAACAGCACTGCGAACCGCATTAGTGG AGAAAAGTCTTAA
Upstream 100 bases:
>100_bases AACGCTTTCCTGGCGCCAAGCTTAGTCATGGCACTGTCACAGAAAACGTTGAGACTAACAACAAGACGCCTGAATCTCAG GCACCCAGTGGAGACTCATA
Downstream 100 bases:
>100_bases TGGACCAGCTGACAGCTAACGCGAGCGTCAGTGAGCAAGTTATCAAGAGTGAGATGCCCCTGCGCATCGCACTCTTGGTG CTGCCTGCCTCACTAGATTT
Product: polyketide-type polyunsaturated fatty acid synthase PfaA
Products: NA
Alternate protein names: NA
Number of amino acids: NA
Protein sequence:
>2750_residues MSQTSKPSKPLADKKSAKASSTNTAEMNQDPQADKRLNKRLKDMPIAIVGMASIFANSRYLNKFWDLISEKIDAITELPS THWQPEEYYDANKSTPDKSYCKRGGFLPDVDFNPMEFGLPPNILELTDSSQLLSLIVAKEVLADANLPEGYDRDKIGITL GVGGGQKISHSLTARLQYPVLKKVFANSGISDEDSAMLIKKFQDQYVHWEENSFPGSLGNVISGRIANRFDLGGMNCVVD AACAGSLAAMRMALTELTEGRSEMMITGGVCTDNSPSMYMSFSKTPAFTTNETIQPFDIDSKGMMIGEGIGMIALKRLED AERDGDRIYSVIKGIGSSSDGKFKSIYAPRPEGQAKALNRAYDDAGFAPHTLGLIEAHGTGTAAGDAAEFAGLCSVFANG NDTKQHIALGSVKSQIGHTKSTAGTAGLIKAALALHHKVLPATINVSQPSPKLDIENSPFYLNTETRPWLPRVDGTPRRA GISSFGFGGTNFHFVLEEYNNEHSRLDSEKAKYRQRQVAQSFLISASSKDALIAELNKLATAATTDEFIIATAAQDYGLR ELDANAPRIGLVANTAEELATQIKQAIAKLATDTLAAQEGFQLPGGTSYRANAVTGKVAALFAGQGSQYLNMGRDLACYY PEMRQQFVAADKVFAANDKTPLSQTLYPKPVFNKDDLKAQEAILTNTANAQSAIGAISMGQYELFTAAGFNADMVAGHSF GELSALCASGAISTDDYYKLAFARGDAMATKAPAKNGVEADAGAMFAIITKSAADLESVEATIAKFDGVKVANYNAPTQS VIAGPTSSTGEAAKALSELGYKAINLPVSGAFHTELVGHAQAPFAKAIDGAKFSKPTRALYSNATGELYANTGAKIKASF KKHMLQSVRFTAELEAMYKDGARIFVEFGPKNILQKLVQGTLADRMNELCAISINPSPKGDSDLQLKQAAVQLAVAGIKL DNIDPYQADIAAPEKRSPMSISLNAVNHISKSTRAKMEKSLHTGAVTSSTIVEEKVVEKVVEVEKIVEVEKIVEVPTVVE KIVEVSTAQANPVITHSVQESQVVSQNKPAFNTEPSAVLNVSSDALTSFFAAQQQAAELHQQFLEIPQQYGETFTTLMTE QTKLAGSGVAIPESLQRSMEQFHQLQAQTLQSHTQFLEMQAGSNIAALNLLNGTPAPVQVAPIAQPAVIQAAPSTVAPIV SAPVQAAPAKVATPAPMAAPVVQVAPAITPVQAVTVAQAAKVESRVEPVATSNTSAADSPPLKAAEGSLSAQKVQATMLE VVAEKTGYPTEMLELEMDMEADLGIDSIKRVEILGTVQDELPDLPELSPEDLAECRTLGEIVSYMNSKLPSVGSQATATS TTDSSTLKAAEGSLSTGLSAEKVQSTMMSVVAEKTGYPTEMLELEMDMEADLGIDSIKRVEILGTVQDELPGLPELSPED LAECRTLGEIVSYMNSKLPSVGSATSTTDSSPLKAAEGSLSTGLSADQVQGTMMSVVAEKTGYPTEMLELEMDMEADLGI DSIKRVEILGTVQDELPGLPELNPEDLAECRTLGEIVTYMNSKLPSVGTNTSAAAAPATSGLSAETTLSAETVQSTMMSV VAEKTGYPTEMLELSMDMEADLGIDSIKRVEILGTVQDELPDLPELNPEDLAECRTLGEIVTYMNSKLPSVGANTSAAAA PATSGLSAETALSAALSAEKVQATMMSVVADKTGYPTEMLELSMDMEADLGIDSIKRVEILGTVQDELPGLPELNPEDLA ECRTLGEIVSYMNSKLPSVGSQATATSTTDSSPLKAAEGSLSTALSADQVQGTMMSVVAEKTGYPTEMLELSMDMEADLG IDSIKRVEILGTVQDELPGLPELNPEDLAECRTLGEIVSYMNSKLSTTDAEGSRSTVGAAVSGAVKSVAETITSSLELPP HSEVALKKLKAADQINNCFAADATVVINDDGHNAGVLAEKLTKQGLKVAVVRLPKGAAQSPLNSDVASFQATSLDETGIS AIIAQIEQQLGQIGGFIHLQPEADSNSVNNAVNLSDDSYTHVSQAFLWAKLLQPKLTTSSDKRRSFITVSRIDGGFGYLD ARALENAELNQAALAGLTKTLSHEWPSVFCRALDIATSLDATHLADAITAELFDSVTGLPEVGLSIDNKGNVSRCTLVAG EASNKTAKAELNSIDKILVTGGAKGVTFECALALAKRTQSHFILAGRSELQAIPTWATGKQISELKPAAIAHIISTGSKP TPKQVEALVWTVKSSIEINTALNAFAEVGASAEYVSMDVTDTAAITKALNGRSSEITGLIHGAGVLADKHIQDKTIEELA RVYGTKVNGLKALLAALDSSKVKLLAMFSSAAGFYGNTGQSDYAMSNDILNKAALQFTARNPQAKVMSFNWGPWDGGMVT DALKKMFTERGVYVIPLKAGAELFATQLLSETGAQLLIGTSMQGGDDASKKDASVKKLNAGEVFYASHPLAPVSLTRALN PNDMVFIQDHRISGNPVLPTVCAIQWMREAASKVLGAQVKVLDYKLLKGIIFDSSNAQEITLELTPTDNNQIAALISSQG RPQYKATLAVSNETFATKSIDLTGEAITDSAELYSNGTLFHGPRLQGIKQVFNFDDAGLLASCQLPQVDDSDCGQFVATQ HIGGSQPFAEDLLLQAMLVWARIKYGAASLPSTIGEFVSNKPLAFGDKAVLTLEVVKTSARSLEANVALYHENGELSAMM KGAKVTISKNLNSAFLNENSTANRISGEKS
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