Gene MADE_02972 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagMADE_02972 
SymbolguaA 
ID6777379 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameAlteromonas macleodii 'Deep ecotype' 
KingdomBacteria 
Replicon accessionNC_011138 
Strand
Start bp3220587 
End bp3222164 
Gene Length1578 bp 
Protein Length525 aa 
Translation table11 
GC content47% 
IMG OID642756423 
ProductGMP synthase 
Protein accessionYP_002127262 
Protein GI196157773 
COG category[F] Nucleotide transport and metabolism 
COG ID[COG0518] GMP synthase - Glutamine amidotransferase domain
[COG0519] GMP synthase, PP-ATPase domain/subunit 
TIGRFAM ID[TIGR00884] GMP synthase (glutamine-hydrolyzing), C-terminal domain or B subunit
[TIGR00888] GMP synthase (glutamine-hydrolyzing), N-terminal domain or A subunit 


Plasmid Coverage information

Num covering plasmid clones10 
Plasmid unclonability p-value
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clonesn/a 
Fosmid unclonability p-valuen/a 
Fosmid Hitchhikern/a 
Fosmid clonabilityn/a 
 

Sequence

Gene sequence
ATGACCACAA ATATCCACGA CCAACGCATA CTCATTTTGG ATTTTGGCTC GCAATACACG 
CAGTTAATTG CACGTCGCGT TCGCGAAATT GGTGTTTACT GTGAGCTATG GGCTTGGGAT
GTCACGGAAG AGCAAATTCG CGAATTCAAT CCGCAAGGTA TCATTTTATC TGGTGGGCCT
GAGTCGGTCA CAGAAGAAGG CTCTCCGCGA GCGCCAGATT ATGTATTTGA AGCTGGTGTG
CCTGTATTAG GCGTGTGCTA CGGCATGCAA ACAATGGCTC ACCAATTAGG CGGTGGTGTA
TTAGGTTCTG ATAAGCGCGA GTTTGGCTAC GCGCAGGTTG AAGTGATTAA ACCAAGCCCG
CTACTTGATA AAATTGAAGA TGCCATTGGT GATAACGGCG CAGCCCTGCT TGATGTATGG
ATGAGTCATG GGGACAAAGT GGCCGCTATT CCTGAAGGCT TTGAAACTAT TGCGCAAACG
GCGTCATGCC CTCACGCTGC AATGTATAAC GAAGAGAAGC AATTCTACGG TGTTCAATTC
CACCCAGAAG TGACTCACAC CCGCCAAGGT ATGCGCTTAC TTACCCAATT CGTAATGGAT
ATTTGTAAGT GTGAAAAGCT GTGGACGGCA GGAGCGATAA TAGAAGATGC CATTGAGCGC
ATTAAAGAAA AAGTAGGTGA TGAGAGAGTT ATTCTTGGTC TTTCAGGTGG CGTAGACTCT
TCAGTTACTG CCATGCTGCT TCACCGTGCT ATAGGCAAAA ACCTCACCTG TGTATTTGTA
GATAACGGCC TGTTACGCCT AAATGAAGCT GACCAGGTAA TGGAAATGTT TGGCGACCAC
TTTGGGTTAA ACATTATCCG TGTCGATGCA GAAGGGCGTT TCTTAGACCG CCTTAAAGGC
ATTGAAGACC CAGAGCTTAA GCGTAAAGCC ATCGGTAACG AGTTTGTTCG CGTATTCGAT
GAAGAGGCGA GTAAGTTAGA AAATGCCAAG TGGCTAGCAC AGGGTACTAT CTACCCAGAC
GTGATCGAGT CAGCGGGCTC TGCAACAGGT AAAGCACACG TAATTAAGTC TCACCATAAC
GTAGGCGGCC TTCCAGAAGA TATGGAACTA GGGCTAGTTG AGCCACTGCG TGAGCTATTC
AAAGACGAAG TACGTAAAAT TGGCTTAGAA CTAGGCTTGC CATACGACAT GCTTTACCGT
CACCCGTTTC CTGGTCCGGG ACTAGGCGTA CGTGTGTTAG GCGAGATAAA GAAAGAGTAT
TGCGATTTAC TTCGTCGTGC CGATGCTATC TTTATCGAAG AATTGTATGC CGCCGATCTT
TACCAGAAAG TAAGTCAAGC GTTCACGGTA TTCTTACCCG TGCGCTCAGT TGGCGTAATG
GGTGATGCCC GCAAATACGA CTGGGTAGTA AGTTTACGTG CGGTAGAAAC CATCGACTTT
ATGACAGCGC ATTGGGCACA CCTTCCATAT GATTTCTTAG GTAAAGTGTC GAACCGGATT
ATCAATGAAA TCGACGGCAT CAGCCGTGTG GTCTATGATA TTTCAGGTAA ACCGCCTGCT
ACCATTGAGT GGGAATAA
 
Protein sequence
MTTNIHDQRI LILDFGSQYT QLIARRVREI GVYCELWAWD VTEEQIREFN PQGIILSGGP 
ESVTEEGSPR APDYVFEAGV PVLGVCYGMQ TMAHQLGGGV LGSDKREFGY AQVEVIKPSP
LLDKIEDAIG DNGAALLDVW MSHGDKVAAI PEGFETIAQT ASCPHAAMYN EEKQFYGVQF
HPEVTHTRQG MRLLTQFVMD ICKCEKLWTA GAIIEDAIER IKEKVGDERV ILGLSGGVDS
SVTAMLLHRA IGKNLTCVFV DNGLLRLNEA DQVMEMFGDH FGLNIIRVDA EGRFLDRLKG
IEDPELKRKA IGNEFVRVFD EEASKLENAK WLAQGTIYPD VIESAGSATG KAHVIKSHHN
VGGLPEDMEL GLVEPLRELF KDEVRKIGLE LGLPYDMLYR HPFPGPGLGV RVLGEIKKEY
CDLLRRADAI FIEELYAADL YQKVSQAFTV FLPVRSVGVM GDARKYDWVV SLRAVETIDF
MTAHWAHLPY DFLGKVSNRI INEIDGISRV VYDISGKPPA TIEWE