Gene Maqu_3078 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagMaqu_3078 
Symbol 
ID4655014 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameMarinobacter aquaeolei VT8 
KingdomBacteria 
Replicon accessionNC_008740 
Strand
Start bp3410868 
End bp3412763 
Gene Length1896 bp 
Protein Length631 aa 
Translation table11 
GC content56% 
IMG OID639813058 
Productnitrous-oxide reductase 
Protein accessionYP_960339 
Protein GI120555988 
COG category[C] Energy production and conversion 
COG ID[COG4263] Nitrous oxide reductase 
TIGRFAM ID[TIGR01409] Tat (twin-arginine translocation) pathway signal sequence 


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
ATGAAAAAAA GAGATGATCT GACCAAGGAC ACGCCGGAGG TTTCCGAAGG TGGTCTGAGC 
CGTCGTCGCT TTATGGGTGC GGCTGCGCTG GCCGGTGTCG CTGGTGCAAC CGGTCTGGGC 
TCCTCGGTCA TGTCCCGTGA GACCTGGGCT GCAGCTGCTG AAGAAGCCCG CAACAAGGCT 
CACGTCGCCC CGGGCGAGCT GGATGAGTAC TACGGTTTCT GGAGTGGTGG CCACCAGGGC 
GAAGTGCGCG TGCTTGGCGT GCCCTCCATG CGTGAACTGA TGCGTATTCC GGTATTTAAC 
GTGGATTCCG CAACGGGTTG GGGTATTACC AATGAAAGTA AGGAAATCCT GGGCGGTGAT 
CAGCAGTACC TGAACGGCGA CTGCCACCAC CCGCACATTT CCATGACTGA CGGTCGTTAC 
GATGGTAAGT ACCTGTTTAT CAACGACAAG GCCAACACCC GGGTTGCCCG TATCCGTCTG 
GATATCATGA AGACGGACAA GATTACCCAC ATCCCGAACG TTCAGGCCAT CCATGGTCTG 
CGCCTGCAGA AAGTACCCAA GACCAACTAC GTGTTCTGTA ACGCCGAGTT CGTCATCCCG 
CAGCCCAACG ACGGCACGGA TTTCAGCCTG GACAACAGCT ACACCATGTT CACCGCCATC 
GACGCAGAAA CCATGGATGT GGCCTGGCAG GTCGTCGTTG ACGGTAACCT GGATAACACC 
GATGCCGACT ACACCGGCAA GTACGCTGCT TCTACCTGTT ACAACTCAGA GCGTGCCGTT 
GATCTTGCGG GCACCATGCG TAACGACCGC GACTGGGTGG TTGTGTTCAA TGTGGAGCGC 
ATTGCTGCAG CGGTAAAAGC CGGCAACTTC AAGACCATTG GCGATTCCAA AGTGCCGGTT 
GTCGACGGCC GAGGCGAATC CGAATTCACC CGCTATATTC CTGTGCCGAA GAACCCGCAC 
GGTCTGAACA CCTCTCCCGA TGGCAAGTAC TTCATTGCCA ACGGCAAGCT GTCACCAACG 
GTATCCGTGA TTGCCATTGA TAAACTGGAC GATCTGTTCG AAGACAAGAT CGAACTGCGC 
GACACCATCG TGGCCGAGCC GGAGCTGGGT CTCGGACCCC TGCACACTAC CTTCGACGGC 
CGTGGCAATG CCTACACCAC GCTGTTTATC GACAGCCAGG TGTGCAAGTG GAATATTGCC 
GATGCCATCA AGCACTACAA CGGTGACAAG GTAAATTACA TCCGTCAGAA GCTGGACGTG 
CAGTATCAGC CGGGCCACAA CCACGCATCG CTGACTGAAT CCCGCGATGC TGATGGCAAA 
TGGCTGGTTG TTCTGTCCAA GTTCTCGAAA GACCGCTTCC TGCCGGTTGG CCCGCTCCAT 
CCGGAGAACG ATCAGCTGAT CGATATTTCC GGTGAGGAAA TGAAACTGGT TCACGATGGC 
CCGACCTATG CCGAGCCGCA CGACTGTATC CTGGTACGTC GTGATCAGAT CAAGACCAAG 
AAGATCTACG AGCGCAACGA CCCCTACTTC GCCAGCTGTC GTGCCCAGGC TGAGAAGGAC 
GGTGTGACTC TGGAATCCGA CAACAAGGTG ATCCGTGACG GCAACAAGGT GCGTGTTTAC 
ATGACCTCCG TTGCGCCGCA GTACGGTATG ACCGAATTCA AGGTGAAGGA AGGTGACGAG 
GTAACGGTGT ATGTCACCAA CCTGGATATG GTTGAGGATG TGACCCACGG TTTCTGTATG 
GTAAACCATG GTGTGAGCAT GGAGATCAGT CCGCAACAGA CGTCTTCAGT GACGTTTACA 
GCAGGTAAGC CAGGGGTTTA CTGGTACTAC TGCAACTGGT TCTGTCATGC CCTCCATATG 
GAGATGGGCG GGCGGATGCT CGTCGAAAAG GCCTGA
 
Protein sequence
MKKRDDLTKD TPEVSEGGLS RRRFMGAAAL AGVAGATGLG SSVMSRETWA AAAEEARNKA 
HVAPGELDEY YGFWSGGHQG EVRVLGVPSM RELMRIPVFN VDSATGWGIT NESKEILGGD 
QQYLNGDCHH PHISMTDGRY DGKYLFINDK ANTRVARIRL DIMKTDKITH IPNVQAIHGL 
RLQKVPKTNY VFCNAEFVIP QPNDGTDFSL DNSYTMFTAI DAETMDVAWQ VVVDGNLDNT 
DADYTGKYAA STCYNSERAV DLAGTMRNDR DWVVVFNVER IAAAVKAGNF KTIGDSKVPV 
VDGRGESEFT RYIPVPKNPH GLNTSPDGKY FIANGKLSPT VSVIAIDKLD DLFEDKIELR 
DTIVAEPELG LGPLHTTFDG RGNAYTTLFI DSQVCKWNIA DAIKHYNGDK VNYIRQKLDV 
QYQPGHNHAS LTESRDADGK WLVVLSKFSK DRFLPVGPLH PENDQLIDIS GEEMKLVHDG 
PTYAEPHDCI LVRRDQIKTK KIYERNDPYF ASCRAQAEKD GVTLESDNKV IRDGNKVRVY 
MTSVAPQYGM TEFKVKEGDE VTVYVTNLDM VEDVTHGFCM VNHGVSMEIS PQQTSSVTFT 
AGKPGVYWYY CNWFCHALHM EMGGRMLVEK A