Gene Gmet_1426 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagGmet_1426 
Symbol 
ID3738556 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameGeobacter metallireducens GS-15 
KingdomBacteria 
Replicon accessionNC_007517 
Strand
Start bp1594680 
End bp1597379 
Gene Length2700 bp 
Protein Length899 aa 
Translation table11 
GC content56% 
IMG OID637778711 
ProductUTP-GlnB (protein PII) uridylyltransferase, GlnD 
Protein accessionYP_384385 
Protein GI78222638 
COG category[O] Posttranslational modification, protein turnover, chaperones 
COG ID[COG2844] UTP:GlnB (protein PII) uridylyltransferase 
TIGRFAM ID[TIGR01693] [Protein-PII] uridylyltransferase 


Plasmid Coverage information

Num covering plasmid clones18 
Plasmid unclonability p-value0.918297 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones52 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGGAATTCA ACATTGACCG CTACTTTCCC GACACCTCTC AGGAGACTGG TGATGCCGGC 
CGTGCCTCCT TCGAGGAGAA GCGTCCCCTT TACCTGGCTG CGAGCAAGCA CTTCCTGAAC
CACTACCGGG AAGAGATCAG GGAGATGCAC AATGCCGGCA CTCAAGGAAG CGTCGTGGTG
CGTAACCTGA CTGCCATGAC CGATACCCTG GTCCGCAAGC TCTTTCGCAG CATAACAAGG
GATGTGGCCC AGAGGGGGCG GGTGAGGGAA CCATTGACCC TGACTGCCAT CGGTGGTTAT
GGACGGGGAG AGCTCAACCC CTACTCGGAC ATCGACCTGA TGTTTCTCTA CGGCGGCAAA
GACCAGGCCC GGGTTGAGGA TATCGCCCAG AAGCTCCTCT ATTTTCTGTG GGACATGCGG
CTTGACGTTG GGTACTCGGT GCGTACCCTG CAGGATTGTG TGGAGATGGC TGCCTCCGAC
TTGACGGTGC GGACGGCTCT GCTCGATGCA CGCGTCCTTG CCGGAAGCCG ATTGCTGTTC
AAGGATTTCG AGAAGGTCAT GCTGACCCAG ATCCTTTCCA AACGGAGCGA CTCCTTCATT
AAGGAGAAGG TTGCGGAACT GGGGAAGCGG AGGGAGAAGT ACGGCTCGTC GGTCTATCTC
CTCGAGCCCA ATGTCAAGGA GAGCGAAGGG GGGCTCCGGG ACCTTCACAC GGCACTCTGG
GTGGCGAAAA TCAAGTACAA GATTTCCGAT ATCCGCGAAC TGATCGTCAA GGGGGTCATG
ACCGAGGAGG AGGTCTCGGT TTACGGCGAG GCGCTTTCCT ATCTCTGGCG CATCCGGAAC
GAACTCCATT TCCATGCCGG CCGCAAGAAC GATCAGCTCA CGTTTGATGC CCAGATCAAT
CTGGCCGGGT TCTTCGGCTA CAAGGACGTC GGAAAGTCTT TGGCAGTGGA AGAGTTCATG
CGTGACTACT ACCTCCATGC AACTCGGGTC GAACATCTTT CTTCCTCTCT CATCACGAAA
TGTTCACAGC GGGAAGAGAG GGCGCTGAAG ATCATCGGCT ACTTTGTCCG ACGGCATGTG
GGTGAGGGTT TTTACATCAT CAAGGGTGAG TTGGTGATCC CCGACGAATC GGTGATCCAC
AAGGAGCCGG CCCGGCTCAT GAAAATATTC GAGTATGCCC AGAAGCATGG CGTTGCCATA
AGTGTCACGG TGAAGTCGCT GATCCGGAAG AATCTTCACC TCATTAACGA CAAGTTCAGG
AGAAATAAGG ATGTCAACCA GTCATTCTTT GCGATCCTCC GCAGCGAGAA GGGGGCCTCC
GAAACTCTGC AACTCATGCA TCACCTGGAG TTCCTGAACC GTTTCATCCC CGAGTTCGGC
AATATCTACT GCAAGGTTCA GCATGACCTC TACCACATCT ACACCGTTGA TACCCACTCG
CTTTTTGCGG TGGAAGAGAT TGAGAAGCTG TTGCGGGGAG ACCATGCCGA AGATCTGCCG
CTTCTTACCC GGCTTGCCAG GGAGGTGGAC AAGAGGGAAC TCCTGATCCT TGGGGTACTT
TTCCACGATA TCGGCAAGGG GGAAGGGGGG GGGCATGCCG ACAAGGGCGC TGACATGATC
CCCACCATTG CCCGCCGGAT GGGGCTCTGC AAGGAGGATT CGGAACGGCT CGAATTCATG
GTGCGGAGCC ATCTCCTCAT GGCGCACATC GCCCAGCGCC GTGACCTCCA TGATGACAAG
ATGATCATCC AGTTTGCCCG ACAGATGGAG AAGAGTGAGA ACCTCAAGAT GCTCTACCTT
CTCAGTTATG CCGACATACG AGCTGTCGGG ACCGATGTCT GGACCGAGTG GAAGGCGATG
CTCCTCCAGG AGTTGTACGA GAAGAGCTTC AACGTGCTGG AGCGCGGCGA TTTCCGGCTG
GAGGCCAGGA GTGAGCGGGT CAAGAAGGTG AAGCGGAACG TACTGGAGCT TCTTGGCGAC
GAGTACCCAG TGGCTGCAGT GAAAGAAGAG CTGAAGGCGA TGACCAACCG GCATCTTCTC
TCCAATGCTC CGCAGGTCAT CGCCGAGCAT GTGAAGCTGC TCCTTGCCCT TGAACACGAA
AAAATCATCA CCCGTCTCGA CCATGAGTCC GACGGGGGAT ACTCCAATTT CACCATCTGC
ACCCTCGATG TACCGGGGCT CTTTTCCATG ATTACCGGCG TCATGGCCGC CAACGGGATA
AATATCCTCG GTGCCCAGAT TCATACGAGT TCCAATGGCA AGGCGCTGGA CATCCTGCAG
GTGAATTCAC CCCAAGGCTT TATCATAACC GACGTGGGTC GGTGGAAGCG GGTGAATGAG
GATCTCCGGC AGGTGCTGAC CGGCAAGACC CCGGTGGCCT CGCTCGTTGC AAAGCGGCAG
CGGCCGACAC TCCTTGCTGA AAAGGCAAAA CCCCGTTTTT CCGCGCGAGT CGAAATCGAC
AACGAGGTGT CATCGGACTA TACAGTCATC GACATCTATA CCCATGACAA AGTGGGAATC
CTTTACCAGA TCACGAGCAC CCTGACGGAA CTGGGGCTCT ACATCGGTGT CTCCAAGATT
TCCACCAAGG TGGACCAGGT GGCCGACGTC TTCTACGTGA AGGACATATT CGGCCACAAG
ATCACCAATC CGGAGCGGCT CGAAGAAATA CGGGAGAGAC TTTTGAAGGC CGTGGAGTGA
 
Protein sequence
MEFNIDRYFP DTSQETGDAG RASFEEKRPL YLAASKHFLN HYREEIREMH NAGTQGSVVV 
RNLTAMTDTL VRKLFRSITR DVAQRGRVRE PLTLTAIGGY GRGELNPYSD IDLMFLYGGK
DQARVEDIAQ KLLYFLWDMR LDVGYSVRTL QDCVEMAASD LTVRTALLDA RVLAGSRLLF
KDFEKVMLTQ ILSKRSDSFI KEKVAELGKR REKYGSSVYL LEPNVKESEG GLRDLHTALW
VAKIKYKISD IRELIVKGVM TEEEVSVYGE ALSYLWRIRN ELHFHAGRKN DQLTFDAQIN
LAGFFGYKDV GKSLAVEEFM RDYYLHATRV EHLSSSLITK CSQREERALK IIGYFVRRHV
GEGFYIIKGE LVIPDESVIH KEPARLMKIF EYAQKHGVAI SVTVKSLIRK NLHLINDKFR
RNKDVNQSFF AILRSEKGAS ETLQLMHHLE FLNRFIPEFG NIYCKVQHDL YHIYTVDTHS
LFAVEEIEKL LRGDHAEDLP LLTRLAREVD KRELLILGVL FHDIGKGEGG GHADKGADMI
PTIARRMGLC KEDSERLEFM VRSHLLMAHI AQRRDLHDDK MIIQFARQME KSENLKMLYL
LSYADIRAVG TDVWTEWKAM LLQELYEKSF NVLERGDFRL EARSERVKKV KRNVLELLGD
EYPVAAVKEE LKAMTNRHLL SNAPQVIAEH VKLLLALEHE KIITRLDHES DGGYSNFTIC
TLDVPGLFSM ITGVMAANGI NILGAQIHTS SNGKALDILQ VNSPQGFIIT DVGRWKRVNE
DLRQVLTGKT PVASLVAKRQ RPTLLAEKAK PRFSARVEID NEVSSDYTVI DIYTHDKVGI
LYQITSTLTE LGLYIGVSKI STKVDQVADV FYVKDIFGHK ITNPERLEEI RERLLKAVE