| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | BR0614 |
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| Symbol | glnE |
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| ID | 1166276 |
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| Type | CDS |
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| Is gene spliced | No |
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| Is pseudo gene | No |
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| Organism name | Brucella suis 1330 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_004310 |
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| Strand | + |
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| Start bp | 603888 |
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| End bp | 606839 |
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| Gene Length | 2952 bp |
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| Protein Length | 983 aa |
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| Translation table | 11 |
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| GC content | 58% |
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| IMG OID | 637329549 |
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| Product | bifunctional glutamine-synthetase adenylyltransferase/deadenyltransferase |
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| Protein accession | NP_697628 |
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| Protein GI | 23501501 |
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| COG category | [O] Posttranslational modification, protein turnover, chaperones
[T] Signal transduction mechanisms |
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| COG ID | [COG1391] Glutamine synthetase adenylyltransferase |
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| TIGRFAM ID | |
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| 
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Plasmid Coverage information |
| Num covering plasmid clones | 3 |
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| Plasmid unclonability p-value | 0.385006 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | normal |
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Fosmid Coverage information |
| Num covering fosmid clones | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | ATGACGGTTG AAAACGCAAA GGCACTGTTT TTCGAGAGAA ACCTTTGTGC ATTGACACCG
CTTGATCCTG AAAGGGCATC TGCCTTTCTG GCTGATCTGG AAGCCCGTGC CCGCGAGGAA
GAGCTTGCCG GCGTCGTGGC GCTGCTTGGC CGGAAAAAGG CGGCGGATTT TCTTTCAGCC
ATCCTCGATC TTTCGCCTTT CATCCGCGAG GCGCTGACGC GCCAGCCGCG CATTCTGGAT
CGTATCGTTT CCGCAACGCC GGAAAGCGCA CTTGAGGCTA TTCTGGACGA AATTTCCGCC
AGCGGGACCG TCGCGGGTGT CAGCGAAAGC GAACTGATGA CAAGCCTTCG CCAGTTAAAG
CGTGAGGCCC ATGTGCTGAT TGCCCTTTGC GATCTGGCGC GCATTTTCAA TACGGAAACA
ACCACCGACC GGCTGACCGA CCTTGCGGAA GCCTGCACAG GTGCAGCCGT CCGCTTTCTA
TTGCTCGATG CCGACGCGGC TGGCAGGATC AATCTGCCGG ATCGCAGCAA TCCGGAAAAG
GATTGTGGCT GGATCGTTCT TGGCATGGGC AAGTTCGGCG CGCGCGAGCT CAACTATTCT
TCCGATATAG ATCTGATTGT TTTCATTGAT GAAACCAAGC CTGCTATCGG CGATCCCTAT
GAATGTGTCG ATACGTTTTC GCGGCTGACG CGGCGGCTGG TGCGCATCTT GCAGGACCGC
ACCGGCGATG GTTACGTCTT CCGTGTCGAT CTGCGTCTGC GGCCTGATCC GGGATCGACG
CCGCTTGCCA TTCCGGTTGG CGCTGCGCTG CATTATTATG AGGGGCGTGG CCAGAACTGG
GAGCGCGCCG CCATGATAAA GGCGCGGCCC GTTGCCGGAG ATCGCTTGTC CGGCAAACAG
ATTTTGGCGG AACTGTCGCC CTATGTCTGG CGCAAATATC TCGACTATGC GGCAATTGCC
GATGTCCATT CGATCAAGCG CCAGATTCAC GCCCATAAGG GCCACGGCGA TATTGCCGTG
CGCGGGCATA ATGTGAAGCT TGGCCGGGGC GGTATCCGGG AGATCGAATT TTTTGTCCAG
ACGCAGCAAT TGATTGCGGG CGGGCGCTTT CCCGAACTGC GCGGCAACCA GACTGTGCCG
ATGCTGGCGC GGCTTGCCGA ACGGGGATGG ATAACGCAAC AGGCGCGCGA TGCGCTGGCG
CAGGAATATT GGTTTCTCCG CGATGTCGAA CACCGTATCC AGATGATTGT GGACGAGCAG
ACCCATATCC TGCCTGAAGA TGATGAAGGG TTTGCCCGCG TTTCCCATAT GATGGGTTAT
GCCGACCCGG CGGAATTTTC CGAAATATTC CTCGCCGCGC TCAAGGTGGT GGAAAAGCAG
TATGCGGCGC TGTTCGCGCA GGCGCCGGAA CTGGGCGCGG CGAGCGGCAA CCTTGTTTTT
ACCGGCGATG TGGATGATCC GGGCACGCTG GAAACGCTTT CTGCCATGGG CTACGAGCGC
TCAAGCGATA TCTGCCGCGT GATCCGCACC TGGCATTTCG GGCGTTATCG CGCCACGCAA
TCGGCGGAAG CACGGGAGCG CCTCACCGAA CTGACGCCCG CACTTCTCAA AGCCTTTGCA
GAAACCAGGC GGGCGGATGA ATCGCTTCGG CGCTTCGACG GGTTTTTGCA GGGCTTGCCG
GCCGGTATTC AGCTTTTCAG CCTGCTGCAA TCCAATCCCC GGCTTTTGAA CCTCCTCGTG
ATGATCATGA GCGCGGCCCC GCGGCTGGCG GACATCATCA CACGCAACCC GCATGTTTTT
GATGGGTTGC TCGATCCGGC CATTTTTTCG GAAGTGCCAA CGCGTGCCTA TCTCGAAGAA
CGCCTGCGGG CATTTCTGGG CAGCGCCACG GATTTCGAGG AAGTACTGGA CAGGCTGCGT
ATTTTTGCTG CCGAACATCG CTTCCTCATC GGCATCCGCC TGCTGACGGG AGCAATCAAT
GGCGTGCGGG CCGGACAGGC CTTTTCCGAT CTTGCCGAAC TTATGGTTGG CAGGGCGCTG
GAGGCGGTGG AAGCCGAATT GCAACGCCGC CATGGCAAGG TGAAGGGCGC GAAAGTGGCG
CTGCTCGCCA TGGGCAAGCT TGGCAGTCGC GAACTGACGG CGGGCTCGGA TGTGGACCTG
ATCCTGCTTT ACGATCACGA CAAGGATGCC GAGGAATCCG ATGGTGAAAA GCCGCTTGCG
CCTTCACAAT ATTATATTCG CCTGACACAG CGCCTCATCG CGGCCCTTTC GGCCCCGACG
GCGGAAGGTG TGCTTTACGA GGTGGATATG CGGCTGCGCC CGTCGGGCAA CAAAGGCCCC
GTCGCAACGC ATATCGAAGC TTTCGGCAAA TATCAGCGCA ACGATGCGTG GACCTGGGAA
CATATGGCGC TGACCCGCGC GCGGCCCATC CATGGCGATG AGGCTTTTAT CGCTCGCATC
AAGGTGGATA TCGAGGACGT TCTCGCGATG CCGCGCGATG TGCGGAAACT TGCCGGGGAT
GTGCGCGAGA TGAGGGAACT GATCGCGCAG GAAAAGCCGC CGCGGGATGA TTGGGACTTA
AAGCTGAAGC CCGGCGGCAT TATCGATCTG GAGTTTATCG CCCAATTTGC AACCCTTGCC
GGGTATGTGA AGAAAACGCC GCGTCCATTT GCAACCGAAG AAGTGCTGGC AAACCTTGAT
CCATTCTTTG CAGACCCTGC AATGGTGGAT GGCCTTGTGG AGGCGCATCG CTTCTACACC
AATCTCAGCC AGGCGATACG GCTTTGCCTG AACGATAGCG CAGGGCTGGA TCAATTTCCG
CCCGGTATGC GTGAGCTCCT GTGCCGCGTT GCCGGATTGC CGGATATTGA ACGCATAGAA
TATGAGTTGC TGGAACATTA CAGGCTTGTC AGGGCTGCTT TTGACAAGCT CGTCGGACAT
GGCGCTGATT GA
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| Protein sequence | MTVENAKALF FERNLCALTP LDPERASAFL ADLEARAREE ELAGVVALLG RKKAADFLSA
ILDLSPFIRE ALTRQPRILD RIVSATPESA LEAILDEISA SGTVAGVSES ELMTSLRQLK
REAHVLIALC DLARIFNTET TTDRLTDLAE ACTGAAVRFL LLDADAAGRI NLPDRSNPEK
DCGWIVLGMG KFGARELNYS SDIDLIVFID ETKPAIGDPY ECVDTFSRLT RRLVRILQDR
TGDGYVFRVD LRLRPDPGST PLAIPVGAAL HYYEGRGQNW ERAAMIKARP VAGDRLSGKQ
ILAELSPYVW RKYLDYAAIA DVHSIKRQIH AHKGHGDIAV RGHNVKLGRG GIREIEFFVQ
TQQLIAGGRF PELRGNQTVP MLARLAERGW ITQQARDALA QEYWFLRDVE HRIQMIVDEQ
THILPEDDEG FARVSHMMGY ADPAEFSEIF LAALKVVEKQ YAALFAQAPE LGAASGNLVF
TGDVDDPGTL ETLSAMGYER SSDICRVIRT WHFGRYRATQ SAEARERLTE LTPALLKAFA
ETRRADESLR RFDGFLQGLP AGIQLFSLLQ SNPRLLNLLV MIMSAAPRLA DIITRNPHVF
DGLLDPAIFS EVPTRAYLEE RLRAFLGSAT DFEEVLDRLR IFAAEHRFLI GIRLLTGAIN
GVRAGQAFSD LAELMVGRAL EAVEAELQRR HGKVKGAKVA LLAMGKLGSR ELTAGSDVDL
ILLYDHDKDA EESDGEKPLA PSQYYIRLTQ RLIAALSAPT AEGVLYEVDM RLRPSGNKGP
VATHIEAFGK YQRNDAWTWE HMALTRARPI HGDEAFIARI KVDIEDVLAM PRDVRKLAGD
VREMRELIAQ EKPPRDDWDL KLKPGGIIDL EFIAQFATLA GYVKKTPRPF ATEEVLANLD
PFFADPAMVD GLVEAHRFYT NLSQAIRLCL NDSAGLDQFP PGMRELLCRV AGLPDIERIE
YELLEHYRLV RAAFDKLVGH GAD
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