| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Amir_0913 |
|---|
| Symbol | |
|---|
| ID | 8325079 |
|---|
| Type | CDS |
|---|
| Is gene spliced | No |
|---|
| Is pseudo gene | No |
|---|
| Organism name | Actinosynnema mirum DSM 43827 |
|---|
| Kingdom | Bacteria |
|---|
| Replicon accession | NC_013093 |
|---|
| Strand | + |
|---|
| Start bp | 1015032 |
|---|
| End bp | 1017968 |
|---|
| Gene Length | 2937 bp |
|---|
| Protein Length | 978 aa |
|---|
| Translation table | 11 |
|---|
| GC content | 76% |
|---|
| IMG OID | 644941456 |
|---|
| Product | bifunctional glutamine-synthetase adenylyltransferase/deadenyltransferase |
|---|
| Protein accession | YP_003098719 |
|---|
| Protein GI | 256375059 |
|---|
| COG category | [O] Posttranslational modification, protein turnover, chaperones
[T] Signal transduction mechanisms |
|---|
| COG ID | [COG1391] Glutamine synthetase adenylyltransferase |
|---|
| TIGRFAM ID | |
|---|
| 
|
Plasmid Coverage information |
| Num covering plasmid clones | 18 |
|---|
| Plasmid unclonability p-value | 1 |
|---|
| Plasmid hitchhiking | No |
|---|
| Plasmid clonability | normal |
|---|
| |
Fosmid Coverage information |
| Num covering fosmid clones | n/a |
|---|
| Fosmid unclonability p-value | n/a |
|---|
| Fosmid Hitchhiker | n/a |
|---|
| Fosmid clonability | n/a |
|---|
| |
Sequence |
| Gene sequence | ATGACCGATC CAGCACGCTC CTCCACGTCG CCCGCGCGCT TCGGGCTCAC CGACCCGCGC
AGCGGTGACC ACCTGCGCGA CGCGGGCTGG TGGGACGACC GGGGTCCCAC CGGCGGGGTC
GACCCGGTCC TGTCCGCGCT GGCCCGCAGC CCCGACCCGG ACCTGGCGCT GCTGGGCGTG
GACCGCCTCC GCGCCTCGCT GGGCGGGCGC TGGCCCGAGC TGGACGCCGC GCTGCGCGCC
GACGAGGTGG TGCGCGGCAG GCTCCTGGCG GTGCTCGGCT CGTCCACCGC GCTGTCCGAC
TTCCTCGCGG CCAACCCGGA CCGCTGGAGG GCGCTCGCGG GCACCGACCC GGTCGACCCG
GCCTCGTTCG TCCCCGCGCT CGTGCGGGTG GTCGGCGCGG ACGACCCGGT GCGCGAGCTG
AAGCTGGAGT ACCGGGCGCT GCTGTGCCGG ATCGCCGCCG AGGACCTGGC GCACGTCGTC
GAGCCCGAGC TGCCGTACGT GCCGTACGAC GACGTCGCGG GCCTGCTGTC CGACCTCGCC
GTCGCCGCGC TGCACGCCGC GCTGGAGGTC GCCCGCACCA GGGTGCCCAG GGCCGACGAG
TGCCGGTTGG CCGTGATCGC GATGGGCAAG TGCGGCGCGC GGGAGCTGAA CTACGTCAGC
GACGTCGACG TGGTGTTCGT CGCCGAGGGC GACACGGGCG TGGCGACCCG GCTGGCGAGC
ACGCTCATGC AGGTCGCGGG CAAGGCGTGC TTCGAGGTGG ACGCGGCGCT GCGCCCCGAG
GGCAAGGCGG GCGCGCTCGT GCGCACCCTG GACGGGCACG CCTCCTACTA CCGGCGGTGG
GCGCGCACCT GGGAGTTCCA GGCGCTGCTC AAGGCCCGGC CGGTGGTCGG CGACGCGGAG
CTGGGGCAGC GGTACCTGGA GGTGGTGCGC CCGCTGGTGT GGACCGCCGC CGAGCGCGAG
GACTTCGTGC CGGACGTGCA GGCCATGCGG CGGCGCGTCG AGCAGCACGT GCCCGTCGGG
CTGGAGGAGC GCGAGCTCAA GCTCGGGCGG GGCGGGCTGC GGGACGTCGA GTTCGCGGTG
CAGCTGCTCC AGCTCGTGCA CGGGCGCGGC GACGAGGAGC TGCGCATCCA GGCCACCACG
CAGGCGCTCG CCGCGCTCGG GCGCGGCGGG TACGTGGGGC GGGCCGACGC GGCGGACTTC
GGCCGCGCCT ACCGGTTCCT GCGCACCCTG GAGCACCGGT TGCAGCTGCA GAAGCTGCTG
CGCACCCACC TGTTCCCGGC CGAGGGCGAC GAGGCGGCGC TGCGCTGGCT CGCCCGCGCC
TCCGGGCTGC ACGCCGAGGG CGGCCAGTCC GAGGCGCAGG TGCTGCTCGC CGAGTTCCGC
AAGCGCGCCA ACCAGGTGCG CAGGCTGCAC GAGAAGCTGT TCTACCGGCC GCTGCTCCAG
GCCGTGGCGA ACGTGCCGAC CGAGGCGCTG CGGCTGACCA CCGGCGAGGC GGTCAACCGG
CTGGCCGCGC TCGGCTACAC CGCGCCGGAC GGGGCGCTGC GGCACATCGA GGCGCTCACC
AAGGGCATGT CGCGGCGGGC CCGCATCCAG GGCGCGCTGC TGCCCGTGCT GCTCGACCAG
CTCGCCACCA CCCCCGACCC GGACGGCGGG CTGCTGTCGT ACCGGAAGGT GTCCGAGGCG
CTCGCCGAGA CGCCCTGGTA CCTGCGGCTG CTGCGCGACG AGGGCGCGGT CGTGGACCGG
CTGGCGGCGC TGCTCGGGTC CTCGCGGCTG GTGCCGGACC TGCTGGTGCG GGCCCCCGAG
GTGCTGCGGC TGCTCGCCGA CACCGAGGCG CTCCTCGGGC GGGACCCGAT GACCGTGGGC
AACCCGCTGC GCAGCACGGT GTCCCGGCAC CACGACCTGG AGCGGGCGGT GACGGCGGCG
CGCTCGCTGC GGCGGCACGA GCTGCTGCGG GTGGCGTGCG CTGACCTGCT CGGGCTGGCG
ACGCTGCGGA CGGTGTGCGT GTCGCTGTCC GAGGTGTGGG TGGCGGTGCT GGAGGCCTCG
CTGGACGCGG TGGTGCGGGC GGCGGGCGAA CCCAGGGCGC GGATCGCGGT CATCGGGATG
GGCAGGCTCG GCGGGCGGGA GCTGGGGTAC GGGTCGGACG CGGACGTGGT GTTCGTGTGC
GAGGCGATCG ACGGGGCGAG CGACTCGGAG GCGGTGCGGT ACGCGAACGG CGTCGTCGAG
CGGGTGCGGC GGCTGCTGAG CGCGCCCAGC CAGGACCCGG CGCTCCAGGT CGACGCGGAC
CTGCGGCCCG AGGGCAGGCA GGGGCCGCTG GTGCGGACGC TGGAGTCGTA CCGGGCGTAC
TACGCGCAGT GGGGCGAGCT GTGGGAGTCG CAGGCGCTGC TGCGGGCTCG GGTGATCGCC
GGGGACGACG AGCTGGGCGC GCGGTTCGTG GCGATGATCG ACCCGGTGCG GTACCCGGAG
GGCGGGCTGG ACTCCGGGCA GGCGCGGGAG ATCCGGCGGA TCAAGGCGCG CGTGGAGGCC
GAGCGGCTGC CGCGCGGCGC GGACCCGTCG ACGCACACCA AGCTGGGGCG CGGCGGGCTG
GCGGACGTGG AGTGGACGGT GCAGCTGCTC CAGCTGCGGC ACGCGGCCGA GGTGCCCGCG
CTGCGCACGC CGTCCACGGT GCGGGGGCTG CGGGCGGCGC AGGAGGCCGG GCTGGTGTCG
GCGGAGGACG CCGAGGTGCT GCGCGAGTCG TGGGTGCTGG CGACGCGGGC GCGCAACGCG
GTCGTGCTGG TGAAGGGCAA GCCGGGCGAC CAGCTGCCCA CGGTGGGGCG GGACCTGGCG
GCGGTGGCGG CGGTGATGGG GCACGCGCCG GACGACGCGG GGGAGTTCCT GGACTCCTAC
CGGCGCGCCA CGCGGCGGGC TCGGGGCGTG GTGGAGCGGG TGTTCTACGG GTCGTGA
|
|---|
| Protein sequence | MTDPARSSTS PARFGLTDPR SGDHLRDAGW WDDRGPTGGV DPVLSALARS PDPDLALLGV
DRLRASLGGR WPELDAALRA DEVVRGRLLA VLGSSTALSD FLAANPDRWR ALAGTDPVDP
ASFVPALVRV VGADDPVREL KLEYRALLCR IAAEDLAHVV EPELPYVPYD DVAGLLSDLA
VAALHAALEV ARTRVPRADE CRLAVIAMGK CGARELNYVS DVDVVFVAEG DTGVATRLAS
TLMQVAGKAC FEVDAALRPE GKAGALVRTL DGHASYYRRW ARTWEFQALL KARPVVGDAE
LGQRYLEVVR PLVWTAAERE DFVPDVQAMR RRVEQHVPVG LEERELKLGR GGLRDVEFAV
QLLQLVHGRG DEELRIQATT QALAALGRGG YVGRADAADF GRAYRFLRTL EHRLQLQKLL
RTHLFPAEGD EAALRWLARA SGLHAEGGQS EAQVLLAEFR KRANQVRRLH EKLFYRPLLQ
AVANVPTEAL RLTTGEAVNR LAALGYTAPD GALRHIEALT KGMSRRARIQ GALLPVLLDQ
LATTPDPDGG LLSYRKVSEA LAETPWYLRL LRDEGAVVDR LAALLGSSRL VPDLLVRAPE
VLRLLADTEA LLGRDPMTVG NPLRSTVSRH HDLERAVTAA RSLRRHELLR VACADLLGLA
TLRTVCVSLS EVWVAVLEAS LDAVVRAAGE PRARIAVIGM GRLGGRELGY GSDADVVFVC
EAIDGASDSE AVRYANGVVE RVRRLLSAPS QDPALQVDAD LRPEGRQGPL VRTLESYRAY
YAQWGELWES QALLRARVIA GDDELGARFV AMIDPVRYPE GGLDSGQARE IRRIKARVEA
ERLPRGADPS THTKLGRGGL ADVEWTVQLL QLRHAAEVPA LRTPSTVRGL RAAQEAGLVS
AEDAEVLRES WVLATRARNA VVLVKGKPGD QLPTVGRDLA AVAAVMGHAP DDAGEFLDSY
RRATRRARGV VERVFYGS
|
|---|
| |