| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Nmul_A2297 |
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| Symbol | |
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| ID | 3785113 |
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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 | Nitrosospira multiformis ATCC 25196 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_007614 |
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| Strand | - |
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| Start bp | 2611423 |
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| End bp | 2614500 |
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| Gene Length | 3078 bp |
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| Protein Length | 1025 aa |
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| Translation table | 11 |
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| GC content | 55% |
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| IMG OID | 637812384 |
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| Product | response regulator receiver /GGDEF/PAS/PAC domain-containing protein |
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| Protein accession | YP_412980 |
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| Protein GI | 82703414 |
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| COG category | [T] Signal transduction mechanisms |
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| COG ID | [COG2204] Response regulator containing CheY-like receiver, AAA-type ATPase, and DNA-binding domains
[COG5001] Predicted signal transduction protein containing a membrane domain, an EAL and a GGDEF domain |
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| TIGRFAM ID | [TIGR00229] PAS domain S-box
[TIGR00254] diguanylate cyclase (GGDEF) domain |
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Plasmid Coverage information |
| Num covering plasmid clones | 6 |
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| Plasmid unclonability p-value | 0.93563 |
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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 | ATGAGAGTGC TGTACCTTGA GGATAATGCG CTGGATGCCG ATCTGGTGCG ATTGGAGCTG
AAAAAACGCG CGCCCGACAT TCAGCTCGAT ATCGTCAGTT CGCTGGCGGA AGCTTTGCAT
CGCGTGGAAA GATTCCAGGA TCTCTATGGA ACCAGCCTCG GTATTCCAAT CGCCAAACCG
GCAGTCTCTA CTCGCTACGA TATCGTCCTG ACGGACCTCA ACCTTCCGGA CGGAAGTGGG
GAAACGTTGC TGGCTCAGAT TCGCAGACGA CATCTGCCGC TTCCAGTCGT GGTTCTTACC
GGTTCCAGCA GAGAAGAAGC CATCCTCTCG TTACTTCGAG CAGGAGCTGA CGATTACGTC
ATAAAGCACG GGCGCTTTCT CGAAACTCTT GGACTCGTGC TTCGGGCGAC GCTCGACAAG
TTCCAGACAG AAACTTACCG CCGCGCCACG GTACTCCAGG TTTTATACGT CGAGCCTAAT
CCGCATGACG CCGAAACGAT GAAACAGGCA CTGGCTTCCA CTGCGCCACA CCTTCGAATC
GAATCTGTTC AGTCAGCTGA GGAGGTTTTT TCCTATCTTG CTGAACAGGA TAGAAAGACC
GACGTTGACG TGTTGCTGCT CGATTACCGC TTGCCCGGCG CCTCGGCGAC GGACGTTCTG
AAGGAGCTTT GCCAGGTACG AGGGCTTGAT CTGCCCATCA TTCTCTTTAT CGGGAGCGAG
GATGAGGAGA TCGCCCGGCA GTCGCTGAAA CTGGGTGCTG CCGATTACGT GGTGAAGACC
GCAGGCTACC TCCAGCGATT GCCGACTGTC ATAGAAAATG TCTGGCTGCG GGCAGAATCG
AACAGAAGGG AGCGCGTCTT GCTGGAAGAG AGGACACGAC TTGCTCTTGC CACGGAAGCA
GCCGCCATCG GTATCTGGGA GTGGAATACT GCGACCAATG AAATGATCTG GAATGACCGG
ATGTACGAGA TCTACGGGAT TGCTCCAGGG AGTCGCATCA CATATGACAT ATGGAAATCC
TATACCCATC CGGACGATTT GCCCCAGCAG GAGATGCATC TGGAACGGGT CAGCGCCGAG
AATGGGCGCG TTCAACTCGA TTTCCGGATT TTGCGCGAAC ACAAGACGGT GCGCCATCTG
CATATCGCCA AGGCGTTGAA ATGGAGCACC AATCCAGATG AGCTGAGAAT AGTGGGGACG
GCTATCGACA TTACCAAACG GAAGCAAACT GACTTTGCAA TCCAGGAGCA TGCCATGCAG
CAGGGACTCA TTGCCGCATT CGGGCAACAG GCGCTCGCCA GCGGAAATCT TGCTCTGTTG
TGGGGCCAGG CAGCGGTGAT TGCTTCTCAA GGTCTCAATG TCGAGTTCTG CAAGGCGCTC
CAGCTTGCGC CGGATTTCCG TTCTTTTGTT CTTAAATCCG GGGTCGGCTG GCAGAAAGAC
TGGATTGGAA GGCAAATATC GTTTACATAC GAGAACAGTC AAAATCGCTT TGTACTCGCG
AGCCATCAAT CCGTCATTGT GGAGGACTTC CAGACGGAAA CCCGTTTCAA GCCTTCCAGC
ATCCTGAAGA GCCATAATAT ACGCAGTTGC GCAGATGTGC TTATTTCGGG GGCGGGGGGA
CCTTATGGGA TCCTTGGAGC CTATTCGCCC GAGCCACAGC GCTTCACGTC CAGCAGTATC
AATTTTCTTC AGAGTCTCGC GAATATTCTC GCAACCGCAA TTGACCGCAA GACAACGGAG
GAGCGCCTCA CCTACCTGGC CCAGTTTGAT CCCCTGACGG AACTGCCTAA TCGAAGTCTT
TTTCTTGATC GTCTCCGCCA GGCGATGGAA CATGCCCATC GCAATCGTCG CCGGGTCGGC
GTGGTATTTG CGGATCTGGA CCGCTTCAAG ATCGTCAACG ACACAATGGG CCATTCTACC
GGTGACGAGC TGCTGATCCA TGTCGCAAAG AGACTGCAGC AGTGTGTGCG TTCATGCGAC
ACGGTTGCCC GCCTTGGAGG GGATGAATTT GCCCTGATTC TGTCTGATCT CGTACAGCCT
GAAGATGCAA CCTTAATTGC AGAAAAGGTT ATTTCGGCGC TCCAGGTACC CTTCGAGCTG
GAAACACAGG AGATCTATGT TTCTGCAAGC CTTGGAATCA GCATCTATCC CGGCGATGGT
ACCGATGCAG ACAGCCTGCT CAGAAATGCG GATACAGCGA TGTTCCAGGC AAAAGAGCAG
GGACCGGCGA TTTATCAGTT TTATCTTCCG CAGATGAATG AGCGCGCGGT GGCTCGCCTG
AAAATCGAGA CGCAACTTCG CGGCGCTCTG GCACGGCGCG AGTTCGTGCT TCACTACCAA
CCCAAAGCAA GCCTGATCAA CGGAGAGATT ACCGGTTTCG AGGCGCTCCT GCGCTGGCAG
CACCCCGCGC ATGGACTGGT GCCTCCACTG CAGTTCATTT CCGTCCTCGA GGATACGGGA
TTGATCGTAG CGGTAGGCGA GTGGGTGGTG AAAACGGTTT GTGAGCAGAT CAGGGAATGG
CAGGGCCAGG GGCTGGTGTT GCATCCCATC GCCATCAATC TGTCAGCCCG GCAGTTTCAG
CAACAGGATC TGGATAGCAT TATCGGGGAA ACGCTGAGGG CTACGAACAT CGATCCGCGT
CTGCTGGAAT TCGAGCTTAC GGAGTCAGTA TTGATGAAGG AGGCCGAGAT GGCCGCCAAC
GCCTTGCAGA ATCTGAAAGC CTTCGGTGTC CAGATATCGA TGGACGATTT TGGTACCGGC
TATTCCAGTC TTGCCTATCT CAAGCGCTTT CCTCTGGATG TACTCAAGAT CGACCGTGCT
TTCATCCGCG ATGTCACGAC GGATCCCGAC GATGCAACCA TTACCGTAGC CATGATCAAG
CTCGCGCACA GCCTCGGGTT GAAAGTAGTG GCTGAAGGCG TCGAAACAAG GGCGCAACTG
GAGTTTCTGA TAAGGCACGG ATGCGACGAA ATGCAGGGCT ACTATTTTTC CCAGCCTTTG
CCGCTCGAGG GCGCATCCAA AGTGCTCATG GGTGGCTACC GTCTGTCAAT GAGCAACGGC
ATTTGCGCCG AGCAGTAA
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| Protein sequence | MRVLYLEDNA LDADLVRLEL KKRAPDIQLD IVSSLAEALH RVERFQDLYG TSLGIPIAKP
AVSTRYDIVL TDLNLPDGSG ETLLAQIRRR HLPLPVVVLT GSSREEAILS LLRAGADDYV
IKHGRFLETL GLVLRATLDK FQTETYRRAT VLQVLYVEPN PHDAETMKQA LASTAPHLRI
ESVQSAEEVF SYLAEQDRKT DVDVLLLDYR LPGASATDVL KELCQVRGLD LPIILFIGSE
DEEIARQSLK LGAADYVVKT AGYLQRLPTV IENVWLRAES NRRERVLLEE RTRLALATEA
AAIGIWEWNT ATNEMIWNDR MYEIYGIAPG SRITYDIWKS YTHPDDLPQQ EMHLERVSAE
NGRVQLDFRI LREHKTVRHL HIAKALKWST NPDELRIVGT AIDITKRKQT DFAIQEHAMQ
QGLIAAFGQQ ALASGNLALL WGQAAVIASQ GLNVEFCKAL QLAPDFRSFV LKSGVGWQKD
WIGRQISFTY ENSQNRFVLA SHQSVIVEDF QTETRFKPSS ILKSHNIRSC ADVLISGAGG
PYGILGAYSP EPQRFTSSSI NFLQSLANIL ATAIDRKTTE ERLTYLAQFD PLTELPNRSL
FLDRLRQAME HAHRNRRRVG VVFADLDRFK IVNDTMGHST GDELLIHVAK RLQQCVRSCD
TVARLGGDEF ALILSDLVQP EDATLIAEKV ISALQVPFEL ETQEIYVSAS LGISIYPGDG
TDADSLLRNA DTAMFQAKEQ GPAIYQFYLP QMNERAVARL KIETQLRGAL ARREFVLHYQ
PKASLINGEI TGFEALLRWQ HPAHGLVPPL QFISVLEDTG LIVAVGEWVV KTVCEQIREW
QGQGLVLHPI AINLSARQFQ QQDLDSIIGE TLRATNIDPR LLEFELTESV LMKEAEMAAN
ALQNLKAFGV QISMDDFGTG YSSLAYLKRF PLDVLKIDRA FIRDVTTDPD DATITVAMIK
LAHSLGLKVV AEGVETRAQL EFLIRHGCDE MQGYYFSQPL PLEGASKVLM GGYRLSMSNG
ICAEQ
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