| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Rfer_2422 |
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| Symbol | |
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| ID | 3961249 |
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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 | Rhodoferax ferrireducens T118 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_007908 |
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| Strand | + |
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| Start bp | 2670328 |
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| End bp | 2672919 |
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| Gene Length | 2592 bp |
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| Protein Length | 863 aa |
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| Translation table | 11 |
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| GC content | 61% |
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| IMG OID | 637917240 |
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| Product | PII uridylyl-transferase |
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| Protein accession | YP_523670 |
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| Protein GI | 89901199 |
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| COG category | [O] Posttranslational modification, protein turnover, chaperones |
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| COG ID | [COG2844] UTP:GlnB (protein PII) uridylyltransferase |
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| TIGRFAM ID | [TIGR01693] [Protein-PII] uridylyltransferase |
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Plasmid Coverage information |
| Num covering plasmid clones | 12 |
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| Plasmid unclonability p-value | 1 |
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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 | ATGACCGATC TTCAAGCGCT GCGCAGCCGT TATCGGGCGC AAAAATCCAC CATCCTGGAA
GCCATTGCCT CACCCGGGAC CACCACGCGC GGTGTTCGGG CCACGCTGGG CAAACTCTCT
GCGCTGGCCG ATGGCACGCT CAAAATATTA TGGCGGCAGG CCGGTTTTAC CCGCCCGTTT
GCCCTGATTG CCGTCGGTGG CTTTGGGCGC GGCGAGCTGT TTCCCTACTC CGATGTCGAC
GTGCTGGTGC TCTTGCCCAA CGAGCATTCA CCCGCCAACG ACGCTCAACT CAAGACCCAG
ATCGAAGGTT TTATTGGCAG TTGCTGGGAC GCCGGGCTGG AGATCGGCTC GAGCGTACGC
ACGGTTGCCG AATGCCTGGA GGAAGCCGCC CGCGACGTGA CGGTGCAGAC CTCGCTGCTC
GAAGCCCGGC TGATCACGGG CAGCGCCGAG CTGTTTGCCG GATTTGAACG TCAGTTTTTT
TCAGCGATCG ACCCCGGCGC TTTTTTTATC GCCAAGACGC TGGAGATGCG CCAGCGCCAC
AGCAAATTTG AAGACACGCC CTACGCGCTG GAACCCAATT GCAAGGAGTC ACCGGGCGGC
CTGCGTGATT TGCAGGTCAT TCTGTGGGTG GCCAAGGCGG CTGGCTACGG CAACGATTGG
GACGCGCTGG CCAAAAGCGG CTTGGCCACC GCTTTTGAAG TCCAACAGAT CAAACACAAC
GAAGCGGTTT TGCGGCTGAT CCGGGCGCGC CTGCACTTGC TTGCGCGGCG GCGCGAGGAC
CGGCTGGTGT TTGATTTGCA AAACGCGATG GCCCAGTCTT TTGGCTTTGA GGCGCCCCCT
GACAACACCG ACAATCGGGC GTTTGTGCGC CCCAGCGAGG CACTGATGAA GCGCTATTAC
TGGTCGGCCA AGGCCGTGAC CCAGCTCAAT CAGATTTTGT TGCTGAACAT TGAGGAGCGG
CTCAACCCGT CGACCCAAGC GCCGCAAGCC ATCAATGCAC GCTTTTATGA CAAGGCGGGC
TTGGTGGAGG TGGCCAGCGA CGACTTGTAC CAGCGCGAGC CGCACGCCAT TCTGGAGACC
TTCCTGATTT ATCAGACCAC GCCCGGCCTG AAAGGACTGT CGGCCCGCAC CTTGCGCGCG
CTCTACAACG CCCGCGACCT GATGAATGGC AAATTTCGCA ACGACCCGGT CAATCGCGAA
ACCTTCAAAC AAATCATGCT GCAACGCAGC GGCATCACCC ACGCCATGCG TCTGATGAAC
CAGACCTCGG TGCTGGGGCG CTACTTGTGG GCGTTTCGCA AAATTGTGGG GCAGATGCAG
CATGACTTGT TTCATGTCTA CACGGTCGAC CAGCACATCT TGATGGTGCT GCGCAATGTG
CGGCGCTTCT TTATCGTTGA ACACGCCCAC GAGTACCCGT TTTGCTCCCA GCTCGCCGCG
GGTTGGGACA AGCCCTGGAT CCTGTACACG GCGGCGCTGT TTCACGACAT CGCCAAAGGC
CGCGGCGGCG ACCACTCGGA ACTGGGCGCC GTCGAGGCAC GCCGCTTTTG CAAGCAGCAC
GCGTTCTCAA AAGAAGACAC CCAACTGATC GAGTTCATCG TGCACGAGCA CCTGACGATG
AGCCGGGTGG CGCAAAAATC CGACCTGAGC GACCCCGACA TCGTCGCCGC GTTTGCGAAA
CGCGTGGGCA ATGAGCGCTA TCTGACCGCT TTGTACCTGT TTACCGTGGC CGACATTCGC
GGCACCTCGC CCAAGGTCTG GAATGCCTGG AAAGGCAAGC TGCTGGAAGA CCTGTATCGC
CTGACCTTGC GGGTTTTGGG TGGTCACGCC TCCGATCCGC ACGATGAAGT GGAAGCCCGC
AAGCGCGATG CACTGATCAT GCTGGCCTTG CACGCCCAGC CGTTTGAGGC CCACAAACGC
CTGTGGGAGA CACTGGACGT GGGCTATTTT CTGCGCCACG ATGCGGCCGA CATTGCCTGG
CACACGCGGC AACTCTCGCG CCACGTGGGC GCCGGCAAAC CAATCGTGCG GGCGCGCAAA
TCACCGGTGG GAGAGGGACT GCAGGTGGTG GTCTACACAC CGGACCAGCC CGACCTGTTT
GCCCGCATCT GCGGCTATTT TGACCAGGGC GGCTTCAGCA TTCTGGACGC GCGTGTGCAC
ACGGCCAACA ACGGCTACGC CATGGACACG TTTCAAGTGG TCACCTCTGC CCTGCCCGAG
CACTATCGCG AGCTGACCAG CATGGTGGAG AGTGAGCTCA GTCGCGTCCT GGCAGAAGCG
GGCCCGTTGC CGCCGCCCAG TCGCGGGCGG GTGTCACGCC GGGTGAAAAG CTTCCCGATC
ACGCCCCGTG TCACCCTGCG CCCGGACGAG AAAGGGCAGC GCTGGCTGCT CAACATCTCC
GCCAGTGACC GGGTTGGGCT GCTGTACTGC GTGGCGCGGG TGCTGGCGCG GCACAAAATC
AACCTGCAAC TGGCAAAGAT CAACACGCTG GGGGAACGGG TGGACGACAC CTTCCTGATT
GAGGGGCCGG AGCTGCAACA CAACCGCGCG CAGATCGAGA TCGAGACGGA ACTGATGGAA
GCGCTGGCTT GA
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| Protein sequence | MTDLQALRSR YRAQKSTILE AIASPGTTTR GVRATLGKLS ALADGTLKIL WRQAGFTRPF
ALIAVGGFGR GELFPYSDVD VLVLLPNEHS PANDAQLKTQ IEGFIGSCWD AGLEIGSSVR
TVAECLEEAA RDVTVQTSLL EARLITGSAE LFAGFERQFF SAIDPGAFFI AKTLEMRQRH
SKFEDTPYAL EPNCKESPGG LRDLQVILWV AKAAGYGNDW DALAKSGLAT AFEVQQIKHN
EAVLRLIRAR LHLLARRRED RLVFDLQNAM AQSFGFEAPP DNTDNRAFVR PSEALMKRYY
WSAKAVTQLN QILLLNIEER LNPSTQAPQA INARFYDKAG LVEVASDDLY QREPHAILET
FLIYQTTPGL KGLSARTLRA LYNARDLMNG KFRNDPVNRE TFKQIMLQRS GITHAMRLMN
QTSVLGRYLW AFRKIVGQMQ HDLFHVYTVD QHILMVLRNV RRFFIVEHAH EYPFCSQLAA
GWDKPWILYT AALFHDIAKG RGGDHSELGA VEARRFCKQH AFSKEDTQLI EFIVHEHLTM
SRVAQKSDLS DPDIVAAFAK RVGNERYLTA LYLFTVADIR GTSPKVWNAW KGKLLEDLYR
LTLRVLGGHA SDPHDEVEAR KRDALIMLAL HAQPFEAHKR LWETLDVGYF LRHDAADIAW
HTRQLSRHVG AGKPIVRARK SPVGEGLQVV VYTPDQPDLF ARICGYFDQG GFSILDARVH
TANNGYAMDT FQVVTSALPE HYRELTSMVE SELSRVLAEA GPLPPPSRGR VSRRVKSFPI
TPRVTLRPDE KGQRWLLNIS ASDRVGLLYC VARVLARHKI NLQLAKINTL GERVDDTFLI
EGPELQHNRA QIEIETELME ALA
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