| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Gbro_2637 |
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| Symbol | |
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| ID | 8552001 |
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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 | Gordonia bronchialis DSM 43247 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_013441 |
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| Strand | + |
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| Start bp | 2817878 |
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| End bp | 2820919 |
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| Gene Length | 3042 bp |
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| Protein Length | 1013 aa |
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| Translation table | 11 |
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| GC content | 61% |
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| IMG OID | |
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| Product | MMPL domain protein |
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| Protein accession | YP_003273761 |
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| Protein GI | 262202553 |
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| COG category | |
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| COG ID | |
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| TIGRFAM ID | |
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| 
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Plasmid Coverage information |
| Num covering plasmid clones | 13 |
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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 | ATGGTGGTCC AACGTCCAAG TGGTGGGCGC TTGGCGGCGC GCCGGTTGGC GGAACGCAGC
GAGTACAGCA CGACATTGGG GCGGTTGGCA CGGTTCACCT TGGCGCACAG ATTCCTCGTC
ATCGGGGCGT GGGTGGCTGT GGGTATCGTC TTGGCGATAC TGTTTCCCCA GCTGGAGACG
GTGGTGCGGC AGCAGTCTGT TGATCCGATC CCTGCTGGGG TTCCATCGTT TCAAGCACTC
GATCAGATGG GTGGTGCGTT CGGTGAGAAG GGCGCCAAGA CCACTGTTTT CGTGACCATG
GAGAACCCGA ACGGGTTCAC CGACGTGGCG CGGGAACGCT ACGACATGCT CGTTCTGCAG
TTGCGCGAAA ATTTCGACGA TGTGCAGTCA GTGCGGGATT TGCTCTCCGA TCCGACGACG
GCCGGCCAGG CCTTGAGTGA GGACGGGCAA GCCTGGTACT TGCCTGTCGG GGTCACCGGA
ACTTTGGGAG GGCCAACGGC CACGCATGCT GTGGAGACCG TGCGCCAAAC CGCGCAGCGC
GTGTTTGACG GTACGGACAC CACTGTCCAT GTCACCGGGC CGACGGCCAC TTTCAGTGAC
CAGATCGTCA GTGCTGAAAG CGATTTAGTC GTGATCACTG TGGCGACGGT GGCGCTTATC
GCGATCATTC TGTTGATCGT TTACCGATCG CTGTTCACCG CGCTGGTGCC GTTGTTGGTG
ATCGGTGTCA GCCTCGGCGT GGGCCGCGGG GTCTTGTCCG CACTCGGCGA ACTCGGTATG
CCGGTATCGC AGTTCACCGT CGCGTTCATG ACCGTCATCC TGCTCGGAGC CGGGGTCGAC
TACTCAGTCT TTTTCATCAG TCGCTATCAC GAACGGCTAC GCCAGGACGC TACCACTGAG
GTTGCGCTCG TGGACGCGAC AGCAACTATC GGACGGGTCA TCCTGGCTTC AGCTGCCACG
GTGGCGCTGG CCTTTTTGGC GATGGTGTTT GGTCAGCTGA GCGTGTTCTC CACCTTGGGT
CCGGCATGCG CGATCGCCAT CCTCATCGGA TTCCTCGCCA CGGTCACCCT GCTACCACCG
GTGTTGCTGT GGGCGGCGCG ATTCGGCTGG GGCGCACCCA GACGAGATCT GACCCGAAAG
TACTGGAATC GCGTCGCCGT GCTCGTCGTG CGGCGTCCTG TGCCTCTGCT GGCACTAACC
CTGGTCGGGC TAATCGTGCT TAGCGTCTTC GCGATGGGCA TCCAGATCAC CTTCGACGAT
CGTGAGGGGC AGCCCGCGAC AACCGACAGC AACGAAGGCT ACGCGTTGCT CGACCGTCAT
TTCCCTCAAG ACGTCACTAT CACTGAGTTC CTCGTTGTAG ATGCACCGAT CGATCTCCGT
ACTGCCAGCG GGCTGGCCGA TCTTGAGCAA ATGGCCTCAC GTGTATCCCA GATCCCCGGA
GTGACTCGAG TCATCGGTGT TACCCGTCCC ACCGGGGACA AGCTCGAGCA AGCCGAGCTG
TCCTGGCAGA ACGGTCAGAT CGGGGACCGG CTGGCGGGTG CGGTCGACGA TGGCCAGAAC
CGCCGAGGTG ACCTCGAACA GCTCCGTACC GGCGCATTCC AACTCGCCGA CGGGCTTACT
CAGCTCGACA CCCAGGTACG CACCAACTTG GCCCCCCTGG CCGGCATCCT CGATCAGGCA
AGCACAGCAG GGCAGCAAAT TCAGCAGTAC CAGCCGATAC TCCGCCAACT CGCCGCATCT
GCACCAGCGC TCGATCGCGC TTCTCAGAAT GCCCCACAGC TGGCCGCGCT CACCCGCCAA
ACATCTGCAG CCCTGGCAAC AGTGACCTCG ATCCTGCCCA TCCTCGATAA TGCGCCCTGG
TGCACCCAAG TCCCGCAGTG CGCAGCTCTG CGCGCGCAGA CCCGCAATCT CGACGCCCTA
CTGAGCAACG GGACCCTCGA CCAGATCGCC ACGCTGTCAA CACAACTCGC GCAGCTGGAT
ACACCGATCT CAACAGTCAC CGACCAACTC ACTTCCACCG TCAACTCACT GGGCTCCACG
CTGGGAAGCA TCAGCAGCCA AGACCTTCCC GGCAAGCTCA CCCAACTGCA AACAGGTATC
AGTCAACTCG CGGCGGGATC ACGCCAACTC GCCGCCGGTG TATCCGCGCT GATCGACAGC
AACCTTCAAC AACTCGCCGG GATGGCCGCG CTAGCCACAC AACTACAAAC CTCCGCCCGC
GAGACCGCCG GAACAAACTC AGCAACCGGC TTCTACCTCC CACCTCAGGC CAACGCAGAC
CGCCGTTTCG TCGACGTCGC TCGCCAGTTC GTCTCGCCCG ACGGCCATAC CGTGCGCTAC
GCAATACAAA CCAGCTTCGA CCCCTACAGC ACCGAGGCCA TGCAACTGGC CGACACAATC
ACCGATGTCG CACTCGCCGC CAGACCGAAC ACAACCCTGC AGGACTCCAA CATCGCGATA
GCCGGGTTCC CCGCCATCAA CGCCGATCTG CAACGTCTAC TCACCGAAGA CTTCCGACTC
CTAGCGTTGG CCACCCTCAC CATCGTCGGC CTGATCCTGA TACTCCTACT CCGAGCACTC
ATCGCGCCGC TATACCTTCT GGGCACCGTC ATACTCAACT ACACCGCGGC ACTGGGTATC
GGTGTCCTGA TCTTTCAACA CATCCTCAAA ACCGATATCG CCTGGCCCGT ACCACTACTG
GCCTTCATAG TCCTCGTCGC GGTCGGCGCC GACTACAACA TGCTTCTTAT CTCTCGCCTA
CGCGAAGAAT CCCAAAACAA CATCCGCATC GGCGTCCTGA GAACCGTCAC CAACACCGGA
TCAGTCATCA CCTCGGCCGG CCTCATCTTC GCTGCCAGCA TGTTCGGACT CATGGCCGGA
TCCATCTCGA TCATGACCCA GGTCGGACTC ATCATCGGCA TCGGCCTGCT GCTCGACACC
TTCATCGTCC GCACCATCGT TGTGCCGACC ATCGCCACAC TTGTCGGCAG AGCAAGCTGG
TGGCCGAGTA CCCGAACCGA CACGCATCCA GTGTCCCGCT AG
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| Protein sequence | MVVQRPSGGR LAARRLAERS EYSTTLGRLA RFTLAHRFLV IGAWVAVGIV LAILFPQLET
VVRQQSVDPI PAGVPSFQAL DQMGGAFGEK GAKTTVFVTM ENPNGFTDVA RERYDMLVLQ
LRENFDDVQS VRDLLSDPTT AGQALSEDGQ AWYLPVGVTG TLGGPTATHA VETVRQTAQR
VFDGTDTTVH VTGPTATFSD QIVSAESDLV VITVATVALI AIILLIVYRS LFTALVPLLV
IGVSLGVGRG VLSALGELGM PVSQFTVAFM TVILLGAGVD YSVFFISRYH ERLRQDATTE
VALVDATATI GRVILASAAT VALAFLAMVF GQLSVFSTLG PACAIAILIG FLATVTLLPP
VLLWAARFGW GAPRRDLTRK YWNRVAVLVV RRPVPLLALT LVGLIVLSVF AMGIQITFDD
REGQPATTDS NEGYALLDRH FPQDVTITEF LVVDAPIDLR TASGLADLEQ MASRVSQIPG
VTRVIGVTRP TGDKLEQAEL SWQNGQIGDR LAGAVDDGQN RRGDLEQLRT GAFQLADGLT
QLDTQVRTNL APLAGILDQA STAGQQIQQY QPILRQLAAS APALDRASQN APQLAALTRQ
TSAALATVTS ILPILDNAPW CTQVPQCAAL RAQTRNLDAL LSNGTLDQIA TLSTQLAQLD
TPISTVTDQL TSTVNSLGST LGSISSQDLP GKLTQLQTGI SQLAAGSRQL AAGVSALIDS
NLQQLAGMAA LATQLQTSAR ETAGTNSATG FYLPPQANAD RRFVDVARQF VSPDGHTVRY
AIQTSFDPYS TEAMQLADTI TDVALAARPN TTLQDSNIAI AGFPAINADL QRLLTEDFRL
LALATLTIVG LILILLLRAL IAPLYLLGTV ILNYTAALGI GVLIFQHILK TDIAWPVPLL
AFIVLVAVGA DYNMLLISRL REESQNNIRI GVLRTVTNTG SVITSAGLIF AASMFGLMAG
SISIMTQVGL IIGIGLLLDT FIVRTIVVPT IATLVGRASW WPSTRTDTHP VSR
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