| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Snas_2076 |
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| Symbol | |
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| ID | 8883269 |
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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 | Stackebrandtia nassauensis DSM 44728 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_013947 |
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| Strand | + |
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| Start bp | 2199979 |
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| End bp | 2203353 |
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| Gene Length | 3375 bp |
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| Protein Length | 1124 aa |
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| Translation table | 11 |
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| GC content | 67% |
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| IMG OID | |
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| Product | alpha-1,2-mannosidase |
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| Protein accession | YP_003510863 |
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| Protein GI | 291299585 |
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| COG category | |
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| COG ID | |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 9 |
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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 | 24 |
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| Fosmid unclonability p-value | 1 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGCCCCGGC AGCGATTGAC CCGATGGATC ACCGTCCTGG CCTGTTCCGC CCTCACCCTG
GTCCTGATGC CCCCCGGCCG GGCCGCGGCG GCCGACGGCA CCGACTTCGA CACCTCCTTC
GAGGACGGAC AGTCGCTGCC CGACTGGGAG AACTCCGTCG AGAACGACCG GACCGGCGGC
CTCGACGGCA CCATGAAGAG CGCCCGCGAT ACGGGACCCG CCGAGTCGCC CACCGCCAAG
GCCAAGGTCG GCTACACCGG CACCAGGTCG GCGTCGATCT CCGGCAACCA CACCTCCGGT
GACCGCGGCT TCTCGTACAA CAAACTCCTG GACACCGACA TCGAGGTCAC CGAGACCAGC
GAACTGTCCT ATCTGATCTT CCCCAAGTTC GTCGAGAACG CCCCCGCCAA CCCGAGCACC
TTCGCCGCCG TCGATCTGGC CTTCACCGAC GGGACCTACC TGTCGGAACT GGGTGCCGTC
GACCAGCACG GCGCCAAGGT CGACCCGACC TCGCAGGGCA AGTCCGAGAC GCTCTACACC
GGTCAGTGGA ACCGCAAGGC CGTGCCGCTG GGCGAGGTGG CCGCCGGTAA GACCATCGAC
CGGATCCTGT TGGCCTACGA CAACCCCGAC GGCCCGGCGA CCTTCACCGA CTACTTCGAC
GACATCCGCG TCGTGGGTGA ACCCGAGGCC CCCGACGGCT CGCCCGCCGA CTACGCGCTG
ACCACCAGGG GCACCCAGTC GTCCGGGGAC TTCTCGCGCG GCAACAACTT CCCGGCCACC
GCCGTTCCGC ACGGCTTCAA CTTCTACACC CCGGTCACCG ACGCCGGTTC CACCAGCTGG
CTGTACCAGC ACCACCGCGC CAACAACGCC GCCAACCGTC CCGAGTTGCA GGCGTTCTCG
GTCAGCCACG AACCCAGTCC GTGGATGGGG GACCGGCAGA CCTTCCAGGT GATGCCCTCC
ACCGCCTTGG GCACCCCCGA CGCGGACCGC AAGAAGCGGG CACTGCCGTT CGGGCACGAC
AAGGAGATCG CCAAACCGCA CCACTACGGC GTCATGTTCG ACAACGGCCT GAGCACCGAC
ATCGCCCCGG CCAATCATTC GGGGCTGTTC CAGTTCAGCT TCCCCGACGA GAACGCGAAC
CTGATCTTCG ACAACGTCAA GGGCGACGGC GGTCTGACCC TCAACGTTGA CGACGGCGTC
GTCACCGGGT ACTCCGACGT CAAGAGTGGA CTGTCCACGG GCGCCACCCG CATGTTCGTG
TACGCCGAGT TCGACGACGC GGCCACCAAG GGCGACAAGC TCTCCGGCGG CGGTGGCGAG
AAGGTCGCCG GTTACATGCG CTTCGACGCC GGTGACGACC GCACCGTCAC GATGCGGCTG
GGCACCTCGC TGTTGAGCGT CGAGCAGGCT CGCAAGAACA TGGAGTCCGA GATCGGCGGC
AAGACCTTCG ACGAGGTCCG CGGCGAGGCC GAGGACCAGT GGAACGACAA GCTCGGCGTC
ATCGAGGTGG AGGGCGCCAG CCAGGACCAG TTGACCACTT TGTACTCCAA CCTGTACCGG
CTGTTCCTGT ACCCCAACAT CGGGCACGAG AACGTCGGCA CGCCCGGCGA GCCGAAGTTC
CGTTACGCCA GCCCGGTCCG GCCGCCCGCC GGGAACGACA CCCCCACCGA GACGGGTGCG
ACCGTCGTGG ACGGGGAGAT GTTCGTCAAC AACGGATTCT GGGACACCTA TCGAACCACC
TGGCCCGCGT ACGCGTTGTT CGACTCCGAC AACGCGGGCA ACATGATGGA CGGTTTCGTG
CAGCAGTACC GCGACGGCGG CTGGATCTCG CGCTGGTCCT CGCCCGGTTA CGCCGATCTC
ATGGTGGGCA CCAGTTCCGA CGTCGCCTTC GCCGACGCGT ACCTGAAGGG CGTCGAGGAC
TTCGACGTCG AGTCGGCCTA CGACGCGGCG GTCAAGAACG CGACCGTCGC GCCGCCGGAG
AAGGGTGTGG GCCGCAAGGG ACTGGAGACG TCCATCTTCG ACGGTTACAC CTCCACCGAG
ACCCGGGAGG GCATGTCCTG GGCGCTTGAG GGCTACGTCA ACGACTTCGG CATCGCGAAC
ATGTCGAAGA AGCTGTACGA GGCCGATCAG GACGGTCCCC GCGCCGAGGA GTACAAGACC
AACTACGAGT ACTTCCTCAA CCGGGCGCAG AACTACGTCA ACATGTTCGA CGACCGCATC
GGCTTCTTCC AGGGCAAGGA CGCAAGCGGC GACTGGCGGG TGCAGGACCC GGGCGCGTTC
AACCCGGCCG AATGGGGCCA CGACTACACC GAGACCAACG CGTGGAACAT GGCCTTCACC
GTCCCGCAGG ACGGCAGGGG ACTGGCGAAC CTGTACGGCG GCCGCGACAA ACTCGCGTCC
AAGCTGGACA AGTTCTTCAC CACCCCGGAG ATGGCCAAGT ACCCCGGCTC CTACCCGGGC
GTCATCCACG AGATGCGCGA GGCCCGCGAC ACCCGGATGG GCATGTACGG GCACAGTAAC
CAGCCCTCGC ACCACATCCC GTGGATGTAC GACTACGTCG GCCAGCCCTG GAAGACGCAG
GCGCTGACCC GCGAGGCCAC CTCCCGGCTG TACCTGGGCA GCGAGATCGG CCAGGGCTAC
CCCGGCGACG AGGACAACGG CGAGATGTCG GCCTGGTGGC TGTTCTCGGC GCTGGGCTTC
TACCCGTTGC AGATGGGCTC GGAGAACTAC GCGCTGGGCT CACCGCTGTT CACCAAGGCG
ACCGTCCACC TTGACAACGG CAAGGACATC GTCGTCAACG CGCCCGCCAA CAACGCCAAG
AACGTGTACG TGCAGGGCCT GAAGGTCAAC GGCAAGGCAC ACAAGAAGGC GTACCTCGAC
AGCGACACGC TCACCGGCGG TGCGACCCTG GACTTCGCGA TGGGCGCCAA GCCGTCGGAC
TGGGCGTCGA GCCCGAGCGC GGCGCCGCCG TCGATCACCA AGGACGACAA GATCCCCGAC
CCGTTGAAGG ACGCGGCCAA GGGCGCCACG ACCACCACAC CGGAGGCGTT CGACGACTCC
TCCAAGACGG CGGTTACCTC GGACGGTGGC GAGTTGACGG TCGAGGCGGC GCTGTCCAAG
CCGACCGAGC CGCGCATGTA CACGCTCACC TCGGCCAGCA AGGAGTCCGC GCCGACGGCG
TGGCGGCTGG AGGGCTCGGC CGACGGCACC AACTGGGCGA CCCTTGAGAC CCGCGACGGC
GAGAACTTCA AGTGGGACAA GCAGACCCGC TCGTTCCTGA TGCCGCTGAA CTCCGGCTTC
AAGAAGCTGC GGATCGTGGT GACCGAGACC GCTGGTGACC CGGCGGCGCT GTCGGAGGTG
GAGTTCCTGG TCTAG
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| Protein sequence | MPRQRLTRWI TVLACSALTL VLMPPGRAAA ADGTDFDTSF EDGQSLPDWE NSVENDRTGG
LDGTMKSARD TGPAESPTAK AKVGYTGTRS ASISGNHTSG DRGFSYNKLL DTDIEVTETS
ELSYLIFPKF VENAPANPST FAAVDLAFTD GTYLSELGAV DQHGAKVDPT SQGKSETLYT
GQWNRKAVPL GEVAAGKTID RILLAYDNPD GPATFTDYFD DIRVVGEPEA PDGSPADYAL
TTRGTQSSGD FSRGNNFPAT AVPHGFNFYT PVTDAGSTSW LYQHHRANNA ANRPELQAFS
VSHEPSPWMG DRQTFQVMPS TALGTPDADR KKRALPFGHD KEIAKPHHYG VMFDNGLSTD
IAPANHSGLF QFSFPDENAN LIFDNVKGDG GLTLNVDDGV VTGYSDVKSG LSTGATRMFV
YAEFDDAATK GDKLSGGGGE KVAGYMRFDA GDDRTVTMRL GTSLLSVEQA RKNMESEIGG
KTFDEVRGEA EDQWNDKLGV IEVEGASQDQ LTTLYSNLYR LFLYPNIGHE NVGTPGEPKF
RYASPVRPPA GNDTPTETGA TVVDGEMFVN NGFWDTYRTT WPAYALFDSD NAGNMMDGFV
QQYRDGGWIS RWSSPGYADL MVGTSSDVAF ADAYLKGVED FDVESAYDAA VKNATVAPPE
KGVGRKGLET SIFDGYTSTE TREGMSWALE GYVNDFGIAN MSKKLYEADQ DGPRAEEYKT
NYEYFLNRAQ NYVNMFDDRI GFFQGKDASG DWRVQDPGAF NPAEWGHDYT ETNAWNMAFT
VPQDGRGLAN LYGGRDKLAS KLDKFFTTPE MAKYPGSYPG VIHEMREARD TRMGMYGHSN
QPSHHIPWMY DYVGQPWKTQ ALTREATSRL YLGSEIGQGY PGDEDNGEMS AWWLFSALGF
YPLQMGSENY ALGSPLFTKA TVHLDNGKDI VVNAPANNAK NVYVQGLKVN GKAHKKAYLD
SDTLTGGATL DFAMGAKPSD WASSPSAAPP SITKDDKIPD PLKDAAKGAT TTTPEAFDDS
SKTAVTSDGG ELTVEAALSK PTEPRMYTLT SASKESAPTA WRLEGSADGT NWATLETRDG
ENFKWDKQTR SFLMPLNSGF KKLRIVVTET AGDPAALSEV EFLV
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