Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Snas_3322 |
Symbol | |
ID | 8884521 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Stackebrandtia nassauensis DSM 44728 |
Kingdom | Bacteria |
Replicon accession | NC_013947 |
Strand | - |
Start bp | 3510789 |
End bp | 3514058 |
Gene Length | 3270 bp |
Protein Length | 1089 aa |
Translation table | 11 |
GC content | 67% |
IMG OID | |
Product | alpha-1,2-mannosidase |
Protein accession | YP_003512081 |
Protein GI | 291300803 |
COG category | |
COG ID | |
TIGRFAM ID | |
| ![](https://exploration.weizmann.ac.il/pandatox/images_new/ic_cp.jpg)
![](https://exploration.weizmann.ac.il/pandatox/images_new/ic_hh.jpg)
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Plasmid Coverage information |
Num covering plasmid clones | 4 |
Plasmid unclonability p-value | 0.0532336 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 18 |
Fosmid unclonability p-value | 0.277705 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGCTTTCCG CGTCAAAGCG TGTCAACGCC GTCCTGGCCG CAGCCGTGCT CGCCGTCGGA CTGCTCGTGC CGTCCTCGGC GGTCGCCGTG GAACCCGAGG ACCCCACGAC GTTGGTCAAC CCGTTCGTCG GGACGCAGAA CTTCGGCAAC ACGTTCCCCG GTGCCAGCGC GCCGTTCGGG ATGGTGCAGA TCAGCCCCGA CACCGGCGGC CAGGGCGGGT ACGACTACCA GCAGGACAAG ATCCACGGAT TCAGCCAGAC CCACCTGTCG GGCGTCGGGT GTGGAGTGTC GGGTGAACTG CCGATCATGC CGACCACCGG CGAGGTCGAC ACCGTCGATC CCGAGAAGTA CCGGTCGAAG TACTCCCACG ACGACGAGGA GGCCACCCCC GGGTACTACC AGGTTGGACT GTCCTCATAT GACATCAACG CCGAGCTGAC CGCGACAAAA CGCACCGGCT GGCAGCGCTA CACCTTCCCC GACACCGACG CGGCGAACCT GATGTTCAAC ACCGGCAAGG CCAACCAGTC GGTGCACGAC TCCGAAGTGC ACGTCGTCGG CGACCGCACC GTCGAGGGCC GGGTGACCGC CGGTGGCTTC TGCGCGGGCA AGGACAAGCA CACCGTGTAC TTCACCGCCA CCTTCGACCA GCCCTTCGAC TCCTACGGCA CCTGGCGGGA CAAGACCATC CGGCCCGACA CGCGCGACGC GTCGGGCGAG GGCGGCAACG GCGCCTGGAT CGGCTTCGAC GCCAGCAAGG ACCGGGAAGT GGTGGCCAAG GTCGGCCTGT CCTACACCGG AATGGACGGT GCGCGAAAGA ACCTGGACGC CGAGACCGGC GACTCCTACG ACTTCGACGC CGTGCGGGAA CAGCTGCACG ACGACTGGGT CGACAAGCTC AACTCCATCA CGATCACCGG TGGCACAAAG GAACGACGGG AAGCGTTCTA CACGGCGCTG TACCACGCGC AACTGCACCC GAACCTGGCC GGAGACGTGG ACGGACGCTA CACCGGCTTC GACGGCGAAG TGCACACCGC CAAGGGATTC ACGCCCTACC AGAACCTGTC GCTGTGGGAC ACCTACCGTC CCCAGAACCA GCTGCTGGAG ATGCTGGAAC CCCAGGTGGC CCGGGACGTC GCGCTGTCCA TCGTCGCGAT CGGCCGCGAG GGCGGCTGGC TGCCCCGCTG GGCACTGGCC AACAGCGAGA CCAACATCAT GACCGGGGAC CCGGTGACAC CGTTCCTGGT GGAAGCATGG TCGAAGGGGT TGCTGGCCGG GCACGAGGAC GAGGCCTACG AGCTGCTGAA GCAGAACGCC ACCAGCACAC CACCGAAGGA CTCCCCCTAC AACGGACGGT CCGGAATCGA CTATTACCTG AAACGCGGGT ACATACCGTC GGGTCTGGAC CTCGAAACCG ACTGCGCGCA CAAGGGCGGC GACAACGACT GCAAGCACCC GGCCTCGGCG ACCCTCGAAT ACGCCGCCGC CGACTCCGCG CTGGCGTTGA TGGCCGACGG CCTGGGGCAC GGCTCCGACG CGAAGAAGTT CGCCGCCCGT GGCCAGTGGT ACCGCAACCT GTGGGACGAC AAGACCGGCC ACTTCCGGCC CCGAACCGGC GACGGCACCT GGCTGACCCC ATACGATCCC GTCAGCGCCG ATCACCAGTT CCACGAAGGC GGCGCGTACC AGTACCAGTG GCTGGTCCCG CAGGACCCGG CCGGTCTCGT CGACCTGATG GGCGGCGAGA CCGACACCGA GAAACGGCTG GACGACTTCT TCGTCTACGA CAAGCTGCTG ACCGACCCCG AGGGCACCGC CCGCGAGGAC TGGATCACCG ACCCGTACGA CTACTACGGC AAACCGACGT ACAACCCGAA CAACGAGCCG GATCTGTTGG CGCCGTACAT GTACCTGTGG GCCGGTGCTC CAGCGAAGAC CGCGACGGTG GTGCGGGCGG CGATGACGCT GTTCACCACC GGGCCCGACG GCATGACCGG CAACGACGAC CTGGGCACCA TGTCGGCCTG GTACGTGTAC TCGTCGCTGG GGATGTACCC GACGATGAGC GGTGGCGACT TCCTGGCGCT GTCCAGCCCG CAGTTCGACT CCGCGACCGT CACGATCGGC GAGTACGGCG ACCGCCAGGG CGGCACCCTG AACATCACCG CGCCCGGCGC CAGCGACACC AAGCGGTACG TGCAGAACGT GTCCCTCAAC GGCGAGGACG TCTCGCAGAC CTGGCTCGAC TGGGGCGACA TCGCGCACGG CGGCGACATC GCCCAGGAAC TGGGCACCTC ACCGTCCGAT TGGGGCACCG GCGACGGCGA CCAGCCGCCG TCGGTCGGCA AGGCCGACCC GGACGGTCGT CGGCATCTCG ACGCGTCGCT GCGGCCCGCC ACGGCCGTGA TCGGCGAAAG CGACGCCGCC CAGACCGTCG CGCTGTCCGC CGACGTCCTG GGCCAGGCGC CCGGCGACCT GAAGGTCTCG ATGAAAGCCA AGGCGCCCAA GGGATGGGAC GTGGCTTTGA AGCCGAAACC GCCGTTGAGG ATCTCATCGG ACCATCTGCC GACGCAAAAG ACCGTCGGGG TGTCGGTGAC GGTCCCGGCC GGGACCGCGA AGGGGGAGTA CCCGATCGAG ATCACGTCCA AGGCCTCCGG GGCGAACCGG GTGACCAAGA AAGCCACAGT GGAGGTCAGG TCGGCGGCGA CCTGTGCCTC GACCGATGAC GGGCAGTGCG CCGTCGAACT GAGCGAGGCG GCCAACCACG ACGGAACCGC CACGACCGCA GCCTCCGAGG AGGGCGACTT CGACGGGCAG GGCTGGAGCT ACGACGCCGA ACTGCTGCCG AAAGCCGGTC CGGTCACCTG GGACGACGTC ACCTATGTCG CGCCTGATCC GTCGGGCACC GCTGAGAACT TCACCGAGGC CAAGGGACAG GCGATGCTGC TTCCTGAAGG AGACTACGGG AAGCTGTCGG TGGTGGCGTC CGCACACAAT GGACCAGTAT CGACCGCGTT GACGGTGCGG TACACCGACG GCAGCAGCGA GGACATCCCG GTGACCGTCG GCGACTGGGC GGGCTCAACG CCGTCGGGCA GCACGGTGGC GCTGGAGATG CCGCACCGGA TCAAGGCCGG ACAGGGCACG GACGGGCCGT CGGTGCGGCT GTACGGCAGC TCGCTCACAT TGGACTCCGG CAAGAAGGTG CAGTCGGTGA CTCTGCCCGA CGACGCGCGC GTGGAGGTGT ACGCGATCAC GTTGCTGTAG
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Protein sequence | MLSASKRVNA VLAAAVLAVG LLVPSSAVAV EPEDPTTLVN PFVGTQNFGN TFPGASAPFG MVQISPDTGG QGGYDYQQDK IHGFSQTHLS GVGCGVSGEL PIMPTTGEVD TVDPEKYRSK YSHDDEEATP GYYQVGLSSY DINAELTATK RTGWQRYTFP DTDAANLMFN TGKANQSVHD SEVHVVGDRT VEGRVTAGGF CAGKDKHTVY FTATFDQPFD SYGTWRDKTI RPDTRDASGE GGNGAWIGFD ASKDREVVAK VGLSYTGMDG ARKNLDAETG DSYDFDAVRE QLHDDWVDKL NSITITGGTK ERREAFYTAL YHAQLHPNLA GDVDGRYTGF DGEVHTAKGF TPYQNLSLWD TYRPQNQLLE MLEPQVARDV ALSIVAIGRE GGWLPRWALA NSETNIMTGD PVTPFLVEAW SKGLLAGHED EAYELLKQNA TSTPPKDSPY NGRSGIDYYL KRGYIPSGLD LETDCAHKGG DNDCKHPASA TLEYAAADSA LALMADGLGH GSDAKKFAAR GQWYRNLWDD KTGHFRPRTG DGTWLTPYDP VSADHQFHEG GAYQYQWLVP QDPAGLVDLM GGETDTEKRL DDFFVYDKLL TDPEGTARED WITDPYDYYG KPTYNPNNEP DLLAPYMYLW AGAPAKTATV VRAAMTLFTT GPDGMTGNDD LGTMSAWYVY SSLGMYPTMS GGDFLALSSP QFDSATVTIG EYGDRQGGTL NITAPGASDT KRYVQNVSLN GEDVSQTWLD WGDIAHGGDI AQELGTSPSD WGTGDGDQPP SVGKADPDGR RHLDASLRPA TAVIGESDAA QTVALSADVL GQAPGDLKVS MKAKAPKGWD VALKPKPPLR ISSDHLPTQK TVGVSVTVPA GTAKGEYPIE ITSKASGANR VTKKATVEVR SAATCASTDD GQCAVELSEA ANHDGTATTA ASEEGDFDGQ GWSYDAELLP KAGPVTWDDV TYVAPDPSGT AENFTEAKGQ AMLLPEGDYG KLSVVASAHN GPVSTALTVR YTDGSSEDIP VTVGDWAGST PSGSTVALEM PHRIKAGQGT DGPSVRLYGS SLTLDSGKKV QSVTLPDDAR VEVYAITLL
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