| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Xfasm12_1604 |
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| Symbol | |
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| ID | 6119432 |
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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 | Xylella fastidiosa M12 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_010513 |
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| Strand | - |
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| Start bp | 1676236 |
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| End bp | 1679388 |
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| Gene Length | 3153 bp |
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| Protein Length | 1050 aa |
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| Translation table | 11 |
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| GC content | 53% |
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| IMG OID | 641649588 |
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| Product | hypothetical protein |
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| Protein accession | YP_001776143 |
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| Protein GI | 170730710 |
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| COG category | [G] Carbohydrate transport and metabolism |
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| COG ID | [COG3408] Glycogen debranching enzyme |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 14 |
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| Plasmid unclonability p-value | 0.593088 |
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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 | GTGTTACAAG TCCTCAGCGT GGTTGTGGCG TGTATCTGGA TATGCGCTGC CCAGGCTGAG
CAGGAGCATG TTCTGGATGA TTTTGAGAAT ATTTCTTCTT GGAAGCTGGT TCTTTCTCGT
GATGTGAGTG GCACTTTGCG TCAAGTGGCA GTCGCTTCCG GGGGCTATGC GCTGTGTTTG
GATTACAACT TTAATGGGGT TGCTGGTGAT GTTGGTATCC GCCGTGAGTT GCCGATCCAG
TATTCTGAAA ATTATCAGTT CTCTTTCTTA GTGCGCGGTG ATGCGCCAGC CAACGATTTG
CAATTGAAGT TGCTTGATGT GAGTGGTGAC AATGTTTGGT GGGTCAATCG AACTAAGTTC
GAGGTGCCAG GCAATTGGAC ATCGGTCACT TACCGTAAGC GCCAGATCGA CAATGCTTGG
GGCCCGGATA CGGATAAGAC GCTGCGTCGC AGTGCGCAGC TTGAGTTCAA TATCCACAAT
AGTGTTGGTG GGCGTGGGAG TATCTGTTTC GATAGGCTTG CGTTGAAGGT GTTGCCTGCG
TCGGATACTT CGCCGTTGAC TGCTAAGGCA ATTACCGATA CTGCGCCGGC GCTTGTGCAT
CGTTTGGTGG ATGGAAGGCC CGAGACTTTT TGGTTAAGTA GTGGAGTCAA GCAGCAGACG
GTCACTTTGG ACATGGGAGG GCCACGGGAG ATTGGTGGTG CGGTAATCGA TTGGGTACCA
GGATTACAGG CGACACGCTA TACGGTCCGC GGTTCAATGG ATGGTCGTCG CTGGAAGGTG
TTGCGCAATG TGGTTGCTGG TACTTACTTC ACTCATTGGC TGGCTTTACC GGATACTGAG
GCGCGTTATG TGCGCTTTGA TCTGCAGGAT GGCCCGAATT GGCGCTATGG AATTAAGGAG
ATTAAGTTGC AGCCGTTGGC GTTCGCTGCG ACGCCGAACG ATTTTATTAA ATCTTTAGCG
TCGGTTTGGC CACGTGGTAG TTTCCCACGC AGTTTTTCGG GTGAGCAGTC TTATTGGACG
ATCCTCGGTT TGGATGGTGG TACCGAGCAG GGGTTGATCA ATACAGATGG TGCGATTGAG
GCGACTAAGT TCGGTTTCAG TATCGAGCCT TTTGTGGTGA TGGACGGTAA CCGTTTGTTA
CGTTGGTCTG ACGTCAGCAG CCAGCAGAGT CTACAAGAGG GGTATTTGCC GATTCCGCGT
GTGGAGTGGC GTCACGATCA GGTCAATTTG CAGGTGACTG CATTCGTGCA AGGGATACCT
GAGCAGGCAC AGTTGGTGGC GCGCTATCAG TTGCGTAATG TGGGCAAGCA GGCGCGTGAT
TTCACGCTTG CGTTGGCGGT GCGGCCGTTC CAGGTGAATC CACCTTCGCA GTTTCTCAAT
ATGCTTGGTG GCGTCAGTCG GATTGATCAG CTTGGGTTCA ATGGGACTCA AGTCAGTGTT
AATGGCAAGG CGCGGGTGTT CGCTTCGCGG GTACCAGATG GGGTATACGC TACTGCATTC
GATGCCGGTA TGGATGTTGT CCATTTGGCG CAAGCGTCGC TGCCATCTAT CACTCAGGTG
AATGATGAGA GTGGGTTGGC GTCCGGGGCG ATGTTATTTC GTTGGCATCT TCAGCCAAAC
GAAATGCGTG AGATCGCCGT GTTGATGCCG CAAACTGGGA CTTCCGGATG GCCGAGTGGT
TTTGAGGCCA AGCAGGCTCA GCAGCAGGTT GCTCAGATGT GGCGCGACAA ACTCGATTTG
GTGAAGATTG ATGTGCCTGC TGAAGGTCGC TCAGTGGTGG ATGTTATGCG CACCGCACTG
GCGCATATGC TTATTTCGCG AGATGGGCCA AGTGTGCAGC CTGGGACACG TGCTTATTCG
CGTAGTTGGA TTCGTGATGG TGCGATGGTT TCCGAGGCTT TACTGCGATT GGGTCGGGAA
GATGTGGTGC GCGACTACAT TCGCTGGTTT GCACAGTATC AGTTTGCTAA TGGCATGGTG
CCCTGTTGTG TGGATCACCG TGGTAGTGAT CCAGCGCCAG AGAATGATAG TCATGGGGAG
TTGATCTATG CCATCGGTGA GTATTATCGC TATACGCGTG ATCGTGATTT TCTGGCGGCG
ATGTGGTCGC ATGTGAATGC TGCGGTGGCT TATATGGATA CGTTGCGTTT GAGTGAACGT
ACGGAGGCTA ACTTCATGCG TGATCAGGCG TTCTACGGGA TGATGCCGGC GTCAATCAGT
CACGAGGGTT ATTCGGATAA GCCTGTGCAT GCGTATTGGG ATAATTTTTG GGCATTGCGT
GGCTATGAAG ATGCGGCGTA TCTGGCGAGT GTGTTGGATA AGCCTGAGGA TGCGGTGCGT
GTGAGTATTT CACGGGACGA GTTCGCTGCT GATTTGTCTG CGTCGTTGCG TTCGGCGGTT
CGGAACCGTG GTATCAATTT TTTACCTGGG TCGGTCGAGC ATGGTGATTT TGATGCGATC
TCAACGGCGG TCGCGTTGGC GCTTGAGGGG GAGCGGTCTT TACTGCCTCA GGATTTACTC
GTTAATACTT TTGAGCGTTA CTGGAGTGAT TTTGTTGAGC GCCGTGATGG TAAGCGCAAG
TGGAAGGATT ACACGCCGTA TGAGTGGCGT AGTGTGTCTG CTTTTGTGCG TTTGGATTGG
CGTAACCGTG TCTGGGATGC GGCTAAGTAT TTTCTTGGGG ACCGTGCGCC GCAGGGATGG
AATCAGTGGC CCGAGGTTGT TTCGCACACC CCTAATGTGC CGTTTTTCCT TGGTGATTTG
CCGCATGCCT GGGTTGCTTC GGATTTTGTG CGTTCGGTAC TTGATATGTT TGCTTATACG
CGTGAATCGG ATTCCAGTTT GGTGATTGCA GCAGGTGTCC CTGTGCATTG GTTTGGAGGT
AAGGGTGTGG CTTTGCACGA TCTGCGCACG CCTCAGGGAC GATTGAGCTA TCACATTCAG
GGGAGCGAGA AGAAATTACG CATTGACCTT AAGTCGGGAT TGGTGATGCC ATCTGGTGGT
GTGGTGTTCC GGTGGCCGTA TGCTGGCGCG CCTGGTGTGT CCAGGGTTAA CGGTGAGGTG
ACGGCTTGGC AGGGCCGGGA ACTACGTATC TTGCGGTTGC CGGCGATGGT GGAAATTGAC
ATGCCGACGG CTTTACACCC TGTGGGGCGT TAG
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| Protein sequence | MLQVLSVVVA CIWICAAQAE QEHVLDDFEN ISSWKLVLSR DVSGTLRQVA VASGGYALCL
DYNFNGVAGD VGIRRELPIQ YSENYQFSFL VRGDAPANDL QLKLLDVSGD NVWWVNRTKF
EVPGNWTSVT YRKRQIDNAW GPDTDKTLRR SAQLEFNIHN SVGGRGSICF DRLALKVLPA
SDTSPLTAKA ITDTAPALVH RLVDGRPETF WLSSGVKQQT VTLDMGGPRE IGGAVIDWVP
GLQATRYTVR GSMDGRRWKV LRNVVAGTYF THWLALPDTE ARYVRFDLQD GPNWRYGIKE
IKLQPLAFAA TPNDFIKSLA SVWPRGSFPR SFSGEQSYWT ILGLDGGTEQ GLINTDGAIE
ATKFGFSIEP FVVMDGNRLL RWSDVSSQQS LQEGYLPIPR VEWRHDQVNL QVTAFVQGIP
EQAQLVARYQ LRNVGKQARD FTLALAVRPF QVNPPSQFLN MLGGVSRIDQ LGFNGTQVSV
NGKARVFASR VPDGVYATAF DAGMDVVHLA QASLPSITQV NDESGLASGA MLFRWHLQPN
EMREIAVLMP QTGTSGWPSG FEAKQAQQQV AQMWRDKLDL VKIDVPAEGR SVVDVMRTAL
AHMLISRDGP SVQPGTRAYS RSWIRDGAMV SEALLRLGRE DVVRDYIRWF AQYQFANGMV
PCCVDHRGSD PAPENDSHGE LIYAIGEYYR YTRDRDFLAA MWSHVNAAVA YMDTLRLSER
TEANFMRDQA FYGMMPASIS HEGYSDKPVH AYWDNFWALR GYEDAAYLAS VLDKPEDAVR
VSISRDEFAA DLSASLRSAV RNRGINFLPG SVEHGDFDAI STAVALALEG ERSLLPQDLL
VNTFERYWSD FVERRDGKRK WKDYTPYEWR SVSAFVRLDW RNRVWDAAKY FLGDRAPQGW
NQWPEVVSHT PNVPFFLGDL PHAWVASDFV RSVLDMFAYT RESDSSLVIA AGVPVHWFGG
KGVALHDLRT PQGRLSYHIQ GSEKKLRIDL KSGLVMPSGG VVFRWPYAGA PGVSRVNGEV
TAWQGRELRI LRLPAMVEID MPTALHPVGR
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