| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | XfasM23_1326 |
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| Symbol | |
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| ID | 6204054 |
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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 M23 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_010577 |
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| Strand | - |
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| Start bp | 1456909 |
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| End bp | 1459656 |
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| Gene Length | 2748 bp |
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| Protein Length | 915 aa |
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| Translation table | 11 |
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| GC content | 61% |
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| IMG OID | 641702846 |
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| Product | hypothetical protein |
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| Protein accession | YP_001830019 |
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| Protein GI | 182681859 |
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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 | 15 |
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| Plasmid unclonability p-value | 0.987908 |
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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 | GTGAGGCCTC AATGGGCCGG CCTCACCACC GCCCTGGGCG CCAAAAACAC CATTGATGCC
GTGCGCCAAG ACCCCCGCGC CCTGGGCGGC CTCAACGCCT CCCTCACCCT TGGCCGCAGC
ACACACGACA GCACCACCAC GACCACCACC ACCACCGCCG CAGGCTCCAA CGTCAACGCC
GGCGGTAACG TCCGCATCAG CGCCACCGGT GACGGCGAAG CCTCCACCCT CACCATCCAA
GGCAGCCACG TCCGCGGCGA CAACATGACT TACCTCAAAG CCGATGGCGA CATCGCCCTA
CTGGCCGCCG CCAACACCAC CACCAGCGAC CGTCAAAGCC GCGGCCGCAG CGCAGGTGTC
GGCGTGGCCG TGAACCTAGG CTCCAGCGGC ACCAGTGCCG GCCTCACCGC CCACGCCAGC
ACCTCCACAG GCAGCGGCCA GTCTACCGAC CTCACCTGGA CCAACAGCCA CGTCGGAGGC
GGCAACCTAC TGACCATTGA AGCCGGCGGC GACCTCCTCA TGAAAGGCGC CATTGGCACC
GCCAAACACG TCATTGCCGA CATTGCTGGC AACCTCACCA TCCAAAGCCT CCAAGACACC
CACCACTACC GCAGCAAAGA CCGCAGCCTT GGCGGCAGCC TCACCGTCGG CGCAGGCGTC
AGCGGCAGCG CCAACCTCAA CAACCAAACC ATCCGCAGCG ACTACGCCAG CGTCACCGAA
CAAAGCGGCC TGTTTACTGG CGATGGCGGC TATGACATCA CCGTTGGCGG CCAGACCCAC
CTTATCGGCG GCGCCATCAC CTCCAACAGC ACCGCCATCC ACAACGGCCT GAACACCCTG
GACACCGGCA CCCTGATCCT GCAAGACATT GAAAACCGCG CCACCTACAC CGCCACCCAA
GTCAACCTGG GCGGCGGCTA CAGCCGCAAC GGCGGCACCG TCGGCACCGA CCAACAAGGC
CACGCCGCCA CCGCCACCCA GGTTCCTGGC ACCACCTTAC CCACCCACAA CGGCCTCAGC
GCTGCCCCTC CTGGCGCCAT GACCGCCAGC GACAGCAGCC ACAGCACCAC CTACAGCGGC
ATCAGCCAAG GCGCCCTCAC CATCCGCGAC CCCGCCGCCC AACACGCCCT CACCGGCCAC
ACCGCCGCCC AGACCATCGC CGGCCTCAAC CGCGACATCC TCACCGACAC CGCCACCAGC
AACGCCCTCA CCCCCATCTT TGACGAACAA CGCATCAACG CCGGCTTTGA CATCGTCACC
GCCCTACAAC GGGAAACCGG CACCTTCATC AACAACCGTG CCGCAGAAGC CGATCTCAAA
ACCCGCCAAG CCACCGCCGC AGACCAAGCC GCACGCGACC CCACCAACGG ATTCAATGAC
CAACAGCGGC AAACATTACG TGACCAAGCC ATCACCCTCA CCAACGAAGC CCAGGCCATC
AAAGACGCCT GGGGACCGGG CGGCACCTAC CGCCAAATCA CCACCGCCTT AGCCGCCGGT
GCCAGCGGCA ACGTCAGCGC TGCCAGCAGC GACCTTGCCA AACACATGAT CGTCAACTAC
GTCCAACAAC AAGGCGCCAC CGCCATTGGC CACTGGGTGG CCACCGGCCA ACTGACCGAA
GGCAGCCCCC TACACGCCGC CCTCCATGCC CTGCTGGCCT GCGCCGGTGC TGCGGCCAGC
CAACAACGCT GCAGCAGTGG CGCCCAAGGC GCCGCCGCCT CCAGCGTCCT CACGGGATTA
TTTAGCGACC CCCGCCCCGA AGACACCGCC CAAGACCGCG AAGCCAAACG CAACCTCATT
ACCTCCATCG TCACCGGCAT CGCCAGCACC ACGCACACGG ATGCGGCCAC CGCCACCCAT
GCCGCCATCG CTGCCGTGGA TAACAACTGG TTGGCGGCCA AACAATACGT TCAAATGGTA
AGCGAGGAGC TTGAGGCCGC TACGGAGAAA GACAAAGGTC GCTTGGAAGA GGAGAAAGTA
AGAGCGAAGT GGCGTGAGAT CAGTGCCCGC CAAGATAAAC TCACTGCTGA TGGACTCTTA
AAAGGCTTAA AGGAGTCAGG CATCAGCAAT ATCAACGGGC TGGAGCACTT GATCCTGCAT
CCGGTGGATG TCTTTCATGA GTTGGAGAAA ATCCTTACCC ACCCAAAATT ACTGGTGCAA
TTAGGTGAGC GCGCCGTTCA AGAACTGCTT AACAAGGTTT CTCGCATGTC GGAAGCTCTC
ATTGTTGGAG GCGATCAACA TGCCAAGCAG TTTGGCGAAG ATCTCGGCTC AGTGATCGCG
GATGTAGGCT TTGCATTGGC TGCGGCCGGC ACCGTCAAAG CGGGAGAGAT CCTCGCCGAA
GCAGGCATCA ATCTCAGTAA AGATGTCTTG GAGGGGATGG CTACTTCCAA AGCCAATAAG
CTGTCCAACG TTGATGACAT TGTCAGCGCA GAACAAGAAG CACTGACGCG GATAGGTAAT
CACCCCAACG GCCCGGATTT AACCCAAAAA CCGCCTGGTC AATACATCGC GTTGCAGCAG
GGGGCATTTA ATAAAGCAAT AGCCTTAGTT GATAAAAGTA ACTCAAGTAG CGAATTTGTT
TTTTCGGGTT TAAAAGCCAA AGTCACACCG CGCGGCTCTG TCGGAGGGAG TAATAAAGCG
GGTAATGTGA AGGTGCTTGA ATCAGAAGCA TTCAGTGATC AGAAAATCAG AGAGTTTGCA
CAGCAATTGG CGGGGGATGT GCCTTTAAAG GAGACGAGCA GAAAATGA
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| Protein sequence | MRPQWAGLTT ALGAKNTIDA VRQDPRALGG LNASLTLGRS THDSTTTTTT TTAAGSNVNA
GGNVRISATG DGEASTLTIQ GSHVRGDNMT YLKADGDIAL LAAANTTTSD RQSRGRSAGV
GVAVNLGSSG TSAGLTAHAS TSTGSGQSTD LTWTNSHVGG GNLLTIEAGG DLLMKGAIGT
AKHVIADIAG NLTIQSLQDT HHYRSKDRSL GGSLTVGAGV SGSANLNNQT IRSDYASVTE
QSGLFTGDGG YDITVGGQTH LIGGAITSNS TAIHNGLNTL DTGTLILQDI ENRATYTATQ
VNLGGGYSRN GGTVGTDQQG HAATATQVPG TTLPTHNGLS AAPPGAMTAS DSSHSTTYSG
ISQGALTIRD PAAQHALTGH TAAQTIAGLN RDILTDTATS NALTPIFDEQ RINAGFDIVT
ALQRETGTFI NNRAAEADLK TRQATAADQA ARDPTNGFND QQRQTLRDQA ITLTNEAQAI
KDAWGPGGTY RQITTALAAG ASGNVSAASS DLAKHMIVNY VQQQGATAIG HWVATGQLTE
GSPLHAALHA LLACAGAAAS QQRCSSGAQG AAASSVLTGL FSDPRPEDTA QDREAKRNLI
TSIVTGIAST THTDAATATH AAIAAVDNNW LAAKQYVQMV SEELEAATEK DKGRLEEEKV
RAKWREISAR QDKLTADGLL KGLKESGISN INGLEHLILH PVDVFHELEK ILTHPKLLVQ
LGERAVQELL NKVSRMSEAL IVGGDQHAKQ FGEDLGSVIA DVGFALAAAG TVKAGEILAE
AGINLSKDVL EGMATSKANK LSNVDDIVSA EQEALTRIGN HPNGPDLTQK PPGQYIALQQ
GAFNKAIALV DKSNSSSEFV FSGLKAKVTP RGSVGGSNKA GNVKVLESEA FSDQKIREFA
QQLAGDVPLK ETSRK
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