| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Ava_1493 |
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| Symbol | |
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| ID | 3682498 |
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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 | Anabaena variabilis ATCC 29413 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_007413 |
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| Strand | + |
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| Start bp | 1837892 |
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| End bp | 1841215 |
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| Gene Length | 3324 bp |
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| Protein Length | 1107 aa |
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| Translation table | 11 |
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| GC content | 43% |
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| IMG OID | 637716833 |
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| Product | small GTP-binding protein domain-containing protein |
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| Protein accession | YP_322011 |
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| Protein GI | 75907715 |
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| COG category | [S] Function unknown |
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| COG ID | [COG4886] Leucine-rich repeat (LRR) protein |
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| TIGRFAM ID | [TIGR00231] small GTP-binding protein domain |
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Plasmid Coverage information |
| Num covering plasmid clones | 19 |
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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 | 28 |
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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 | ATGACCCAGG ATGAGTTGTT GATACTGATA GAGCAAGCGG CTACTGAGGG TTGGCGAGAG
TTGGATTTAT CTGGACAAGA GTTGACTGAG TTACCTGGGG AAATTGGTAA GTTGCAGCAG
CTTGAGTCTT TGATTTTGGG AAAGCAGGTT GGTGGTTATG AATGGGTAGG AGACCGCTAT
CTCAAAAAGG TTTCAGGCAA CAATTTAAAA ACGCTTCCAC TCGAATTATT GGGTTTGCCT
AATTTGCGTA AGTTGGATAT TAGTGGCAAT CCTTTAGAGC GTATTCCTGA TCTGGTAACG
CAAATACTAC ATTTAGAGGA ACTAATCTTA ATTCGAGTAG AGATAACCGA GATACCAGAG
GCAATAGCGA ATTTAACCAA TCTGACGCAT CTTATCCTCT TTTCCAACCA AATAACCGAG
ACACCAGAGG CGATCGCTAA ATTAACCAAT CTGACGCAGC TTGACCTCAG TGACAACCAA
ATAACCGAGA TACCAGAGGC AATAGCGAAT TTAACCAATC TGACGCATCT TATCCTCTTT
TCCAACCAAA TAACCGAGAT ACCAGAGGCA ATAGCGAATT TAACCAATCT GACGCAGCTT
GACCTCGGTG ACAACCAAAT AACCGAGATA CCAAAGGCAA TAGCGAATTT AACCAATCTG
ACGCAGCTTG ACCTCGGTGA CAACCAAATA ACCGAGATAC CAAAGGCAAT AGCGAATTTA
ACCAATCTGA CGCATCTTAT CCTCTTTTCC AACCAAATAA CCGAGATACC AGAGGCAATA
GCGAATTTAA CCAATCTGAT GCAACTTGAC CTCAGTTACA ACCAAATAAC CGAGATACCA
AAGGCAATAG CGAATTTAAC CAATTTGACG CAGCTTGTCC TCAGTGACAA CAAAATAACC
GAGATACCAG AGGCAATAGC GAATTTAACC AATCTGACGC AACTTGACCT CAGTGACAAC
AAAATAACCG AGATACCAGA GACAATAGCG AATTTAACCA ATCTGACGGA GCTTTACTTC
AATTACAACA AAATAACCCA GATAGCAGAG GCAATAGCGA AATTAACCAA TTTGACTGAG
CTTCACCTCA GTTCCAACCA AATAACCCAG ATACCAGAGG CAATAGCGAA TTTAACCAAT
CTGACGGAGC TTTACCTCAA TTACAACAAA ATAACCCAGA TAGCAGAGGC AATAGCGAAA
TTAACCAATT TGACTGAGCT TCACCTCGAT GGCAACCAAA TAACCCAGAT ACCAGAGGCG
CTTGAAAGTT TGCCGAAATT GGAAAAACTA GATTTACGGG GAAATCCGCT TCCTATTTCA
CCAGAGATTT TAGGATCTGT CTATGAAGTT GGTTCAGTTG AAGAAATTTT CAATTACTTG
CGATTACTGC GTAGTGGTGA AGTACGTCCA CTCAACGAAG CCAAGCTCTT GCTCATCGGA
CAAGGCAGCG TCGGCAAAAC ATCCCTCATC GAGCGACTAA TCCACAATAA ATATGATAAA
AATCAACCTC AAACCAACGG ACTCAATGTA GAAACTTGGA ATGTGCAGGT CAATAGCAAA
GACATCCGTC TCAATGTTTG GGACTTTGGC GGACAGGAAA TTTATCATGC TACCCATCAG
TTTTTTCTGA CTAAGCGCAG TCTCTATCTC CTAGTCTGTA ATTGTCGTAC CAGCGAAGAA
GAAAACCGCA TCGAATATTG GCTGAAACTA ATCGAAAGCT TCGGCGGACA GTCCCCGGTG
ATTATCGTTG GCAATAAAAA AGATGAACAA CCCCTCGACA TCAACCGCAA AGCATTACGG
GAAAAATATC CTAACATCCA AGCAATTATC GAAACTTCCT GCCAAGACAA TATCGGCATT
GATGAACTTC GTACCTCCAT TTTCCAGCAA GTTGCCAACC TCAAAGAAGT CTACGACCTT
CTACCCCTTT CATGGTTTGA GGTTAAACAG CAACTCGAAT CCATGCCCCA AGACTTCATC
ACCTACAACC GCTACATCGG CATCTGTCAC GAAAACAAGA TTCCCGAAGA ACAAGACCAA
GATCAACTCA TCGACTTGCT GCATCGACTC GGCTTAGTTC TCAACTTCCG CGATCATCCC
ATCCTCAAAG ATACCAACGT CCTTAAACCT AATTGGGTGA CAGAAGGAAT TTACGCACTT
CTGAGTGATG AAACCCTCAA AACTAAAAGC AAAGGCATTT TTACCCCCGC CGATCTCACC
CGCATCCTCA ATCCAGAGCG TTACCCTACC AAGCGTCACG ACTATCTGAT TGAACTGATG
AAAGAATTTG AGCTTGGCTT TGCGCTAGAG TGTTACCCAC CACAATTCCT GATTGCGGGA
CTTCTCCCCA AAGACCAACC AGACGCAACA GGACTAGAAG GTGAAACCCT AGAATTTCAA
TACCATTACA AAGTTCTGCC CGAAAGCATC ATTTCCCGCT TCATCGTCAA AACCCACGAA
AGAATTTATA ACCAAATCTA TTGGCGCAGT GGCGTAATGC TGCAATATCA AGAACACAAT
GAAATTTACA ATATTGCTCG CATCAAAGCT GACCCCGAAG ACAAAAAAAT CTTCATCGCC
ATTAGCGGAC GTAAAGAAAC CCGCCGCTTA TTTCTTGCTA TTCTCCGCGA TGTCTTCCAA
CAAATCCACA AAAGTCTCCC CAACCTGGAA ATCACCGAAT GGGTTCCCGT TCCCAAGCAT
CCCAACCACC CGACCCTCGA CTACCAAGAA CTTCTGGGAC TCGAATCAAT GGGTGAAACC
ACAATCACCA TCGGCAAACT CAAGCTTAAA CTCGATTTGC GTCAACTTTT AGATGGTTAC
GAATCACTAG AATCACGCCG AAAATCACAA AAAGACGATC CAGAAAGCGA TCTGGTTAGA
ATCAATATTT ACAATAACAA CCATCAGGGA GATTTTAAAC CCATGACAGA AAATAAAAAC
AACTTTCAAG GCGCACAAGT AGGTATCGTC AACATTGGCA ACGAAGTCAA AGACAAGGCC
AGTCAGCAAG TTGGTGACTT AACTCAAACA AGCGGCGCAA ACATAAACGA AATTATCCAA
TTAATCAACA ACCTACGCCA AACTGTAGCC CAATTTCCGC CAGCAAGCCG CGACGATATT
ATTATTGATA TTGATGATGT AGAAGTAGAA ATTCAAAAGC CGGAAAAAGA ACGCAATACA
CCAAAACTTA AAAAGCGTTT GGTGGCTTTA CTAACTGCCG CGAGTGTAGC TGCTGCCCCG
ATCGCAAGTG TGGCAGACTT TACAAATAAT GTTATGGAAC TCGGCAGCAA ATTAGGCATA
GAGCTAATTC ACCCTAGTCC TTGA
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| Protein sequence | MTQDELLILI EQAATEGWRE LDLSGQELTE LPGEIGKLQQ LESLILGKQV GGYEWVGDRY
LKKVSGNNLK TLPLELLGLP NLRKLDISGN PLERIPDLVT QILHLEELIL IRVEITEIPE
AIANLTNLTH LILFSNQITE TPEAIAKLTN LTQLDLSDNQ ITEIPEAIAN LTNLTHLILF
SNQITEIPEA IANLTNLTQL DLGDNQITEI PKAIANLTNL TQLDLGDNQI TEIPKAIANL
TNLTHLILFS NQITEIPEAI ANLTNLMQLD LSYNQITEIP KAIANLTNLT QLVLSDNKIT
EIPEAIANLT NLTQLDLSDN KITEIPETIA NLTNLTELYF NYNKITQIAE AIAKLTNLTE
LHLSSNQITQ IPEAIANLTN LTELYLNYNK ITQIAEAIAK LTNLTELHLD GNQITQIPEA
LESLPKLEKL DLRGNPLPIS PEILGSVYEV GSVEEIFNYL RLLRSGEVRP LNEAKLLLIG
QGSVGKTSLI ERLIHNKYDK NQPQTNGLNV ETWNVQVNSK DIRLNVWDFG GQEIYHATHQ
FFLTKRSLYL LVCNCRTSEE ENRIEYWLKL IESFGGQSPV IIVGNKKDEQ PLDINRKALR
EKYPNIQAII ETSCQDNIGI DELRTSIFQQ VANLKEVYDL LPLSWFEVKQ QLESMPQDFI
TYNRYIGICH ENKIPEEQDQ DQLIDLLHRL GLVLNFRDHP ILKDTNVLKP NWVTEGIYAL
LSDETLKTKS KGIFTPADLT RILNPERYPT KRHDYLIELM KEFELGFALE CYPPQFLIAG
LLPKDQPDAT GLEGETLEFQ YHYKVLPESI ISRFIVKTHE RIYNQIYWRS GVMLQYQEHN
EIYNIARIKA DPEDKKIFIA ISGRKETRRL FLAILRDVFQ QIHKSLPNLE ITEWVPVPKH
PNHPTLDYQE LLGLESMGET TITIGKLKLK LDLRQLLDGY ESLESRRKSQ KDDPESDLVR
INIYNNNHQG DFKPMTENKN NFQGAQVGIV NIGNEVKDKA SQQVGDLTQT SGANINEIIQ
LINNLRQTVA QFPPASRDDI IIDIDDVEVE IQKPEKERNT PKLKKRLVAL LTAASVAAAP
IASVADFTNN VMELGSKLGI ELIHPSP
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