Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Daci_4037 |
Symbol | |
ID | 5749624 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Delftia acidovorans SPH-1 |
Kingdom | Bacteria |
Replicon accession | NC_010002 |
Strand | - |
Start bp | 4443555 |
End bp | 4445306 |
Gene Length | 1752 bp |
Protein Length | 583 aa |
Translation table | 11 |
GC content | 68% |
IMG OID | 641299139 |
Product | alkaline phosphatase |
Protein accession | YP_001565053 |
Protein GI | 160899471 |
COG category | [P] Inorganic ion transport and metabolism |
COG ID | [COG3540] Phosphodiesterase/alkaline phosphatase D |
TIGRFAM ID | [TIGR01409] Tat (twin-arginine translocation) pathway signal sequence |
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Plasmid Coverage information |
Num covering plasmid clones | 22 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 28 |
Fosmid unclonability p-value | 0.186512 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGAAGCACA AAGAGAGCAT CACCAATATC CTGCAGCACG CGAAGACCGC GTCCAATGGG CCCGGCATCG TGGCCAGCCG CCGCCATTTC GTGCGCGGCA TGGGCGCATC GGCCCTGGCG CTGCCACTGG CCGGCTGCGG CGGCTCCGAT GGCGACAGCA GCATTCCCGT CGAGTTCCGC CACGGCGTGG CCAGCGGCGA CCCGTTGAGC GACCGTGTCA TCCTCTGGAC CCGCGTGACG CCGCCCCAGG GCCATTCCAG CGACATCGAG GTGGAGTGGG AGCTGGCCTC GGACGCCGAC TTCAAGACCA TCGTGGTGTC GGGCAAGGCC ATGGCGCGCG CCACCCAGGA CTTCACCTTC AAGGCCGACG CCACGGGCCT CAAGCCCGCC ACGCGCTACC ACTACCGATT TCGCTGCCAG GGCATGACCA GCGCCACGGG CCGCACGCGC ACCCTGCCCG TGGGCGCCGT GCAGCAGGTC AAGCTGGCCG TGTTCTCCTG CGCCAACTAC CCGGCGGGCT ACTTCAACGT CTACGCGCAT GCCGCGCGCC AGGGCGACCT GGATGCCACC GTGCACCTGG GCGACTACAT CTATGAATAC GCACGCGGAG GCTATGCCAA TGGCAAGGCC GAAGCCATGC AGCGCCAGAG CCTGCCGGCC AACGAAATCG TCAGCCTGGC CGACTACCGC CAGCGCCATG CCCAGTACAA GAGCGATGCC GACCTGCAGG CCCTGCATGC GGCAGCGCCC ATGATTGCGG TCTGGGACGA TCACGAAGTC TCCAACGACA CCTGGATGCA CGGCGCCGAA AACCACCAAC CGGCCACCGA GGGCGATTTC GAACTGCGCA AGGTGGCCGC GCTCAAGGCC TATCACGAGT GGATGCCCAC GCGCAACGCG CAGCCCGAGA TCATCTACCG CAGCTTCGCC TTCGGCGACC TGCTGGCGCT GCACATGCTG GACACGCGCG TCATCGGCCG CGACAAACAA CTGGACTACG CCGACTACTT CACCGCCCAG GGCCTGGACG CGGCACGCTT CACCTCCGAC ATGGCCAATC CTGCGCGCCA GCTCATGGGC GCCACCCAGA CCCAGTGGCT GGGCCAGCAG CTGGCAGCCT CGCAGGCCAC CTGGCAGGTG CTGGGCCAGC AGGTCCTGAT GGGGCGCATG GAGCTGCCGG CGCCCTTGCT GATGGACATC CTCAGCCCCG GCAGCGGTGT CTCGCTGCCG GCCTACGCGG CGCTGCTGGC CAAGGCACAG GCCAACCCGG CCAGCCTGAC GGCGGCGGAA AAGGCCATCC TGGCCCAGCC CAGCATTCCC TACAACCTCG ATGCCTGGGA CGGCTATGCC GTGGCACGCG AGACCGTGCT GGCCACGGCG CGCAGCCTGG GCAAGAACCT GGTCGTGCTG GCGGGCGACA CCCACAACGC CTGGGCCAGC GAATTGCGTG ACCGCAGCGG GCAGGCCGTG GGCGTGGAGT TCGCCACCTC GTCCGTCAGC TCGCCGGGTT TCGAGGAATA CCTGTCGGGC CAGGATCCGG CCCAGCTGCG TGGCGCGCTG CTGCAGTTCA TCTCCACGCT CAAGTACTGC GATACCTCGC GCCGTGGCTA CATGATCGTC ACGGCCACGC CGCAGGCCTG CCAGGCCGAG TGGATCTACG TGGACACCGT GTTCAGCCGC CAATACCAGG CTGTGCGCGA TGCGGCCTGG AAGGTGCTGC CCGGTCAGCC GGGCAAGCTG GTCCAGGCCT GA
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Protein sequence | MKHKESITNI LQHAKTASNG PGIVASRRHF VRGMGASALA LPLAGCGGSD GDSSIPVEFR HGVASGDPLS DRVILWTRVT PPQGHSSDIE VEWELASDAD FKTIVVSGKA MARATQDFTF KADATGLKPA TRYHYRFRCQ GMTSATGRTR TLPVGAVQQV KLAVFSCANY PAGYFNVYAH AARQGDLDAT VHLGDYIYEY ARGGYANGKA EAMQRQSLPA NEIVSLADYR QRHAQYKSDA DLQALHAAAP MIAVWDDHEV SNDTWMHGAE NHQPATEGDF ELRKVAALKA YHEWMPTRNA QPEIIYRSFA FGDLLALHML DTRVIGRDKQ LDYADYFTAQ GLDAARFTSD MANPARQLMG ATQTQWLGQQ LAASQATWQV LGQQVLMGRM ELPAPLLMDI LSPGSGVSLP AYAALLAKAQ ANPASLTAAE KAILAQPSIP YNLDAWDGYA VARETVLATA RSLGKNLVVL AGDTHNAWAS ELRDRSGQAV GVEFATSSVS SPGFEEYLSG QDPAQLRGAL LQFISTLKYC DTSRRGYMIV TATPQACQAE WIYVDTVFSR QYQAVRDAAW KVLPGQPGKL VQA
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