| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Sbal223_0904 |
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| Symbol | |
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| ID | 7087265 |
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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 | Shewanella baltica OS223 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_011663 |
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| Strand | - |
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| Start bp | 1057164 |
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| End bp | 1060343 |
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| Gene Length | 3180 bp |
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| Protein Length | 1059 aa |
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| Translation table | 11 |
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| GC content | 50% |
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| IMG OID | 643459818 |
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| Product | bifunctional proline dehydrogenase/pyrroline-5-carboxylate dehydrogenase |
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| Protein accession | YP_002356845 |
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| Protein GI | 217972094 |
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| COG category | [C] Energy production and conversion
[E] Amino acid transport and metabolism |
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| COG ID | [COG0506] Proline dehydrogenase
[COG4230] Delta 1-pyrroline-5-carboxylate dehydrogenase |
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| TIGRFAM ID | [TIGR01238] delta-1-pyrroline-5-carboxylate dehydrogenase (PutA C-terminal domain) |
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Plasmid Coverage information |
| Num covering plasmid clones | 1 |
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| Plasmid unclonability p-value | 0.00197285 |
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| Plasmid hitchhiking | Yes |
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| Plasmid clonability | hitchhiker |
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Fosmid Coverage information |
| Num covering fosmid clones | 34 |
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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 | ATGTTCAAAG CGAGTGAAGT GCTGGCAGGC CGCTACGATT CTGCCAATCT CGACGAACTG
TTCAAAGCGA TCAGCGACAA CTACATTGTC GATGAAGAAC AATACTTGTC AGAGTTGATC
CAACTAGTTC CCTCAAGTGA TGAAGCCATA GAGCGCGTCA CTCGTCGTGC CCACGAACTG
GTTAACAAGG TTCGTCAATT CGATAAAAAA GGTCTGATGG TTGGCATAGA TGCCTTCCTG
CAACAGTACA GCTTAGAAAC ACAGGAAGGC ATTATCCTGA TGTGTTTAGC CGAAGCGCTG
CTGCGTATTC CTGATGCGGC CACTGCCGAT GCACTGATTG AAGACAAGCT TTCAGGCGCT
AAGTGGGATG AGCACATGAG TAAGAGTGAC TCTGTACTCG TTAACGCATC GACCTGGGGC
CTTATGCTCA CAGGTAAGAT TGTTAAACTC GATAAAAAAA TCGATGGCAC CCCAAGCAAC
TTACTGAGCC GCTTAGTTAA TCGTCTCGGC GAGCCAGTGA TCCGCCAAGC CATGATGGCC
GCGATGAAGA TCATGGGTAA GCAGTTCGTG CTGGGCCGCA ACATGAAAGA AGCCCTGAAG
AACAGCGAAG ACAAGCGTAA GTTAGGCTAT ACCCATTCCT ACGACATGCT GGGTGAAGCG
GCGTTAACTC GTAAAGATGC TGAGAAATAC TATACCGATT ACGCCAATGC GATAACCGAG
CTCGGTGCTC AAAGCTATAA CGAAAATGAA TCACCGCGCC CAACGATTTC AATCAAGCTA
TCGGCATTGC ACCCACGTTA CGAAGTGGCC AATGAAGATC GTGTTCTAAC TGAACTGTAT
GACACTGTCA TTCGTTTGAT CACCTTAGCT CGCGGCTTAA ATATCGGTAT TTCTATCGAT
GCTGAAGAAG TCGATCGCCT CGAGTTGTCA CTGAAACTGT TTCAAAAACT GTTTAATTCA
GAAGCGGCAA AAGGCTGGGG ATTACTCGGT ATTGTGGTTC AAGCTTACTC TAAGCGTGCC
CTGCCCGTAC TGGTTTGGTT AACTCGTCTT GCCAAAGAGC AAGGTGATGA AATCCCCTTA
CGTCTGGTAA AAGGCGCCTA TTGGGATAGC GAACTGAAAT GGGCCCAACA AGCTGGCGAA
GCCGCTTACC CACTTTACAC TCGCAAAGCC GGTACTGACG TTTCTTACCT CGCCTGCGCC
CGCTACTTGT TATCGGATGC GACTCGCGGC GCTATCTATC CACAATTTGC TAGCCACAAT
GCGCAAACCG TTGCGGCGAT TTCAGATATG GCGGGCGATC GTCACCATGA GTTCCAACGC
TTACACGGCA TGGGACAAGA GCTGTACGAC ACGATTTTGT CGGAAGCTGG CGCCAAATCG
GTACGTATTT ATGCGCCCAT CGGTGCCCAT AAGGATCTAC TGCCCTACTT AGTACGTCGT
CTGCTGGAAA ACGGGGCCAA CACTTCGTTC GTCCACAAGC TCGTCGATCC TAAAACCCCA
ATCGACTCAT TAGTGGTGCA TCCGCTAAAA ACGCTGACGG GCTATAAAAC CCTGGCTAAC
AATAGAATCG TTTTACCTGC CGATATTTTC GGTAGCGATC GCAAAAATTC CAAGGGACTC
AATATGAACA TCATTTCCGA ATCTGAGCCA TTTTTCGCGG CAATAGAACA GTTTAAAAAT
ACCCAATGGC AAGCAGGCCC TCTGGTTAAC GGCAAAACCT TAACCGGTGA GCACAAAACC
ATAGTCAGCC CATACGACAC CACCCAAACA GTGGGTCAAG TAGCCTTTGC CGATGATGCG
GCCATAGAAC AAGCACTCGC GTCTGCTGAA GCGGCGTTTG CCTCATGGGC ACGTACGCCG
GTTGAAACCC GTGCTTCTGC GCTGCAAAAA CTCGCTGACT TATTAGAAGA AAACCGCGAA
GAATTGATCG CCTTGTGTAC CCGTGAAGCG GGCAAGAGCA TTCAAGACGG TATCGACGAA
GTCCGTGAAG CCGTTGATTT CTGTCGTTAC TACGCAGTAC AAGCCAAGAA AATGATGGCG
AAGCCTGAAC TGCTTCCTGG CCCAACGGGT GAGCTGAACG AACTGTTCCT CCAAGGCCGC
GGCGTATTCG TGTGTATCAG CCCGTGGAAC TTCCCATTGG CTATCTTCCT CGGCCAAGTG
TCTGCGGCAT TAGCGGCAGG TAACACAGTG ATCGCGAAAC CTGCGGAGCA AACCTCGATT
ATTGGTTATC GTGCAGTACA ACTTGCTCAC CAAGCAGGTA TTCCTGTTGA GGTTCTGCAA
TTCCTACCAG GTACAGGTGC GACTGTCGGT AGCGCAATTA CAGCCGATGA ACGTATCGGC
GGCGTATGCT TTACCGGTTC AACTGGCACA GCAAAACTGA TTAACCGTAC ACTAGCCAAC
CGTGATGGCG CGATTATTCC GTTGATTGCT GAGACTGGCG GTCAAAATGC CATGGTAGTG
GACTCAACCT CGCAACCTGA GCAAGTGGTT AACGATGTGG TTTCATCGTC ATTCACCAGC
GCAGGTCAAC GCTGTTCAGC ATTGCGCGTG CTCTTCCTCC AAGAAGACAT CGCCGATCGC
GTGATCGAAG TACTGCAAGG CGCGATGGAT GAATTAGTGA TTGGCAACCC AAGCTCAGTG
AAAACTGACG TAGGCCCAGT GATTGATGCC ACCGCCAAAG CCAACTTAGA TGCGCACATA
GACCATATCA AGCAAGTCGG TAAGCTTATC AAGCAAATGC CGCTGCCTGC TGGCACTGAG
AACGGTCACT TTGTTTCGCC AACGGCGGTT GAAATCGATT CGATTAAAGT GCTTGAGAAA
GAACACTTTG GCCCAATCCT GCACATTATT CGCTACAAGG CTGCAGAGCT AAGCCAAGTG
ATCAACGAGA TCAATAGCAC AGGCTTTGGC TTAACCTTAG GCATCCACAG CCGTAACGAA
GGCCATGCCC TTGAAGTGGC AGATAAAGTC AACGTGGGTA ACGTCTACAT TAACCGTAAC
CAAATCGGCG CTGTGGTTGG TGTACAGCCT TTCGGCGGTC AAGGCCTGTC AGGCACTGGC
CCTAAAGCCG GTGGCCCGCA CTACTTAACC CGTTTTGTGA CTGAAAAGAC TCGCACCAAC
AACATCACCG CCATCGGTGG TAACGCGACG TTGTTATCAC TGGGTGATGG CGAAGAATAA
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| Protein sequence | MFKASEVLAG RYDSANLDEL FKAISDNYIV DEEQYLSELI QLVPSSDEAI ERVTRRAHEL
VNKVRQFDKK GLMVGIDAFL QQYSLETQEG IILMCLAEAL LRIPDAATAD ALIEDKLSGA
KWDEHMSKSD SVLVNASTWG LMLTGKIVKL DKKIDGTPSN LLSRLVNRLG EPVIRQAMMA
AMKIMGKQFV LGRNMKEALK NSEDKRKLGY THSYDMLGEA ALTRKDAEKY YTDYANAITE
LGAQSYNENE SPRPTISIKL SALHPRYEVA NEDRVLTELY DTVIRLITLA RGLNIGISID
AEEVDRLELS LKLFQKLFNS EAAKGWGLLG IVVQAYSKRA LPVLVWLTRL AKEQGDEIPL
RLVKGAYWDS ELKWAQQAGE AAYPLYTRKA GTDVSYLACA RYLLSDATRG AIYPQFASHN
AQTVAAISDM AGDRHHEFQR LHGMGQELYD TILSEAGAKS VRIYAPIGAH KDLLPYLVRR
LLENGANTSF VHKLVDPKTP IDSLVVHPLK TLTGYKTLAN NRIVLPADIF GSDRKNSKGL
NMNIISESEP FFAAIEQFKN TQWQAGPLVN GKTLTGEHKT IVSPYDTTQT VGQVAFADDA
AIEQALASAE AAFASWARTP VETRASALQK LADLLEENRE ELIALCTREA GKSIQDGIDE
VREAVDFCRY YAVQAKKMMA KPELLPGPTG ELNELFLQGR GVFVCISPWN FPLAIFLGQV
SAALAAGNTV IAKPAEQTSI IGYRAVQLAH QAGIPVEVLQ FLPGTGATVG SAITADERIG
GVCFTGSTGT AKLINRTLAN RDGAIIPLIA ETGGQNAMVV DSTSQPEQVV NDVVSSSFTS
AGQRCSALRV LFLQEDIADR VIEVLQGAMD ELVIGNPSSV KTDVGPVIDA TAKANLDAHI
DHIKQVGKLI KQMPLPAGTE NGHFVSPTAV EIDSIKVLEK EHFGPILHII RYKAAELSQV
INEINSTGFG LTLGIHSRNE GHALEVADKV NVGNVYINRN QIGAVVGVQP FGGQGLSGTG
PKAGGPHYLT RFVTEKTRTN NITAIGGNAT LLSLGDGEE
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