| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | M446_2875 |
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| Symbol | |
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| ID | 6135809 |
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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 | Methylobacterium sp. 4-46 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_010511 |
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| Strand | + |
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| Start bp | 3193553 |
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| End bp | 3196429 |
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| Gene Length | 2877 bp |
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| Protein Length | 958 aa |
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| Translation table | 11 |
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| GC content | 75% |
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| IMG OID | 641643074 |
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| Product | AMP-dependent synthetase and ligase |
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| Protein accession | YP_001769731 |
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| Protein GI | 170741076 |
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| COG category | [I] Lipid transport and metabolism
[Q] Secondary metabolites biosynthesis, transport and catabolism |
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| COG ID | [COG0204] 1-acyl-sn-glycerol-3-phosphate acyltransferase
[COG0318] Acyl-CoA synthetases (AMP-forming)/AMP-acid ligases II |
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| TIGRFAM ID | [TIGR00530] 1-acyl-sn-glycerol-3-phosphate acyltransferases |
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Plasmid Coverage information |
| Num covering plasmid clones | 2 |
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| Plasmid unclonability p-value | 0.0255103 |
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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 | 18 |
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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 | TTGCCGGAGG TCGCCTTGCC GGAAGTCGCC TTGCAGAACG TAACCCCTCA GGCGGGTGAT
CCGGCCGAGC GGCATCGCGA GCCGACCGCG GCGGACGTCC TCGAGGTGAT CCGGTCTCTC
CTGCTCGAAC TGCATCCTGA GCGCCGCCGC TCCCCGGCCG TGGACCTCGA CAGCGACCTC
GAGCGGGATC TCGGCCTCGA CAGCCTCGGC CGCGCGGAGC TCCTGCTGCG CCTCTCGCGC
CGCTTCCGGA TCCTGCTGCC GGAGCGGCTC ATCGGCGAGG CCTCCACGCC GGACGACCTG
CTCGCGGCCC TCCGGTCCGC CGGTGCGGCG CCCCGTCCGG GGGCCGTGCC GTCCCGCACC
GAGGCCCTCC CCCCGGCATC CGAGCCGCAC CGGGCCGAGA CTTGGCCCGA GGTGCTCGCC
TTCCACGTCC GCCACCATCC GGACCGGCCC CACCTGCGCC TTCGTGAGGG GCCCGACGCC
GAGACCGTCC TCACCTACGC GGACCTCGAC CGGCGGGCGC GCCGCGTCGC GGCCGGCTTG
CTCGGCCACG GCCTCGCACC CGGCGACCGG GTCGCCATCA TGCTGCCGAC CGGACCCGAC
TTCTTCCCGG CTTTCTTCGG CTGCCTTCTC GCGGGCGGTG TCCCGGTGCC GCTCTATCCG
CCGTTCCGGC GCGCCCAGGT CCAGGACCAC CTCGAGCGCC AAGCCGGCAT CCTGACGAAT
GCCGCCCCCG GGATCCTGAT CACCGATTCG GCGGTCGCAC CCTTCGCCCG GCTGCTGCCG
GACCGCGTCG AGGGATTGCG GGTGCTGACG ACCGCGGCGG ACCTCGCCGA CGCGGAGCCC
CTGGCCGAGC CCGTGCCGGC GACGGGCGCG AGCCTCGCGC TGATCCAGTA CACCTCCGGC
AGCACCGGCG ATCCGAAGGG CGTGACGCTG ACGCACGCCA ACCTGCTCGC CAATGTCCGC
GCCATGGGCG AGGCGCTCGG CGCCTCCTCG GCGGACGTCG TGGTGAGCTG GCTGCCGCTC
TACCACGACA TGGGGCTGAT CGGCTGCTGG CTGGGAAGCC TCTACTTCGG CGCGCCCGCC
GTGATCCTGC CGCCCCTGGC CTTCCTGGCC GATCCCGGAA GCTGGCTGTG GGCGATCCAC
CGGCACCGCG GGACGATCTC CGCCGCTCCG AACTTCGCCT ACGAGCTCTG CCTCAAGAGC
CTGCGCGACG AGGATGTCGC GGGACTCGAC CTCGGCTCCC TGCGCGTCCT CACCAACGGC
GCCGAGCCGG TGAGCCCCGA CACCCTGGCG CGGTTCGCCC GGCGCTTCGG CGCCTTCGGC
CTGCAGACCT CCGCCCTCAC CCCGGTCTAC GGCCTCGCCG AATGTGCGGT CGGACTGGCC
TTCCCGCCGC TCGGACGGGG GCCGCGCATC GACTGGATCG ACCGCGCGGC GCTGTCGCGC
GAGGGAACCG CGCGCCCCGC CCCGCCCGGC GAGGCGGGGT CGACCGCCTT CGCGGCCTGC
GGGCGCCCGT TGCGCGGCCA CCAGATCCGC ATCGTGGACG AGGCCGGACG CGAACTGCCC
GAGCGGCGGG AGGGCCGCCT CCAGTTCAGG GGGCCGTCCG CCACGGCCGG CTACTTCCGC
AAGCCAGAGG CCACGCGCGT CCTGTTCGCC GGAGACTGGC TGGAGAGCGG CGACCTCGCC
TACATGGCGG GCGGCGACGT CTACGTCACG GGGCGCACCA AGGACATCGT CATCCGGGCG
GGACGGAAGA TCCATCCGCA CGAACTCGAA GAGGCCGCGG GCGCGGTCGA GGGGGTGAGG
AAGGGCTGCG TCGCGGCCTT CGCCTGCCCC GACCCGAAGA CCGGGACGGA GCGGCTGATC
CTCGCCGCCG AGACGCGGCT GACGGACGCG CCGGCCCTGG CGGACCTGCG CCGCGCCCTC
GCCCGGGCCG CCGGGGCGGT GCTCGATCAG CCCCCCGACG AGATCCTGCT GTGCGCGCCC
CACTCGGTCC CCAAGACGTC GAGCGGGAAG ATCCGGCGCG CGGCGGCGCG GGCGCTCTAC
GAGGCGGGCG AACTCGGCCG GGCGCAGCCC GCTCTCCGGG CGCAGCTCGC GGGGCTCGCC
GTCGCCGGCA TCGCGGCGCG GCTGCGCCGG ATCGGCCGCC TCTGGTCGGA CGCGTGCTAC
GCGGCCCTGT GGTGGGGCGT GCTCGGGGGG CTCGGCGCCG TCCTGTGGCT CCTCGTCCTC
GTCCTCCCGA ACCGCACGTG GCGCTACGCC GCGCTGCGCG CGGGATCGCG CGCCTTCTTC
CGCCTCACCG GGACACCCCT CGCCGTCGAG GGCAGGCCGA TGGCGCGTGC CGCCATCGTG
GTGGCGAACC ACGCGAGCTA CCTCGACGCG GCCGTTCTGG CCGCCGTCCT GCCCGGGACA
CCGGTCTTCC TCGCCAAGCA CGAACTGGCG CGCCAGCGCG TCGCCGGACC CTTCCTGCGG
CGGCTGGGAA CGGCCTTCGT GCATCGCGGC ACCGCCGAAG GCGTCGCGGA GACGCAGCAG
GTCCTTGCGC GCGTCCGGGC GGGCGAGCAG CTGGTCGCCT TCCCGGAGGG TACCTTCACC
CGGAACCCGG GCCTCCTCGG CTTCCATCTC GGCGCCTTCC TGGATGCGTG CCGGGCCGAC
ATCCCGGTCG TGCCGGTCGC GATCACCGGC ACCCGGTCGC TGCTGCGCGC CGACCAGTGG
TTCCCGCGCC GCGGCGCCGT CGGGGTGCAG TTCGGCGAGC CGATCGCACC CGACGGCAGC
GACTTCCACG CCGCCATCCG CCTGCGCGAC CGGGCGCGCG CGGCAATCCT GGCGCGGTGC
GGCGAACCGG ATCTGGCCGA CGAGTCCGTG ATTCCCTCCG CACCGCCCAC GGCCTGA
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| Protein sequence | MPEVALPEVA LQNVTPQAGD PAERHREPTA ADVLEVIRSL LLELHPERRR SPAVDLDSDL
ERDLGLDSLG RAELLLRLSR RFRILLPERL IGEASTPDDL LAALRSAGAA PRPGAVPSRT
EALPPASEPH RAETWPEVLA FHVRHHPDRP HLRLREGPDA ETVLTYADLD RRARRVAAGL
LGHGLAPGDR VAIMLPTGPD FFPAFFGCLL AGGVPVPLYP PFRRAQVQDH LERQAGILTN
AAPGILITDS AVAPFARLLP DRVEGLRVLT TAADLADAEP LAEPVPATGA SLALIQYTSG
STGDPKGVTL THANLLANVR AMGEALGASS ADVVVSWLPL YHDMGLIGCW LGSLYFGAPA
VILPPLAFLA DPGSWLWAIH RHRGTISAAP NFAYELCLKS LRDEDVAGLD LGSLRVLTNG
AEPVSPDTLA RFARRFGAFG LQTSALTPVY GLAECAVGLA FPPLGRGPRI DWIDRAALSR
EGTARPAPPG EAGSTAFAAC GRPLRGHQIR IVDEAGRELP ERREGRLQFR GPSATAGYFR
KPEATRVLFA GDWLESGDLA YMAGGDVYVT GRTKDIVIRA GRKIHPHELE EAAGAVEGVR
KGCVAAFACP DPKTGTERLI LAAETRLTDA PALADLRRAL ARAAGAVLDQ PPDEILLCAP
HSVPKTSSGK IRRAAARALY EAGELGRAQP ALRAQLAGLA VAGIAARLRR IGRLWSDACY
AALWWGVLGG LGAVLWLLVL VLPNRTWRYA ALRAGSRAFF RLTGTPLAVE GRPMARAAIV
VANHASYLDA AVLAAVLPGT PVFLAKHELA RQRVAGPFLR RLGTAFVHRG TAEGVAETQQ
VLARVRAGEQ LVAFPEGTFT RNPGLLGFHL GAFLDACRAD IPVVPVAITG TRSLLRADQW
FPRRGAVGVQ FGEPIAPDGS DFHAAIRLRD RARAAILARC GEPDLADESV IPSAPPTA
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