| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | WD0913 |
|---|
| Symbol | |
|---|
| ID | 2738086 |
|---|
| Type | CDS |
|---|
| Is gene spliced | No |
|---|
| Is pseudo gene | No |
|---|
| Organism name | Wolbachia endosymbiont of Drosophila melanogaster |
|---|
| Kingdom | Bacteria |
|---|
| Replicon accession | NC_002978 |
|---|
| Strand | + |
|---|
| Start bp | 878221 |
|---|
| End bp | 881319 |
|---|
| Gene Length | 3099 bp |
|---|
| Protein Length | 1032 aa |
|---|
| Translation table | 11 |
|---|
| GC content | 39% |
|---|
| IMG OID | 637173079 |
|---|
| Product | phosphoribosylformylglycinamidine synthase II domain-containing protein |
|---|
| Protein accession | NP_966653 |
|---|
| Protein GI | 42520738 |
|---|
| COG category | [F] Nucleotide transport and metabolism |
|---|
| COG ID | [COG0046] Phosphoribosylformylglycinamidine (FGAM) synthase, synthetase domain |
|---|
| TIGRFAM ID | [TIGR01736] phosphoribosylformylglycinamidine synthase II
[TIGR02697] Wolbachia palindromic element (WPE) domain |
|---|
| 
|
Plasmid Coverage information |
| Num covering plasmid clones | 0 |
|---|
| Plasmid unclonability p-value | 0.294336 |
|---|
| Plasmid hitchhiking | No |
|---|
| Plasmid clonability | normal |
|---|
| |
Fosmid Coverage information |
| Num covering fosmid clones | n/a |
|---|
| Fosmid unclonability p-value | n/a |
|---|
| Fosmid Hitchhiker | n/a |
|---|
| Fosmid clonability | n/a |
|---|
| |
Sequence |
| Gene sequence | ATGGCAAACA TTAGAATAGA AGTTTTAAAT AAATGCGAGC AAATTGGCTG CAGATGGTTA
GTCAACGTTT ACTCGATTTA CATACGCAAA GAATTACCAT CCAAATTATA TGAAGAAATT
TGCGGGCTAT TTTATAATAA AGTCATACAA AACTGCCGTT ATTATTCCTA CAATGAAAAC
CTTGAAGAAG TTCCGTATGA TTTCATAGAA CCACAAGCAA AGTGGGGCTT GGAAATAAGC
TTCCTACCTG GCATGACCGA TAATGTAGGC AACACAGTGA AACAAATTGT TAGAGAGTAT
TTAATAAGCA AAGGCTATAT CGACCAGCCT GTCATCCCAG CCCCTTCTTT TGTCATCCCA
GTGCTTGACA CTGGGATCCA GAAAGAGAAA ACGCAGATTC CAGCGTCACG CGCTGGAATG
ACACCAATTG AGATCAAAGC AAGAAGTTCA AAATTGATTC TAAGTCAAGG AGATTTACCA
ACCGAAGATG ATATAAAACA AGAGTTCAAC CCCATCACTG AGTATTGCAC ACTTATCTGT
AAAGAAAATA ATAACTATAG CTGGAAATAT TATGGTAAAT ATAAGTCATT AAATACCCAC
TCCGGTGTCA TTCCAGCGCG TGACCAGGAA AAAAAAGAAT GGATCCCAGT GTCAAGCACT
GGGATGACAG AAAAAAAGGC TGGGATGACA AAAGAGAGCA CTGGAGTGAT ATCAAGTAGT
AATGGGGCTA AATCTGTTGA TTTAAATGTA AGTGACCAAG AACTTGAGAA AATCAGCAGA
GATGGAATCG ATGGTAATGG CACTTTAGGG CTCTCGCTGG CAGCAATGAA AGCTATAAAG
GATTACTTTA AAAAACTTGG TAGAAATCCA TATGATATTG AACTTGAGTC TCTGGCACAG
ACTTGGTCTG AACATTGTAA ACACAATATT TTTTGCTCCC CTATTGATGA AATAAAAGAC
GGTCTATATG CTCATTATAT TAAGCGTGCA ACGCGTGAGA TAAATTCTGA CATATGCGTG
TCAGTTTTCT CCGACAACGC AGGAGGAATA ATTTTTGATG ACGATTACTT GATTGTAGAT
AAAGTTGAAA CTCACAATAG CCCTTCAGCT CTTGATCCAT TTGGTGGAGC AATGACCGGA
GTGCTTGGAG TTAATCGCGA TATAGTGGGT TTCGGGAAAG GCGCAGAGCC TATAATGAAT
ACCTATTACT TTTGCTTTGC CAAAGAAGCA AAAGGCAAAT TTTATAGGGA TAAAGAGCGC
ACTGATGAGA TCTTACCGCC AAAATATATA ATGAAAGAAG TGATTCACGG TGTTAATGTT
GCTGGTAATT GCTCTGGTAT TCCAACACAA CTTGGATCGG TATATTTCGA CGATAGATTT
TGTGGCAAGC CATTAGTTTT TGTCGGAAGC ATTGGAATTA TTCCACGCAA TATAAATAAT
GCACCTTCAC ACATTAAAGG ACCAAAAAAT GGCGATAAGA TTGTAATTAT TGGCGGAAGA
GTTGGAAGAG ATGGAATTCA CGGTGCAACG TTCTCTTCAG AGGCTTTATC GGGAAATAGC
CCTTCAACAA TTGTGCAAAT TGGTGACCCT ATAACACAAA AAAAATTATC CAATGCCGTC
ATAAAAGCAA GAGATCTTGA TCTTTATAAT GCAATAACGG ATAACGGAGC AGGTGGGCTG
TCGTCGTCTA TTGGTGAAAT GGGAAAAGAC GGATTTGAAG TTGATTTGAG CAAGGTTCTC
CTTAAAAACG ATGGTATGGC TCAGTGGGAA ATATGGATAT CAGAATCACA AGAGAGAATG
ACCTTAGCAG TGCCAGAAGA AAATCTCCCT ATGTTTAAGC AAATCATGAA AAAACATGAT
GTGGAGGTTT GTGTGATTGG AGAGTTTAAT GAGAGTGGTA AAGCTGTTGT TAAATGTCCT
GAAGGGACAG TAATAATGGA CATCGAAACT GAATTTCTGC ATGATGGTAA TCCCAAAGTG
CATTTACAGA CGAAACCGTG GTCTAAGGGG CTTCCAGCGC TATGCGCTGG AATGACAACA
AGTTCGCCTT CTTTAGCAAT TGAACTAAAA GAAATGCTGA GCAGACCAAA CATTTGCAGC
AAAGAGTTCA TAGTGGTGCA ATATGACCAT GAGGTTCAAG GGTCGTCAGT GCTGAAACCA
CTGCAGGGCA AGGGAAGAGT GTGCAGTGAA GCTATTGTTT CAAGGCCAAT CCTTTCTTCA
AATAAAGGTG TTGTAAAATC GCAAGGATTT GGCTCAAGTT ATGGAGAAAT TGACACCTAC
CACATGGCAG CATGTGCAAT TGACACCGCG ATACGCAACT ATGTAGCCGC AGGAGGAAAT
ATAAATCATC TAGCGTTGCT CGACAATTTT TGTTGGTGTG ATGCTTATAA TCCAGAAAGG
TTGTGGCAAC TAAAGAAAGC TGCAGAGGCT TGTTACGACT TCGCAACTGC ATTTAAAACA
CCATTCATAT CCGGAAAAGA CAGTATGTTC AATGACTTCA AGGGATATGA TGAAAATGGC
GAGAAAGTGA TAATCTCTGC ACCACCTTCA TTACTCATCT CAGCAATTGG AATTATAGAA
AATATTGAAA ATGCGGTATC GCTTGATGTA AAAATGCCAG GGGACTTGAT ATATGTGCTT
GGAGAAACAC TTGATGAACT TGGTAGATCT GAATATCAGT TATATAGTGG AATAGGTAAT
AACAACGTAC CAAAAGTTGA TGCAAAGAGC GCTAGGAAGT TGTATGAGCG TTACAACCAG
GCAAGAAAAG ATGGCATAAT TGCCTCTGCA ATTGCACCAA ACTTAGGCGG ATTAGTTATT
GCTCTGGCAA AATCGCTAAT TGCAGGAGAC CTTGGTGCTG AAATCGATCT TTCACTAGTG
CCAATAGGAA AAATACAAAA TACAGACATA ATAAACAAGA TAATAATGTT TTCTGAATCG
CAAAGTAGAA TTTTGGTTAC TATTGCACCA CAAAATCAGA AGAGGTTTGA AGAATTGTTT
GAAGGTGCAG TTTATTCATG TATTGGCAAA GTAACAGAGA AAAAGGTGCT AAACATAAAG
GATGTTTTCA AAGTAGATCT GAAAGATGTG GCATGCTAA
|
|---|
| Protein sequence | MANIRIEVLN KCEQIGCRWL VNVYSIYIRK ELPSKLYEEI CGLFYNKVIQ NCRYYSYNEN
LEEVPYDFIE PQAKWGLEIS FLPGMTDNVG NTVKQIVREY LISKGYIDQP VIPAPSFVIP
VLDTGIQKEK TQIPASRAGM TPIEIKARSS KLILSQGDLP TEDDIKQEFN PITEYCTLIC
KENNNYSWKY YGKYKSLNTH SGVIPARDQE KKEWIPVSST GMTEKKAGMT KESTGVISSS
NGAKSVDLNV SDQELEKISR DGIDGNGTLG LSLAAMKAIK DYFKKLGRNP YDIELESLAQ
TWSEHCKHNI FCSPIDEIKD GLYAHYIKRA TREINSDICV SVFSDNAGGI IFDDDYLIVD
KVETHNSPSA LDPFGGAMTG VLGVNRDIVG FGKGAEPIMN TYYFCFAKEA KGKFYRDKER
TDEILPPKYI MKEVIHGVNV AGNCSGIPTQ LGSVYFDDRF CGKPLVFVGS IGIIPRNINN
APSHIKGPKN GDKIVIIGGR VGRDGIHGAT FSSEALSGNS PSTIVQIGDP ITQKKLSNAV
IKARDLDLYN AITDNGAGGL SSSIGEMGKD GFEVDLSKVL LKNDGMAQWE IWISESQERM
TLAVPEENLP MFKQIMKKHD VEVCVIGEFN ESGKAVVKCP EGTVIMDIET EFLHDGNPKV
HLQTKPWSKG LPALCAGMTT SSPSLAIELK EMLSRPNICS KEFIVVQYDH EVQGSSVLKP
LQGKGRVCSE AIVSRPILSS NKGVVKSQGF GSSYGEIDTY HMAACAIDTA IRNYVAAGGN
INHLALLDNF CWCDAYNPER LWQLKKAAEA CYDFATAFKT PFISGKDSMF NDFKGYDENG
EKVIISAPPS LLISAIGIIE NIENAVSLDV KMPGDLIYVL GETLDELGRS EYQLYSGIGN
NNVPKVDAKS ARKLYERYNQ ARKDGIIASA IAPNLGGLVI ALAKSLIAGD LGAEIDLSLV
PIGKIQNTDI INKIIMFSES QSRILVTIAP QNQKRFEELF EGAVYSCIGK VTEKKVLNIK
DVFKVDLKDV AC
|
|---|
| |