Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Dshi_1631 |
Symbol | sufB |
ID | 5712776 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Dinoroseobacter shibae DFL 12 |
Kingdom | Bacteria |
Replicon accession | NC_009952 |
Strand | - |
Start bp | 1694568 |
End bp | 1696079 |
Gene Length | 1512 bp |
Protein Length | 503 aa |
Translation table | 11 |
GC content | 59% |
IMG OID | 641267547 |
Product | cysteine desulfurase activator complex subunit SufB |
Protein accession | YP_001532974 |
Protein GI | 159044180 |
COG category | [O] Posttranslational modification, protein turnover, chaperones |
COG ID | [COG0719] ABC-type transport system involved in Fe-S cluster assembly, permease component |
TIGRFAM ID | [TIGR01980] FeS assembly protein SufB |
|
|
Plasmid Coverage information |
Num covering plasmid clones | 19 |
Plasmid unclonability p-value | 0.190869 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
| |
Fosmid Coverage information |
Num covering fosmid clones | 15 |
Fosmid unclonability p-value | 0.0000799616 |
Fosmid Hitchhiker | Yes |
Fosmid clonability | hitchhiker |
| |
Sequence |
Gene sequence | ATGAACGCTC TGACAGAAGT TGAAGTGCGC GAGGGTGTGG ACCGCGAAAC GGTCGAGGCG GTTCAATCGG TCGGAGAGCG CTACAAGCAC GGCTGGGCAA CCGACATCGA GATGGAATAC GCCCCGAAGG GCATCGACGA GGACATCGTA CGCCTGATCT CGGAAAAGAA CGAAGAGCCC GAATGGATGA CAGAGTGGCG GCTTGAGGCC TTCGCGCGGT GGAAGAAGCT CAAAGAGCCG AAATGGGCCA TGGTCGATTA CCCTGAAATC GACTTCCAGG ACCAGTATTA CTATGCCCGC CCAAAGAGCA TGGAGGTGAA GCCGAAGTCT CTGGACGAAG TCGATCCCAA GCTCTTGGAA ACCTATAAGA AACTCGGTAT TCCATTGAAA GAGCAAGCAC TCCTCGCCGG TGTCGAGGCG CCCGAGGAAG ACCGCCGCGT CGCGGTGGAT GCGGTGTTTG ACTCCGTATC CGTCGGCACG ACCTTTCAGG CCGAGCTGAA AAAGGCCGGC GTGATCTTCT GCTCGATCTC CGAGGCCATC AAGGAACATC CCGAGCTGGT CAAGAAGTAC CTCGGCTCCG TCGTTCCGGT TTCGGACAAT TACTATGCCA CACTGAACTC GGCCGTGTTC TCGGACGGCT CTTTTGTCTA TGTGCCGCCG GGCGTGAAAT GCCCGATGGA GCTGAGCACC TATTTCCGCA TCAATGCCGA GAACACCGGC CAGTTCGAGC GGACGCTGAT CATCGCGGAC AAGGGATCGT ATGTGTCCTA TCTCGAGGGA TGCACCGCGC CTCAGCGCGA CATCGCGCAG CTGCACGCTG CGGTCGTCGA GATCGTTCTG CTGGAAGATG CCGAGGTGAA GTATTCTACG GTGCAAAACT GGTATCCCGG CGACGAGAAC GGCAAGGGCG GCATCTATAA CTTCGTCACC AAGCGCGCCG ATTGCCGGGG CGATCGGTCC AAAGTGATGT GGACCCAGGT GGAGACCGGC TCGGCAGTGA CCTGGAAATA CCCGTCCTGC ATCCTGCGCG GCGACGACAC GCAAGGCGAG TTCTATTCCA TCGCGATCGC CAACAACATG CAGCAGGCCG ATACCGGTAC GAAGATGGTG CACCTGGGCA AGAATACCAA GTCGCGGATC GTCTCCAAGG GGATCAGCGC GGGCAAGGCA CAGAACACCT ATCGCGGCCT CGTGTCGATG CACCCCAAGG CGAAGAACGG GCGCAACTAT ACCCAGTGCG ATAGCCTGCT GATCGGCGAC AAGTGCGGCG CGCATACGGT GCCATATATA GAGGTTCGGA ATAACTCGAG CCGGGTGGAG CACGAAGCGA CCACGTCCAA GGTGGACGAA GATCAACTCT TCTACTGCCG CCAGCGCGGC ATGGACGAGG AAGAGGCGGT GGCGCTTGTG GTCAACGGGT TTTGCAAGGA CGTCTTGCAG GCGCTGCCCA TGGAGTTTGC CATGGAAGCC CAGCAGCTTG TTGCCATCTC TCTCGAAGGG TCGGTGGGCT GA
|
Protein sequence | MNALTEVEVR EGVDRETVEA VQSVGERYKH GWATDIEMEY APKGIDEDIV RLISEKNEEP EWMTEWRLEA FARWKKLKEP KWAMVDYPEI DFQDQYYYAR PKSMEVKPKS LDEVDPKLLE TYKKLGIPLK EQALLAGVEA PEEDRRVAVD AVFDSVSVGT TFQAELKKAG VIFCSISEAI KEHPELVKKY LGSVVPVSDN YYATLNSAVF SDGSFVYVPP GVKCPMELST YFRINAENTG QFERTLIIAD KGSYVSYLEG CTAPQRDIAQ LHAAVVEIVL LEDAEVKYST VQNWYPGDEN GKGGIYNFVT KRADCRGDRS KVMWTQVETG SAVTWKYPSC ILRGDDTQGE FYSIAIANNM QQADTGTKMV HLGKNTKSRI VSKGISAGKA QNTYRGLVSM HPKAKNGRNY TQCDSLLIGD KCGAHTVPYI EVRNNSSRVE HEATTSKVDE DQLFYCRQRG MDEEEAVALV VNGFCKDVLQ ALPMEFAMEA QQLVAISLEG SVG
|
| |