Gene COXBURSA331_A0744 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagCOXBURSA331_A0744 
SymbolputA 
ID5793477 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameCoxiella burnetii RSA 331 
KingdomBacteria 
Replicon accessionNC_010117 
Strand
Start bp653662 
End bp656802 
Gene Length3141 bp 
Protein Length1046 aa 
Translation table11 
GC content44% 
IMG OID641330240 
Productbifunctional proline dehydrogenase/pyrroline-5-carboxylate dehydrogenase 
Protein accessionYP_001596556 
Protein GI161830850 
COG category[C] Energy production and conversion
[E] Amino acid transport and metabolism 
COG ID[COG0506] Proline dehydrogenase
[COG4230] Delta 1-pyrroline-5-carboxylate dehydrogenase 
TIGRFAM ID[TIGR01238] delta-1-pyrroline-5-carboxylate dehydrogenase (PutA C-terminal domain) 


Plasmid Coverage information

Num covering plasmid clones32 
Plasmid unclonability p-value
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clonesn/a 
Fosmid unclonability p-valuen/a 
Fosmid Hitchhikern/a 
Fosmid clonabilityn/a 
 

Sequence

Gene sequence
ATGACAGATA CTCACTTGCT TTTTTTTGAA AAAGCGATAG CGCAAAATGC GATCCGACCA 
TCGTTAAATA AAACCTATCG AATGGATGAA ACCACATGCG TTAACCACCT TCTGAAAACA
ATCGCTTTTA CTCCCCGGCT GGAAGCAGCT GTCAGTCGTT TGGCCAAAGA GCTGGTAACG
GCGGTGCGGG AACAAGAGAG TGAGAAGGGC GGTATCGAAG GTTTCATGAT GCAATACGAT
TTATCCACTG AAGAAGGCAT TTTATTAATG TGCTTAGCAG AAGCTTTGCT GCGCGTGCCG
GATAAAGAAA CCGAAAACCT TTTAATTCGA GATAAATTAA CGAGTGCAGA ATGGAATAAA
TACGTAGGCG CTAGCGAATC TTCGTTTGTG AATTTCGCGA CATGGGGACT TGCATTATCG
GGAAAAATTT TAAAGAAAGA AAAAGATGGG CAATTCAAGA ATGTTTGGCG CAATCTCGTT
CGCAGAAGTG GCGAACCGGT CATCCGCAAA GCAGTTCGTG AAGCGATGAA ATTAATGAGC
GAACATTTTG TTTTGGGGCG GACCATTGAA GAAGCTGTCA AACGTTCACA AAGCGCTATA
AAAGAAGGCT TTCGTCATTC TTACGACATG TTAGGTGAAG TGGCGCGCAC CCAAGAGGAC
GCCGATCGTT ATTATGATTC CTATCATCGT GCCATTAGTG TTTTAGGAAA AAGTCATCCC
ACAAAATCCG TTCATGAGGC GCCAGGCATT TCCGTTAAAT TATCCGCTTT ATACCCTCGA
TACGATTTTA AAAAACGAGA ATTAGCGGTG CCTTTTTTGA TTGAGCGCGT AAAAGAATTG
GCATTGCATG CTAAAGAACA AAAAATCGGC ATGACCATTG ACGCGGAAGA AGCGGATCGC
TTGGATATTT CTCTCGATAT TTTTGAAGCG CTTTTTACGG ATGAAGCGTT TGAAAATTGG
CAAGGTTTAG GGCTTGCTGT GCAAGCTTAT CAAAAACGAG CCTTTTATTT AATCGATTGG
TTAATTGATT TAGCTCAACG ACAAAAACGT CGCATTCCTG TTCGTTTAGT AAAAGGAGCT
TATTGGGATA CCGAAATAAA ATTAGCGCAA ATGGAAGGAC TTAGTGGCTA TCCGGTTTTT
ACCCGAAAAG TAAATACAGA TATATCTTAC ATTGCGTGCG CTCAGAAAAT GTTGAACGCG
CAAGACGCCA TTTATCCGCA ATTTGCAACG CATAATGCCT ACTCCGTTGC AGCGATATTA
AATCTTATGG ATCACCATTA CGATAATTAC GAATTTGAAT TTCAGCAATT GCAGGGTATG
GGTAAAGCGC TCCATCATTA CATTGTCACT AAACTTAAAT TACCGTGTCG AGTTTACGCG
CCTGTCGGCT ATCACGAAGA TTTATTACCT TATTTAGTCC GACGATTACT GGAAAATGGT
GCGAACAGTT CGTTTGTTAA TCGCATTGGT GACAAAACCG TGCCCGTTGA CCAGCTTATC
GAAAGTCCCG TCAAAAAAAT CGAAGCTTTT GGGGATATTC CCAATCCGAA AATTCCTTTA
CCTAAAGGTA TTTTCAAAAC GCGGACTAAT TCAAGTGGCA TTGATTTAAG TAATTTCGCT
GAATTAATGC CTTTAAATGA GGAAATTCAT CATGCCTTGG AAAAAGAATG GGAGGCAGCG
CCGTTTTTAC AAGAAATTAA AAATGGTAAA CCTGTTTTTG ATCCAACGGA TAATCGTCGC
CAAATAGGGG TAATTGAACT TGCGAATGAA TCCGATGTAG AGAAAGCGAT ACAAGCGGGT
CATTCAGCAT TCCCAAACTG GGATCAAAAA GGGATTTCCG CACGGGCGAC TATTTTAAGA
AAAATGGCGG ATTTATTAGA AAAACATAAA GCGGAATTAA TGGCAGTGGT GGTTCGCGAA
GGGGGAAGGA CGCTGCAAAA TGCACTGTCA GAAGTGCGAG AAGCGACAGA TTTTTGTCGT
TACTATGCTG AGCAGGCGGA ACAGCATTTA AGTGATAAGG CTTTGCCAGG CTACACGGGT
GAAAGTAATA CCCTGCGGAT GAATGGACGT GGAATTATTT TGTGTATCAG CCCTTGGAAT
TTTCCCATTG CTATTTTTAC AGGGCAAATT GCCGCCGCTT TGGTGACTGG TAATGCCGTT
ATCGCAAAAC CCTCGGGACA GACGCCTTTA ACTGGCGCGT TGGTGACGCG GTTGTTTCAT
GAAGCGGGTG TGCCGAAAGA AATTTTGCAG TTAATGCCGG GTTCGGGCAA AACGGTGGGA
CAGGCGCTTA TCGAGGATAC CAAAATCAGT GGCGTGATTT TCACGGGTTC AGATGCTACC
GCGCGGCATA TTCAAAAAAC GTTGGCCGCC CGCCCGGGCC CGATCGTGCC CTTTGTAGCA
GAAACCTCCG GTATTAATGC CATGATCGCA GATTCGACCG CTTTACCCGA ACAGTTAGTT
AATGACGTCA TTGTTTCTGC CTTTGATAGC GCTGGACAGC GCTGTTCAGC ACTTCGAATT
TTGTATATTC AAGAGGATAT CGCGGATGAC GTTATTAAGA TGCTAAAGGG CGCAATGGCC
GAAATTAAAA TGGGCGACCC CCTGCTCTTA TCCACGGATG TCGGTCCTGT TATTGACGCT
AATGCGCAAA AAACGCTGCA AAAACACCAA GCATTGATGC AAAAAGAAGC GAAATTAATT
TATAAAGTGG ATTTGCCTCG CGAAACCGAT TTTGGGACTT TCGTTGCGCC ACAAGCCTAC
GAATTGCCTA ATTTGGGACT GATTACTGAG GAAGTATTTG GACCTATTTT GCATGTTATT
CGTTATAAGC GAGAAAATTT GAATAAAGTT ATCGAAGAAA TCAACGGGCT GGGTTACGGT
TTAACCTTCG GCATCCAAAG CCGCATAGAT GAAACAGTCG ATTATATCCA GCAGCGTATT
AACGCAGGAA ATATTTACGT TAATCGCAAT ACGGTTGGCG CCGTGGTAGG CGTGCAGCCT
TTTGGGGGCA GTTGGTTGTC CGGTACCGGC CCCAAAGCGG GTGGTCCTCA TTATCTTCCC
CGTTTTTGCA TAGAAAGCAC ACTGACTATC AACACGACGG CAGCCGGCGG AAATGCTTCG
CTTATGGCGA TGGAGGATTA G
 
Protein sequence
MTDTHLLFFE KAIAQNAIRP SLNKTYRMDE TTCVNHLLKT IAFTPRLEAA VSRLAKELVT 
AVREQESEKG GIEGFMMQYD LSTEEGILLM CLAEALLRVP DKETENLLIR DKLTSAEWNK
YVGASESSFV NFATWGLALS GKILKKEKDG QFKNVWRNLV RRSGEPVIRK AVREAMKLMS
EHFVLGRTIE EAVKRSQSAI KEGFRHSYDM LGEVARTQED ADRYYDSYHR AISVLGKSHP
TKSVHEAPGI SVKLSALYPR YDFKKRELAV PFLIERVKEL ALHAKEQKIG MTIDAEEADR
LDISLDIFEA LFTDEAFENW QGLGLAVQAY QKRAFYLIDW LIDLAQRQKR RIPVRLVKGA
YWDTEIKLAQ MEGLSGYPVF TRKVNTDISY IACAQKMLNA QDAIYPQFAT HNAYSVAAIL
NLMDHHYDNY EFEFQQLQGM GKALHHYIVT KLKLPCRVYA PVGYHEDLLP YLVRRLLENG
ANSSFVNRIG DKTVPVDQLI ESPVKKIEAF GDIPNPKIPL PKGIFKTRTN SSGIDLSNFA
ELMPLNEEIH HALEKEWEAA PFLQEIKNGK PVFDPTDNRR QIGVIELANE SDVEKAIQAG
HSAFPNWDQK GISARATILR KMADLLEKHK AELMAVVVRE GGRTLQNALS EVREATDFCR
YYAEQAEQHL SDKALPGYTG ESNTLRMNGR GIILCISPWN FPIAIFTGQI AAALVTGNAV
IAKPSGQTPL TGALVTRLFH EAGVPKEILQ LMPGSGKTVG QALIEDTKIS GVIFTGSDAT
ARHIQKTLAA RPGPIVPFVA ETSGINAMIA DSTALPEQLV NDVIVSAFDS AGQRCSALRI
LYIQEDIADD VIKMLKGAMA EIKMGDPLLL STDVGPVIDA NAQKTLQKHQ ALMQKEAKLI
YKVDLPRETD FGTFVAPQAY ELPNLGLITE EVFGPILHVI RYKRENLNKV IEEINGLGYG
LTFGIQSRID ETVDYIQQRI NAGNIYVNRN TVGAVVGVQP FGGSWLSGTG PKAGGPHYLP
RFCIESTLTI NTTAAGGNAS LMAMED