Gene Xfasm12_0203 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagXfasm12_0203 
SymbolinfB 
ID6119705 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameXylella fastidiosa M12 
KingdomBacteria 
Replicon accessionNC_010513 
Strand
Start bp243125 
End bp245803 
Gene Length2679 bp 
Protein Length892 aa 
Translation table11 
GC content52% 
IMG OID641648290 
Producttranslation initiation factor IF-2 
Protein accessionYP_001774866 
Protein GI170729433 
COG category[J] Translation, ribosomal structure and biogenesis 
COG ID[COG0532] Translation initiation factor 2 (IF-2; GTPase) 
TIGRFAM ID[TIGR00231] small GTP-binding protein domain
[TIGR00487] translation initiation factor IF-2 


Plasmid Coverage information

Num covering plasmid clones17 
Plasmid unclonability p-value0.665385 
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
ATGTCGCAGC AAACCACTAT TCGTAAGCTT GCCGAGCTGG TCAATACGCC GGTTGAGAAA 
CTGCTAGAGC AGTTGGCTGG GGCTGGTATG AAGTTCAGTG GTCCCGACCA AGTCGTGACC
AGTACTGAAA AGATGAAGCT GCTCGGGTTC TTACGCCGCA CACATGGTAA GTCTGATGTG
TCGGTTGGGA CTGTCCGTGA GGCACCGAAA AAGATCACGC TTAATCGGCG TCGGCTACAA
GAAGTGACCG TTAATGCTGG CCGCAACAAG ACTACCGTAA ACGTGGAAGT GCGCCAAAAG
CGCACTTATG TGAAGACCCC CGAGAGCGAA TATCATACGC CGACAAAACC ACCCATAGAG
CTGGCTGATG CCGAGCGTGT TGAAATATTG CGTAAACTTG AAGAATCACG CCAGCGAAAT
CTTGCTGAGC AGCAGCGTTT AGCTGAAGTT GACCGTCAGC GTGTTGAGGA GCAGGAGCGA
AAGCGCCGTG AAGAAGAACA GGCCGAGCTT GAGCGCCAGA AGACTGAAAG TCGCGTAGTT
GAGGAGATTC TTGTCAAGAC AGATTCCAAT TCCGTCAAAC CGGTGTCTAA ACCAATCTCT
GAAGAGCGCA CGCGTGCGTT GCCACGAACA GTCCGGCCAA CACCTGCTGC GCGCCCTTCC
GTATCGCGTT CGGATGACCG TAATAGCAAT GGTGGGGTGC GGCATAAACC TCGTGGTTCG
CATGTGATTG TTTCGGACGA GGATGATTCT GCACGCCGTT TTGTTGGTCA AATGCACCTG
ACGGCTGCTG AACGTGCTCG CCGTGGTAGC AACACACGAG GCAAAGGAGG TGGTTCTCAC
CGTGGCGCTA CTCATCGAGG TAACGAGAAC AGTATTCGTT CTAGTGGTGC TCATGGTTTC
GAGCGTCCTA CTGTTGCAGT GGTGCGTGAA GTCGCTGTCG GAGACACCAT CACCGTAGCT
GATTTGGCTC AGAAGCTCGC GCTGAAAAGT GGTGATATGG TGAAGGCGTT GTTTAAGATG
GGCGTGATGG TGACAATCAC GCAGACCATT GATCATGACA CTGCAGTACT GGTAAGCGAG
GAACTGGGTC ACAAGGTGAC TCGTGCCAGC AGCAGTGATT TTGAGGATGC TTTACTGGCC
CATACTGAGG AAGTGCATGG TGAGCCGGTT CCGCGTCCAC CTGTGGTGAC GATCATGGGG
CATGTTGACC ACGGTAAAAC TTCGTTGCTT GATTACATTC GTCGTACCAA AATTGCAGTG
GGGGAGGCTG GTGGCATCAC CCAGCACATC GGTGCTTACC ATGTGGAGAC CCCGCGTGGA
GTGATCAGCT TTTTGGATAC GCCTGGCCAC GCCGCCTTCA CCTCAATGCG CGCGCGCGGT
GCCAAAATCA CGGATATTGT GGTGCTCGTG GTTGCTGCCG ATGATGGTGT GATGCCACAG
ACCAAGGAGG CAGTACAACA TGCTAGGGCG GCTGGTGTGC CGCTTATTGT AGCTGTCAGC
AAAATTGATA AGTCTACTGC TGACCCGCAG CGTGTAAAAA ACGAGTTGTT AACCGAGAGC
GTCGTAGCCG AGGAATTTGG TGGAGACACG CAGTTTGTCG AGTTGTCTGC TAAAACTGGT
GTTGGGGTTG ATGCGTTGTT GGACGCAATT TCGATTCAAG CCGAGGTGTT GGAGCTAAAG
GCTGTGATTG AAGGTCGTGC GACCGGTACT GTGATCGAGT CTTCGCTAGA CAAAGGACGT
GGTCCGGTAG CAACGGTATT GGTGCAGCAG GGACGTCTGA AAAAGGGCGA TTACTTGGTA
TGCGGTACTC ATTATGGTCG TGTGCGTGCT CTGTTCGATG AAGTTGGTCA CCAACCACTT
GCTGCATCTC CATCAATTCC TGTACAGGTG CTGGGATTGT CTGGCGTGCC TGATGCTGGA
GACGATTTCG TAGTTGTTGA TGATGAACGT CTTGCTAAAG ATGTAGCGCA GCAGCGCGAG
GCTAAGCGCC GTGAGTCTCG TCTAGTTACT TCTGCTGGCA ATCGCATGGA AGACATCTTG
GCTCAGATGG GTAAAGGCGA GAATCAGCAA GTGCTTAACT TGTTGATTAA GGCCGACGTT
CAAGGTTCGC TAGAAGCGCT TAAACAGGCA TTGGTCGCAC TGTCAAACGA CGATATTAGA
ATTAATGTAA TTCATGTTGG TGTTGGAGGT ATTACTGAGT CGGATGCCAA CTCTGCCGTG
ACCTCTAAGG CTACTGTGAT TGGCTTCAAT GTCCGTGCCG ATGCATCTGC TCGTAAGATC
ATTGAGGCGA ATGGCGTAGA TTTGCGTTAT TTCTCTATCA TTTACGATGT TATTGATCAG
GTGAAGCAGG TCGCTTCTGG TTTGCTTGGG GTTGAGATTC GTGAGGAGAT CATCGGTGTT
GCCGAGGTAC GGGATGTGTT CCGTAGCTCC AAGTTCGGCG CTGTTGCCGG TTGTATGATC
ATTGAGGGTG TTGTCAAGCG TTCCAAACCA ATCCGTGTGC TCCGTGATAA CACTGTGGTG
TTTGAGGGTG AATTGGAGTC ATTGCGTCGC TTTAAAGAGA ATGTTGACGA GGTGCGTAAC
AGTACTGAGT GTGGCATTGG AGTGAAGGCT TACAATGATG TCAGGGTTGG TGATAGCATA
GAATGTTTCG AACGTATTGA GGTTGCACGT ACGTTGTAA
 
Protein sequence
MSQQTTIRKL AELVNTPVEK LLEQLAGAGM KFSGPDQVVT STEKMKLLGF LRRTHGKSDV 
SVGTVREAPK KITLNRRRLQ EVTVNAGRNK TTVNVEVRQK RTYVKTPESE YHTPTKPPIE
LADAERVEIL RKLEESRQRN LAEQQRLAEV DRQRVEEQER KRREEEQAEL ERQKTESRVV
EEILVKTDSN SVKPVSKPIS EERTRALPRT VRPTPAARPS VSRSDDRNSN GGVRHKPRGS
HVIVSDEDDS ARRFVGQMHL TAAERARRGS NTRGKGGGSH RGATHRGNEN SIRSSGAHGF
ERPTVAVVRE VAVGDTITVA DLAQKLALKS GDMVKALFKM GVMVTITQTI DHDTAVLVSE
ELGHKVTRAS SSDFEDALLA HTEEVHGEPV PRPPVVTIMG HVDHGKTSLL DYIRRTKIAV
GEAGGITQHI GAYHVETPRG VISFLDTPGH AAFTSMRARG AKITDIVVLV VAADDGVMPQ
TKEAVQHARA AGVPLIVAVS KIDKSTADPQ RVKNELLTES VVAEEFGGDT QFVELSAKTG
VGVDALLDAI SIQAEVLELK AVIEGRATGT VIESSLDKGR GPVATVLVQQ GRLKKGDYLV
CGTHYGRVRA LFDEVGHQPL AASPSIPVQV LGLSGVPDAG DDFVVVDDER LAKDVAQQRE
AKRRESRLVT SAGNRMEDIL AQMGKGENQQ VLNLLIKADV QGSLEALKQA LVALSNDDIR
INVIHVGVGG ITESDANSAV TSKATVIGFN VRADASARKI IEANGVDLRY FSIIYDVIDQ
VKQVASGLLG VEIREEIIGV AEVRDVFRSS KFGAVAGCMI IEGVVKRSKP IRVLRDNTVV
FEGELESLRR FKENVDEVRN STECGIGVKA YNDVRVGDSI ECFERIEVAR TL