Gene Tery_2526 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagTery_2526 
Symbol 
ID4245061 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameTrichodesmium erythraeum IMS101 
KingdomBacteria 
Replicon accessionNC_008312 
Strand
Start bp3895366 
End bp3898830 
Gene Length3465 bp 
Protein Length1154 aa 
Translation table11 
GC content32% 
IMG OID638107605 
Producttetratricopeptide TPR_2 
Protein accessionYP_722204 
Protein GI113476143 
COG category[O] Posttranslational modification, protein turnover, chaperones 
COG ID[COG3914] Predicted O-linked N-acetylglucosamine transferase, SPINDLY family 
TIGRFAM ID 


Plasmid Coverage information

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

Fosmid Coverage information

Num covering fosmid clones
Fosmid unclonability p-value0.240995 
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGAAAATGT TAGCTAAAAG TTATTTCAAT ACAGCAAATC AACTAAAAGA TTCAGGACAA 
CTTTATACAG CGATGATTGC TTATCAAAAA GCTTTGGCTA TTAAACCAGA TTATGTCGAA
GCTTACAAGA AGCTAGCTGA AGTATACTTA ATGCAAGGCA ATTTTGATGC CGGGATTTCT
GCTTGCAAAG AAGCAGTTAA AATTCAACCA CATTTTGCTT CTGCTTATTT GACTTTAGGA
AATATTTTTC AAAGTCAGAA TTTACTTGAA AAAGCAATTA ATACTTATTA TGAGGCGTTA
AGTATTGAAC CAAATTTTGC ACAAGTATAT GCTAATATTG GTAGTGTTTA TTATAAATTG
GGCGAGTTTA ATTTAGCTAT TTCTAATTAT CAAAAAGCTT TAGAGATTAA TTCAAATTTA
GCATCTGTGC AGTTGATGTT AGGGAATGTA TTTTCTTTGA TAGGGGAATT TGAACAAGCA
ATTTATTGTT ATCAAAAATT ACTACAAATT AAGCCAAAGG ATGCTCAAGC TTATTTTAAG
TTAGCTGAGG TATTTGCTTT ATATTCAAAT ATTGAATTAG CTATTAATTA TTATCAAAAA
TCTTTATCTA TTAAACCAAA TTATTGGGAA GCTTTTTTGA AATTATCTCA ATTAATCAAA
CCTGAAATTA CTGATCAGGA ATTGGATAAA TTATTCACTC AATGGCAAAA ATTTGCGCGG
GAAAATAATC ATAATATAAA GGAATATGTT GAGTCAGTAA TTCAGAAACA ATCAACGAAT
TTTAAAGATC AGGAAAAATT GACAGTAAAA CAATATAAAG AAGCTATTAT TTCTGATGGG
GAAAATGGAA TTGAACTTGC TACTATCAAT TTGATTTCAG AACAAAAATT AGATAATTTT
GAGAATACTT ATGATAATTT TTCTGTCCAT GATGACGTAG AAGAAAACTT GAAAAAAAAC
GGTAAATTTA CGACTTTTGA ATATCAAAAA CTAGAGTCAG GGTTAACTTC ACAAATATTA
AAATTGCCAG CAGCAGAAGC TTATATAAAT CAAGCTAATT TGGCTTTGAA ACAAGGAAAT
TTAGCATCAG CGATCGCCTC CTGTAAACAA GCTTTAAAAA TTCAACCAGA TCATTCTCCA
TCTTATGTAA TTTTAGGGAA TGCTTTTTAC CAACAAAATA ATTTAGAAGC TGCTTTGCAT
GCTTATCGTC AGGGGTTAGA AATTGACCCA GAATTGGCTG AAGTTCAGGG AAATATTGGT
AGTGTCTATT TGCAGTTAGG TCAATATAAA CAAGCACTTT TTCATTATCA AAAGGCTATT
GACTTAAAAC CTGGTTTGGC TGGTATTTAT TGGAATATTG GCAAACTATT TCAATGTTTA
GGAAAGGTTG ATGAAGCTAT TAATGCTTGG TCAAAAGCAT TAGAAATTCA ACCGGATATT
GTGGAGGCTG ACTTTCACTT TAAATTAGGT AATACTCTTG TTAAATTGAG TAGAATTAAT
GATGCAATTA AGAGTTATGA GAGAGCAATT AATCTGAAGC AAGATTATAC TGAAGCTTAT
AGTAATCTAG CTAATATTTT AGGTGAAAAA GGGGATAGAG AAGCAGCGGT TAATTATTAT
AATCAAGCAC TGAAAATCAA TCCAGAATTA AAATTTTTAC ATGAAAAGCT AGCTAATAAT
TTATTGCTGA AAGGTGACTA TGATCAAGCA ATAATTCATT ATCAAGAAGC TATCAAATAT
AACCCTAAGT CTTATGATGC TTATGCTAAC TTAGGAACAG CACTTTCTAA TAAAGGATTA
TTAGCATTAG CACTAGAAAA ATATTATAAA GCATTAGAAC TTAAACCAAG CTGGGCAGAA
GTATACTCTC GCATCGGACA TATTATTAAA CAAGAAAAAA TGGAAGAGGC GATCGCTTTA
TTTGAAAAAG CAATTGAACT TAAACCACAG TTTGTTGAAG CTCATCAACA ATTATGTGAT
TTACTTAGTC ATACAACTAA ACTTGCTGTA GCTAGAAAAG CTGCAGATAA TTTCTGTAAT
TCTTGTGGAG AAATAGCTCC TATTCTTTCA GGAACTGCCT TTTTATTTTC CTACTTTCAA
TCGGGAGTAA GTGAGGTAGC AAATGCTAAA CTTTTAGAGG TCGAAAAAAT CTGTTATCAG
AGTTATAAAA ATTTCAGCGA ACTAGAAATT AAGCTACTTT ATGAAATTTT CTTGTTTGCC
GTTTATCATC TTCGGGATGA CTTAGAAAAC AATTCAAATT TTTATAAGTT AATCGCACAG
CAATATTATC AAAATCGACC TAAAATTTAT CAAACTACAA AAACTTATAT TTCTAGTTCC
CAATCATTAA AAATAGGATT CCTTTCTAAA CATTTTCGCC GTCATTCTGT GGGTTGGTGT
AGTGAGTATT TAATCAAAGA ATTATCTCAA ATTACACCAA ACGTTTATCT TTATATTACA
GGTCCGTTGA AGAGAGATGA TGTTACTCAA AGATTTGAAA AAATGTCTGT TCAAACTTAC
TGGCCTAAAA AGTATCCTAA TGGGTTTCCA TGTTATACAG AAATTGTTGA ACAAATATTA
GAGGATAAGT TAGATGTAGT GGTGGATTTA GATTCAACTA CATTGCCAGT CAATGTTCAT
GTTCTCTATG AAAAACCTGC ACCAGTTTGT GTTTCTTGGT TAGGTTTTGA TGCGCCCTAT
ATTTCTGAAA GTAATTACTT TTTATGTGAC TGGCATACCC ATCCTCAAGG AAGAGAAAAA
TATTATTTAG AAAAGTTAGT GAGATTACCA GAAACATCTG TAGCTGTGGG TGGGTTTAAT
AGTTGTTCGG TTGATAGAAA TTCAACTAGA AATAGTCTCG GAATTGATTC AGATCAAATG
GTTTATTTGT GTATAGCGCC CGGACGAAAA ACTAATCCAA AAATGGTAAG GGCTCAACTG
AAAATTTTGC AACATACCCC AAAAAGTATA TTAATTCGGA AAGGTCAGGG AGATGTAGAT
GTCATTTATC AAAGTTACCT TGAAGAATCT GAAAATTTAG GTATAGACTT TAATCGAATT
ATGTTTTTAG GGCAAACTCA AACAGAAGAA GAACATCGAG CAATTTATCA GATAGCTGAT
GTTTTGTTAG ATTCTTATCC TTATAATGGT GGTACTCATA ATTTAGAGGC TTTATGGTCA
AATTTACCGA TAATAACTAG AGCTGGTAAG CAATATTTAT CTCGGATGGG TTATTCATTT
TTGCAGAATG TAAATTTAGA TGTAGGGGTT GCTTGGAGTT GGGAAGAATA TACTGAATGG
GGAATTAAAT TGGGTCAAGA TAATGGTTTA AGAAATTCGG TGCGGGAGCA TTTGCAAAAG
TCAAAAGATC TAGATAATTT AGCGCCTTTA TGGAATCCTA AAAAATTGGC AAAAGAGATG
TATCAGATAT TTGCTGAACT TTTGGGTTCT CTTAGGGATA TTTAA
 
Protein sequence
MKMLAKSYFN TANQLKDSGQ LYTAMIAYQK ALAIKPDYVE AYKKLAEVYL MQGNFDAGIS 
ACKEAVKIQP HFASAYLTLG NIFQSQNLLE KAINTYYEAL SIEPNFAQVY ANIGSVYYKL
GEFNLAISNY QKALEINSNL ASVQLMLGNV FSLIGEFEQA IYCYQKLLQI KPKDAQAYFK
LAEVFALYSN IELAINYYQK SLSIKPNYWE AFLKLSQLIK PEITDQELDK LFTQWQKFAR
ENNHNIKEYV ESVIQKQSTN FKDQEKLTVK QYKEAIISDG ENGIELATIN LISEQKLDNF
ENTYDNFSVH DDVEENLKKN GKFTTFEYQK LESGLTSQIL KLPAAEAYIN QANLALKQGN
LASAIASCKQ ALKIQPDHSP SYVILGNAFY QQNNLEAALH AYRQGLEIDP ELAEVQGNIG
SVYLQLGQYK QALFHYQKAI DLKPGLAGIY WNIGKLFQCL GKVDEAINAW SKALEIQPDI
VEADFHFKLG NTLVKLSRIN DAIKSYERAI NLKQDYTEAY SNLANILGEK GDREAAVNYY
NQALKINPEL KFLHEKLANN LLLKGDYDQA IIHYQEAIKY NPKSYDAYAN LGTALSNKGL
LALALEKYYK ALELKPSWAE VYSRIGHIIK QEKMEEAIAL FEKAIELKPQ FVEAHQQLCD
LLSHTTKLAV ARKAADNFCN SCGEIAPILS GTAFLFSYFQ SGVSEVANAK LLEVEKICYQ
SYKNFSELEI KLLYEIFLFA VYHLRDDLEN NSNFYKLIAQ QYYQNRPKIY QTTKTYISSS
QSLKIGFLSK HFRRHSVGWC SEYLIKELSQ ITPNVYLYIT GPLKRDDVTQ RFEKMSVQTY
WPKKYPNGFP CYTEIVEQIL EDKLDVVVDL DSTTLPVNVH VLYEKPAPVC VSWLGFDAPY
ISESNYFLCD WHTHPQGREK YYLEKLVRLP ETSVAVGGFN SCSVDRNSTR NSLGIDSDQM
VYLCIAPGRK TNPKMVRAQL KILQHTPKSI LIRKGQGDVD VIYQSYLEES ENLGIDFNRI
MFLGQTQTEE EHRAIYQIAD VLLDSYPYNG GTHNLEALWS NLPIITRAGK QYLSRMGYSF
LQNVNLDVGV AWSWEEYTEW GIKLGQDNGL RNSVREHLQK SKDLDNLAPL WNPKKLAKEM
YQIFAELLGS LRDI