Gene TC0245 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagTC0245 
Symbol 
ID1246414 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameChlamydia muridarum Nigg 
KingdomBacteria 
Replicon accessionNC_002620 
Strand
Start bp284974 
End bp286791 
Gene Length1818 bp 
Protein Length605 aa 
Translation table11 
GC content39% 
IMG OID637061044 
Productsulfate transporter family protein 
Protein accessionNP_296624 
Protein GI15834865 
COG category[P] Inorganic ion transport and metabolism 
COG ID[COG0659] Sulfate permease and related transporters (MFS superfamily) 
TIGRFAM ID[TIGR00815] high affinity sulphate transporter 1 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.651817 
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
GTGATAAAAA ATAGAAAGAT TGTCCTACGG AAAAGTTCCT TACCTCTCTT CTCGTTGGAT 
AAATTCCTTT CTACTATAAG AAAAGAACCA TCTTTTTCGA ACACAGAAGA GGTCCTGGTG
AAAGTTTCAC TATCCTTTAA ACACCTTGTC CCTAAACTAG TTACCTGCTT AAAAGAAGGG
TATTCTTTCA ACACATTAAA AAAAGATTTT ATTGCGGGGC TGACTGCAGG AATTCTAGCC
TTTCCTTTAG CTATTGCCAT CGCGATAGGG ATTGGAGTTT CTCCCTTACA GGGGTTATTA
GCGTCTATCA TTGGAGGATT TCTTGCCTCT GCTTTGGGAG GCAGTCGTGT ATTGATATCT
GGCCCCACCA GCTCCTTCAT TTCTATTCTT TACTGTATTG GTGTCAAATA CGGAGAAGAT
GGACTGTTTA CCATCACATT AATGGCCGGA ATTTTCCTAA TTATTTTCGG TCTCGCAGGG
TTAGGAACTT TTATTAAATA CATGCCCTAT CCTGTGGTTA CTGGTCTGAC AACTGGTATC
GCAGTGATTA TTTTTTCTTC TCAAATCCGA GATTTTCTTG GATTACAAAT GGGAGATGGC
GTTCCTCTAG ATTTTATTGG CAAATGGGTA GCTTATTGGG ATTATCTATG GACCTGGGAT
AGCAAAACCT TTGCGGTTGG CTTATTTACT CTACTTTTAA TGATCTATTT TCGAAATTAT
AAACCCCGCT ACCCTGGAGT AATGATTTCC ATTATCATTG CATCAACCTT AGTATGGATT
CTCAAAATAG ACATCCCTAC TATAGGTAGC CGATATGGAA CTCTTCCCAG TTCTTTACCT
GGACCTGTTT TCCCGCATAT CAGCATTACA AAAATGCTAC AACTTATGCC AGATGCATTG
ACTATTGCAG TACTTTCTGG AATCGAGACC TTGCTAGCTG CTGTGGTTGC CGATGGAATG
ACTGGGTGGA GACATCAATC CAATTGTCAG CTAATTGGAC AAGGAATTGC TAATATTGGA
ACTTCTTTGT TTGCAGGCAT GCCTGTCACG GGGTCTCTTT CCAGAACCAC GGCAAGTATT
AAATGCGGCG CTAGCACACC TATTGCAGGG ATAATTCATG CAATCTGTCT CACCTTTATT
CTACTACTTT TAGCTCCCTT AACGATTAAA ATACCTTTAA CATGTCTGGC TGCAGTCTTG
ATTTTAATTG CTTGGAATAT GAGTGAAATT CACCACTTCA TCCATCTATT CACTGCTCCT
AAGGAAGATA TCTTAGTCTT ACTAACAGTG TTCATCCTTA CGGTAATGAC TACAATCACT
TCTGCCGTAC AAGTAGGAAT GATGCTCGCA GCTTTTTTAT TCATGAAACG AATGAGCGAT
CTTTCCGATG TCATTTCCAC TGCACAGTAT TTTGATGAGT CAGAACAACC TCAGAATGAT
CTACTATTTA GCAAAAATGA AGTGCCTCCT TTTACAGAAA TTTATGAAAT TAATGGCCCT
TTTTTCTTTG GAATTGCTGA TCGATTAAAA AATTTATTAA ATGAAATTGA AAAGCCTCCA
AGAATTTTCA TCCTTTGCAT GACCAGAGTA CCTACGATCG ATGCATCGGC AATGCATGCC
CTAGAAGAAT TTTTCTTGGA ATGCGATAGA CAAGGAACTT TACTGCTCTT AGCAGGCGTA
AAGAAAACTC CTCTCAATGA CTTAAGAAGA TATCACGTGG ATGAGTTGAT CGGAGTAGAT
CACATATTTT CAAATATCAA AGGAGCTTTA TTATTTGCTA AAGCTCTTAT TAAGCTAGAG
AGCAAATCTT CTCAATAG
 
Protein sequence
MIKNRKIVLR KSSLPLFSLD KFLSTIRKEP SFSNTEEVLV KVSLSFKHLV PKLVTCLKEG 
YSFNTLKKDF IAGLTAGILA FPLAIAIAIG IGVSPLQGLL ASIIGGFLAS ALGGSRVLIS
GPTSSFISIL YCIGVKYGED GLFTITLMAG IFLIIFGLAG LGTFIKYMPY PVVTGLTTGI
AVIIFSSQIR DFLGLQMGDG VPLDFIGKWV AYWDYLWTWD SKTFAVGLFT LLLMIYFRNY
KPRYPGVMIS IIIASTLVWI LKIDIPTIGS RYGTLPSSLP GPVFPHISIT KMLQLMPDAL
TIAVLSGIET LLAAVVADGM TGWRHQSNCQ LIGQGIANIG TSLFAGMPVT GSLSRTTASI
KCGASTPIAG IIHAICLTFI LLLLAPLTIK IPLTCLAAVL ILIAWNMSEI HHFIHLFTAP
KEDILVLLTV FILTVMTTIT SAVQVGMMLA AFLFMKRMSD LSDVISTAQY FDESEQPQND
LLFSKNEVPP FTEIYEINGP FFFGIADRLK NLLNEIEKPP RIFILCMTRV PTIDASAMHA
LEEFFLECDR QGTLLLLAGV KKTPLNDLRR YHVDELIGVD HIFSNIKGAL LFAKALIKLE
SKSSQ