Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Rfer_0758 |
Symbol | leuS |
ID | 3964136 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Rhodoferax ferrireducens T118 |
Kingdom | Bacteria |
Replicon accession | NC_007908 |
Strand | + |
Start bp | 791439 |
End bp | 794117 |
Gene Length | 2679 bp |
Protein Length | 892 aa |
Translation table | 11 |
GC content | 61% |
IMG OID | 637915588 |
Product | leucyl-tRNA synthetase |
Protein accession | YP_522039 |
Protein GI | 89899568 |
COG category | [J] Translation, ribosomal structure and biogenesis |
COG ID | [COG0495] Leucyl-tRNA synthetase |
TIGRFAM ID | [TIGR00396] leucyl-tRNA synthetase, eubacterial and mitochondrial family |
|
|
Plasmid Coverage information |
Num covering plasmid clones | 12 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
| |
Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
| |
Sequence |
Gene sequence | ATGCAAGAAA AATACACCCC TCTCGACGTC GAACAAGCCG CCCAAAGTCA TTGGACGGCA ATGGATGCCT ACCGCGTCAC CGAAGACTCG TCGAAAAAGA AGTTTTACGC CTGCTCCATG CTGCCTTACC CCAGCGGCAA GCTGCACATG GGCCATGTGC GCAACTACAC CATCAACGAC ATGCTCACGC GCTACCTGCG CATGAACGGC TACAACGTGT TGATGCCCAT GGGCTGGGAC GCCTTTGGCC TGCCGGCCGA GAACGCGGCG CTGAAAAACG GTGTGCCACC GGCCCAGTGG ACCTTTGAGA ACATCGCTTA CATGAAGCAG CAGATGCAGG CCATGGGGCT GGCGATCGAC TGGAGCCGCG AGGTTGCCAC CTGCGATCCC AGTTATTACA AATGGAACCA GTGGCTGTTT TTGAAGATGC TGGACAAAGG CATTGCCTAC CGCAAGACCC AGGTTGTCAA CTGGGACCCG GTCGACCAGA CCGTGCTGGC GAACGAGCAG GTGATCGACG GCAAGGGCTG GCGCACCGGC GCGACGGTTG AAAAGCGCGA GATTCCGGGC TACTACCTCA AGATCACCGA TTACGCCGAG GAGTTGCTGG GGCAGGTGCA GACCGGTTTG CCGGGTTGGC CCGAGCGCGT CAAGCTGATG CAGGAAAACT GGATCGGCAA GAGTGAGGGC GTGCGCTTTG CCTTCACCCA TGACATCCGC GACGCGTCCG GCGCGCTGAT TGACGACGGC CGCATGTATG TCTTCACCAC CCGGCCCGAC ACCATCAAGG GTGTGACGTT TTGCGCCGTG GCGCCCGAGC ATCCGCTGGC GCTGCACGCC GCCAGGGGCA ACCCGGCGCT GGCCGCCTTC ATCGAGGAAT GCAAGACCGG CGGCACCACC GAGGCCGAGC TCGCCACGCA GGAGAAAAAA GGCCTGGACA CCGGGCTGAT CGTCACCCAT CCGCTAACCC AATTGCCAGT GGCGGTGTGG GTTGGCAACT ACGTGTTGAT GAGTTATGGC GACGGCGCTG TCATGGGCGT GCCCGCGCAT GATGAGCGCG ACTTCGCCTT TGCCAAAAAG TACGGACTGC CGATCAAGCA GGTGGTGCAG GTGGACGGCG AGCAGTTTGA TTACGACCAG TGGCAGGACT GGTACGCCGA CAAGCAGCGT GGCGTGGCCA TCAACTCCGG CAGTTTCAGC GGCATGTCGT TCAAGCAAGC GGTGGAGGCG GTGGCGCACA AGCTGGCGGC GCTGGGTCTG GGTGAGAAAA AAACCACCTG GCGCCTGCGC GACTGGGGTG TGAGCCGCCA GCGTTACTGG GGCACACCGA TCCCCATCAT TCACTGCCCC GAACACGGCG CCGTGCCGGT GCCCGAAAAA GATCTGCCGG TGGTGTTGCC GCAGGACTGC GTGCCCGATG GCTCCGGCAA CCCCTTGCAC AAGCACGAAG GCTTCCATGC GGGTGTGGTC TGCCCGATTT GTGGCGTGGC GGCGCGGCGC GAGACCGACA CCATGGACAC CTTTGTGGAC AGCTCGTGGT ACTTCATGCG TTACTGCGAC CCGAAGAATG AGAAGGCGAT GGTCGGCGAG GGTGCGGCTT ACTGGATGCC GATGGACCAG TACATTGGCG GCATTGAGCA CGCCATCCTG CATCTGCTGT ATGCGCGCTT CTGGACCAAG GTCATGCGCG ACCTGGGGCT GGTCAAGGTC GATGAACCGT TCACCAAACT GCTCACGCAA GGCATGGTGC TCAACCATAT CTACTCACGC AAAGGTGAGA ACGGGGCCAA AGACTATTTC TGGCCGAACG ATGTTGAAAA TGTGTCCGAT GAGACCGGCA AGGTGGTGGC TGCCAAGCTG AAAGTCGCCG TGGGCAACTT GCCCGCTGGC ACGCTGGTCG ACTACGAGGG CATCGGCACC ATGTCCAAGT CGAAAAACAA CGGCGTGGAC CCGCAGGACC TGATCGAAAG GTATGGCGCC GACACCGCCC GCCTGTACAC CATGTTCACC GCGCCGCCCG AGGCCACGCT GGAGTGGAAC GACGCGGCGG TCGAAGGCAG CTACCGCTTC CTGCGCCGGG TCTGGAACTT CGGCATCAAA CTGTCTACTA TTGATATGAT AGCAGTTGAT GAAAGTACGA CGGGGGCTAC AGCGCTGAAT GACATAAATT TCAGCAAGGA AGCGAAAGTC CTGCGGCTGG AAATCCACAC CGTGCTGAAA CAGGTGGATT ACGACTACCA GCGCATGCAG TACAACACCG TGGTCTCCGG TGCGATGAAG ATGATCAATG CGCTGGAGAA CTTCAAAGCC ACCGACTCAG GCGGCGCGCA AGTGGCGCTG ATAGAGGGTT TTGGCATCCT GCTGCGCTGC CTGTACCCGG CCACGCCGCA CATCGCGCAC AGCCTGTGGC AGGGTTTGGG CTATGCCGGC ACCCTGGGCG ACCTGCTCGA TGCACCCTGG CCCCAGGTGG ACGAACTGGC GCTGTTGCAG GATGAGGTTG AACTGATGTT GCAGATCAAC GGCAAGCTCA GAGGTGCCAT TGTGGTGTCG GCGGGCGCCT CCAAGGTCGA GATCGAGCTG GCGGCCATCG ACAGCGAGGT TTTCCGCAAG CTGGCCAACG GGGCGACGCC CAAGAAGGTC ATCGTGGTGC CGGGGCGGCT GGTGAATCTG GTGGTTTGA
|
Protein sequence | MQEKYTPLDV EQAAQSHWTA MDAYRVTEDS SKKKFYACSM LPYPSGKLHM GHVRNYTIND MLTRYLRMNG YNVLMPMGWD AFGLPAENAA LKNGVPPAQW TFENIAYMKQ QMQAMGLAID WSREVATCDP SYYKWNQWLF LKMLDKGIAY RKTQVVNWDP VDQTVLANEQ VIDGKGWRTG ATVEKREIPG YYLKITDYAE ELLGQVQTGL PGWPERVKLM QENWIGKSEG VRFAFTHDIR DASGALIDDG RMYVFTTRPD TIKGVTFCAV APEHPLALHA ARGNPALAAF IEECKTGGTT EAELATQEKK GLDTGLIVTH PLTQLPVAVW VGNYVLMSYG DGAVMGVPAH DERDFAFAKK YGLPIKQVVQ VDGEQFDYDQ WQDWYADKQR GVAINSGSFS GMSFKQAVEA VAHKLAALGL GEKKTTWRLR DWGVSRQRYW GTPIPIIHCP EHGAVPVPEK DLPVVLPQDC VPDGSGNPLH KHEGFHAGVV CPICGVAARR ETDTMDTFVD SSWYFMRYCD PKNEKAMVGE GAAYWMPMDQ YIGGIEHAIL HLLYARFWTK VMRDLGLVKV DEPFTKLLTQ GMVLNHIYSR KGENGAKDYF WPNDVENVSD ETGKVVAAKL KVAVGNLPAG TLVDYEGIGT MSKSKNNGVD PQDLIERYGA DTARLYTMFT APPEATLEWN DAAVEGSYRF LRRVWNFGIK LSTIDMIAVD ESTTGATALN DINFSKEAKV LRLEIHTVLK QVDYDYQRMQ YNTVVSGAMK MINALENFKA TDSGGAQVAL IEGFGILLRC LYPATPHIAH SLWQGLGYAG TLGDLLDAPW PQVDELALLQ DEVELMLQIN GKLRGAIVVS AGASKVEIEL AAIDSEVFRK LANGATPKKV IVVPGRLVNL VV
|
| |