| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Mlg_1260 |
|---|
| Symbol | |
|---|
| ID | 4269182 |
|---|
| Type | CDS |
|---|
| Is gene spliced | No |
|---|
| Is pseudo gene | No |
|---|
| Organism name | Alkalilimnicola ehrlichii MLHE-1 |
|---|
| Kingdom | Bacteria |
|---|
| Replicon accession | NC_008340 |
|---|
| Strand | - |
|---|
| Start bp | 1462451 |
|---|
| End bp | 1464127 |
|---|
| Gene Length | 1677 bp |
|---|
| Protein Length | 558 aa |
|---|
| Translation table | 11 |
|---|
| GC content | 71% |
|---|
| IMG OID | 638126010 |
|---|
| Product | sulfate adenylyltransferase subunit 1 |
|---|
| Protein accession | YP_742099 |
|---|
| Protein GI | 114320416 |
|---|
| COG category | [P] Inorganic ion transport and metabolism |
|---|
| COG ID | [COG2895] GTPases - Sulfate adenylate transferase subunit 1 |
|---|
| TIGRFAM ID | [TIGR00231] small GTP-binding protein domain
[TIGR02034] sulfate adenylyltransferase, large subunit |
|---|
| 
|
Plasmid Coverage information |
| Num covering plasmid clones | 7 |
|---|
| Plasmid unclonability p-value | 0.0427263 |
|---|
| Plasmid hitchhiking | No |
|---|
| Plasmid clonability | normal |
|---|
| |
Fosmid Coverage information |
| Num covering fosmid clones | 52 |
|---|
| Fosmid unclonability p-value | 1 |
|---|
| Fosmid Hitchhiker | No |
|---|
| Fosmid clonability | normal |
|---|
| |
Sequence |
| Gene sequence | ATGACCACCA ACACCGATCT GGAGCGGCGC CTGGAGGCGC TGGAGGCCCG CGATCTGTTG
CGTCTGCTCA CCTGCGGCAG CGTGGACGAC GGCAAGAGCA CGCTCATCGG CCGGCTGCTC
TATGATGCCG GCGCCATTCC CGATGATCAG CTCGCCGCGG TGGAACGCGC CAGTGCCCGC
TACGGCACCA CCGGCGACAG CCCCGATCTG GCGCTGCTGG TGGACGGGCT GGAGGCCGAG
CGCGAGCAGG GGATCACCAT CGACGTGGCC TACCGCTACT TCGCCACCGA AAGGCGCAAG
TTCATCATCG CCGATACCCC CGGCCATGAG CAGTACACCC GCAATATGGC CACCGGGGCC
TCCACCGCCG ATGTCGCCAT CCTGCTGGTG GACGCGGCCA AGGGGCTGCT GCCCCAGACC
CGTCGCCACA GCGCCATCTG CGCCCTGCTC GGCATCCGCT CGGTGGTCCT GGCGGTGAAC
AAGATGGACC GGGTGGCGTG GGACGAGGCC ACCTTCCGCA CCATCGAACG CGATTACCGG
GTACTGGCCA CGCGCCTGGG GCTGGAGCAG GTGGCCTGCA TCCCGGTCGC CGCCCTGCAC
GGGGACAACG TGGTCCGGCG GGCCGGACCG ACGGCGCCCT GGTACACCGG GCCCACCCTG
TTGCAATGGC TGGAAGGGGT GCAGCCGGCC GTCGACCAGC GCCCGTCGGG CCCTGTCCGC
CTGCCTGTGC AGTACGTCAA CCGGCCCCAT GCCGGGTTCC GCGGCTATGC CGGGACGCTG
GCCACCGGCA CCCTGCGCGC GGATCAGCCT GTGCGCGTGC TGCCGGGAGG GCAGCGGACC
CGCATTCGCA GCGTGGAAGG CTTCTCCGGG CCGCAAGCCG AGGCCCACGC CGGCCAGGCG
GTGACCGTCA CCCTGGCCGA CGAGGTGGAC GTCTCCCGGG GCGACTGGCT GGTGGCCGAG
GAGCACACCG GCCTGCGCTG CGCCCGCCAG CTTCGGGCGA ACTTGATCTG GATGGATGAG
CAGCCCCTCC ACCGCGGGCG GCAATTCTGG CTGAAACTGG CCAGTCGCTC GGTCCCAGCC
ACTGTGACCC GGCTGCTGCA CACGCTGGAT ATCACCGACC TGGAACAGCG TGGGGCCCCC
GAGGGGGTGC CACTGAATGG CATTGCCGGC GTGGAAATCA GTCTCGGCGC ACCGCTGCCC
TGCGAACCCT ACGCCGACTG CACGGACGCC GGCGCCTTCG TGTTGGTGGA CCGGACCCAC
CACGGCACCG TCGCCGCCGG CATGATCACC GACCTGCAGC GCGACATCGG CGCCCCGGTG
GCTCCGGACC ACGAGGGACG GGCCGCCCAG AAGGGTCAGA CCGCGCTGAC CGTCTGGCTG
CACGGGGACG ACCCGGCCCG GCGCTCGGCC CTGCTCGAGC GCCTGGACGG CGCGCTCTTC
GCCCAGGGCC TGCATACGTA CCGCCTGCCC CGGTCGCTGC CCGGCGGCCT CGGCCCGGAG
GCGCTGTTAC CCCTTTTTCT GGACGCCGGG CTGGTGGTGC TTGCTGACAG CGAGGCCCCC
GCCCCCGCAC CCTTACCGGC CGGGCCGCTG CTCGCCCGCC CGGTGGCGGA CGATGACGAG
GCCCTTCTCG ACGAGCTGAT CCACGAGGTC CTCGCCCACC AACCGGGCGT GTCCTGA
|
|---|
| Protein sequence | MTTNTDLERR LEALEARDLL RLLTCGSVDD GKSTLIGRLL YDAGAIPDDQ LAAVERASAR
YGTTGDSPDL ALLVDGLEAE REQGITIDVA YRYFATERRK FIIADTPGHE QYTRNMATGA
STADVAILLV DAAKGLLPQT RRHSAICALL GIRSVVLAVN KMDRVAWDEA TFRTIERDYR
VLATRLGLEQ VACIPVAALH GDNVVRRAGP TAPWYTGPTL LQWLEGVQPA VDQRPSGPVR
LPVQYVNRPH AGFRGYAGTL ATGTLRADQP VRVLPGGQRT RIRSVEGFSG PQAEAHAGQA
VTVTLADEVD VSRGDWLVAE EHTGLRCARQ LRANLIWMDE QPLHRGRQFW LKLASRSVPA
TVTRLLHTLD ITDLEQRGAP EGVPLNGIAG VEISLGAPLP CEPYADCTDA GAFVLVDRTH
HGTVAAGMIT DLQRDIGAPV APDHEGRAAQ KGQTALTVWL HGDDPARRSA LLERLDGALF
AQGLHTYRLP RSLPGGLGPE ALLPLFLDAG LVVLADSEAP APAPLPAGPL LARPVADDDE
ALLDELIHEV LAHQPGVS
|
|---|
| |