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Copy pathecoli.txt
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ecoli.txt
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thr operon leader peptide
ATGAAACGCATTAGCaCCAcCATtACCACCaCCATCaCcATTACCACAGGTAACGGTGCGGGCTGA
aspartokinase I/homoserine dehydrogenase I
ATGCGAGtGTTGAAGTTcgGCGGTaCATCAgTGGCAAATGCAGAACGTtTTCTGCGGgTTGCCGATAttCTGGAAAGcAATGCCAGGCAGGGGCAGgTGGcCACCGTCCTCtCTGcCCCCGCCAAAATCACCAACCATCtGGTaGCGATGATtGaaAAaACCATtAGCGGTCAGGAtGCtTTaCcCaATATCAGCGATGCCGAACGTATTTTTGCCGAACTtCTGACgGGACTCGCCGCcGCCCAGcCGGGATTTCCGCTGGCACAAtTgAAAAcTTTCGTCGACCAgGAATTTGCCCAAATAAAACATGTcCtGCATGGCatCAGTTTGTTGGGGCAGTGCCCGGaTAGCATcAACGCTGCGCTGATTTGcCGTGgCGAGAAAaTGTcGaTcgCCattaTGGCCGGCGTGTTAGAAGCGCGTGGTCACAACGTTACCGTTATCGATCCGgTCGAAaAAcTGCTgGCAGTGGGTCATTAcCtCgAaTCTACCGTTGATaTtGCTGAATCCACCCGCCGTATTGCGGCAAGCCGCATTCCgGCTGACCACATgGtGCTGATGGCTGGTTTCACTGcCggTAATGAAAAAGgCGaGCTGGtGGTtCTGGGAcGCAACGGTTCCGACTaCTCCGCTGCGGTgCTGGCGGCcTGTTTaCGCGCCGATTGTTGcGAgaTCTGGACGGATGTTGAcGGTGTTTATACCTGCGATCCGCGTCAGGTGCCCGATGCGAGGTTGTTGAAGTCGATGTCCTATCAGgAaGCGATGGAGCTTTCTTACTTCGGCGCTAAAgTTCTTCaCCCcCGCACCATTACCCCCATcGCCCAGtTCCAGATcCCTtgCCtGATTAAAAATAcCGgAAAtCCCCAAGCACCAGgTACGCtCATTGGTGCCAGCCGTGATGAAGACGAATTACCGGTCAAGGGCATTTCCAATcTGAATaACATGGCAATgTTCAGcGTTTCCGgCCCGGGGAtGAAAGGgATggTTgGCATGGCGGCGCGcgTCTTTGCAGcGaTGTCACGCGCCCGTaTTtCCGTGGTgCtGATTACGCAATCATCTTCCGAATACAGTATCAGTTTCTGCGTTCCGCaAAGCGACTGTGTGCGAGCTgAaCGGGCAaTGcAGGAAGAGtTCTACCTGGAaCTGaAAGAAGGCTTACTGGAGCcGTTGGCgGtGACGGAACGGCTGGCCATTATCTcGGTGgTAGGTGATGGTATGCGcACCTtaCGTGGGAtCTCGgCGAAATtCTtTGCCGCGCTgGCcCGCGCCAATATCAACATTGTCgCCATTGCtCaGGGaTCTTcTGAaCGCTCAAtCTCTGTcGTGGTcAaTAACGATgATGCGACCACTGGCGTGCGCGTTACTCATCAGATGCTGTTCAATACCGATCAGGTTATCGAAGTGTTTGTGATTGgCGTCGGTGGCGTTGgcGGTGCGCTGCTGgAGCAACTGAAGCGTCAgCAAAGCTGGTTGAAGAATAAaCATATCGaCTTACGTGTCTGCGGTGTTGCTAACTCGAAGgCACtgCTCACCAATGTACATGGCCTTAATCTGGAAAACTGGCAGgAAGAACTGGCGCAAGCcAAAGAGCCGTTTAATCTCGgGCGcTtAATTCGCCTCGTGAAAGAATATCATCTGCtGAaCCCGGTCATTgTTGACTgTACTTCCAgCCAGGCTGTgGCAGaTCAATATgCCGACTtCCTgCGCGAAGGTTTCCAcGTTGTtACGCCGAaCAAAaAGGCCaACACCTCGTcgATGGaTTACTaCCATCAGTtGCGTTATGCGGCGGAAAAATCGCGGCGTAaATTCCTCtATGACACcaACGTtGGGGCTGGATTACCGGTTATTgAGAACCTGCAAAATCTGCTCAATGCtGGTGATGAATTGATGAAGTTCTCCGGCATTCTTTCAGGTTCGCTTTCTTAtATCTTCGGCAAGTTAGACGAAGGCaTGAGTtTCTCCGAGgCGACCaCACTGGCGCGGGAAATGgGTTATACCGAACCGGAcCcGCGAGATGATCTTtCtGGTATGgAtGTGGCGCgTAagCTAtTGATtCTCGCTCGTGAAACGGGACGTGAACTGGAGCtGGCGGATATTGAAATTGAACCTgTGCTGCCCGCaGaGTTTAACGCCGAGGGTGATGTCGCcGCTTTTATGGCGAATCTGTCACAGCTCGACGaTCtCTTTGCCGCGCGTGTgGCGAAGGCCCGTGATGAAGGAAAAGTTTTGCGCTATGTTGGCAATAttGATGAAGATgGCgTCTGCCGCGTGAAGaTTGCCGAAGTGGATGgTAATGaTCCGCTGTTCAAAGTGAaAaATGGCGaAAACGCCCTGGCCTTCTATAGCCACTATtATCAGCCGCTGCCGTTGGTACTGCGCGGATATGGTGCGGGCaATgACGTTaCAGCTGCCGGTgTCTTTGCTGATCTGCTACGtACCCTcTCAtGGaAGTTAGGAGTCTGA
homoserine kinase
ATgGTTAAAgTTTAtGCCCCGGCtTCCAGTGCCaATATGaGcGTCGgGTTTGATGTGCTCGGGgCGGCGGTGACACCTGTTGATGGTGCATTGCTCGgAGaTGTagTcaCGGTTGAGGCGGCAGAGACaTTCAgTCTCAACAACCTCGGACGCTTTGCCGAtAAGCTGCCGTCAGAGCCACGgGaaAATAtCGTTtATcAGTGcTGGGAGCGTtTTTGcCaGGAGCTTGGCAAGCAAATTCCAGTGGCGATGaCTCTGGAAAAGAATatGCCGAtCgGTTCGGGcTTAGGCTcCAGCGCCtGTTCAGTGGTCGCGGCgCTgAtGGCGATgAATGAAcACTGCGGCaAGCCGCTTAATGACACTCGTTTGCTGGCTTtGATGGgCGAgTTGGAAGGGcGTATCTCCGGCAGCAtTCATTACGACAACGtGGCACCGTGtTtTCtTGGTGGTAtGCAGTtgATGATCGAAGAaAACGACATCATCAGCCAGCAaGTGCCAGGGTTTGATGAGtGGCTGTGGGTGCTGGCGTATcCGGgGAtTAAAGTCtCGaCGGcAGAAGCCAGGGCTaTTTTACCGGCGCAGTATCGCCGCCAGGATTGCATTGCGCAcGGGCgACATCTgGCAGGCTTCATTCACGCCTGCTATTCCCGTCAGCTTGAGCTTGCCGCGAAGCTGATgAAAGaTGTTATCGCTGAACCCTACcGTGaACgGTTaCTGCCAGGCTTCCGGCAGGCGCGGcAGgCGGTTGCGGAAATCGGCGCGGTAgCGAGCGGTATCTCCGGCTCCGGCCCGAcTtTGTTCGCTCTGTGtGAcAAGCCGGATACCGCCCAGCGCGTTGCCGACTGgTTGGGTAAGAACtAcCTGCAAAATCAGgAAGGTTTTGTTcATATTTGCCGGCTGGATACGGCGGGcGCACGAgTACTGGAAAACTAA
threonine synthase
ATGAAACTCtacaATCTGAAAGATCACAATGAGCAGgTCaGCTTTGCGCAAGCCGTAACCCAGgGgTTAGGCAAAAATCAGGGgCtGTtTTTTCcgCACgaCCTGCCGGaaTTCAGCcTgACTGAAaTTGATGAGATgCTGAAGCtGGATTTTGTCACcCGCAGTGCGAAGATCCTcTCgGCGTTTATTGGTGATGAAATCCCGCAGGAAaTCCTGGAAGAGCGCGTACGTGCGGCGTTTGCCTTCCCGGCTCCGGTCGCCAATGTTGAAaGCGATGTCGGTtGTCTGGAaTTGTTCcACGGGCcAACGCTGGCaTTTAAAGATTTCGGcGGTcGCTTTATGGCACAAATGCTgACCcATATTGCGGGCGATAAGCCAGTGAcCATTCTGACCGCGACATCCGGTgATACTGGaGCGGCAGTGGcTCATGcTTTCtACGGTtTACCGAATGTGAAAGTGGTTATCCTCTATCCACGAGGCAAAATCAGTCCACTGCAAGAAAAACTgTTCTGTACATTGgGCggCAATATCGaAACTGTTGCCATCGAcggCGaTTTCGATGCCTGTCAGGCGCTGGTgAAGCAGGCgTTTGATGATGAAGAACTGAAAGTGgCgCtGGGGCtGAATTCTGCTAAcTCCATCAACaTCAGTCGCTTGCTGGCGcAGATTTGTTaTTAcTTTGaGGCTGTCGCACAGTtGCCGCAAGAAGCACGTAACCAGTTGgTTGTCTCGGTaCCGAGTGgAAACtTcGGCGATtTGACGGcGGGTCTGCTGGCGAaGTcACTCGGTCtGCCGGTAAAACGTtTTATTGCtgCGACCAACGTGAACGAtACCGTACCACGTTTCCTGCaCGaCGGTCAGTGGTCAcCCAAaGCGACTCAGgCGAcgTtaTCCAATGCGATGGATGTTAGCCAGCcAAaCAACTGGCCGCGTGTGGAAGAGTTGtTCcGCCGCAAAATCTGGCAACTGAAAGAGCTGGgTTATGCAGCCGTGgATGATGAAACCACGCAACAGACAATGcGTGAGtTAAaAGAACTGGGCTATACCTCGgAGCCGCACgCTGCCGTAGCTTATCGTGCGCTGCGTGACCAgTTGAAtCCAGGCGAATATGGCTTGTtCCTCGGcACcGCGCATCcGGcGAAatTtAAAgAGAGCGTGGAAGCGATTCTCGGTGAAAcGTTGGatCTGCCAAAAGAGCTGGCAGAACGTGCTgATTTACCCTTGCTTTCGCATAACCTGCCCGCCGATTTTGCTGCGTTGCGTAAatTgaTGATGAaTCATCAGTAA
hypothetical protein
AtGCAGCCcGGCTtTTTTTATGAAGAAAATaTGGAGaAaAACGACagGGAAAAAGGAGAAATTCtCAATAAATGCGGtAACTTAGAgATTaGGATTGCGGAGAATaACAACTGCcGTTCTCaTCGCGTAATCTCCGGATATCGACCCaTAACGGgCAATGATAAAAGgAGTAACCTGTGA
Non-protein region
aAAAACTgCTGGAAACAATGAAAGAcGTACCGGACGACCAAcGTCAGgCGC
transaldolase B
ATGACGGACAAATTGaCCTCcCTTCGTCAGTACACCACCGTAgTGGCCGACACTGGGGACATCGCGGCAATGAAGcTGTaTCAACcGCAGGATGCCACAACCAAcCCTtCTCTCATTCTTAACGCAGCGCAGATTCcGGAATACCGTAAgTTgATTGaTGATGCTGTCGCCTGGGcGAaACaGCAGAGCAAcGATcGCgCgCAGCAgATCGtGGACGCGACCGAcAAACTGGCAGTAaATATTgGTCTgGAAaTCCTGAAACTGgTTCCGgGCCgTATCTCAActGAAGTtGATGCGCGTCTTTCCTATGACaCCGAAGCGTCAATTGCGAAAGCAAAACGCCTGATCAAACTCTACAACGATGcAGGTaTTAGCAACGATCgTaTTCTGATCAAACTGGCTTCTACCTGGCAGGGTATCCGTGCTGcAGAACAGCTGGAAAAAGAaGGTATTAACTGTAAcCTGACCCTGCTgtTCTCctTCGCtCAGGcTCGTGCTTGTGCGGaAGCGGgCGTgTTCCTGaTCTCGcCGTTTgTTGGCcGTATTCTTGACTGGTAcAAaGCGAATACCGaTAAGAAAGAGtACGCTCcGGCAGAAGATcCGGGCGTGGTTTCTGTatCtGAAATCtACCAGtACTACaAAGAGCATGGTTaTgAAACCGTGGTTATGGGCGCAAGCTTCCGTAACATCGGCGAAATTCTGGAAcTGGCAGGCTGCGACCGTCTGACCatCGCACCGgcACTGCTGAAAGAGCTGgCGGAGAGCGAAGGGGCTATCgAACGTAAACTgTCTTACAcTGgTGAAGTgAAAGCgCGTCCGGcGCGTATCACtGAGtCCGAGTTCCTgTGgCAgCACAACCAGGATCCAATGGCAGTaGATAAACTgGcGGaAGgTATCCGTAAGTTTGCTGTTGACCAGGAAAAACTGGAAAAAATGATCGGCGATCTGCtGTAA
molybdopterin biosynthesis mog protein
ATGAATACTTTACGTATTGGCTTaGTtTcCaTCTCTGATCGCGCATCCAGCGGCGTTTAtCAGgaTAAAgGCATCCCTGCGCTGGAagAATGGCTGACAtcGGCGCTAACCACGcCGTTTGAaCTGGAAAcCCgCTTaATCCCCGATGAGCAGGCGATCATCGAGCAaACgTTgTGTGAGCTGGTGGATGAAaTGAGtTGCCaTCTGGTGCTCACCACGGGCGGAAcTGGCCCTGCGCGTCGTGAcgTAACGCcCGATGcGACGCTGGCAGTAGCGGACCGCGAGATgCcAGGCTTTGGTGAACAGATGCGCCAGATCAGCCTGCATTTTGTACcaaCTGCGATCCTTTCGCGTCAGGTggGGGTgATTCGCAAACAGGCGCTGATCCTTAACTTaCcCGGTCAACCGAAGtCTATTAAAGAGACGCtGgAAGGTGtGAAGGACGCTGAGgGTAAcGTTGTGGTGCACGgTATTTTTGCCaGCGTaCcGTaCTGCATTCAGTTGCTGGAAGGGCCATACGTTGAaACGGCaCCgGaAGTGGTTGCAGCATTCAGaCCGAAGAGTGCAaGACGCGAAGtTAGCGAATAA
chaperone protein DnaK
aTGGGTAAAATAaTTGGTATCGACcTGGGTACtACCAaCTCTTGTGTagCGaTTAtGGATGGCACCACTCCtCGTGtACTGgAGAACGcCGAAGGCGATCGCACCAcGcCTTcTATCATTgCCTATACCCAGGAtGGTGAAACTCTGGTTgGTCAGCCGGCTAAACGTCAGGCAgtGACGAACCCgCAaAACAcCCTGTtTGCGATTAAACGCCtGATTGGCCGCCgCTTCCAGgACgAAGAAGTACAGCGtGATgTTTcCATCATGCCGTTCAAAATTAtTGcTGCtgatAACGGCGACGcATGGGTCGAAGtTAAAgGCCAGAAAATGGCAcCGCCGcAGAtCTCTGCTGAAGTGCTGAAAAAAAtGAAGAAAACCGCTGAAGaTTAcCTGGgTGAAcCGGTAACTGaAGCTgtTATTACCGTACCGGCAtACTttaACGATGCTCAGCGTCAGGcAACCAAAGaCGCAGGCCGTATCGCTGGTCTGGAAGTAAAaCGTATCATCAACGAaCCGACCGCAGCTGCGCTGGCTtACGGtCTGGACAAAGgTACTGGCAACCgtACTATCGCGGTTTATGACCTGGGTGGTGGTACTTTCGATATTTcCATTATCGAaATCGACGAAGTTGACGGCgAAAAAACCttCGAAGTTCTGGCAACCAACGGTGATACCCACCTGgGTGGtgAAGACTTCGACAGTCGTCTGATCAACTAtCTGGTTGAaGAATTCAAgAAAGATCAGGGCATTGacCtGCGCAACGaTcCGCTGGCAATGCAGCGCCTGAAaGAAGCGGCAGAAAAAGCgAAAATCGAACTGTctTCCGCTCAGcAGACCGaCGTTAACcTGCCGTACATCACTGCAGACGCGAcCGGTCCGAAACACAtGAACATCaAAgTGactCGTGCGAAACTGGAAAGCCTgGtTGAAGAtCTGGTAAACCGtTcCATTGAGCCGCTGAAAGTTGCACTGCAGGACGCTGGCCTGTCCGTATCTGATAtCGACgaCGTTATTCTCGTTGGTGGTCAGACTCGTATGCcAATGGtTCAGAAGAAAGTTGCTGaATTCTTTGGTAAAgAGCcGCGTAAAGATGTTAACCCGGACGAAGCTGTaGCCATCGgTGCTGCTGTTCAGGGTGGTGTTCTGACTGGtGAcGTAAAAGaCGTacTGCTgCtGGACGTTACCCCGCTGTCtCTGGGTATcGaAACCaTGGGCGGTGTGATGACCACGCTGATCGCgAaAAACACCACTATCCCGACCAaGcAcaGCCAGGTGTTCTCTACCGCTGAAGACAACCAGTCTGCGGTAACCATcCATgtGCTGcAGGGTGAACgTAaACGTGCgGCTGAtAAcaAATCTCTgggTCAGTTcAACCTGGATGGTATCAaCCCGGCACCGcGCGGCAtgCCGcAGATCGAAGtTACCtTCGAtATCGaTGCTGACGGTATCCTGCaCGTTTCCGCGAAAGACAAAAACAGCGGTAAAGAGCAGAAGATCAcTATCAaGGCTTCTTCTGGtCTGAaCGAAGAtGAAATCCAGAAAATGGTACGCGaCGCAGAAGCTAAcGCCGAAGCTGACCGTAaGTTTGAAGAGCTGGTACAGACtcGCaACCAGGGCGACCATCTGCTGCACAgCACCCGTAAGCAgGTTGAAGAAGCAGGCGACAaACTGCCGGCTGACGACAAAACTGCTATCGAGTCTGCGCTGActGCACTgGAAACtGCTCTGAAaGGTGAAGaCAAAGcCgCTATcGAAGCGAAAATGCAGGAACTGGCACAGGTTTCCCAGAAACTGATGGAAATCGCCCaGCAGCAACATGCcCAGCAGCAGACTGCCGGTGCTgATgCTTCtGCAAaCAAcGCGAAAGaTGACGATGTTGTCGACGCtGAATTTGAAGAAGTCAAAGACAAAAAATAA
chaperone protein DnaJ
GTGCatTCatCTAGGGGcAATTTAAAAAAGATGGCTAAGCAAGATTaTTACGAGaTTTTAGGCGTTTCCAAAaCAGCGGAAGAGCGtGAaaTCAAAAaGGCCTACAAACGCCTGGCCATGAAaTACCaCCCGGaCcGTAACCAGGgTGACAAAGaGGCCGAGGCGAAATTTAAAGAGATCAAGGaAGCTTATGAAGTTCTGACCGACtCGCAAAAACgTGCgGCATaCGATCAGTaTGGTCATGCTGCGTTTGAGCAAGGTGGCATGGGCGGCGGcGGtTTTGGCGGCGGCgCAGACTTcAGCGATAtTTtTGGTGACGtTTTCGGCgATATTTTTGGcGGCGGACGTGGTCGTCAACGTGCGGCGCGCGGTGCTGATTTAcGCTATAACATGGAGctCACcCtCGAAgAAGCTGTACGtgGCGtGaCCAAAGaGATccGCATtCCGACTCtGGAAGAGTGTGACGTTTGCCACgGTAGCgGTGCAAAACCaGGTACACAgCCgCAGACCTGTCCGACcTgTcATGGTTCTGGCCAGGtGCAGATGcGCCAGGGTTTCTTTGcCGTGCAGCAGACCTgTCcAcACTGTCAGGGCCGCGGTACGCTGaTcAAAGATCCGTGCAACAAATGTCATGGTCATGGTCGTGtTGAGCgCaGCAAAACGCTGTCCGTTAAAATCCCGGCaGGGgTGGACACTGGAGaCCGCATCCGTCTTGCGgGCGAAGGTGAAGCGGGTGAACACGgCGCACCGGCAGGCGATCTgTACGTTCAGGTtCAGGTtAAACaGCACCCGATTTTCGAGCGTGAAGGCAACAACCTGTATTGcGAAGTcCCGATCAAcTTCGCTATGgCGGCGcTGGGTGGTgaAATCGAAGTACcGACCcTTGATGGTcGcGTCaaACTGAAAGTGCCTGGCGAAACCCAGACCGGTAAgCTGtTCCgTaTGCGCGGTAAAGGCGTCAAGTCtGTcCGCGGTGGcgCACAGGGTGATTtGCTATGCCGCGTTGTTGTCgaAACAcCGGTAGGTTTGAACgAGAAGCAGAAACAGCTGCTGCAAGaGctGCAAGAAAGCtTTGGTGGcCCAACCGGCGAGCACAACAGCCCGCGTTCAAAGAGCtTCTTtGATGGCGTGAaGAAGTTTTTTGACGaCCTgACTCGCTAA
hypothetical protein
TTGCTCTTaCTCGGATTCgTAAGCCGTGAAAACAGCAaCCTCCGtCTGGCCAGTTCGGATGTGAACCTCACAGAGgTCTTTTCTCGTTACCAgCGCCGCCACTACGGCGGTgATACAGATGACGATCAGgGcgACaAtcAtCgCcTTATGCTGCTTCATTGCTCtCTtCTCCTTGACCTTTCGGTCaGTAAGAgGCACTCTACATGTGTTCTGCATATAGgGGGCCTCGgGTtGATGgTAAAATAtCACTCGGGGCTTTTCTCTAtCTGCCGTTCAGCTAATgCcTGA
hypothetical protein
aTGTCTGCCAAaaGACGACTTCTTATTGCGtGTACCTTGAtAaCAGCTATcTATCAtTTTCCTGcaTATTCTTCATTAgAATATAAAGGAtCCTTTGGTTCAATaAATGCGGGTTAtGCAGACTGGAATAGTGGaTTTgTAAaCACTCACCGTGGTGAaGTATGGAAAGTGACtGCGGATTTTGGGgTaAATTTTAAAGAAGCAGAATTTTACTCAtTTTATgAaAGTAATGTACTCAATCATGCTGTAGCAGGGAGAAATCATACgGtTTCAGCAATGaCGCATGTCAGACTCtTTGaCtCTGATaTGACATTCTTTGGCAAAATTTaTGgCCAATGGGATAACTCATgGggTGAcGATCTgGACATGTTTTATGGATTCGGTTACCTCGGCTGGAACGGCgAgTGGgGCTTTTtTAAACCGTATATTGGATtGCATAATCAATCTGGTGACTACGTATCAGCTAAATaTgGTCAAACGAATgGTTgGAATGGtTATGTTGTTGGCTGGACAGCAgTATTAcCATTTAcGTTATTTGACGAAAAATTTGTTTTATCTAACTGGAATGaAATAGAACTGGACAGGaACGATGCTTACACGgAgCAGcAATTTGGCcGGAACGGgTTaAaTGGCGGtTTAACTATTGcCTGGAAGTTCTATCCTCGCTGGAAAGCCAGtGTGACGTGGCGTTATTTcGATAAtAaGCTGGGCTACGATGGCTTTgGcgaTCAAATGATTTAtATGCTTGgTTATGATTTCtAA
putative secreted sulfatase
ATGCAGAAAACGTTAATGGCCAGTTTGATCGGCCTTGCAGTTTGCACAGGGAAtGCTTTTAGtCCTGCCTTAGCCGCAGAGGCTaAACAACcTAATTTAGTCATtaTTATGGCGGaTGATtTAGGTtaTGGCGAtTTAGcAaCaTATGGTCATCAGATCGTTAAAACACctAATATCGACAGGCtTGCCCAgGAAGGGGTCaAATTtACTGAcTaCTATGCCCCCGCTCCTTtAaGTTCAccTtCACGCGCaGGGCTATTAACCGGCcGGATGCCATTtCGTAcTGGAATTCGCTCATGGATtCCttCAGGCAAAGATGTTGCCtTAGGGCGTAACGAAcTCACgATTGCTAaTCTACTCAaAgCGCAaGGGTACGACACggCAATGATGGGTAAGCTGCATCTGAATgCAGGcGGCGaTCGCACCGATCAgCCaCAAGCACaAgATATGGGcTTTGATTAcTCAcTGGTtAATACgGCGGGCTTTGTTACcGACGCCACGCTGGATAAcGCTAAAGAACGCCcGCGTTATGGCATGGTTtAccCGACAGGCtgGCtACGTAACGGGCAACCCACTcCACGaGCTGATAAAAtGAGCGGTGAGTATGTCaGTTCGGAAGTCGTCAACTGGCTGGATAACAAAaaGGACaGCAAGCCTTTCTTCCTCTATgTTGCTTTTACCGAAGTGCATAGCCCCCTGGCTTCGCCCAAAaaATACCTCGATaTGTaCTCACaATATATGAGCGCGTATCAGAAGCAGcATCCTGATTTAtTTTaTGGCGACTGGGcAgACAAACCCTgGCGTgGTGTGGGgGAATATTAtGCCAATATCAGCTATCtGGATGCAcAGGTTGGAAAAgTGCTGGaTAAAATCAAAGCTGTGGgtGaAGaaGaTAACACAATCGTTATTTTTACCAGTGatAACGGTCCgGTAaCGCGTGAAGCGCGCAAAGTGTATgAGCTGAATTTGGCAGGGGAaACGGaTGGATTACGCGGTCGCAAGGATAACCTTTGGGAAGGCGGAATTCGtGTTCCaGCCATTATTAAATaTGGTAAACATCTACCACAGGGAATGGTTTCAGATACACCCGTTTATGGtCTgGACTGGATGCCTACtTTaGCgAaAATGATGAACTTCAAATTACCTACAGAcCGTAcTTTCGATGgTGAATCGCTGGTTCCTGtTcTTGAGCaAAAAGCATTGAAACGCGAAAAGCCATTAATTTTCGGGATTGATATGCCATTCCAGGATgATCCAAcCGATGAATGGGCGATCCGTGATGgTGACTGGAAgAtGATTATCGATCGcaATAATAAACcGAAATATCTCTACAATCTGAAATCTGATCGTTATGAAaCaCTTaAtCTGATCGGTAAAAAAACAgATATTGAAAAACAGATGTATGGTaAGtTTtTAAAATATAAAACTGATATTGATaATGATtCTCTAATGAAAgCCAGAGGTGATAAACCAGAAGCGGTGACCTggGGCTAa
putative cytoplasmic protein
ATGTTTACcAacGTAAATGTTGATTGtTgCAAAACACCAGGAtGTAAaaACCTGGGGTTGCTGAATAGCCAGGATTATGTCGCAcAGgGTaAaAATATTTtATGCCGTGAATGTgGTTaCTTGTtTCCAGtGATATCTGAACAGTCGCTTAAtATTTaTCGTAATATTGTGAAtcACTcCTGGAGAGGTTTGATTTGCCAATGTTCAACTtGCGGAGGcACGTCCCTCAAAAAATaTGgATATtCtGCAcAagGCCAgAGAAGAATgTATTGCcaTCAtTGTGaGAAAACaTTtATCACTCTGGAAcAtGTAATTACcACACCACGAGGAGCcCTGTTAGcATTGATGATTGAGCAAGGGGAGGCACTTGCGGaTATCAgAAAGTCATTACGTCTTAACAgCACTGGACTTAGCCGTGAACTGTTAAAATTAGCGCGTGAAGcAAACTATAAAGAAAGTCGACAGTGTTTCCCTGCTTCTGATATTACCCTGAGtACCCGCGCTTtTCGcgTCAAGTAtAATGGTAGCAATAACTCTCTTTATGCTCTTGTTACCGCAGAAGAACAAAGcGGCAGGGTgGTTGcCaTCTCAACCAATTACTCCCCATCtGCCGTAGagCaaCATTATcAATACaCATCGAACtATGAAGAGcGTATGTCTCCAGGGACGCTGGCACAtCATGTCCAGCGCAAAGAGttACTTACTATGCGGCgGGATACCTTGTTTGATATTGATTACGGCcCGgCAGTTTTACATCAAAACGATCCGGGAATGtTGGTAaAaCCGGTTCTTCCGGCATaTCGTCATTTTgAACTGGTCAGAATACTGACCGATGAGCATtCCAACAACGTTCAGCATTACCTTGATCACGAATGCTTTATaTTGGGCGGCTGcCTGATGGCTAATTTGCAGCaTATTCATCAaGGTCGCTGCCATATTTCcTTTGTCAAaGAGCGcGGTGTGGCACCCGCCACCATTGaTTTTCCACCGCGATtATTCcTTAGTgGtGGgGTACgAAATAATGTCTGGCGTGCaTTTTCTAACCGCAATTATTCAaTGGCTGTATGCAAtCTCaCTGGCAGTAAGAAAGTCCGCGAGATGCGGCATGCAACATtGAACAGTGCGACGCgTTtTATCCACTTTGTGgaGAACCATCCTTTCCTTATaTCATTGAACCGAATgtCTCCTGCGaaTGTCgtTTCTACaTTAGATaTCCTCAAACaTCTGTGGAATAaAaAACTAGagCATGGAACAATTtAA
sodium/proton antiporter 1
GTGAAACATCTGcATCGATTCTTTAGCaGTGATGCCTCGGGAGgCATTATTCTCATTATTGCCGCTGTATTAGCGATGATTATGGCCAACAGCGGTgcAaCCAGTGGATGGTATCACGACTTTCTTGAGACGCcGGTTCAGcTcCGGGTTGGGACACTTGAGATCAACAAGAACATGCTGCTATGGATCAATGaCGCTCTGaTgGCGGTATTTTTCCTGTtGGTTGGTcTGGaAGTTAAAcGCGAGcTGaTGCAaGGTTCGCTGGCCAGTCtGCgCCAGGCGGCatTTCCTGTTATTGCCGcAATCGGCGGGATGATTGTCCCGGCATTGCTCTATCTGGCTtTtAACTATGCCGATCCGaTTaCCCGCGAAGGcTGGGCAatCCCGGCGGCGACTGacATTGCCTTTGCACTTggTgTGTTGGCGCTgTTGGGAAGTCGTGTTCCGTTAGCGCtGAAGATCTTTTtGATGGCTCTGGCtATTATCGACGATCTTgGGGcCATCATtATCATCGCATTGTTCTACAcTAATGACTTATCGATGGCCTcTCTTGGCGTcGCgGCTGTAGCAATTGCGgtACTCGCGGTATTGAAtCTGTgTGGTGTAcGCCGCACGGGCGTtTATATTCTGGTTGGCGTGGTGCtGTGGaCAGCGGTGTTGAAATCGGGGGTTCACGCAACCcTGGCTGGCGtCATtGtCGGCTTCTTTATTCCTTTGAAAGAGAAGCATGGgCGCTCTCcGgCTAAACGTCTGGAGCATGTTTTGCAtCCATGGGTGGCGTATCTGATtTTGCCGCTGTTTGCATTTGCTAATGCTGGCGTTTCACTGCAaGGTgTCACGCtggAaGGTTTgACCtCCATTCTGCCATTAGgGATCATCGCTGGTTTGCTGaTTGGCaAGCCACtGGGTAtTaGTCTgttcTGCTGGtTGGcgCTGCGTTTGAAATTGGCACATCTGCCAGAGGGAACgACTtACCAGCAAATTATGGCGGtTGGTaTCcTGTGCGgTATCgGTTtTAcTatGTCTATCTTTATTGCCAGCCTGGcATTTGGTAgCGTAGATcCAGAaCTGaTTAACtGGGCAAAAtTAgGTATCCTTGTCGGTTCAATTTCtTcGgCGGTAATTGGATATAGcTGGTTACGcGTTCGTTTACGTCcATcAGTTTGA
transcriptional activator protein NhaR
ATGAGCATGTCTCATaTCAATTACAACCACTtGTATTACTTCTGGCaTGTCTAcAAAgAaGGTTCTGtGGTTGGCgCAGCGGAGGCGCTTTATTTAACAcCAcAAACCATTACCGGGCaGATCCGGGCGCTGGAaGAGCGCCTGCAAGGGAAAcTATTTAAGCGTAAAGGAcgTGGTCTGGAACCCAgcGAACTGGGGGAACTGGTCTATCGCtATGCCGATAAAATGTTCAcCTTAAgCCAGGAAATGCTgGATATCGTCAACTATCGCAAAGAGTCCAACTtATTGtTTGATGTTgGTGTGGCAGATGCACTTtcCAAAcGtcTGGTCAGCAGTGTTCtgGATgCCGCAGTtgTGGAAGACGAGCAGAtCCATCTACGCTGTTTCGAaTCGACGCACGAGATgCTTTTaGAGCAgtTGAGTCAGCATAaACTGGATATGATcaTCTCTGACTGTCCGaTCGATTCCACTCAGCAGGAAGGGCTGTTTTCCATGAAAaTtGGCGAATGTGGTGTCAgtTTCTGGTgCACTAACCCACTACcAGAAAAGCCGTTTCCTGCCtGTCTTGAAgAGCgTCGtTtACTTATTCCGGGGCGTCGCTCAaTgTTGGGGCGtAAACTATTAAACTGGTTTAACTCcCAGGGCTTGAACGTCGAAATTTTGgGTGAGTTTGATGATGCTGCGTTGATGAAAgCCTTTGGGGCGAcGCATAACGcTATTTTCGTTGCACCTTCGCtTTACGCTAATgATTTCTATAACgATGACTCGgTtGTGgAGATAGgCCGTGTTGAGaACGTGATGGAAGAGTACCACGCGATTTtTGCCGaAAGgaTGAtTCAgCACCCTGcAGTAcAGCGTATCTGcAATACAgacTATTCTGCGCtgTTTACTCCAGCTTcAAAATAA
riboflavin kinase
ATGAAGCTGATACGCGgCAtACATAATCTCAGCCAGGCCCCGCAAGAAGGGTGTGTGCTGACTATTGGTaATTTCGACGGCGTGCATCGCggTCATCGCGCGCTGTTACAGGGCtTGCAGGAAGAAGGGCGCAAGCGCAACtTACCGGTGATGGTGATGCTTTTtGaACCTCAACCAcTGGAACTGTTTGCTACTGAtAAAGCcCCGGCACGGcTcACcCGGCTGCgGGAAAAACTGCgTtaTcTTgCAGAgTGTGGCGTTGATTACGTGCTGTGCGtGCGTtTTGaCaGGCGTtTTGCGGCGTTAACCGCGcAAAACTTCATCAgTGATCTtCTGGTGAAGCACTTGCGGGTAAAATTTCTTGCCGTAGGTGACGAtTTCCGCTTTggCGCTGgTCGTGAAgGCGAtTTCTtGTTATTACAGAaAGcgGGCATGGAATACGGCTTCGATATcACCAGCaCGCAAAcTTtTTGCGAAGGTGGTGTGCGtATCAGcAGCACCGCCGtgCGTCAGGCGCtTGCGgATgACAATCTGGCTCTGGCAGAAAGTTTACTGGgGCACCCGTTTGCTATCTCCGGGCGTGTAGTCCACGGTGATGaATTAGGGCGCAcTATAGGTTTCCCgACGGCGaATGTACCGcTaCgCCGTCAGGTTTCCCCGGTGAAAgGGGTTTATGCGGTAGaAgTgTTGGgCCtTGgCGAAaAGcCGTTAcCCGGcgTTGCAAACaTCGGAACACgCCCAACGGTTGCcGGTATTCGCCAGCAACTGgaAGTGCATTTGTTAGATGTTGcAATGGaCCTTTATGGTCGCCAtATACAAGTAGTGCTGCGtAAAAaAATAcGCAATGAGCAgCGATTTGcATCGCTGGACGAACTGAAAGCGCAGATTGCGCGTGATGAATTAACCGcCCGCGaaTTTtTTGGGCTAAcAAAACCGGCTTAa
Isoleucyl-tRNA synthetase
ATGAGTGACTATAAATCaACCCTgAATTTGCCgGAAACAGgGTtCCCGATgCGTGGCGATCTCGcCAAGCGCGAAcCGGGaATGCTGGCGCGTTGGACTGATGATGATCTgTaCGGCATCATCCGTGCGGCTaAAAAAGGCAaAaAAACCTTCAtTCTGCATgATGGCCcTCCTTATGCGAATGGCAGCAtTCaTATTGGTcACTCGGTTAACAAGATTCTGAAAGACATTaTCATTaAgTCCAAAgGGCTttCTGGATATGACTCGCCGTATGTGCCTGGCTGGGACTGTCaTGGtCTGCCAATCGAAcTGAAAGTAGAGCAAGAATACGGTAAGCCGGGgGAGaAaTTCACCGCCGcTGAGTtCCGCGCCAAGTGCCGCGAATACGCTGCgACCCAGGTTGACGGTCAGCGCAAAGACTTTaTCcGTCTGGGCGTGCTGGGCGActgGTCgcACCCGTACCTGACCATGGACtTCAAAACTGAAGCCAACATCATCCgCGCGCTGGGCAAAATCATCGGCAAcGGTCACCTGCACaAAGGcGCGAAGCCGGTgCACTGGTGCgTTGACTGCCGTTCTgCACTGGCAGAAGCGGAAGtTgAGTATTACGacAAAACTtCTCCGTCCATCGACGTCGCTTtCCAGGCGGTCGATCaGGATGCGCTGAAAACGAAATTTGGCGTAAGCAATgTTAACGGCCCAATTTCGCtGGTTATCTGGaCcACCACGcCGTGgAcGCTGCcTGCTAacCGCgCAATCTCcATtGCACCTGATTTTGAttATGCGCTGGTGCaAatCgACGGTCAGgCCGTGATCCTCGCGAAAGATCtGGtTGaAAGCGTAAtGCAGCGTATCGGCGTTAGCGaTTACACCATTCTTGGCAcGGtgAAAGGTGCCGAGCtGGAACTGTTgCGCTTTACCCATCCGTTtATGGACtTCGATGTTCCGGCAaTTCTCGGCGACcACGTTACgCTGGATGCCGGTACCGGTGcCGTTCATACCGCGCCAGGCcACGGTCCGGaCGACTATgTGATCGGTcAAAAATaTGgTCTGGAAaCCGCTAACCCgGTTgGCcCGGACGgCACtTaTCTGCcGgGTACTTACCCGACTCtGGATgGCGTTaACGTCTTCAAAGCGAACGaTATTGTCATTGCGTTGTTgCAGGAAAAAGGcgCACTGTTGCACGTTGAGAAAATGCAACACAGCTATCCGTgCTGCtGGCGTCaTAAaACGCCGATCAtCTTCCGcgCGACGCCGCAGTGGTTCGTCAgCAtgGATCAGAAAGGTCTGCgTGCGcAGTCACTGAAAGAGATCAAAGGCgTGCAGTGGATCCCTGACTGGGGCCAGGCGCGTATCGAGTCGATGGTTGCTAACCGTCCTGACTGGTGTATcTCTCGTCaGCGTACCTGGGGcGTGCCgATGTCACTGTTCGTgCaCAaaGACACAGAAGAaCTGcATCCGCgTACTCtcGAACTGaTGGAAGAAGTGGcAAAACGCGTTgAAGTtGACgGCATTCAGGCgTGGTGGGATCTCGATGCGAAaGAgATCcTCGGCGaCGAAGCTGACCAGTATGTGAAAGTACCGGATACGCtGgATGTATGGTtTGACTCCGGATCTACCCACTCTTCCGTTGTTGATGTGCGTcCGGAATtTGCCGGTCACGCAGCGGACATGTaTcTGgAaGGTTCTGACCAACACcGTGgCTGGTtCATGTCtTCCCTGATGATCTCTACCGCGATGAAGGGcAAAGcGCCATATCGTCAGGTACTGACTCACGGCTTTAcCGTGGATGGTCAGGGTCGCAAGATGTCTAAATCCATCGGtAACaCcGTTTCGCCGCAGGATGTgATGAATAAACtGGGtGCGGATATTCTGCGTCTGTGGGTGGcATCAACCGACTAcACTGGCGAAATGGCcGtTTCTGACGAGATCcTGAAACGtGCTGCcGACAGCTATCGTCGTATCcGTAACAcCgCGCGCTTCCTGCTGGCAAACCTGAACgGTTtTGAtCCGGCaAAAGaTATGGTGAAACCGGAAGAGATGGTGGTaCTGGATCGCTGGGCCGtAGGTTGTGCGAAAGCGGCACAGGAAGACATCCtCAAGGCgTACGAAGCATACGATTTCcACGAAGTGGTaCAGCGTcTGaTGCGCtTCTGCTCCGTTGAGATGgGTTccTTCTACCTCGACATCATCAAAGACCGTCAgTATACcGCCAAAGCGGaCAGCGTGGCGCGTCGTAGCTGCCAGAcTgCGCTGTATCACATCGCaGAAGCGCTGGTTCGCTGGATGGCAcCAATCCTCTCCTTCaCcGCTGaTGAAGTGTGGGGtTaCCTGCCggGCGAACGTGAAAAATACGTCTTCAcCGGCgAgTGgTACGAAGGCCTGtTTGGTCTGGCAGACAGTGAAGCAATGAACGaTGCGTTCTGGGACGAGCTGTTGAAAGTGcGTGGCGAAGTGAAcAAAGTcaTTGAGCAAGCgCGTGCCGATAAGAACGTGGGcGGCTCGCTGGAAGCGGCAGTAAcCTTGTATGCAGAACCGGAaCTGGCgGCGAaaCTGaCCGcGCTGGGCGAtGAATTACGATTTGTCCTGtTGACCTCCGgCGCTAcCGTTGcAGACtATAACGACGCACCTGCTGATGCCCAGCAGaGCGAaGTcCTCAAAGGGCTGAAAgtCGCGTTGAGTAAAGCCgAAGGtGaGAAGTGTCCtcGctGCTGgCACTACACCcAGgATGTcGgCAAGGTGGCGGaACACGCAGAAATCTGCGGCCGCTGTgTcAgCaACGTCGCCGGTGACGGTGAAAAaCGTAAGTTTGCCTGA
Non-protein region
GCTTGCGCCAACGcCATTTCATCGCCATCCCGCCgAgcATACAGGCCTCGgAaGAACCAaTGGTGTTGGTGcCAACGGCCtGAccATTTTTcGGTGCAGGCGCATGCCACAGATCGGCAACCATGTTTACGCAACGCAGATCGATTGCTGcAGaTTGCGGATATTctTCTTTGTCGATCCAGTTTTTGTtAATGGAtAAAtCCA
FKBP-type 16 kDa peptidyl-prolyl cis-trans isomerase
ATGTCTGAATCTGTACAGaGCAaTAgCGCCGTCCTGGTGCACTTCACGCTAAAACTCGACGAtGGCaCCAcCGCTGAGTCTACCCGCAaCAaCGGTAaACCGGCGCTGTTCCGCcTGgGTgATGCTTCTCTTTCTgAaGgGCTGGAGCAACACCTGCTgGGGCTGAAAGTGGgCGATAAAACCaCCTTCtCGCTGGAGCCAGATGCGGCgTTtgGCGTGCCGTcACCgGAcCTGATtCAGTAcTTCTCcCGCCGTGAATTTATGgATGCAGGCGAGCcaGAAATTGGCGCAATCATgCTTTTTACCGCAATGGaTGGCAGTGAGATGCCTGGCGTGaTCCGCgAAATTAACGGCGACTCCATTACCGTTGATTTCAACCaTCCGCTgGCCGGGCAGACCGTTCATTTTGATATTGaagTGCTGGaAATCGATCCGGCAcTGGAGGcGTaA