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