Interestinthermophilicbacteriaasliv

Interestinthermophilicbacteriaaslive-cellcatalystsinbiofuelandbiochemicalindustryhassurgedinrecentปี duetotheirtoleranceofhightemperatureandwidespectrumofcarbon-sourcesthatincludecelluloseHowevertheirdirectemploymentasmicrobialcellularfactoriesinthehighlydemandingindustrialconditionsมี beenhinderedbyuncompetitivebiofuelproductivity, relativelylowtolerancetosolventandosmicstressesและ limitationingenomeengineeringtools Inthisworkwereviewrecentadvancesindissectingandengineeringmetabolicandregulatorynetworksofthermophilicbacteriaforimprovingthetraitsofkeyinterestinbiofuelอุตสาหกรรม: cellulosedegradation, pentose – hexoseco-ใช้ประโยชน์ andtoleranceofthermal การออสโมติก andsolventความเครียด นอกจากนี้ newtechnologiesenablingmoreefficientgeneticengineeringofthermophileswerediscussedsuchasimprovedelectroporation อัลตร้าซาวด์-mediatedDNAdelivery, aswellasthermo-stableplasmidsandfunc -tionalselectionsystems Expandedapplicationsofsuchtechnologicaladvancementsinthermophilicmicrobespromisetosubstantiateasyntheticbiologyperspective, wherefunctionalparts โมดูล แชสซี cellsandconsortiaweremodularlydesignedandrationallyassembledforthemanymissionsatindustryandnaturethatdemandtheextraordinarytalentsoftheseextremophiles

Interestinthermophilicbacteriaaslive-cellcatalystsinbiofuelandbiochemicalindustryhassurgedinrecent
years, duetotheirtoleranceofhightemperatureandwidespectrumofcarbon-sourcesthatincludecellulose.
Howevertheirdirectemploymentasmicrobialcellularfactoriesinthehighlydemandingindustrialconditions
has beenhinderedbyuncompetitivebiofuelproductivity, relativelylowtolerancetosolventandosmicstresses,
และ limitationingenomeengineeringtools.Inthisworkwereviewrecentadvancesindissectingandengineering
metabolicandregulatorynetworksofthermophilicbacteriaforimprovingthetraitsofkeyinterestinbiofuel
industry:cellulosedegradation,pentose–hexoseco-utilization,andtoleranceofthermal,osmotic,andsolvent
stresses.Moreover,newtechnologiesenablingmoreefficientgeneticengineeringofthermophileswerediscussed,
suchasimprovedelectroporation,ultrasound-mediatedDNAdelivery,aswellasthermo-stableplasmidsandfunc-
tionalselectionsystems.Expandedapplicationsofsuchtechnologicaladvancementsinthermophilicmicrobes
promisetosubstantiateasyntheticbiologyperspective,wherefunctionalparts,module,chassis,cellsandconsortia
weremodularlydesignedandrationallyassembledforthemanymissionsatindustryandnaturethatdemandthe
extraordinarytalentsoftheseextremophiles.

interestinthermophilicbacteriaaslive cellcatalystsinbiofuelandbiochemicalindustryhassurgedinrecentปี duetotheirtoleranceofhightemperatureandwidespectrumofcarbon sourcesthatincludecellulose .howevertheirdirectemploymentasmicrobialcellularfactoriesinthehighlydemandingindustrialconditionsมี beenhinderedbyuncompetitivebiofuelproductivity relativelylowtolerancetosolventandosmicstresses , ,limitationingenomeengineeringtools inthisworkwereviewrecentadvancesindissectingandengineering และ .การ metabolicandregulatorynetworksofthermophilicbacteriaforimprovingthetraitsofkeyinterestinbiofuelอุตสาหกรรม : cellulosedegradation นาคร ) , hexoseco ใช้ andtoleranceofthermal การ andsolvent , , ,ความเครียด นอกจากนี้ newtechnologiesenablingmoreefficientgeneticengineeringofthermophileswerediscussed , ,suchasimprovedelectroporation , อัลตราซาวนด์ mediateddnadelivery aswellasthermo stableplasmidsandfunc - ,expandedapplicationsofsuchtechnologicaladvancementsinthermophilicmicrobes tionalselectionsystems .promisetosubstantiateasyntheticbiologyperspective wherefunctionalparts , แชสซี , cellsandconsortia โมดูลweremodularlydesignedandrationallyassembledforthemanymissionsatindustryandnaturethatdemandtheextraordinarytalentsoftheseextremophiles .