000			02088nab|a22003017a|4500
001			64575
003			MX-TxCIM
005			20211129142331.0
008			200907s2022||||ne |||p|op||||00||0|eng|d
022			_a0958-1669
024	8		_ahttps://doi.org/10.1016/j.copbio.2021.09.014
040			_aMX-TxCIM
041			_aeng
100	1		_aSchnorr, S.L. _925150
245	1	0	_aLipid synthesis at the trophic base as the source for energy management to build complex structures
260			_aAmsterdam (Netherlands) : _bElsevier, _c2022.
500			_aPeer review
500			_aOpen Access
520			_aThe review explores the ecological basis for bacterial lipid metabolism in marine and terrestrial ecosystems. We discuss ecosystem stressors that provoked early organisms to modify their lipid membrane structures, and where these stressors are found across a variety of environments. A major role of lipid membranes is to manage cellular energy utility, including how energy is used for signal propagation. As different environments are imbued with properties that necessitate variation in energy regulation, bacterial lipid synthesis has undergone incalculable permutations of functional trial and error. This may hold clues for how biotechnology can improvise a short-hand version of the evolutionary gauntlet to stimulate latent functional competences for the synthesis of rare lipids. Reducing human reliance on marine resources and deriving solutions for production of essential nutrients is a pressing problem in sustainable agriculture and aquaculture, as well as timely considering the increasing fragility of human health in an aging population.
546			_aText in English
650		7	_2AGROVOC _99146 _aLipid Metabolism
650		7	_2AGROVOC _925151 _aSynthesis
650		7	_2AGROVOC _95143 _aBiotechnology
700	1		_aBerry, D. _925152
773	0		_tCurrent Opinion in Biotechnology _gv. 73, p. 364-373 _dAmsterdam (Netherlands) : Elsevier, 2022. _x0958-1669
856	4		_uhttps://doi.org/10.1016/j.copbio.2021.09.014 _yClick here to access online
942			_cJA _n0 _2ddc
999			_c64575 _d64567