Figure 1.2 Metabolic network of biofuel production pathways and intermediates for the
        conversion of feedstocks to fuels (bold text): current biofuels (         ), higher chain alcohols (      ),
        lignocellulosic fermentation ( ), and fatty acid derivatives (          ). Engineering the desired
        biofuel pathway requires maximizing flux through the relevant nodes while minimizing
        metabolite flux to competing branches. This can involve tuning expression of intermediate
        reaction steps, deletion of competing pathways, or manipulation of distal enzymatic or
        regulatory targets.



        METABOLIC ENGINEERING ENABLES BIOFUELS

        DEVELOPMENT


        In the following section, we will review various researches that attempt to address these
        biofuel challenges and how metabolic engineering is central to enabling these technologies. A
        schematic of relevant metabolic pathways for biofuels production can be found in Figure 1.2.


        Production of Higher Chain Alcohols