References 305121 Zhou, Y.J., Buijs, N.A., Zhu, Z., Gomez, D.O., Boonsombuti, A., Siewers, V.
et al. (2016) Harnessing yeast peroxisomes for biosynthesis of fatty‐acid‐
derived biofuels and chemicals with relieved side‐pathway competition.
J. Am. Chem. Soc., 138 , 15368–15377. doi: 10.1021/jacs.6b07394
122 Chau, A.H., Walter, J.M., Gerardin, J., Tang, C., and Lim, W.A. (2012)
Designing synthetic regulatory networks capable of self‐organizing cell
polarization. Cell, 151 (2), 320–332.
123 Eriksson, H.M., Wessman, P., Ge, C., Edwards, K., and Wieslander, Å. (2009)
Massive formation of intracellular membrane vesicles in Escherichia coli by a
monotopic membrane‐bound lipid glycosyltransferase. J. Biol. Chem., 284 (49),
33904–33914.
124 Rumpho, M.E., Pelletreau, K.N., Moustafa, A., and Bhattacharya, D. (2011) The
making of a photosynthetic animal. J. Exp. Biol., 214 (Pt. 2), 303–311.
125 Bhattacharya, D., Pelletreau, K.N., and Price, D.C. (2013) Genome analysis
of Elysia chlorotica egg DNA provides no evidence for horizontal gene
transfer into the germ line of this kleptoplastic mollusc. Mol. Biol. Evol., 30 ,
1843–1852.
126 Schwartz, J.A., Curtis, N.E., and Pierce, S.K. (2014) FISH labeling reveals a
horizontally transferred algal (vaucheria litorea) nuclear gene on a sea slug
(elysia chlorotica) chromosome. Biol. Bull., 227 , 300–312. doi: 10.1086/
BBLv227n3p300
127 Agapakis, C.M., Niederholtmeyer, H., Noche, R.R., Lieberman, T.D., Megason,
S.G., Way, J.C., and Silver, P.A. (2011) Towards a synthetic chloroplast. (ed.
D.M. Ojcius). PLoS One, 6 (4), e18877.
128 Steen, E.J., Kang, Y., Bokinsky, G., Hu, Z., Schirmer, A., McClure, A., del
Cardayre, S.B., and Keasling, J.D. (2010) Microbial production of fatty‐acid‐
derived fuels and chemicals from plant biomass. Nature, 463 (7280), 559–562.
129 Kato, S., Haruta, S., Cui, Z.J., Ishii, M., and Igarashi, Y. (2005) Stable
coexistence of five bacterial strains as a cellulose‐degrading community. Appl.
Environ. Microbiol., 71 (11), 7099–7106.
130 Wintermute, E.H. and Silver, P.A. (2010) Emergent cooperation in microbial
metabolism. Mol. Syst. Biol., 6 , 1–7.
131 Mee, M.T., Collins, J.J., Church, G.M., and Wang, H.H. (2014) Syntrophic
exchange in synthetic microbial communities. Proc. Natl. Acad. Sci. U.S.A.,
111 , E2149–E2156. doi: 10.1073/pnas.1405641111
132 Minty, J.J., Singer, M.E., Scholz, S.A., Bae, C.‐H., Ahn, J.‐H., Foster, C.E. et al.
(2013) Design and characterization of synthetic fungal‐bacterial consortia for
direct production of isobutanol from cellulosic biomass. Proc. Natl. Acad. Sci.
U.S.A., 110 , 14592–14597. doi: 10.1073/pnas.1218447110
133 Hays, S.G., Yan, L.L.W., Silver, P.A., and Ducat, D.C. (2016) Synthetic
photosynthetic consortia define interactions leading to robustness and
photoproduction. bioRxiv, 1–23. doi: 10.1101/068130
134 Bobik, T.A. (2006) Polyhedral organelles compartmenting bacterial metabolic
processes. Appl. Microbiol. Biotechnol., 70 (5), 517–525.
135 Bobik, T.A., Havemann, G.D., Busch, R.J., Williams, D.S., and Aldrich, H.C.
(1999) The propanediol utilization (pdu) operon of salmonella enterica serovar
typhimurium LT2 includes genes necessary for formation of polyhedral