Authors: George M. Church
diesel (biodiesel),
6â7
,
66
,
93
,
97â106
,
201
,
239
Diesel, Rudolf,
98
“Diffusion of Synthetic Biology: A Challenge to Biosafety” (Schmidt),
232
DIYbio,
232â237
Dino,
95
DNA,
29
.
See also
oligonucleotides
;
polynucleotides
as ancient text,
38
encoding digital information using,
90
,
177
,
195â198
storage of Wikipedia all-languages version as,
197
first appearance of,
38
origami,
80
plasmid,
44
replication of,
30
commercial synthesis of,
34
as ultimate backup medium,
34
Dolly (sheep),
134
as “raised from the dead”
9
,
134
Douglas, Shawn,
80
Dresser, Betsey,
141
Drexler, K. Eric,
54
Drmanac, Rade (Complete Genomics),
168
DuPont,
3
E. coli (Escherichia coli)
,
3
changing codons of,
125
as digital information storage devices,
195â196
discovery of,
43
genetic engineering of,
44
to destroy cancer cells,
115â116
to make diesel fuel,
103
to make ethanol,
103
to suppress appetite,
179â180
,
199â200
inv
+
E. coli
,
116
as rationally designed,
6
as molecular factories,
46
protein-coding genes of,
127
sense-perception ability of,
43
sensor-equipped,
116
synthesis of hemoglobin (“bactoblood”) by,
6
,
181
,
192
synthesis of PDO by,
3
See also
biofuels
EcoRI,
44
E. cryptor
,
195â196
E. pluri
,
66â67
produced from sewage,
4â5
Elowitz, Michael,
187â188
Emory University,
7
Endy, Drew,
160
,
171
,
186â190
,
237
,
255
Engines of Creation
(Drexler),
54
Energy from Heaven and Earth
(Teller),
96
enhancing the human body,
8â9
,
227
Environmental Protection Agency,
3
Escherich, Theodor,
43
“Essay on the Principle of Population” (Malthus),
221
ethanol,
2
errors of,
59
evolution,
95
,
110â111
,
119
,
125
,
155
,
161â163
,
181
,
193
,
210
,
230
,
232
increasing the rate of,
71â73
,
88
laboratory,
31
maximizing,
89
progress in,
61
exponential technologies,
164
,
168
,
209n
,
242â243
,
250â252
successful reversal of,
9â11
,
133â136
arguments against extinction reversal,
142â143
Fernández-Ãrias, Alberto,
133â136
Feynman, Richard,
177
Fleming, Diane O.,
231
flies (midges),
72
,
130
,
250â251
Flynn effect,
88â89
food-for-fuel problem,
94
Ford, Henry,
98
Fukuyama, Francis,
227â228
fundamental engineering principles,
161
biological equivalents of,
161â162
future, prescriptions for,
243â253
alternative scenarios,
243â249
natural versus exotic,
243â244
staying at home versus jetsetting,
242
personal versus generic,
245
priceless versus worthless,
246
rich versus poor,
246
privacy versus publicity,
246â248
becoming a new species,
248â250
Galton, Francis (Galtonian eugenics),
87â89
Gao, Xiaolian,
174
first example of,
233
Gaston Day School,
194
Gen9 (earlier, CodonDevices),
170â171
Genencor International,
3
genetic code,
61
decoding of,
64
genetic diseases,
204â205
genetic engineering,
11
genome,
synthetic,
74â76
genome synthesis as a business,
176â177
reasons for synthesizing,
75â76
genome sequencing,
73
as a business,
170â174
commercial firms,
215
as enabling the mining of biological talents from other species,
73â74
,
83
history of,
165â170
genomic engineering,
9
,
11
,
59
,
119
as a business,
162â164
as enabling increased diversity,
59â66
standardization of,
181â182
Genspace,
234
Geobacter metallireducens
,
5
Giese, Jeanna,
109â110
recovery of,
131â132
Gladyshev, Eugene,
130
Glasby, Geoffrey,
97
glycolysis,
42
G-Oil,
93
Gold, Thomas,
97
Goodsell, David,
44
Goto, Kazufumi,
145
“great oxygenation event”
105
green chemistry,
3
green fluorescent protein (GFP),
187
Green Fuel Technologies Corporation,
93
Gustafsson, Claes,
196
H+.
See
transhumanism
Hadean era,
16
Haeckel, Ernst,
12
handedness of molecules (chirality),
20
defined,
22
reasons to care about,
21â22
See also
mirror molecules
Hapgood, Fred,
193
hepatitis C virus, synthetic,
75
Here Is a Human Being
(Angrist),
214
Hero of Alexandria,
182
Hippocrates,
204
History of the Peloponnesian War
(Thucydides),
111
Holocene epoch,
203
Hooke, Robert,
39
houses grown from seeds,
7â8
human genome, modifying,
85
,
115
,
120â128
for multivirus resistance,
8â9
,
119â121
for radiation resistance,
129â131
objections to,
85â86
as moon landing of molecular biology,
73
,
207
sequenced a “blended person”
207
human immune system,
111â114
limitations of,
111
See also
mammalian immune system
HuMAb-Mouse,
118
humanized mice,
118
Hunt, Debra Long,
231
hyperthymesia,
228â229
“Idempotent Vector Design for Standard Assembly of Biobricks” (Knight),
185
iGEM (International Genetically Engineered Machines),
180â181
attempts to make genetic engineering “easy,”
230â231
dangers arising from,
230â232
history of,
189â192
2010 iGEM Jamboree,
192â196
,
198â201
Chinese University of Hong Kong presentation at,
195â196
,
197
,
200
Harvard iGarden project at,
200
Team Citadel presentation at,
199â200
immortal human components,
217â223
cloning as a possible route to,
220â221
extremes of longevity,
218â219
HeLa cells,
220
Lacks, Henrietta,
220
immune response,
112â114
generation of diversity problem (GOD problem),
113
immune diversity,
113
immune specificity,
113
industrial revolutions,
151â158
first industrial revolution (domestication of time),
152â154
unwelcome consequences of,
154
second industrial revolution (agriculture),
154â157
advantages of,
155
unwelcome consequences of,
155â156
further consequences of,
156â157
parallels to synthetic biology,
157
third industrial revolution (The Industrial Revolution proper),
182
made possible by steam power and standardization,
182â184
fourth industrial revolution (electro-magnetic),
192â193
fifth industrial revolution (quantum),
205â206
unwelcome consequences of,
207
sixth industrial revolution (information-genomics),
209â210
unwelcome consequences of,
211
information entropy,
56
inkjet printers,
33â34
three-dimensional,
33
inorganic/organic,
19â20
hybrid systems,
35
input/output,
33
Iritani, Akira,
145
interchangeable parts,
184