- Page 2 and 3: Boreskov Institute of Catalysis of
- Page 6 and 7: PLENARY LECTURES
- Page 8 and 9: PL‐1first planetesimals (embryos
- Page 10 and 11: PL‐2case the primary Earth substa
- Page 12 and 13: PL‐310. If the high‐carbon rock
- Page 14 and 15: PL‐5ON THE COMPLEXITY OF PRIMORDI
- Page 16 and 17: MICROFOSSILS, BIOMOLECULES AND BIOM
- Page 19 and 20: PL‐8MOLECULAR COLONIES AS A PRE
- Page 21 and 22: PL‐9GENE NETWORKS AND THE EVOLUTI
- Page 25 and 26: EMERGENT LIFE DRINKS ORDERLINESS FR
- Page 27 and 28: PROTOBIOLOGICAL STRUCTURES, PREBIOL
- Page 29 and 30: ORAL PRESENTATIONS
- Page 31 and 32: OP‐1developed a theory of the gre
- Page 33 and 34: OP‐2field of the Sun and the fiel
- Page 35 and 36: OP‐3HOT ABIOGENESIS AND EARLY BIO
- Page 37 and 38: OP‐4acetic acid [5,6], acetonitri
- Page 40 and 41: OP‐6processes. Mentioned above as
- Page 42: OP‐7polymerization of simple mole
- Page 45: OP‐9SYNTHESIS OF BIOLOGICALLY IMP
- Page 48 and 49: OP‐11threshold is reached the sel
- Page 50 and 51: OP‐12nanoparticles of polysilicic
- Page 52 and 53: OP‐13We aimed to relate entropy m
- Page 54 and 55:
OP‐14gene sequence as about 100 M
- Page 56 and 57:
OP‐15of photochemical transformat
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OP‐16modeled by the varying of in
- Page 60 and 61:
OP‐17[2]. Mulkidjanian, A. Y., Ko
- Page 62 and 63:
OP‐19LIFE ORIGINATION HYDRATE HYP
- Page 64 and 65:
OP‐20PREBIOLOGICAL EVOLUTION OF M
- Page 66 and 67:
OP‐21The manifestation of this ge
- Page 68 and 69:
OP‐22dominated by ostracodes, fir
- Page 70 and 71:
OP‐23present as Fe 0 , Fe +2 , an
- Page 72 and 73:
PROCARYOTIC ASSEMBLAGES OF EARLY PR
- Page 74 and 75:
OP‐26OPTIMIZATION OF STRESS RESPO
- Page 76 and 77:
OP‐27LICHENS COULD BE RESPONSIBLE
- Page 78 and 79:
OP‐28ROLE OF CYANOBACTERIA FROM D
- Page 80 and 81:
OP‐29COMPUTER TOOL FOR MODELING T
- Page 82 and 83:
OP‐30EVOLUTION OF TRANSLATION TER
- Page 84 and 85:
WHY WE NEED NEW EVIDENCES FOR DEEP
- Page 86 and 87:
ENDEMIC GENERA IN LATITUDINAL FAUNI
- Page 88 and 89:
OP‐33Taxonomic structure (alpha d
- Page 90 and 91:
OP‐34populations of different gas
- Page 94 and 95:
OP‐36in the reef frame, thus incr
- Page 96 and 97:
OP‐37extracorporeal digestion. Pl
- Page 98 and 99:
97OP‐38
- Page 100 and 101:
OP‐39one of the major generalized
- Page 102 and 103:
OP‐40geological history was favor
- Page 104 and 105:
“BUTTERFLY EFFECT” IN PLANETESI
- Page 106 and 107:
OP‐44COEVOLUTION OF MAMMALIAN FAU
- Page 108 and 109:
FRAMEWORKS OF LIFE ORIGIN RESEARCH
- Page 110 and 111:
OP‐45[8]. Lincoln T.A., Joyce G.F
- Page 112 and 113:
to run the analysis. Lifeless conde
- Page 114 and 115:
the pairs of the “very first” (
- Page 116 and 117:
aromatic hydrocarbons (PAHs) and th
- Page 118 and 119:
Results: Considering the changes be
- Page 120 and 121:
PP‐67ADAPTATION OF THE PYROCOCCUS
- Page 122 and 123:
GROWTH OF MICROORGANISMS IN MARTIAN
- Page 124 and 125:
2.3. Cellular thalli (or colonies?)
- Page 126 and 127:
Under methodical mistakes I mean fi
- Page 128 and 129:
A FRACTAL SPATIOTEMPORAL STRUCTURE
- Page 130 and 131:
[13]. Gusev, V.A., Arithmetic and a
- Page 132 and 133:
ABIOGENIC SELF‐ASSEMBLAGE OF THE
- Page 134 and 135:
PP‐2FLUID INCLUSION IN QUARTZ FRO
- Page 136 and 137:
PP‐3PALEOZOIC APOCALYPSE: WHAT CA
- Page 138 and 139:
PP‐4BIOCHEMICAL REACTION OF EARLY
- Page 140 and 141:
PP‐5EDIACARAN SOFT‐BODIED ORGAN
- Page 142 and 143:
PP‐6SOFTWARE MODELLER OF EVOLUTIO
- Page 144 and 145:
PP‐8THE EARLIEST STEPS OF ORGANIS
- Page 146 and 147:
PP‐9MODELING THE CONFIGURATIONS O
- Page 148 and 149:
PP‐9Acknowledgement. This work wa
- Page 150 and 151:
PP‐10that are much darker (probab
- Page 152 and 153:
PP‐12GTF2I DOMAIN: STRUCTURE, EVO
- Page 154 and 155:
PP‐13DEEP INSIDE INTO VERTEBRATES
- Page 156 and 157:
GENERATION OF MODERN MINERAL‐BIOL
- Page 158 and 159:
ADSORPTION OF RIBOSE NUCLEOTIDES ON
- Page 160 and 161:
PP‐16cells. Thus, in addition to
- Page 162 and 163:
PP‐17organizing photosynthetic pi
- Page 164 and 165:
PP‐19YOUNGEST OIL OF PLANET EARTH
- Page 166 and 167:
PP‐20MID‐CHAIN BRANCHED MONOMET
- Page 168 and 169:
PP‐21BIOMARKER HYDROCARBON COMPOS
- Page 170 and 171:
PP‐22BIOMARKER HYDROCARBONS IN KA
- Page 172 and 173:
PP‐23EVOLUTION OF TRILOBITE BIOFA
- Page 174 and 175:
COMPARATIVE ANALYSIS OF BIOMARKER H
- Page 176 and 177:
CYANO‐BACTERIAL MATS OF HOT SPRIN
- Page 178 and 179:
PP‐26THE BIOGEOGRAPHICAL EVOLUTIO
- Page 180 and 181:
PP‐27MICROBIAL COMMUNITIES OF OIL
- Page 182 and 183:
PP‐28MICROEVOLUTIONARY PROCESSES
- Page 184 and 185:
BIOGENIC AND ABIOGENIC BIOMORPHIC S
- Page 186 and 187:
PP‐29are combine nodules forming
- Page 188 and 189:
PP‐30have led to divergence of la
- Page 190 and 191:
PP‐31observed in the modern micro
- Page 192 and 193:
PP‐32by the ammonite Arctocephali
- Page 194 and 195:
PP‐33similarities in their three
- Page 196 and 197:
PP‐34been formed already in the e
- Page 198 and 199:
PP‐35The epochs of global cooling
- Page 200 and 201:
PP‐37MULTIPLE PATHS TO ENCEPHALIZ
- Page 202 and 203:
PP‐38FIRST MIKROIHNOFOSSILS FIND
- Page 204 and 205:
PP‐39THE ROLE OF ECHINOIDS IN SHA
- Page 206 and 207:
PP‐40BIOMARKER HYDROCARBONS OF TH
- Page 208 and 209:
THE STRUCTURE OF MICROBIAL COMMUNIT
- Page 210 and 211:
PP‐42Plate 1. Middle Ordovician,
- Page 212 and 213:
PP‐43ecosystems of large (up to 6
- Page 214 and 215:
PP‐44expansion goes through 40 °
- Page 216 and 217:
PP‐45(Ketris and Judovich, 2009),
- Page 218 and 219:
SURVIVAL OF HALOPHILES AT DIFFERENT
- Page 220 and 221:
PP‐47ISOPRENOID BIOMARKERS AND MI
- Page 222 and 223:
SOME PECULIARITIES IN THE DISTRIBUT
- Page 224 and 225:
PP‐51EVOLUTION OF INFAUNAL SCAVEN
- Page 226 and 227:
PP‐52EARLY PROTEROZOIC BIOMORPHIC
- Page 228 and 229:
PP‐53FROM OFFSHORE TO ONSHORE:A N
- Page 230 and 231:
PRODUCTS FROM BIRCH BARK FOR TREATI
- Page 232 and 233:
PP‐55THE STRUCTURE OF MICROBIAL C
- Page 234 and 235:
233PP‐56
- Page 236 and 237:
PP‐58EARLY CAMBRIAN EVOLUTION OF
- Page 238 and 239:
PP‐59matter (OM) of the Kuonamka
- Page 240 and 241:
PP‐60Fig. 1. Masschromatograms fo
- Page 242 and 243:
PP‐61multiply. According to prof.
- Page 244 and 245:
PP‐62investigation of dietary pat
- Page 246 and 247:
PP‐63for almost all discs. Radial
- Page 248 and 249:
PP‐64BIOMARKERS IN PRECAMBRIAN KA
- Page 250 and 251:
MICROFOSSILS OF BACTERIAL, MUSHROOM
- Page 252 and 253:
PP‐66BIOSTRUCTURE OF ASSEMBLAGES
- Page 254 and 255:
Abramson Natalia IosifovnaZoologica
- Page 256 and 257:
Gerasimov MikhailSpace Research Ins
- Page 258 and 259:
Lomakina AnnaLimnological institute
- Page 260 and 261:
Rogov Vladimir IgorevichTrofimuk In
- Page 262 and 263:
Zamulina Tatiana VladimirovnaBoresk
- Page 264 and 265:
PL‐9Kolchanov N.A., Afonnikov D.A
- Page 266 and 267:
OP‐15Gontareva N.B., Kuzicheva E.
- Page 268 and 269:
OP‐33Barskov I.S.TAXONOMICAL AND
- Page 270 and 271:
Nagovitsin K.COMPLEX HETEROTROPHIC
- Page 272 and 273:
PP‐17.PP‐18.PP‐19.PP‐20.PP
- Page 274 and 275:
PP‐35.Polishchuk Y.M., Yashchenko
- Page 276 and 277:
PP‐54.PP‐55.Kuznetsova S.A.PROD
- Page 278:
III INTERNATIONAL CONFERENCEBIOSPHE