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Downloaded from rstb.royalsocietypublishing.org on August 8, 2010 From volcanic origins of chemoautotrophic life to Bacteria, Archaea and Eukarya Günter Wächtershäuser Phil. Trans. R. Soc. B 2006 361, 1787-1808 doi: 10.1098/rstb.2006.1904 References This article cites 103 articles, 27 of which can be accessed free http://rstb.royalsocietypublishing.org/content/361/1474/1787.full.html#ref-list-1 Article cited in: http://rstb.royalsocietypublishing.org/content/361/1474/1787.full.html#related-urls Rapid response Respond to this article http://rstb.royalsocietypublishing.org/letters/submit/royptb;361/1474/1787 Email alerting service Receive free email alerts when new articles cite this article - sign up in the box at the top right-hand corner of the article or click here To subscribe to Phil. Trans. R. Soc. B go to: http://rstb.royalsocietypublishing.org/subscriptions This journal is © 2006 The Royal Society Downloaded from rstb.royalsocietypublishing.org on August 8, 2010 Phil.Trans.R.Soc.B(2006)361,1787–1808 doi:10.1098/rstb.2006.1904 Publishedonline7September2006 From volcanic origins of chemoautotrophic life to Bacteria, Archaea and Eukarya Gu¨nter Wa¨chtersha¨user1,2,* 180333 Munich, Weinstrasse 8,Germany 2209 Mill RaceDrive, Chapel Hill, NC27514,USA Thetheoryofachemoautotrophicoriginoflifeinavolcaniciron–sulphurworldpostulatesapioneer organism at sites of reducing volcanic exhalations. The pioneer organism is characterized by a composite structure with an inorganic substructure and an organic superstructure. Within the surfaces of the inorganic substructure iron, cobalt, nickel and other transition metal centres with sulphido,carbonylandotherligandswerecatalyticallyactiveandpromotedthegrowthoftheorganic superstructurethroughcarbonfixation,drivenbythereducingpotentialofthevolcanicexhalations. This pioneer metabolism was reproductiveby an autocatalytic feedback mechanism. Some organic products served as ligands for activating catalytic metal centres whence they arose. The unitary structure–function relationship of the pioneer organism later gave rise to two major strands of evolution: cellularization and emergence of the genetic machinery. This early phase of evolution ended with segregation of the domains Bacteria, Archaea and Eukarya from a rapidly evolving populationofpre-cells.Thus,lifestartedwithaninitial,direct,deterministicchemicalmechanismof evolutiongivingrisetoalater,indirect,stochastic,geneticmechanismofevolutionandtheupward evolutionoflifebyincreaseofcomplexityisgroundedultimatelyinthesyntheticredoxchemistryof the pioneer organism. Keywords: iron–sulphur-world; surface metabolism; ancestralgenome; nickel; carbonfixation; ligandfeedback 1.INTRODUCTION merely combined covalently and sequentially without Themoleculesofextantlifemaybeclassifiedintofour undergoing redox changes or substantial changes of categories of different complexity: inorganic nutrients, their electron configurations. The fourth category of low-molecular organic compounds, polymers and complexityismadeupofparticles:aggregatesofseveral aggregates of polymers. The first category, the polymer molecules as such or embedded in a lipid inorganic nutrients of life, consist of molecules of a membrane. fewatoms,suchasH ,N ,H O,H S,NH ,CH ,CO, For100years,afterthepioneeringworkofvonNa¨geli 2 2 2 2 3 4 CO , HCN and P O . They are gaseous or volatile (1884),mosttheoriesontheoriginoflifehavelocated 2 4 10 andescape from the interior of the Earthas magmatic theemergenceofthefirstreproducingorganismoflifeat (or volcanic) exhalations. Upon cooling of the flow of orabovethehighlevelofmolecularcomplexityincrease magmatic exhalations, gaseous H O condenses to frommonomerstomacromolecules.Asaconsequence, 2 liquid water,the elixir of life. theformationofthemonomersisplacedinanobscure The gaseous nutrients enter the so-called inter- ‘prebiotic broth’, wherein low-molecular compounds mediarymetabolismoftheextantorganismsandform are believed to have accumulated over thousands or a few hundred low-molecular bioorganic compounds, millions of years. These theories have been widely which constitute the second category of molecular reviewed(deDuve1995,2002,2005;MaynardSmith& Szathmary1995;Zubay1996;Brack1998;Lahav1999; complexity.Thismaybeseenasthechemicallycreative Fry2000;Wills&Bada 2000;Hazen 2005;Rauchfuß part of biochemistry. The gaseous nutrients enter 2005;Thoms2005).Theyareflawedinmultipleways. syntheticpathwayswithredoxreactionsandthorough- Here, it should suffice to note that they all postulate going transformations of the electron configurations. liquid water and that it is precisely the mass effect of Some of the low-molecular bioorganic compounds liquidwater,whichtendstopreventtheaccumulationof arebifunctionalmonomers(e.g.aminoacids),capable polycondensation products (or polycondensation of undergoing polycondensations to high-molecular agents)duetohydrolysis. polymers, such as proteins or nucleic acids. This constitutesthethirdcategoryofmolecularcomplexity. It is not so much a chemically creative stage as an 2.THE PIONEERORGANISM organizational stage, in which the monomers are The failures of the theories of an origin of life by polycondensation in a ‘prebiotic broth’ posed the *[email protected] challenge whether it would not be possible to develop a theory of an origin at the level of low-molecular Onecontributionof19toaDiscussionMeetingIssue‘Conditionsfor theemergenceoflifeontheearlyEarth’. organic compounds. As a solution to this problem, 1787 Thisjournalisq2006TheRoyalSociety Downloaded from rstb.royalsocietypublishing.org on August 8, 2010 1788 G. Wa¨chtersha¨user Volcanic origin of chemoautotrophic life that fresh transition metal precipitates (Drobner CO CO COS NH H S N H HCN e 2 3 2 2 2 et al. 1990; Huber & Wa¨chtersha¨user 1997, n v free volcanic 1998,2003;Huberetal.2003)haveaparticularly ir diffusion liquid highactivity. o water (ii) Cody et al. (2000) made the important obser- n phase vationthatunderhighpressureandtemperature m. Fe CO mobilizes FeS to low-molecular carbonyl o OH organic derivativesofunknownstructure.Thesemaybe r Ni Fe superstructure transportedthroughvolcanicflowchannelstothe g Fe Ni S Ni a S Fe CO Fe siteofthepioneerorganismandbecomeadsorbed S CO ni Fe H O Ni S OH mineral ontoorabsorbedintotheinorganicsubstructure. s H2O S 2 S H2O substructure (iii) Ithasbeenfoundexperimentallythatanumberof m Ni Fe synthetic reactions are dependent on alkaline Fe H O OH 2 conditions (Huber & Wa¨chtersha¨user 1998, 2003;Huberetal.2003)andthatthepHofthe Figure 1. Cross-sectional representation of the minimal reaction medium may be stabilized by alkaline organizationofthepioneerorganism. precipitates, like calcium hydroxide, magnesium a theory of a chemoautotrophic origin from inorganic hydroxideorbasicmagnesiumcarbonate.There- starting materials was developed (Wa¨chtersha¨user fore,suchpHbuffersmayalsobeimportantinthe 1988b–d, 1990, 1992). This theory has been dubbed substructure. ‘iron–sulphur-world’ theory for reasons of the geo- It has been stressed earlier that the inorganic chemical ubiquity of FeS and the catalytic, energetic substructure itself undergoes a chemical redox pro- and structural roles of iron and sulphur at the origin gressionaccordingtoOstwald’sruleofstepsfromFeS and during early evolution. I call the first organism of to FeS . This notion may now be expanded to life‘pioneerorganism’.Theterm‘organism’standsfor 2 heteroleptic (Fe,Ni)-precipitates progressing through anorganizedbeingandtheterm‘pioneer’standsforits carbonylations and sulphidizations. The surfaces of roleasthestartingpointofevolution.Itshouldbecome pyriteorothercrystalsmaycarryFe–S-clusters,akinto clearasthetextproceedsthatthepioneerorganismisa thoseinFe–S-enzymes(Wa¨chtersha¨user1992),which chemically deterministic entity at the threshold may include other transition metals. This holds for all betweenthe abiotic worldandthe bioticworld. crystals in the progression, like mackinawite that has In the years following the first publication of the been detectedin FeSprecipitatesafter partialreaction iron–sulphur-world theory, a number of experimental with H S to pyrite (Drobner et al. 1990). Amorphous resultshavebeenobtained.Theywillbereportedlater. 2 FeS precipitates have been found to consist of Sufficeittosayherethattheseexperimentshaveledto nanocrystalline mackinawite (Michel et al. 2005). significant improvements of this developing theory. Greigite has been considered as an intermediate The theoretical–experimental research programme (Popper 1990) and as catalytic species (Russell et al. has, as its ultimate goal, to reconstitute the pioneer 2003,2005). organism andwatch it evolve. The organic compounds of the superstructure arise We turn first to a general characterization of the byreductivecarbonfixation,i.e.byredoxreactions,for pioneer organism (figure 1). It has a minimal whichliquidwaterisbeneficialratherthandetrimental. substructure–superstructure organization. The super- The redox reactions are catalysed by the transition structure consists of low-molecular bioorganic metal centres in or on the surfaces of the inorganic compounds. They are bonded to the surfaces of an substructure.Theorganiccompoundsbecomebonded inorganic substructure, i.e. as an interphase between to the substructure in statu nascendi, i.e. as ligands to the inorganic substructure and the water phase. I use the transition metal centres in the surface of the here the name pioneer organism for the totality of the substructure. They subsequently undergo lateral organic molecules that are bonded at any given time transfer. In order to understand the mechanism of to the inorganic surfaces plus the surface regions of lateraltransfer,wehavetoappreciatetheomnipresence the inorganic substructure. Extension and curvature ofwater.Thewatermoleculesoccupyall‘free’valences of the surfaces of the substructure are indefinite. In in the surface of the substructure and any lateral the direction normal to the inorganic surfaces, the transfer of a ligand involves replacement of water superstructure has an essentially monomolecular molecules. For a closer understanding of the extension and a vectorial orientation. The water mechanism of lateral transfer, we have to introduce phase constitutes the environment and the source an important terminological distinction. The ligands of nutrients. thataredirectlybondedtothetransitionmetalcentres The inorganic substructure may form in a great are termed ‘inner sphere’ ligands and those that are varietyofways,whichpresentlycannotbeexhaustively separated from the transition metal centres by a defined. Three aspects of substructure formation number of water molecules are termed ‘outer sphere’ deserve special mention and they are asfollows: ligands.Therefore,alateraltransferofaligandinvolves transfer from the inner sphere to an outer sphere of a (i) Precipitationfromsolutionmayoccurpriortoor first site, diffusion from the first site to a second site, duringtheestablishmentofthepioneerorganism. andtransferfromanouterspheretotheinnersphereof It has been experimentally ascertained earlier the second site. The constituents that detach by Phil.Trans.R.Soc.B(2006) Downloaded from rstb.royalsocietypublishing.org on August 8, 2010 Volcanic origin of chemoautotrophiclife G. Wa¨chtersha¨user 1789 diffusing or flowing into the vast expanses of the open crystals that accretion, core–mantel differentiation water (ocean) are irretrievablylost. and crust segregation proceeded rapidly and partly in Such a pioneer organism may be seen as having a parallel (Kleine et al. 2002; Yin et al. 2002; Jacobsen remarkable combination of three capabilities: for 2003; Harrison et al. 2005). These processes were growth, reproduction and evolution. These central followedasearlyas4.4Gyr,byoceans,continentsand aspects of life coincide in the pioneer organism within sedimentation (Mojzsis etal.2001;Wilde et al.2001). onesingle typeofprocess.Thisprocess maybebriefly This new view extends the time frame for a possible stated as follows. The thermodynamic driving force is origin of life deep into the Hadean. According to this provided by the chemical potential of the volcanic emerging picture, a very hot magma and a relatively exhalationsinthewaterphase.Thekineticreactivityis thin crust (de Wit 1998; Nisbet & Fowler 2004; providedbythecatalyticactivityofthetransitionmetal Russell & Arndt 2005) would have been highly centres in or on the surfaces of the inorganic reducing and inflicted by heavy bombardment and by substructure. The combination of these thermo- intense volcanism with highly reducing exhalations. It dynamic and kinetic aspectshas the following effects: isexactlythisrangeofconditionsoftheHadeanEarth thatarecrucialfortheiron–sulphur-worldtheoryofthe (i) Synthetic carbon fixation reactions generate origin of life. organic products that become bonded to the In recent years, several remarkable geological surfaces of the inorganic substructure in statu habitatsfor the origin of life havebeen suggested: nascendi,which means growth. (ii) Some of the synthetic organic products exhibit (i) Nisbet & Fowler (2004) suggest localized sites an autocatalytic positive feedback into the of origin in magnesium-rich komatiite lava synthetic reactions whence they arise, which deposits associated not only with iron but also means reproduction. with nickelsulphide. (iii) The autocatalytic feedback effect exhibits vari- (ii) Nisbet&Fowler(2004)furthersuggestalkaline ations, which is the basis for evolution. hydrothermal systems or alkaline volcanism as the most likely setting, where ultramafic Before we consider the pioneer organism in greater material (generating magnesium hydroxide) detail, we may look at the possible geochemical would be the sourceof alkali. situationwherein this organism mayarise andthrive. (iii) Cockell (2006) suggests that large impactors, long considered a source of heat-sterilization and as anathema for life, may actually have 3.THE OVERALL GEOCHEMICAL SITUATION prepared the cradle of life by impact cratering. OFTHE PIONEERORGANISM Thereby intense fracturing and deposition of Theproblemoftheoriginoflifeisabiologicalproblem dust and debris would have created a bottom andits solution will be abiological theoryin the sense bed with myriads of flow channels close to the thattheexplanandumconsistsofextantbiologicalfacts. magmatic source of the volcanicexhalations. This means that a theory of the origin and the early (iv) Nisbet & Fowler (2004) suggest with regard to evolution of life will be a biomolecular theory. Its cataclysmic large impacts that primitive life development should be guided by judging its explana- forms may have survived events of the magni- tory power (Popper 1963), i.e. its power to explain tude of the Moon-forming impact by being many facts of extant biology with few theoretical contained in ejected rocks, which then orbited assumptions. From a chemical point of view, the highinspaceandoutsideofthehotatmosphere empiricalmeritofsuchatheoryresidesinitspredictive for a sufficient time for later re-entry after the power, i.e. its power to predict hitherto unknown Earthhad cooled down again. chemical reactions that can be tested experimentally. Chemical thermodynamics, as explored by Amend & These proposals are highly compatible with the Shock (2001), serves to focus the experimental theoryofachemoautotrophicoriginoflifeaspresented programme. The kinetic issues of the programme can here, which assumes high pressure (Wa¨chtersha¨user only be resolved experimentally. 1988d,1992),elevatedtemperatures(aboveoraround Turningnowtotheroleofgeology,itisunfortunate 1008C),(Fe,Ni)-catalysisandthechemicalpotentialof that we do not have any remains of the Hadean Earth volcanicexhalations. with a direct biological signature. Therefore, the aim Letusnowaddresstwospecificaspectsofapossible here can only be the establishment of compatibility cradleoflifewithintheHadeanhabitatsthathavebeen betweenatheoryoftheearlyEarthandatheoryofthe characterizedearlier:hydrothermalsystemsandvolca- origin and early evolution of life. Nisbet & Fowler nic exhalations. These two aspects frequently occur (2004)haveassignedtothegeologiststherole‘topoint side by side and are often confounded. The hydro- outpossiblehabitatswherethefirstlifecouldhavebeen thermalsystemsarecyclic.Oceanwatercyclesthrough born’. Efforts in this direction promise the much the crust transporting heat and leached soluble salts needed constraints of the physical and chemical fromthecrustintotheocean.Fortheoriginoflifethey parameters for the experiments. areoflesserimportance.Volcanicexhalationsarelinear There are several reviews of recent theories on the andhenceprimary,virginmagmaticgases(H O,CO , 2 2 early history of the Earth (Halliday 2004; Russell & CO,H S,etc.)escapeasvolcanicexhalationsfromthe 2 Arndt 2005; Lunine 2006). It now appears from interiorofthemantle.These,uponcooling,providethe isotope studies of meteorites and Hadean zircon chemicalpotentialfortheoriginoflife.Therefore,they Phil.Trans.R.Soc.B(2006) Downloaded from rstb.royalsocietypublishing.org on August 8, 2010 1790 G. Wa¨chtersha¨user Volcanic origin of chemoautotrophic life formanindispensablepartofthepresenttheory,which organism. This renders the chemo-autotrophic origin means that the original homestead of life is situated oflifealocalaffair(Wa¨chtersha¨user1988d)asopposed in a volcanic flow system (Wa¨chtersha¨user 1988d). tothe globalaffair of the prebiotic broth theory. A Hadean volcanic flow system may be conceptually classifiedinto three idealtypes offlowregions: 4.THE BASIC CHEMICAL CONDITIONS OF (i) A first upstream flow region (deep inside the THE PIONEER ORGANISM Earth) with a temperature above the critical ThegeochemicalsettingoftheHadeanEarthsuggests temperature of water may be likened to a flow averygeneralchemicalframeworkforavolcanicorigin reactor with a stationary solid structure, a oflife.Regardingmorespecificchemicalconditionsof mobile gas phase and perhaps entrained solid the pioneer organism, we have to rely on a different particles. It would be the source of the gaseous heuristic:biochemicalretrodictionfromextantbiology. nutrients for the pioneer organism. Four pointsconsideredhere are asfollows: (ii) A second downstream flow region with a temperature below the critical temperature of (i) As to the source for carbon atoms, the extant water may be likened to a trickle-bed reactor biosphereisbasedmainlyonCO fixation.There- 2 with a stationary solid structure, a mobile gas fore, CO was originally considered as the least 2 phase and a mobile liquid water phase with speculativecandidateandCOwasconsideredasa dissolvedvolcanicexhalations.Thewaterphase possiblealternative(Wa¨chtersha¨user1988d,1990, progressively condenses in gas flow direction 1992). In the meantime, based on experimental beginning perhaps as a thin transient film that results,theemphasishasshiftedfromCO toCO, 2 merely wets the solid surfaces and ultimately which makes good chemical, biological and forming a liquid flow concurrent or counter- geochemical sense. CO is highly reactive and in current to the gas flow. Additional nutrients extant organisms, it has three central biological would have been formed here by reactions functions: as the carbon source for acetyl-CoA dependent on the presence of liquid water;and synthase; as the electron source for carbon theformationof anorganicsuperstructuremay monoxide dehydrogenase (CODH); and as the havealreadybegunhere. ligand in all the three hydrogenases (Pierik et al. (iii) A third flow region with a lower temperature 1999; Lemon & Peters 1999; Lyon et al. 2004). maybeachromatographicreactorwithapacked Some extant organisms use CO as sole carbon bed of solid debris or particles, in which a source (e.g. Rother & Metcalf 2004; Wu et al. mobile liquid water phase passed through a 2005). This, however, seems to be a derived myriad of flow channels that opened into the feature, since these organisms employ the usual ocean.ThethirdflowregionmayexhibitpHor CO reduction pathways fed by the CO that is 2 2 sulphidization zoning and chromatographic producedbyoxidationofCO.Finally,COistoday characteristics for the organic products in the omnipresent in volcanic gases and the Hadean superstructure.Itmeansthattheconstituentsof volcanicgaseswouldhavehadahighratioofCO: the surface metabolism may have been selected CO . In addition to CO and CO, volcanic 2 2 by differential residence times, which means carbonylsulphide(COS;Corazza1986)hasbeen differentialretentiontimesinviewofthestateof considered as nutrient (Wa¨chtersha¨user 1992). volcanic flow. Reactive and chromatographic Cyanoligandsoccurringatvolcanicsites(Mukhin processes would have interacted along the flow 1974)andintwoofthethreehydrogenasesarealso pathwithbestsurfacebondersbeingtheslowest possiblenutrients. travellers. (ii) As to the source of reducing power, a number of inorganicsourcesofelectronshavebeensuggested Geochromatographyhasbeenpreviouslyinvokedin thatexisttodayandmusthavealwaysexistedunder conjunctionwithaprebioticbroth(Wing&Bada1991, volcanicconditions: 2000) or with aquifers (Washington 2000). Corliss —oxidative formation of pyrite (Wa¨chtersha¨user (1986)hasanalysedpossibleflowreactorconditionsof 1988b), a submarine hydrothermal vent. Subsequently, a FeSCH S/FeS C2HCC2eK; ð4:1Þ 2 2 number of other geologists have explored possible —oxidation of CO to CO (Wa¨chtersha¨user Hadean/Archaean hydrothermalvent scenarios for the 2 1988d,1998a), origin of life (Russell et al. 1989, 1998, 2003, 2005; COCH O/CO C2HCC2eK; ð4:2Þ Holm 1992; Matsuno 1997; Russell & Hall 1997; 2 2 Holm & Andersson 1998;Shock et al.1998). —oxidation of ferrous compounds, like ferrous The involvement of volcanic exhalations in the hydroxide(Huber&Wa¨chtersha¨user2003), originoflifehasbeeninvokedasearlyas1974(Mukhin 2FeðOHÞ /2FeOðOHÞC2HCC2eK; ð4:3Þ 2 1974).Mukhinsuggestedvolcaniccarboncompounds —oxidationofH (Wa¨chtersha¨user1988a,c,d), as an additional source for the synthesis of organic 2 compounds for the ‘prebiotic broth’. The present H2/2HCC2eK: ð4:4Þ theoryof a chemoautotrophic origin of life utilizes the Thetwohalf-reactions(4.1)and(4.2)withpyriteand volcanic flow system in a quite different manner. It is CO aswasteproductsarethetwomostcrucialelectron 2 firstofallthesiteatwhichthepioneerorganismarises. donorsforthepioneerorganism.Half-reaction(4.4)has Inaddition,itprovidesallthenutrientsforthispioneer been ‘excluded as the first source of electrons since its Phil.Trans.R.Soc.B(2006) Downloaded from rstb.royalsocietypublishing.org on August 8, 2010 Volcanic origin of chemoautotrophiclife G. Wa¨chtersha¨user 1791 reducing potential is not sufficient for reducing CO ’ —FormationofCOSfromCOandH SbyNi-catalysis 2 2 (Wa¨chtersha¨user1988d),butnotasafurthersourceof (Huber&Wa¨chtersha¨user1997). electrons.Thehalfreaction(4.1)hasbeendemonstrated COCH S/COSC2HCC2eK: ð4:7Þ 2 as viable source of electrons for the reduction of CO 2 —Formation of methylmercaptan from CO with (Heinen&Lauwers1996),whichmeansCO -fixationby 2 2 FeS/H S(Heinen&Lauwers1996). oxidative pyrite formation. As a peculiar aspect of 2 CO C3FeSC4H S/CH SHC3FeS C2H O: biomineralization, it has been discovered that the 2 2 3 2 2 conversion of greigite to pyrite may be inhibited by ð4:8Þ aldehydes (Rickard et al. 2001). Pyrite chemistry, in —FormationofmethylmercaptanfromCOandH Son 2 conjunction with chemical origin of life reactions has NiS(Huber&Wa¨chtersha¨user1997). beenreviewedbyCody(2004).Thesurfacebondingof COCH SC4eKC4HC/CH SHCH O: ð4:9Þ pyrite has been studied, notably by Schoonen and 2 3 2 co-workers, who found strong bonding of phosphate 5.SYNTHETICREACTIONSOFTHEPIONEER and phosphorylated compounds to pyrite (Bebie & ORGANISM Schoonen1999). We now turn to synthetic reactions that begin with simple volcanic nutrients and produce low-molecular (iii) As to the source of sulphur, volcanic H S, the 2 organic compounds. We should bear in mind that the simplest of all sulphydryl compounds, has been reactions are catalysed by metal centres in or on the consideredasanessentialnutrientandcatalystof surface of the inorganic substructure. We shall the pioneer organism and for generating FeS, progress in the direction of increasing molecular FeS andother transition metalsulphidesinthe 2 complexity. substructure(Wa¨chtersha¨user1988b). (iv) Finally, as to the nature of the transition metal (a)FormationofC2-structures centres of the inorganic substructure, extant The formation of activated thioacetic acid (CH –CO– 3 metallo-proteins suggest first and foremost Fe, SH)fromCH SHandCOasevolutionaryprecursorof 3 whichisthemostabundanttransitionmetalofthe acetic acid thioesters was suggested theoretically Solar System. Ni is a most important catalytic (Wa¨chtersha¨user 1990). The formation of acetic acid metalofBacteriaandArchaeaanditisthesecond and its thioester was demonstrated experimentally at most abundant transition metal of the Solar 1008C(Huber&Wa¨chtersha¨user1997): SystemandaconstantcompanionofFe.There- fore,ithasbeensuggestedearlier(Wa¨chtersha¨user 2CH SHCCO/CH –CO–S–CH CH S: ð5:1Þ 3 3 3 2 1988d, 1990, 1992) and tested experimentally Thearithmeticissimple:C1CC1ZC2.Thereaction (Huber & Wa¨chtersha¨user 1997, 1998). The is catalysed by (Fe,Ni)S, NiS, Ni(OH) and CoS. It other biological transition metals, namely Mn, 2 combinesstructureformationwithenergyconservation Co,Mo,W,Cu,ZnundVmayalsobeconsidered. as group activation energy required for subsequent The suggestions for possible ligands are derived reactions.Thereactionresemblestheextantacetyl-CoA from the ligands of extant metallo-proteins, e.g. biosynthesis. S, SH, S–S, H O, OH, CO and CN. These 2 possiblemetalsandligandscombinetoarichset (b)FormationofC3-structures of possible inorganic structures within a precipi- The formation of pyruvate by CO-fixation was tate (library) of polynuclear, polymodal and suggested theoretically (Huber & Wa¨chtersha¨user heteroleptic clusters on mineral surfaces 1997) and demonstrated experimentally at 2000bar (Wa¨chtersha¨user2000a,b). and2508CwithFeS/RSH(Codyetal.2000): Thesereactantssuggestanumberofsimple,testable 3COC4HCC4eK/CH –CO–CO–OH: ð5:2Þ reactions of volcanic nutrients in the formation and 3 growthofapioneerorganism.Thesereactionsmaytake The arithmetic is C1CC1CC1ZC3. In extant place at the site of the pioneer organism for immediate biochemistry,pyruvateisformed byreductive carboxy- infiltration into its surface metabolism or upstream lation of acetyl-CoA, seen here as the evolutionary thereof with subsequent transport of their products to successorreaction. thesiteofthepioneerorganism.Thefollowingreactions havebeenexperimentallydemonstrated: (c)Reductiveamination Reductiveformationofa-aminoacidsfroma-ketoacids —FormationofdihydrogenfromFeS/H2S(Tayloretal. and NH3 was suggested (Wa¨chtersha¨user 1990) and 1979;Drobneretal.1990). demonstratedat1008C(Hafenbradletal.1995;Huber &Wa¨chtersha¨user2003): FeSCH S/FeS CH : ð4:5Þ 2 2 2 R–CO–COOHC2Fe2CCNH C2HC/ 3 ð5:3Þ —Nitrogen fixation with FeS/H2S under moderate R–CHðNH2Þ–COOHC2Fe3CCH2O: conditions suggested theoretically (Wa¨chtersha¨user The reaction proceeds with FeS and/or Fe(OH) as 1988d) and demonstrated with 15N–N (Do¨rr et al. 2 2 catalystandelectronsourcesuggestingtheoxidationof 2003). Fe2C to Fe3C as primary electron source, followed by N C3FeSC3H S/3FeS C2NH : ð4:6Þ the formation of FeS2 in the presence of H2S or of 2 2 2 3 FeOOH, Fe O , Fe O , etc., in the absence of H S. 2 3 3 4 2 Phil.Trans.R.Soc.B(2006) Downloaded from rstb.royalsocietypublishing.org on August 8, 2010 1792 G. Wa¨chtersha¨user Volcanic origin of chemoautotrophic life protein hydrolysis. In competition with N-terminal ATP hydantoin formation, the free amino group of the dipeptidemayreactwithanothermoleculeofaminoacyl N-carboxyanhydride to form a tripeptide, which again O H2C Gly HOOC–NH–CH CO–NH–CH –COOH may react competitively by N-terminal chain extension HN N O 2 2 to a tetrapeptide or by N-terminal derivatization and CO degradationandsoon.Thepeptidecyclemaybeseenas O 2 acatalyticcyclefortheconversionofCOtoCO akinto H N–CH –CO–NH–CH –COOH 2 [2H] 2 2 2 extantCODH.Thepeptidecyclewillrunaslongasthe CO redoxenergysupplyofCOlasts.H Siscatalyticforthe CO 2 [2H] formation of COS. The hydrolytically sensitive COS is (Fe,Ni)S merely an intermediate and its accumulation is not O gly H C required.Withadditionalaminoacids,peptides(hydan- 2 H toinsandureas)withavarietyofsequencesareformed HN N–CH –COOH CO +H O 2 tocoexistinmixture.Thisconstitutesadynamiclibrary, 2+H2O H2C–COOH 2 O inwhichthepeptides(hydantoinsandureas)comeand HN NH–CH –COOH purines gowithsteady-stateconcentrationscorrespondingtothe 2 difference between the rates of formation and O degradation. Importantly, this library of structures is Figure2.Dipeptidecycleofglycine.Forpossiblealternatives also self-selecting, because a selective bonding of a see Huber & Wa¨chtersha¨user (1998) and Wa¨chtersha¨user certain structure as ligand to a metal centre of the (1998a). substructure causes its stabilization against hydrolysis Glutamate synthase, one of the extant enzymes for and thus an increase of its steady-state concentration. reductive amination still depends on FeS-clusters for Thismeansaself-selectionofstablemetallo-peptides. electrontransport. (e)Phosphorylation VolcanicgasescontainvolatileP O ,whichhydrolyses (d)Activationofaminoacidsandpeptidecycle 4 10 through intermediate polyphosphates and pyro- Amino acid activation and peptide formation were phosphate (Yamagata et al. 1991) that function as discovered when a-amino acids were added to the phosphorylation agents, i.e. as inorganic substitutes for reactionsystemforformingthethioesterof aceticacid. ATP (Baltscheffsky 1967). Pyrophosphate has been Inthepresenceof(Fe,Ni)S,COandH S(orCH SH) 2 3 suggested as primordial phosphorylation agent at 1008C, the reaction proceeds best under alkaline (Baltscheffsky 1971). Extant organisms produce pyro- conditionswith Mg(OH) aspHbuffer.COSwasseen 2 phosphate by photo-phosphorylation (Baltscheffsky as the activating intermediate, since its use instead of et al. 1966). Under standard temperature and pressure CO also produces peptides (Huber & Wa¨chtersha¨user conditions, COS activates amino acids to subsequently 1998).ActivationwithCOSintheabsenceof(Fe,Ni)S reactwithAMPtoaminoacyl-AMPandwithphosphate was studied at room temperature (Leman et al. 2004). toaminoacyl-phosphate,whichsubsequentlyreactswith Peptides formed with CO were shown to undergo further phosphate to pyrophosphate (Leman et al. N-terminal conversions, first to a hydantoin ring and 2006). thentoaureagroup,fromwhichfinallytheN-terminal The aforementioned synthetic reactions may aminoacidiscleavedhydrolytically(Huberetal.2003). combine to autotrophic synthetic pathways. A pathway Ahypotheticalmechanismoftheentirepeptidecycleis example progressing from CO to the peptide cycle is shown infigure2 for the simplestcaseofthedipeptide shown in figure 3. The reactions demonstrated so far glycyl–glycine.Inthefirststep,glycine(Gly)isactivated may well be the tip of an iceberg of synthetic reactions to its aminoacyl N-carboxyanhydride (N) by reaction forapossiblepioneerorganismwaitingtobediscovered withCOSobtainedfromCOandH S.Thismeansthat 2 experimentally. the redox energyof reaction (4.3) is coupled to glycine activation via COS, which may well be the simplest pioneerenergycouplingoflife.Subsequently,theamino 6.THEPIONEERMETABOLISM,ITS group of another molecule of glycine reacts as a REPRODUCTIONANDEVOLUTION nucleophile with the aminoacyl N-carboxyanhydride (a)Metabolismbyligandfeedback generating the dipeptide glycyl–glycine, which then We next turn to mechanisms by which the synthetic reacts at its N-terminal end with COS (CO/H S) reaction pathways in the superstructure of the pioneer 2 generating hydantoin (H) as N-analogue of the organism may exhibit autocatalytic feedback, which N-carboxyanhydride(N). wouldmeanmetabolicreproduction.Wefirstnotethat Uptohere,thepeptidecycleissyntheticoranabolic. growth of the superstructure refers to an accumulation The subsequent hydrolysis to a urea derivative is still of surface-bonding products. These products must be anabolicsincethemolecularweightincreases.Thefinal seen as ligands to the free metal valences in or on the hydrolytic cleavage is catabolic and reminiscent of the surfacesoftheinorganicsubstructure.Atthisinstance,it extantNi-enzymeurease.Thecombinationof anabolic is important to recognize that some of these catalyst and catabolic cycle segments corresponds to the ligands may increase the catalytic activity of the extant combination of ribosome-catalysed, anabolic transition metal centres, to which they are bonded. protein synthesis with proteasome-catalysed, catabolic Thisinturnwouldincreasetherateofthepathwaythat Phil.Trans.R.Soc.B(2006) Downloaded from rstb.royalsocietypublishing.org on August 8, 2010 Volcanic origin of chemoautotrophiclife G. Wa¨chtersha¨user 1793 metal centre. Let us further assume that this ligand volcanic exhalations increasesthecatalyticactivityforarate-determiningstep CO + H S + NH 2 3 inthereactionpathwaytothisspecialreactionproduct. This means that the overall rate of this pathway is CH 3 increased. As a consequence, the steady-state concen- CO trationofthespecialreactionproductisincreased.This CH OH 3 in turn means that the rate of this pathway is further + CO CH3 increased, etc. This is how an autocatalytic feedback CH3 CO CHNH2 works.Atthisinstance,however,wehavetoappreciate CO OH CO thattheautocatalyticpathwaygeneratesnotjusttheone CH 3 SCH OH special reaction product, but rather a whole set of SH 3 reaction products, e.g. a set of peptides, hydantoin CH O 3 derivatives and urea derivatives. This means that the CH CO C 3 peptide autocatalytic feedback effect of the one special product CH3 CO CO Ala cycle increases the steady-state concentration of each S compound in the set of reaction products. This brings the steady-state concentrations of some other products FeS NiS FeS NiS FeS NiS up to levels, at which further feedback possibilities are actualized. In this manner, a single positive feedback ligand feedback effect will broaden the spectrum of products, which in Figure 3. Integrated hypothetical reaction pathway with turn will usher in further feedback effects. This means autocatalyticfeedback(dottedarrows). that the metabolism of the pioneer organism is self- expanding and undergoing a progressive increase of producestheligand(Wa¨chtersha¨user1998a,c,2000a,b; metabolic diversity and molecular complexity, thus cf.Huber&Wa¨chtersha¨user1998).Suchligandeffects exhibiting an ever-expanding avalanche of metabolic are quite idiosyncratic and theoretically not very evolution. predictable (Berrisford et al. 1995). Carefully chosen Let us finally consider reproduction and evolution ligands may dramatically increase the activity of undertheflowconditionsofachromatographicreaction transitionmetalcatalystsbyfactorsofupto103. system. Strong-bonding products, e.g. certain peptides, Let us now analyse which kinds of low-molecular have a long retention time and migrate slowly in flow organic products may become ligands for boosting direction. This means that they tend to become catalytictransitionmetalcentres.Typically,suchligands concentrated in a relatively early flow zone, which may willhaveatleasttwofunctionalgroups(e.g.COOHand be termed the ‘ligand zone’. Local concentration of NH2) that can bond to a transition metal centre. certainligandsinaligandzonemeansalocalizationofthe Examples are hydroxy acids, e.g. glycolate, lactate, feedbackeffectoftheligands.Thisinturnincreasesthe glycerate, malate, citrate, isocitrate and homocitrate, rateofreactionintheligandzoneandthustheproduction the latter being a ligand in extant nitrogenases (Kirn & of more ligandsand still stronger feedback in this zone. Rees1992;Ru¨ttimann-Johnsonetal.2001);aminoacids, Thismeansconcentrationandlocalizationofthepioneer e.g. glycine, alanine, serine, aspartate; and peptides or organisminspiteofthevolcanicflowsituation. theirhydantoinandureaderivatives.Apossibilityofsuch productfeedbackisindicatedinfigure3. (b)Evolutionbydoublefeedback We may conceptualize ligand feedback from a Another, not yet discussed, however, crucial aspect of different point of view. All products of the surface evolutionisbasedonamechanism,whichIhavetermed metabolism form a mixture (or library) of chemical ‘double feedback’ (Wa¨chtersha¨user 1992, 1994). For compounds.Somemaybondtothesurfacemoreorless understanding this mechanism, let us assume the pre- stronglyandothersmaynotbondatall.Presently,from existence of a pioneer metabolism with a specific this library, the pioneer organism will automatically reaction pathway having a specific product that feeds select those compounds, which are capable of bonding back autocatalytically into the metabolism. We further as ligands by selective residence or retention time; and assumethattheself-expansionofthemetabolismbrings optionally by protection from hydrolysis. In this sense, forthanewreactionpathway,whichbranchesfromthe the products of the pioneer metabolism are self- specific reaction pathway and thus weakens it, since it selective. Increase in the size of the library of products withdrawsanintermediate.Now,ifaproductofthenew increases the likelihood that it contains self-selecting branch pathway feeds back autocatalytically into this ligands with autocatalytic feedback. Incidentally, from very same new branch pathway, the weakening of the thispoint ofview,racemates ofthe organic productsof pre-existent specific reaction pathway is amplified. the pioneer metabolism mean a higher number of Thus, a feedback which is positive (autocatalytic) for structures and thus a higher likelihood of positive thebranchpathwaywillbenegativefor thepre-existent feedback, which means that at this early stage of life specific reaction pathway and thereby for the whole lackofenantioselectivityofthesyntheticreactionsisan metabolism. This is an egotistic, virus-like (‘virulytic’) advantagerather thanadisadvantage. feedback effect that tends to weaken or even kill the Theseconsiderationsbringustoamostcrucialaspect pioneer metabolism. A completely different situation oftheself-selectinglibraryofligands.Letusassumethat arises,iftheproductofthenewbranchpathwayexhibits onespecialreactionproductofthepioneer metabolism a ‘double feedback’, an ‘egotistic feedback’ combined (e.g. a certain peptide) binds as a ligand to a catalytic with an ‘altruistic feedback’. The egotistic feedback Phil.Trans.R.Soc.B(2006) Downloaded from rstb.royalsocietypublishing.org on August 8, 2010 1794 G. Wa¨chtersha¨user Volcanic origin of chemoautotrophic life consists of the positive feedback into the new branch must have originated by carbon fixation. Various more pathway. The altruistic feedback consists of a positive or less vague synthetic possibilities have been explored feedback into the pre-existent metabolism, thereby theoretically (Wa¨chtersha¨user 1988a,d, 1992). The compensating for the egotistic feedback. The reaction peptide cycle shown in figure 2 now adds surprisingly productswithsuchadoublefeedbackeffectaretermed direct experimental evidence. The hydantoin rings are ‘vitalizers’ (Wa¨chtersha¨user 1992, 1994). There are formed at the N-terminal ends of peptides by carbon numerous examples for such vitalizers in extant fixation. Such hydantoin rings have a close structural metabolism. The coenzymes catalyse many reactions similaritytotheimidazoleportionofthepurinebasesin including reactions within their own biosynthesis. The extantnucleicacids.Thepurinesaretodatebiosynthe- ribosomescatalysethesynthesesofallproteinsincluding sized by pathways involving carbon fixation. This ribosomal proteins. The protein translocases catalyse suggests that in the extant biosynthesis of purines, the the incorporation of numerous membrane proteins mostancientmannerofsynthesisbycarbonfixationhas into membranes, including the proteins of the translo- been somehow preserved. Further, this experimental cases themselves. The principle of double feedback result brings the two ancient syntheses of peptides and holdsatalllevelsofevolutionfromthepioneerorganism purines into a close connection and it lends support to through nucleic acid-implemented evolution to the thepossibilitythatamongtheearliest‘nucleicacids’may evolution of the highest forms of human institutions have been chemoautotrophically produced (Wa¨chtersha¨user1992,1994). polypeptides with pendant hydantoin-derived bases (cf. Nielsen 1993). Such primitive ‘nucleic acids’ (c)Metabolicinheritance would have been followed later on by phospho-sugar- Thechemicalreactionsaredependentonthe(environ- basednucleicacids. mental)reactionconditions.Bypositivefeedback(single Thestructuralandfunctionalpropertiesofthegeneral ordouble)oftheproductofareactionintothisreaction class of nucleic acids with a sugar-phosphate backbone itself, this dependence is lessened compared to the have been intensely studied both theoretically and feedback-free de novo reaction, which means that the experimentally by Albert Eschenmoser and his school. reactionbecomestoacertaindegreeindependentfrom Itwasfoundthata-threofuranosyloligonucleotideswith the environment, i.e. autonomous. This means that an vicinallyconnected(30/20)phosphodiesterbridgeshave autocatalytic feedback reaction, once initiated de novo, similar base-pairing properties as RNA. Moreover, they will continue to run even under conditions, which no formhybridswithRNAandDNA,whichisanecessary longer allow its de novo initiation. This is how history condition for an intermediary evolutionary role. Most enters the picture. The existence of an autocatalytic importantly, however, they show a much increased feedback cycle signifies the historic fact of its previous hydrolytic and thermal stabilities compared to RNA. de novo ignition. In this sense, each autocatalytic Finally,theC4-sugarcomponentcouldbetheresultofa feedbackeffectconstitutesaninstanceofinheritanceor C2CC2/C4 synthesis (Scho¨ning et al. 2000). This amemoryeffectandthewholeprocessofevolutionmay makesitagoodcandidateforanucleicacidoriginatingin beabstractedtoaconcatenationofsuchmemoryeffects. a hot chemoautotrophic system. In this context, the problemisfurtherconstrainedbyaddingtothecategories of structural and functional feasibility, the metabolic 7.ONTHECHEMOAUTOTROPHICORIGIN categoryofautotrophicsyntheticaccessibility.Thisisstill OFTHEGENETICMACHINERY alargelyunchartedterritory.Onecrucialproblemwithin So far, we have discussed the hypothetical pioneer this territory, the problem of phosphorylation and of organismasachemicalentitycontrolledbytheuniversal activation of nucleotides by phosphoanhydride forma- lawsofchemistry.Wenowinvestigatehowthischemical tion,hasbeenrecentlyaddressedexperimentally(Leman entitycouldhavebeenthestartingpointoftheparticular et al. 2006). As explained earlier, this solution is quite historic process of evolution, by which the chemoauto- compatible with the context of a chemoautotrophic trophicpioneerorganismevolvedintoorganismswitha origin of life and a potential solution of the problem of genetic machinery. This must have happened in nucleicacidsynthesisbynucleotidecondensation. coevolutionwithcellularization,whichwillbeaddressed Any solution of the problem in the synthesis of later. It should be stressed at the outset that there is a nucleicacidsinachemoautotrophiccontextwillhaveto huge body of literature on the problem of the origin of address not only the question, how the synthetic genetic machinery in the context of a cold prebiotic intermediates, like phosphorylated sugars, could have broth. Naturally, much of this work is not directly been formed by carbon fixation, but also the question applicable to the context of a chemoautotrophic origin howsuchintermediatescouldhaveoperatedasfeedback under hot, volcanic conditions. Therefore, we will componentswithinanautocatalyticmetabolicnetwork. restrict the present discussion to certain salient aspects The earliest function of phosphorylated sugars and ofthenewviewoftheproblemthatisforceduponusby nucleotides—long before the advent of base pairing— the assumption of a chemoautotrophic pioneer musthavebeenthatofligandsforpromotingtransition organism. metal catalysts. Sugars are excellent ligands. The Allextantorganismshaveamulti-componentgenetic heterocyclic bases in the early nucleotides would have machinery consisting partly of proteins and partly of acquired the additional function of acid–base catalysis. nucleic acids. The nucleic acids consist of structural Finally,withtheadventofbasepairing,athirdcatalytic units (nucleotide units) derived from phospho-ribose function was added: catalysis of peptide formation by and heterocyclic bases. According to the theory of a anchimeric positioning of nucleic acids with terminal chemo-autotrophic origin of life, these structural units aminoacidesters,towhichweturnnext. Phil.Trans.R.Soc.B(2006) Downloaded from rstb.royalsocietypublishing.org on August 8, 2010 Volcanic origin of chemoautotrophiclife G. Wa¨chtersha¨user 1795 Today almost all the peptides and proteins are theprimary,direct,chemicalmechanismofevolutionby synthesized by ribosomal catalysis. As a simple specific variation of the synthesis of peptides with direct modelenroutetotheribosomalmachinery,letusassume autocatalytic feedback became first supplemented and surface-bonded pro-tRNAs in the form of nucleic acid later increasingly substituted by a secondary, indirect, hairpinstructuresthatbecameaminoacylatedterminally genetic mechanism of evolution, whereby variations of byactivatedaminoacids.Letusfurtherassumethattwo replicating nucleic acid sequences led indirectly to ofthesesurface-bondedpro-tRNAsbecamelocatedside variations of peptide sequences. This transformation bysideandattachedbybasepairingwiththeirloopstoa led to a step-by-step replacement of primitive metallo- surface-bondednucleicacidstrandaspro-mRNA.The peptides by more and more complex coded metallo- resultofthisbasepair-assistedanchimericpositioningis peptides. It was the basis for the admission of more a more efficient synthesis of dipeptides to be followed diversified amino acids into the system and for the laterbyoligopeptides.Thisistheorigin of thesimplest establishment and expansion of the genetic code. The ribosomal machinery consisting of two pro-tRNAs and conclusion seems to be inescapable: the evolution of one pro-mRNA.It embodies the chemical (as opposed nucleic acid replication and of nucleic acid-catalysed to organizational) core of the ribosomal process of peptide synthesis must have been intrinsically linked. translation. Thisconclusionisinsharpestcontrasttoallthenotions Intheprecedingparagraphs,wehaveaddressedfirst ofaworldofRNAlifewithRNAreplicationandwithout theformationofnucleicacidsbypolycondensationand translation(cf.Forterre2005). thenthefunctionofnucleicacidsascatalystsforpeptide Turningnowtotheadventofproteinfolding,wenote formation. Let us now try to tie these two processes that in the primitive metallo-peptides metal centres together. We assume that in the earliest phases of servedascatalystsandaselectrontransferagents.With evolution, these two processes were essentially insensi- the advent of cysteine in the set of coded amino acids, tive to or non-selective for particular nucleic acid the metal centres of the metallo-peptides acquired an sequences. Only later, with the appearance of more additional function, namely that of folding diversified amino acids, and longer nucleic acids and determinants, which operate by a few strong covalent peptides,thequestionofacontrolofbasesequencesin metal–sulphurbonds.Thismaybeseenastheoriginof nucleic acids and of amino acid sequences in peptides proteins,whicharedistinguishedfrompeptidesbytheir came into the picture. Sequence-controlled (template- ability to form folded structures. This means that the directed) nucleic acid synthesis, whereby a sequence is emergent folded metallo-proteins acquired, from the copied from an old strand to a new strand of nucleic start, the hyperthermostability that is required by acid, is called ‘replication’ and sequence-controlled the high temperature of the volcanic environment of peptide synthesis, whereby a nucleic acid sequence is early life. A few strong covalent bonds were sufficient copiedintoapeptidesequence,iscalled‘translation’. and the overall sequence fidelity was not critical. Only We are now in a position to formulate a basic after a sufficient increase of replication fidelity and question for the origin of life: what was the temporal translation fidelity, proteins could arise that owed their order in which the two processes of replication and folding stability, not to a few strong covalent bonds to translation must have emerged. Before we answer this transitionmetalcentres,butrathertothecooperationof questionfor thechemoautotrophictheory,letusbriefly a multitude of weak non-covalent group interactions. recalltheanswerasgiveninthecontextoftheprebiotic Only then, the covalent metal–sulphur folding broth theory (Bada 2004) in order to guard against determinants could disappear opportunistically one by confusion. It is assumed in the prebiotic broth theory one in an irreversible evolution down the temperature that a large library of random sequences would have scale(Wa¨chtersha¨user1998c,2001). beengeneratedandaccumulatedintheprimitiveocean Finally, within the context of a chemoautotrophic and that ‘by chance, some of these polymers acquired originoflife,thereisnocompellingreasontoassumea the ability to catalyse their own imperfect self- particularlylatearrivalofDNAandofthesegregationof replication [and therefore] soon dominated’ . in the theprocessesofDNAsynthesisbyreplicationandRNA ‘overall pool of polymers’ Thus, replication is indis- synthesis by transcription. It is suggested here that the pensable for converting the polymer chaos of the earlypolymeraseswerenotabletodiscriminatebetween prebiotic broth into some sort of molecular order. In ribonucleotides for RNA and deoxyribonucleotides for thisevolutionarycontext,replicationfidelityisseenasa DNA. This means that after the advent of a gene for value in itself. The process of translation would have ribonucleotidereductase,thetransitionfromreplication appeared much later. to transcription would simply be controlled by turning Inthecontextofachemoautotrophicoriginoflife,we ontheproductionofthisreductase. cometoadrasticallydifferentconclusion.Here,thetwo Incidentally, within the context of a prebiotic broth, processes of sequence control, those of replication and CarlWoese(1971)suggestedtheoriginoftranslationas translation, must have become established jointly, by agradual,continuouschangeoverfrommetalcomplexes coevolution (cf. Lahav 1999), whereby the emergence with polypeptidesof a non-translationally produced set and evolution of replication slightly trailed the emer- toasimilarsetoftranslationallyproducedpolypeptides gence and the evolution of translation. Each new withtheinitialbenefitofanincreasedrateofproduction increment of added potential sequence selectivity of as opposed to the increased sequence fidelity. In a translation would have served as the functional advan- similar vein, it has been suggested that early on FeS tage for a subsequent increment of added sequence reacted withnon-translational peptides or proteins in a fidelityoftemplate-directednucleicacidsynthesis.Inthe prebiotic broth to form catalytic Fe–S proteins (Eck & courseofthiscoevolutionoftranslationandreplication, Dayhoff1966;Halletal.1971,1974a,b). Phil.Trans.R.Soc.B(2006)

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The theory of a chemoautotrophic origin of life in a volcanic iron–sulphur world postulates a pioneer organism . precipitates, like calcium hydroxide, magnesium hydroxide communion' and giving the appearance of a universal.
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