Abstract
Despite significant interest and past work to elucidate the phylogeny and photochemistry of species of the Heliobacteriaceae, genomic analyses of heliobacteria to date have been limited to just one published genome, that of the thermophilic species Heliobacterium (Hbt.) modesticaldum str. Ice1T. Here we present an analysis of the complete genome of a second heliobacterium, Heliorestis (Hrs.) convoluta str. HHT, an alkaliphilic, mesophilic, and morphologically distinct heliobacterium isolated from an Egyptian soda lake. The genome of Hrs. convoluta is a single circular chromosome of 3.22 Mb with a GC content of 43.1% and 3263 protein-encoding genes. In addition to culture-based observations and insights gleaned from the Hbt. modesticaldum genome, an analysis of enzyme-encoding genes from key metabolic pathways supports an obligately photoheterotrophic lifestyle for Hrs. convoluta. A complete set of genes encoding enzymes for propionate and butyrate catabolism and the absence of a gene encoding lactate dehydrogenase distinguishes the carbon metabolism of Hrs. convoluta from its close relatives. Comparative analyses of key proteins in Hrs. convoluta, including cytochrome c553 and the Fo alpha subunit of ATP synthase, with those of related species reveal variations in specific amino acid residues that likely contribute to the success of Hrs. convoluta in its highly alkaline environment.
Highlights
BSipoerceimesedoifatHioenli[o1b2a,c1t3e]r.iaceae can be divided into two physiological groups—neutrophiles and alkaliphilSeps—ecitehsaot ftrHacelkiobcaloctseerliyacewaeithcanthbeier dpihvyidloedgeinnyto[7tw] o(Fpighuyrseio1lo).gicInalclgurdoeudpsi—n ntheuetrnoepuhtirloeps hainlidc cladea,ltkhaelipmhoildese—rattheatthterramckocplohsielelyHwbitt.hmthoediersptihcaylldougmenwy [a7s]t(hFeigfiurrset1h).eIlnioclbuadcetedriinumthetonehuatvroepihtsilgicecnloadmee, sequethnecemd oadnedr,awteitthhietrsmsiomphpilleepHhbott.otmroodpehsitcicmaldaucmhinwerays ctohnesifsirtisnt ghoefliaobtaycpteerIiuremacttioonhacveneteitrs(RgeCn)oamnde no pesreiqpuheenrcaeldanantedn, nwaitphhiotstosciommplpelepxh,ohtaostrbopeehnicammaochdienleoryrgcaonnissimstifnogr osftuadtiyepseofI prehaocttoiosnyncethnetesris(RanCd) relateadndphnootpoecrhiepmheirsatrlyan[6te,1n4n]a
Ipnaradtidvietiaonna,lyasicsoomf psealreacttievde cayntaolcyhsirsomofesaenledctAedTPcystyoncthhraosmeeparontdeiAnsTiPn sHyrnst.hacosnevporluotaeirnesvienalHedrsa. dcoanpvtoaltuiotansretvheaatlleidkealydafpactailtiitoantes itthsaat lkikaelilpyhfailciicliltiafteestiytslea.lkTalhipehaivliacilliafbesiltiytyle.oTfhaesaevcaoinladbihlietylioobf acsteecroianldgheenloiombea,ctaesriwalegllenaosmthee, arsecweenltl dasevtheelorpemceennttdeovf ealogpemnentitcosfyasgteemnetiinc sHybste. mminodHesbtti.camldoduemsti[c1a4ld],umpa[v1e4s], pthaevews athyefworayinfcorreianscirnegasoinugr uonudr eurnsdtaenrdstianngdoinf gthoefuthneiquuneimqueetamboeltiasbmolaisnmd apnhdyspiohlyosgiyolofghyeolifohbealciotebraiact.eria
This pipeline employs Glimmer for gene identification and searches the protein sequences with BLAST-extend-repraze (BER; a combination of BLAST and Smith–Waterman algorithms) to generate pairwise alignments, Hidden Markov Model (HMM), transmembrane (Tm) HMM, and SignalP predictions
Summary
BSipoerceimesedoifatHioenli[o1b2a,c1t3e]r.iaceae can be divided into two physiological groups—neutrophiles and alkaliphilSeps—ecitehsaot ftrHacelkiobcaloctseerliyacewaeithcanthbeier dpihvyidloedgeinnyto[7tw] o(Fpighuyrseio1lo).gicInalclgurdoeudpsi—n ntheuetrnoepuhtirloeps hainlidc cladea,ltkhaelipmhoildese—rattheatthterramckocplohsielelyHwbitt.hmthoediersptihcaylldougmenwy [a7s]t(hFeigfiurrset1h).eIlnioclbuadcetedriinumthetonehuatvroepihtsilgicecnloadmee, sequethnecemd oadnedr,awteitthhietrsmsiomphpilleepHhbott.otmroodpehsitcicmaldaucmhinwerays ctohnesifsirtisnt ghoefliaobtaycpteerIiuremacttioonhacveneteitrs(RgeCn)oamnde no pesreiqpuheenrcaeldanantedn, nwaitphhiotstosciommplpelepxh,ohtaostrbopeehnicammaochdienleoryrgcaonnissimstifnogr osftuadtiyepseofI prehaocttoiosnyncethnetesris(RanCd) relateadndphnootpoecrhiepmheirsatrlyan[6te,1n4n]a. Odesticaldum exhibits both phototrophic growth in the light and chemotrophic growth in the dark [3,15,16,17]. AGcecnesBsainokn ancucmesbsieorns fnourmeabcehrssfeoqrueeancche suesqeudenincethueseadnainlysthiseaarneaslhysoiws nariensphaorwentihnespeasr,eandthaepsteesd, from aSdaattplteeydafnrodmSwSaitntglelyeyan[7d],SAwdinv.glBeoyt.[7R],esA.d2v0.1B3o,t.6R6,es6.72–09173,,C66o,p6y7r–i9g7h,tC2o0p1y3rEiglhsetv2i0e1r3LEtdls.evier Ltd. Species of aallkkaaliphilic heliobacteria grow optimally between pH 8–9.5 and, uunnlike nneeutrophilic heliobacteria, are obligate photoheterotrophs, using light and organic compounds for growth but incaappaabblleeofocfhecmheomtroptrhoipchgircowgtrhowintdhariknnedssar[1k9n–e2s2s]. ((AA)) RReedd bblloooomm ooff aallkkaalliipphhiilliicc BBaacctteerriiaa aanndd AArrcchhaaeeaaoonnththeeshsohroereofoLfaLkaekEelEHlaHmarma,rWa,aWdiaNdiatNroautrno,uEng,yEpgt.yMpt..TM.M.T. s.Mam. psalemdptlheids bthloisombloinomMainy 2M00a1y, a2n00d1e, narnicdhmenernicths mfoernhteslifoobrahcteeliroiabaycieteldrieadyHierlsd.ecdonHvorlsu. Too ccoommpplleemmeenntt tthhee aannaallyyssiiss ooff tthhee ggeennoommee sseeqquueennccee ooff HHbbtt.. Modesticaldum [6,26], we pprreessent heree a commppaarraattiivvee aannaallyyssiiss ooff tthhee ggeennoommee ooff HHrrss.. Ipnaradtidvietiaonna,lyasicsoomf psealreacttievde cayntaolcyhsirsomofesaenledctAedTPcystyoncthhraosmeeparontdeiAnsTiPn sHyrnst.hacosnevporluotaeirnesvienalHedrsa. dcoanpvtoaltuiotansretvheaatlleidkealydafpactailtiitoantes itthsaat lkikaelilpyhfailciicliltiafteestiytslea.lkTalhipehaivliacilliafbesiltiytyle.oTfhaesaevcaoinladbihlietylioobf acsteecroianldgheenloiombea,ctaesriwalegllenaosmthee, arsecweenltl dasevtheelorpemceennttdeovf ealogpemnentitcosfyasgteemnetiinc sHybste. mminodHesbtti.camldoduemsti[c1a4ld],umpa[v1e4s], pthaevews athyefworayinfcorreianscirnegasoinugr uonudr eurnsdtaenrdstianngdoinf gthoefuthneiquuneimqueetamboeltiasbmolaisnmd apnhdyspiohlyosgiyolofghyeolifohbealciotebraiact.eria
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