Prokaryota

She possan dy bioagyn prokaryota, as adsyn gyn çheshvean ny mynoltyn far-chrackanagh elley. Myr shen t'ad anchasley rish ny eukaryota as çheshvean ocsyn. Ta'n chooid smoo jeu lane un-chillagagh, agh beggan beg dy phrokaryota, ta eashyn yl-chillagagh ayns nyn mea^[1].

Prokaryota
Bacteyr Deinococcus radiodurans
Rang oaylleeagh
Far-ream: Neomura Ream: Prokaryota
Reeriaghtyn
Bacteria Archaea
Rang-oardraghey elley
Shennayr co-chadjin s'jerree ? Eubacteria Glycobacteria Fusobacteriales Gemmatimonadales (clade gyn ennym) Spirochaetes (clade gyn ennym) Sphingobacteria Exoflagellata (clade gyn ennym) Cyanobacteria Posibacteria Endobacteria Actinobacteria Acidimicrobiales Coriobacteriales Rubrobacterales Actinobacteridae Actinomycetales Streptomycetales Arabobacteria Actinoplanales ny Micromonosporaceae Mycobacteriales Neomura Archaea Eukaryota (clade exclus)

Shennaghys y phossan

Ta bun Greagish ec yn ennym: πρό- (pro-) "roish" + καρυόν (karyon) "rassey" ny "cro", as shen çheet er y çheshvean, + ώτης (-ōtēs) (yl-rey-ώτες (-ōtes)).

Derrey 1990, t'ad eddyrscarrey ny prokaryota ayns daa rheynn: bacteyryn as archaea^[2].

Mooinjerys rish eukaryota

Ta anchaslys eddyr prokaryota as eukaryota, er y fa dy vel GDN eukaryoteyn ayns "feer" çheshvean, agh cha nel far-chrackan mygeayrt GDN prokaryotagh. Ayns 1977, ren Carl Woese cur roish eddyrscarrey prokaryota ayns Bacteria as Archaea (Eubacteria as Archaebacteria rere'n eie echeysyn) er coontey anchaslyssyn mooarey eddyr y ghaa. Ta'n corys rang-oardragh shoh, reaghey cretooryn myr Eukaryota, Bacteria as Archaea, shen y corys tree reamyn.

Ta troggal chillag prokaryotagh feer anchasley rish killagyn eukaryotagh. Y tro breeoil, shen beays ny hassaaraght çheshvean. Ta GDN prokaryotagh goll er tashtey ayns doss GDN/proteen, y far-heshvean, as eshyn gyn far-chrackan^[3]. Chammah's shen, cha nel agh un kiarkyl dy GDN "kroymasoomagh" ayns far-heshvean prokayoteyn. Ta GDN elley ry-gheddyn çheumooie jeh'n far-heshvean, er plasmaidyn, as ymmodee gienyn prokaryotagh scanshoil ayndauesyn^[4]. Ta GDN eukaryotagh er kroymasooymyn.

Cha nel rheynnyn far-chrackanagh, myr mitochondria ny chloroplastyn, ec prokaryoteyn, noadyr. Ayns ynnyd jeh shen, t'ad jannoo obbraghyn myr co-haaghey sollys tessen y far-chrackan killag^[5].Ny yei shen, ta kuse dy hroggalyn sthie ec prokaryoteyn, myr sampleyr, ushylagh killag^[6][7].

Ta far-chrackan mygeayrt far-heshvean ny Planctomycetes, as ta rheynnyn far-chrackanagh elley oc .^[8]

Imraaghyn

1. Kaiser D (Jerrey Fouyir 2003). "Coupling cell movement to multicellular development in myxobacteria". Nature Reviews Microbiology 1 (1): 45-54. doi:10.1038/nrmicro733. PMID 15040179. 
2. Woese C, Kandler O, Wheelis M (1990). "Towards a natural system of organisms: proposal for the domains Archaea, Bacteria, and Eucarya.". Proceedings of the Natural Academy of Sciences of the United States of America 87 (12): 4576-9. doi:10.1073/pnas.87.12.4576. PMID 2112744. 
3. Thanbichler M, Wang S, Shapiro L (2005). "The bacterial nucleoid: a highly organized and dynamic structure". Journal of Cell Biochemistry 96 (3): 506-21. doi:10.1002/jcb.20519. PMID 15988757. 
4. Campbell, N. "Biology:Concepts & Connections". Pearson Education. San Francisco: 2003.
5. Harold F (1972). "Conservation and transformation of energy by bacterial membranes". Bacteriological Reviews 36 (2): 172-230. PMID 4261111. 
6. Shih YL, Rothfield L. "The bacterial cytoskeleton". Microbiology and Molecular Biology Reviews 70 (3): 729-54. doi:10.1128/MMBR.00017-06. PMID 16959967. 
7. Michie KA, Löwe J. "Dynamic filaments of the bacterial cytoskeleton". Annual Review of Biochemistry 75: 467-92. doi:10.1146/annurev.biochem.75.103004.142452. PMID 16756499. 
8. Fuerst J. "Intracellular compartmentation in planctomycetes". Annual Review of Microbiology 59: 299-328. doi:10.1146/annurev.micro.59.030804.121258. PMID 15910279.