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B. Parthier (1975)
Zur Evolution von Chloroplasten und MitochondrienNova Acta Leopoldina NF, 42
C. Louis, M. Laporte (1969)
Caractères ultrastructuraux et différenciation des formes migratrices des symbiotes chez Euscelis plebejus (Homoptera, Jassidae)Ann.Soc.Ent., 5
E. Schnepf, R. Brown (1971)
On Relationships between Endosymbiosis and the Origin of Plastids and Mitochondria
W. Schwemmler, M. Herrmann (1979)
Oszillationen im Energiestoffwechsel von Wirt und Symbiont eines Zikadeneies. I. Analyse möglicher stoffwechselphysiologischer Korrelationen beider SystemeCytobios, 25
E. Müller (1980)
R. W. Kaplan, Der Ursprung des Lebens: Biogenetik, ein Forschungsgebiet heutiger Naturwissenschaft (2. überarb. Aufl.). IX + 318 S., 50 Abb., 11 Tab. Stuttgart 1978. Georg Thieme-Verlag. DM 14,80Journal of Basic Microbiology, 20
M. Nass (1969)
Uptake of Isolated Chloroplasts by Mammalian CellsScience, 165
H. Hartman (1975)
The centriole and the cell.Journal of theoretical biology, 51 2
R.W. Kaplan (1978)
Der Ursprung des Lebens. Biogenetik, ein Forschungsgebiet heutiger Naturwissenschaft, 2. Auf.
L. Margulis (1981)
Symbiosis in cell evolution
W. Schwemmler, M. Herrmann (1979)
[Oscillations in the energy metabolism of the host and symbiont of a cicada. I. Analysis of possible metabolic and physiologic correlations of both systems].Cytobios, 25 97
A. Remane (1952)
Die Grundlagen des natürlichen Systems, der vergleichenden Anatomie and der Phylogenetik
W. Schwemmler, M. Herrmann (1980)
[Oscillation in the energy metabolism of the insect host and symbiont. II. Analysis of possible endogenous rhythms in both systems].Cytobios, 27 107-108
Lynn Margulis (1975)
The microbes' contribution to evolution.Bio Systems, 7 2
W. Schwemmler (1979)
Mechanismen der Zellevolution: Grundriss einer modernen Zelltheorie
L. Bonen, R. Cunningham, M. Gray, W. Doolittle (1977)
Wheat embryo mitochondrial 18S ribosomal RNA: evidence for its prokaryotic nature.Nucleic acids research, 4 3
F. Taylor (1974)
II. IMPLICATIONS AND EXTENSIONS OF THE SERIAL ENDOSYMBIOSIS THEORY OF THE ORIGIN OF EUKARYOTESTaxon, 23
L. Margulis (1971)
Symbiosis and evolution.Scientific American, 225 2
L. Margulis (1981)
Symbiosis in cell evolution: Life and its environment on the early earth
W. Schwemmler (1981)
The periodic system of cells. Foundation of the endocytobiotic of leafhopper endosymbiont DNACytobiol., 10
L. Bonen, W. Doolittle (1975)
On the prokaryotic nature of red algal chloroplasts.Proceedings of the National Academy of Sciences of the United States of America, 72 6
W. Schwemmler (1971)
Intracellular symbionts: a new type of primitive prokaryotesCytobiol., 3
W. Doolittle, L. Bonen (1981)
MOLECULAR SEQUENCE DATA INDICATING AN ENDOSYMBIOTIC ORIGIN FOR PLASTIDS *Annals of the New York Academy of Sciences, 361
(1980)
Endocytobiology. Endosymbiosis and cell biology. A synthesis of recent research
E. Broda (1975)
The evolution of the bioenergetic processes
G. Czihak, H. Langer, H. Ziegler (1976)
Biologie — ein Lehrbuch für Studenten der Biologie
J. Pickett-Heaps (1975)
Aspects of spindle evolutionN.Y. Acad.Sci., 253
C. Arnold, Karl Gaffal (1979)
Die räumliche Struktur von Mitochondrien und PlastidenBiologie in unserer Zeit, 9
E. Schnepf, R.M. Brown (1971)
Origin and continuity of cell organelles, Vol. 2
J. Pickett-Heaps (1975)
ASPECTS OF SPINDLE EVOLUTION *Annals of the New York Academy of Sciences, 253
R. Reid (1976)
The Evolution of the Bioenergetic Processes: By E. Broda. Pp 210. Pergamon Press, Oxford. 1975. $20.00Biochemical Education, 4
P. Raven, L. Margulis (1971)
ORIGIN OF EUKARYOTIC CELLSEvolution, 25
R. Schwartz, M. Dayhoff (1978)
Origins of prokaryotes, eukaryotes, mitochondria, and chloroplasts.Science, 199 4327
Ļ. Cleveland, A. Grimstone (1964)
The fine structure of the flagellate Mixotricha paradoxa and its associated micro-organismsProceedings of the Royal Society of London. Series B. Biological Sciences, 159
H. Körner (1969)
Die embryonale Entwicklung der symbiontenführenden Organe von Euscelis plebejus (Homoptera, Cicadina)Oecologia, 2
L. Margulis (1976)
Genetic and evolutionary consequences of symbiosis.Experimental parasitology, 39 2
A.V. Grimstone (1964)
The structure of Mixotricha and its associated microorganismsProc.Br.Royal Soc. (London), 159
G. Schön (1978)
Mikrobiologie
J. Pickett-Heaps (1974)
The evolution of mitosis and the eukaryotic condition.Bio Systems, 6 1
C.R. Woese, G.E. Fox (1977)
The concept of cellular evolutionJ. mol. Evol., 10
W. Schwemmler, M. Herrmann (1980)
Oszillationen im Energiestoffwechsel von Wirt and Symbiont eines Zikadeneies. II. Analyse möglicher endogener Rhythmen beider SystemeCytobios, 27
R. Tandler, C.L. Hoppel (1972)
Mitochondria
B. Parthier (1979)
Leopold. Symp. Cell Compartmentation and Metabolic Chanelling
A. Remane (1952)
Die Grundlagen des natürlichen Systems, der vergleichenden Anatomie und der Phylogenetik : theoretische Morphologie und Systematik I
W. Schwemmler (1980)
Endocytobiose: Modell zur molekularen Analyse von Circadianrhythmik, Eimusterbildung und KrebsNaturwiss. Rdschau., 33
L. Margulis, L. To, D. Chase (1978)
Possible evolutionary significance of spirochetesTrans.Roy.Soc. Lond. (Ser. B), 204
According to scientific procedure, each discipline first describes the phenomena of its research area, then analyzes them, and tinally categorizes them in a system. To date, biology has lacked such a system for its smallest building blocks, the cells. Although the theory of evolution explains certain central evolutionary mechanisms of the cell, there existed no generally accepted theory of the organization of the cell. The endoeytobiotic cell theory is suggested as a possible basis for a satisfying explanation of the structure, function, information, and evolution of the cell. Furthermore, a hypothetical periodic system of the cell is developed. This system consists of eight groups, including the ecological niches fermentation, respiration, photergy, and photosynthesis (each aerobic and anaerobic) and seven periods with increasing numbers of protein biosynthesis machineries (cytoplasma, mitochondria, plastids, endocytobionts). We find furthermore, a division according to typical animal or plant cells and between these two in fungus-like cells.
Acta Biotheoretica – Springer Journals
Published: May 3, 2004
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