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The early stages of ommatidial development in the flour beetle Tribolium castaneum (Coleoptera; Tenebrionidae) (1996)

Friedrich, M. ; Rambold, Irene ; Melzer, Roland R.

Springer

Development genes and evolution 206 (1996), S. 136-146

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ISSN: 1432-041X

Keywords: Key words Compound eye development ; Equator ; Evolution ; Homology ; Tribolium (Insecta ; Coleoptera)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Using electron microscopy, the first stages of ommatidial development in the flour beetle Tribolium castaneum were analysed in relation to the cellular architecture of the adult compound eye and were compared to the corresponding patterning process in the fruit fly Drosophila melanogaster. The ommatidia of the slightly horse-shoe shaped beetle compound eye contain six peripheral and two central retinula cells. The rhabdomere of the posteriorly located central photoreceptor cell is restricted to the distal half of the rhabdom whilst that of the anterior one is restricted to its proximal half. The development of the compound eye takes place in an external eye imaginal disc. Most stages of ommatidial development, as known from Drosophila, i.e. arc-like cell groups, five-cell clusters, immature eight-cell clusters and symmetrical eight-cell clusters, are very precisely conserved between the two species. Two major differences exist: 1. In Tribolium, the cone cell precursor cells synchronously join to the immature eight-cell cluster. As a consequence, the symmetrical eight-cell cluster immediately transforms into a four-cone-cell cluster. 2. The maturing ommatidia do not undergo rotation in Tribolium. Overall, no morphological indiation for an equator in the adult Tribolium compound eye could be found. Considering the strong evolutionary conservation of early ommatidial development, homology of photoreceptor cells of distantly related insects is proposed to be inferred from their ontogenetic origin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004270050039

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Electron transport phosphorylation driven by glyoxylate respiration with hydrogen as electron donor in membrane vesicles of a glyoxylate-fermenting bacterium (1995)

Friedrich, M. ; Schink, Bernhard

Springer

Archives of microbiology 163 (1995), S. 268-275

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ISSN: 1432-072X

Keywords: Key words Electron transport phosphorylation ; Respiration ; Membrane vesicles ; Anaerobic degradation ; Glyoxylate ; Glycolate ; Hydrogen ; Syntrophy

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The syntrophically glycolate-fermenting bacterium in the methanogenic binary coculture FlGlyM was isolated in pure culture (strain FlGlyR) with glyoxylate as sole substrate. This strain disproportionated 12 glyoxylate to 7 glycolate, 10 CO2, and 3 hydrogen. Glyoxylate was oxidized via the malyl-CoA pathway. All enzymes of this pathway, i.e. malyl-CoA lyase/malate: CoA ligase, malic enzyme, and pyruvate synthase, were demonstrated in cell-free extracts. Glycolate dehydrogenase, hydrogenase, and ATPase, as well as menaquinones as potential electron carriers, were present in the membranes. Everted membrane vesicles catalyzed hydrogen-dependent glyoxylate reduction to glycolate [86–207 nmol min–1 (mg protein)–1] coupled to ATP synthesis from ADP and Pi [38–82 nmol min–1 (mg protein)–1)]. ATP synthesis was abolished entirely by protonophores or ATPase inhibitors (up to 98 and 94% inhibition, respectively) indicating the involvement of proton-motive force in an electron transport phosphorylation driven by a new glyoxylate respiration with hydrogen as electron donor. Measured reaction rates in vesicle preparations revealed a stoichiometry of ATP formation of 0.2–0.5 ATP per glyoxylate reduced.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00393379

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