Harry E. Calvert scite author profile

Roots of young soybean (Glycine max (L.) Merr.) seedlings inoculated with Rhizobium japonicum Kirchner USDA 110 ARS were examined in serial sections by light microscopy to ascertain the extent of infection. The location of each infection site was established in relation to the zones of root and root hair development at the time of inoculation. Each infection locus was classified as to its relative state of differentiation using a developmental scale encompassing the first 10 days of nodule development. Both the initiation and maturation of Rhizobium infections were found to be governed by the acropetal development of host root hairs. Regions of the root where mature root hairs were present at the time of inoculation were not susceptible to Rhizobium infection. Infections developed most frequently in root hairs which emerged shortly after inoculation. Many infections formed on the root but relatively few developed into nodules. Most infection loci which formed infection threads stopped developing at stages prior to meristem formation. A high proportion of the infection loci were pseudoinfections, i.e., localized areas of cortical cell division without infection thread formation. The maturation of infections in younger regions of the root was suppressed by prior exposure of older regions of the root to rhizobia. Development was suppressed at stages after meristem formation but before nodule emergence.

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Energy transfer from phycobiliproteins to Photosystem I in vegetative cells and heterocysts of Anabaena Variabilis

Peterson

Dolan

Calvert

et al. 1981

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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Bacteriochlorophyll and Photosynthetic Reaction Centers in Rhizobium Strain BTAi 1

Evans

Fleischman

Calvert

et al. 1990

Appl Environ Microbiol

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Rhizobium strain BTAi 1, which nodulates both stems and roots of Aeschynomene indica L., formed bacteriochlorophyll and photosynthetic reaction centers resembling those of purple photosynthetic bacteria when grown aerobicaHly ex planta under a light-dark cycle. Bacteriochlorophyll formation was not observed under continuous dark or light growth conditions. The amount of pigment formed was similar to that previously found in aerobic photosynthetic bacteria. Stem nodules appear to fix nitrogen photosynthetically, as illumination of A. indica stem nodules with near-infrared light resulted in an enhanced rate of acetylene reduction. Near-infrared light did not enhance acetylene reduction when either A. indica or soybean root nodules were illuminated. The BTAi 1 isolate can be differentiated from members of the family Rhodospirillaceae by several criteria.

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Harry E. Calvert

Anatomical analysis of the development and distribution of Rhizobium infections in soybean roots

Energy transfer from phycobiliproteins to Photosystem I in vegetative cells and heterocysts of Anabaena Variabilis

Bacteriochlorophyll and Photosynthetic Reaction Centers in Rhizobium Strain BTAi 1

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