symbiosome

A double-enveloped cell compartment, composed of an endosymbiont with its plasmalemma (as inner envelope) and a non-endosymbiotic outer envelope (the… Expand

National Institutes of Health

Papers overview

Semantic Scholar uses AI to extract papers important to this topic.

Highly Cited

2011

Highly Cited

2011

IPD3 controls the formation of nitrogen-fixing symbiosomes in pea and Medicago Spp.

E. Ovchinnikova, E. Journet, +11 authors E. Limpens
Molecular plant-microbe interactions : MPMI
2011

Corpus ID: 5684645

A successful nitrogen-fixing symbiosis requires the accommodation of rhizobial bacteria as new organelle-like structures, called… Expand

Highly Cited

2010

Highly Cited

2010

Proteomic analysis of symbiosome membranes in Cnidaria–dinoflagellate endosymbiosis

S. Peng, Yu-Bao Wang, +4 authors Chii-Shiarng Chen
Proteomics
2010

Corpus ID: 27108503

Symbiosomes are specific intracellular membrane‐bound vacuoles containing microalgae in a mutualistic Cnidaria (host… Expand

Highly Cited

2009

Highly Cited

2009

Medicago N2-Fixing Symbiosomes Acquire the Endocytic Identity Marker Rab7 but Delay the Acquisition of Vacuolar Identity[W]

E. Limpens, S. Ivanov, Wilma van Esse, G. Voets, E. Fedorova, T. Bisseling
The Plant Cell Online
2009

Corpus ID: 8933044

Rhizobium bacteria form N2-fixing organelles, called symbiosomes, inside the cells of legume root nodules. The bacteria are… Expand

Highly Cited

2008

Highly Cited

2008

Metabolic interactions between algal symbionts and invertebrate hosts.

D. Yellowlees, T. Rees, W. Leggat
Plant, cell & environment
2008

Corpus ID: 20659096

Some invertebrates have enlisted autotrophic unicellular algae to provide a competitive metabolic advantage in nutritionally… Expand

Highly Cited

2005

Highly Cited

2005

Formation of organelle-like N2-fixing symbiosomes in legume root nodules is controlled by DMI2.

E. Limpens, R. Mirabella, +4 authors R. Geurts
Proceedings of the National Academy of Sciences…
2005

Corpus ID: 25635530

In most legume nodules, the N2-fixing rhizobia are present as organelle-like structures inside their host cells. These structures… Expand

Review

2003

Review

2003

Nodulation Gene Regulation in Bradyrhizobium japonicum: a Unique Integration of Global Regulatory Circuits

J. Loh, G. Stacey
Applied and Environmental Microbiology
2003

Corpus ID: 29399132

Intercellular communication via diffusible chemical signals is well described for bacteria and functions to modulate a number of… Expand

Highly Cited

2003

Highly Cited

2003

Effects of herbicides diuron and atrazine on corals of the Great Barrier Reef, Australia

R. Jones, Jochen F. Müller, D. Haynes, U. Schreiber
2003

Corpus ID: 55190204

In response to recent reports of contamination of the nearshore marine environment along the Queensland coast by herbicides… Expand

Review

1997

Review

1997

METABOLITE TRANSPORT ACROSS SYMBIOTIC MEMBRANES OF LEGUME NODULES.

M. Udvardi, D. Day
Annual review of plant physiology and plant…
1997

Corpus ID: 24684066

Infection of legume roots or stems with soil bacteria of the Rhizobiaceae results in the formation of nodules that become… Expand

Highly Cited

1997

Highly Cited

1997

Functional Analysis of Nodulin 26, an Aquaporin in Soybean Root Nodule Symbiosomes*

R. Rivers, R. M. Dean, G. Chandy, J. Hall, D. M. Roberts, M. Zeidel
The Journal of Biological Chemistry
1997

Corpus ID: 5021136

Upon infection of soybean roots, nitrogen-fixing bacteria become enclosed in a specific organelle known as the symbiosome. The… Expand

Highly Cited

1989

Highly Cited

1989

Bacterium release into host cells of nitrogen-fixing soybean nodules: the symbiosome membrane comes from three sources.

L. Roth, G. Stacey
European journal of cell biology
1989

Corpus ID: 27275138

The release process of bacteria into the cytoplasm of soybean nodule cells has been studied, and three functional zones of the… Expand