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Trophosome
Tube Worm Riftia Pachyptila to Severe Hypoxia
Nanosims and Tissue Autoradiography Reveal Symbiont Carbon fixation and Organic Carbon Transfer to Giant Ciliate Host
Genomic Adaptations to Chemosymbiosis in the Deep-Sea Seep-Dwelling Tubeworm Lamellibrachia Luymesi Yuanning Li1,2* , Michael G
Chemosynthetic Symbiont with a Drastically Reduced Genome Serves As Primary Energy Storage in the Marine Flatworm Paracatenula
Physiological Homogeneity Among the Endosymbionts of Riftia Pachyptila and Tevnia Jerichonana Revealed by Proteogenomics
Are There Enough Known Parameters to Construct a Probability
Catenulida, Platyhelminthes) and Its Intracellular Symbionts
Mimivirus and Mimiviridae: Giant Viruses with an Increasing Number of Potential Hosts, Including Corals and Sponges
Genomic, Transcriptomic, and Proteomic Insights Into the Symbiosis of Deep-Sea Tubeworm Holobionts
Actual Distribution of Bacteriocytes in the Trophosome of a Beard Worm
Cold Seeps: Marine Ecosystems Based on Hydrocarbons
Section 1. Information Used in the Assessment of Environmental Applications of Acinetobacter
How Giant Tube Worms Survive at Hydrothermal Vents Film Guide Educator Materials
Let's Make a Tubeworm!
Bacterial Symbiont Subpopulations Have Different Roles in a Deep-Sea
Describing Symbioses Relative Position of Partners Transmission
Probing Marine with Ribosomal Systems Rnas
A Proteomic Snapshot of Life at a Vent
Top View
Intracellular Occurrence of Ε-Proteobacterial 16S Rdna Sequences in the Vestimentiferan Trophosome
Molecular Characterization and Endosymbiotic Localization of The
One Tough Worm [Adapted from the 2002 Gulf of Mexico Expedition]
Evolutionary Transitions in Bacterial Symbiosis
Chemosynthetic Symbiont with a Drastically Reduced Genome Serves As Primary Energy Storage in the Marine Flatworm Paracatenula
One Tough Worm
Bacterial-Invertebrate Symbioses: from an Asphalt Cold Seep to Shallow Waters
DNA-DNA Solution Hybridization Studies of the Bacterial Symbionts of Hydrothermal Vent Tube Worms (Riftia Pachyptila and Tevnia Jerichonana) DEEANNE B
Trophosome of the Deep-Sea Tubeworm Riftia Pachyptila Inhibits Bacterial Growth
Hologenome Analysis Reveals Dual Symbiosis in the Deep-Sea Hydrothermal Vent Snail Gigantopelta Aegis
Characterization of Bacterial Community Structure in Vestimentiferan Tubeworm Ridgeia Piscesae Trophosomes Leslie S.-L
MASERIA VESPERTILIONIS N.G., N.Sp. (DORYLAIMINA : MUSPICEIDAE), a Nematode from Nearctic Bats (Vespertilionidae)
Comparative Gene Analysis and Prediction of Innate Immunity and Apoptosis Machinery in Hydrothermal Vent Tubeworms Corey M
Expression and Putative Function of Innate Immunity Genes Under in Situ Conditions in the Symbiotic Hydrothermal Vent Tubeworm Ridgeia Piscesae Spencer V
Origins of Long-Chain Polyunsaturated Fatty Acids in the Hydrothermal Vent Worms Ridgea Piscesae and Protis Hydrothermica
The Metabolic Demands of Endosymbiotic Chemoautotrophic Metabolism on Host Physiological Capacities
Maeva Perez Msc 2016.Pdf
Fate of Nitrate Acquired by the Tubeworm Riftia Pachyptila PETER R
Lipid Biomolecules Reveal Patterns of Microbial Metabolism in Extreme Environments
Understanding the Symbiosis Between the Giant Tubeworm Riftia Pachyptila and Chemoautotrophic Sulfur-Oxidizing Bacteria
Endosymbionts Escape Dead Hydrothermal Vent Tubeworms to Enrich the Free-Living Population
Symbiosis As a General Principle in Eukaryotic Evolution
Riftia Pachyptila and Tevnia Jerichonana”
Metatranscriptomics Reveal Differences in in Situ Energy and Nitrogen Metabolism Among Hydrothermal Vent Snail Symbionts
Host-Microbe Interactions in the Chemosynthetic Riftia Pachyptila
Siboglinidae Tubes As an Additional Niche for Microbial Communities in the Gulf of Cádiz—A Microscopical Appraisal