Harris J Shapiro

Publications (2)59.55 Total impact

• Source

  Available from: Nicole Dubilier

  Article: Symbiosis insights through metagenomic analysis of a microbial consortium.

  Tanja Woyke, Hanno Teeling, Natalia N Ivanova, Marcel Huntemann, Michael Richter, Frank Oliver Gloeckner, Dario Boffelli, Iain J Anderson, Kerrie W Barry, Harris J Shapiro, Ernest Szeto, Nikos C Kyrpides, Marc Mussmann, Rudolf Amann, Claudia Bergin, Caroline Ruehland, Edward M Rubin, Nicole Dubilier
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  ABSTRACT: Symbioses between bacteria and eukaryotes are ubiquitous, yet our understanding of the interactions driving these associations is hampered by our inability to cultivate most host-associated microbes. Here we use a metagenomic approach to describe four co-occurring symbionts from the marine oligochaete Olavius algarvensis, a worm lacking a mouth, gut and nephridia. Shotgun sequencing and metabolic pathway reconstruction revealed that the symbionts are sulphur-oxidizing and sulphate-reducing bacteria, all of which are capable of carbon fixation, thus providing the host with multiple sources of nutrition. Molecular evidence for the uptake and recycling of worm waste products by the symbionts suggests how the worm could eliminate its excretory system, an adaptation unique among annelid worms. We propose a model that describes how the versatile metabolism within this symbiotic consortium provides the host with an optimal energy supply as it shuttles between the upper oxic and lower anoxic coastal sediments that it inhabits.
  Nature 11/2006; 443(7114):950-5. · 36.28 Impact Factor
• Source

  Available from: Isidore Rigoutsos

  Article: Metagenomic analysis of two enhanced biological phosphorus removal (EBPR) sludge communities.

  Héctor García Martín, Natalia Ivanova, Victor Kunin, Falk Warnecke, Kerrie W Barry, Alice C McHardy, Christine Yeates, Shaomei He, Asaf A Salamov, Ernest Szeto, Eileen Dalin, Nik H Putnam, Harris J Shapiro, Jasmyn L Pangilinan, Isidore Rigoutsos, Nikos C Kyrpides, Linda Louise Blackall, Katherine D McMahon, Philip Hugenholtz
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  ABSTRACT: Enhanced biological phosphorus removal (EBPR) is one of the best-studied microbially mediated industrial processes because of its ecological and economic relevance. Despite this, it is not well understood at the metabolic level. Here we present a metagenomic analysis of two lab-scale EBPR sludges dominated by the uncultured bacterium, "Candidatus Accumulibacter phosphatis." The analysis sheds light on several controversies in EBPR metabolic models and provides hypotheses explaining the dominance of A. phosphatis in this habitat, its lifestyle outside EBPR and probable cultivation requirements. Comparison of the same species from different EBPR sludges highlights recent evolutionary dynamics in the A. phosphatis genome that could be linked to mechanisms for environmental adaptation. In spite of an apparent lack of phylogenetic overlap in the flanking communities of the two sludges studied, common functional themes were found, at least one of them complementary to the inferred metabolism of the dominant organism. The present study provides a much needed blueprint for a systems-level understanding of EBPR and illustrates that metagenomics enables detailed, often novel, insights into even well-studied biological systems.
  Nature Biotechnology 11/2006; 24(10):1263-9. · 23.27 Impact Factor