P
Peter J. Lammers
Researcher at New Mexico State University
Publications - 57
Citations - 6339
Peter J. Lammers is an academic researcher from New Mexico State University. The author has contributed to research in topics: Biomass & Anabaena. The author has an hindex of 36, co-authored 56 publications receiving 5749 citations. Previous affiliations of Peter J. Lammers include University of Illinois at Chicago & University of California, Riverside.
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Journal ArticleDOI
Nitrogen transfer in the arbuscular mycorrhizal symbiosis
Manjula Govindarajulu,Philip E. Pfeffer,Hairu Jin,Jehad Abubaker,David D. Douds,James Allen,Heike Bücking,Peter J. Lammers,Yair Shachar-Hill +8 more
TL;DR: Results of stable isotope labelling experiments are reported showing that inorganic nitrogen taken up by the fungus outside the roots is incorporated into amino acids, translocated from the extraradical to the intraradical mycelium as arginine, but transferred to the plant without carbon.
Journal ArticleDOI
Genome of an arbuscular mycorrhizal fungus provides insight into the oldest plant symbiosis
Emilie Tisserant,Mathilde Malbreil,Alan Kuo,Annegret Kohler,Aikaterini Symeonidi,Aikaterini Symeonidi,Raffaella Balestrini,Philippe Charron,Nina Duensing,Nicolas Frei dit Frey,Vivienne Gianinazzi-Pearson,Luz B. Gilbert,Yoshihiro Handa,Joshua R. Herr,Mohamed Hijri,Raman Koul,Masayoshi Kawaguchi,Franziska Krajinski,Peter J. Lammers,Frédéric G. Masclaux,Claude Murat,Emmanuelle Morin,Steve Ndikumana,Marco Pagni,Denis Petitpierre,Natalia Requena,Pawel Rosikiewicz,Rohan Riley,Katsuharu Saito,Hélène San Clemente,Harris Shapiro,Diederik van Tuinen,Guillaume Bécard,Paola Bonfante,Uta Paszkowski,Yair Shachar-Hill,Gerald A. Tuskan,J. Peter W. Young,Ian R. Sanders,Bernard Henrissat,Bernard Henrissat,Stefan A. Rensing,Stefan A. Rensing,Igor V. Grigoriev,Nicolas Corradi,Christophe Roux,Francis Martin +46 more
TL;DR: The genome of Rhizophagus irregularis provides insight into genes involved in obligate biotrophy and mycorrhizal symbioses and the evolution of an ancient asexual organism, and is of fundamental importance to the field of genome evolution.
Journal ArticleDOI
Optimization of direct conversion of wet algae to biodiesel under supercritical methanol conditions
Prafulla D. Patil,Veera Gnaneswar Gude,Aravind Mannarswamy,Shuguang Deng,Peter H. Cooke,Stuart H. Munson-McGee,Isaac Rhodes,Peter J. Lammers,Nagamany Nirmalakhandan +8 more
TL;DR: A one-step process for direct liquefaction and conversion of wet algal biomass containing about 90% of water to biodiesel under supercritical methanol conditions is demonstrated and can potentially be an energy efficient and economical route for algal biodiesel production.
Journal ArticleDOI
The transcriptome of the arbuscular mycorrhizal fungus Glomus intraradices (DAOM 197198) reveals functional tradeoffs in an obligate symbiont
Emilie Tisserant,Annegret Kohler,P. Dozolme-Seddas,Raffaella Balestrini,Karim Benabdellah,Alexandre Colard,Alexandre Colard,Daniel Croll,Daniel Croll,C. da Silva,S. K. Gomez,Raman Koul,Nuria Ferrol,Valentina Fiorilli,Damien Formey,Philipp Franken,Nicole Helber,Mohamed Hijri,Luisa Lanfranco,Erika Lindquist,Y. Liu,Mathilde Malbreil,Emmanuelle Morin,Julie Poulain,Harris Shapiro,D. van Tuinen,A. Waschke,Concepción Azcón-Aguilar,Guillaume Bécard,Paola Bonfante,Maria J. Harrison,Helge Küster,Peter J. Lammers,Uta Paszkowski,Natalia Requena,Stefan A. Rensing,Christophe Roux,Ian R. Sanders,Yair Shachar-Hill,Gerald A. Tuskan,J. P. W. Young,Vivienne Gianinazzi-Pearson,Francis Martin +42 more
TL;DR: The first genome-wide analysis of the transcriptome from Glomus intraradices is reported, suggesting that the lack of a known sexual cycle in G. intrarodices is not a result of major deletions of genes essential for sexual reproduction and meiosis.
Journal ArticleDOI
The uptake, metabolism, transport and transfer of nitrogen in an arbuscular mycorrhizal symbiosis
Hairu Jin,Hairu Jin,Philip E. Pfeffer,David D. Douds,E. Piotrowski,Peter J. Lammers,Yair Shachar-Hill +6 more
TL;DR: Arginine (Arg) was the predominant free AA in the ERM, and almost all Arg molecules became labeled within 3 wk of supplying (15)NH(4) (+) to the fungal compartment, which is the most likely form of N transferred to host cells following its generation from Arg breakdown.