Transcriptional responses of a hot spring microbial mat to nutrient additions Space Grant Consortium Research Symposium Zureyma Martinez, ASU/NASA Space.

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Transcriptional responses of a hot spring microbial mat to nutrient additions Space Grant Consortium Research Symposium Zureyma Martinez, ASU/NASA Space Grant April 21, 2012

Introduction Microorganisms can regulate metabolic processes by changing expression of genes. In hot springs, microbial mats fix N at different times of the day based on expression of the nifH gene and nitrogenase protein (Steunou et al. 2008).

Introduction Bison Pool Alkaline hot spring (pH 8) with a microbial mat at 55 o C C, N, and metal storage gene expression in response to nitrogen (N), phosphorus (P), and iron (Fe) addition Bison Pool + Nitrogen N

Introduction Microbial mats are dominated by cyanobacteria that use the Calvin Cycle to fix CO 2 Key enzyme is the Ribulose 1,5- bisphosphate carboxylase/ oxygenase (RubisCO) Large subunit of RubisCO is encoded by rbcL

Introduction Reductive tricarboxylic acid cycle Alternative pathway for CO 2 fixation Key enzyme is ATP citrate lyase encoded by aclB

Introduction Nitrogen fixation Nitrogenase requires iron (Fe) and molybdenum (Mo) nifH encodes subunit of nitrogenase Microbes typically use trace concentrations of metal Mo storage protein encoded by mop Other N assimilation genes, like the assimilatory nitrate reductase require Mo N 2  NH 4 + Nitrogenase Dixon and Kahn 2004 Nature Reviews Microbiology

Methods Bison Pool samples incubated overnight in bottles at in situ temperatures without nutrient addition (C) and with nutrient addition (N, P, Fe, NP, NFe, PFe, and NPFe) Extract DNA/RNA PCR amplify w/ primers: rbcL acbL nifH mop Reverse Transcribed RNA into cDNA DNase Degrade DNA cDNA

Results RubisCO gene was expressed in almost all treatments Reductive TCA cycle genes expression appears to be more transient

Results NH 4 + Addition: 62.5  MNO 3 - Addition: 62.5  M mop expression not detected in any samples nifH expressed even in presence of nitrate and ammonia

Summary & Future Work Used gene expression as proxy for physiological processes (CO 2 fixation and N 2 fixation) RT-PCR on heterotrophic carbon assimilation pathways Clone and sequence putative rbcL and aclB genes qPCR on nifH to quantify expression between treatments

Acknowledgements Marcia Kyle Jess Corman Amisha Poret-Peterson James Elser Ariel Anbar Alisa Glukhova Christie Sabin