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Main Authors: Zepernick, Brittany N, Niknejad, David J, Chase, Emily E, Abiodun, Blessing A, Adler, Meaghan J, Houghton, Katelyn A, Olavesen, Jason L, Sarumi, Qudus, Truchon, Alexander R, Walton, Jillian L, Cheshire, Jack H, Stanislawczyk, Keara, Hart, Lauren N, Paerl, Hans W, Chaffin, Justin D, Boyer, Gregory L, Castro, Hector F, Campagna, Shawn R, Bullerjahn, George S, Wilhelm, Steven W
Format: Artículo científico
Language:en
Published: Harmful algae 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41349993/
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author Zepernick, Brittany N
Niknejad, David J
Chase, Emily E
Abiodun, Blessing A
Adler, Meaghan J
Houghton, Katelyn A
Olavesen, Jason L
Sarumi, Qudus
Truchon, Alexander R
Walton, Jillian L
Cheshire, Jack H
Stanislawczyk, Keara
Hart, Lauren N
Paerl, Hans W
Chaffin, Justin D
Boyer, Gregory L
Castro, Hector F
Campagna, Shawn R
Bullerjahn, George S
Wilhelm, Steven W
author_facet Zepernick, Brittany N
Niknejad, David J
Chase, Emily E
Abiodun, Blessing A
Adler, Meaghan J
Houghton, Katelyn A
Olavesen, Jason L
Sarumi, Qudus
Truchon, Alexander R
Walton, Jillian L
Cheshire, Jack H
Stanislawczyk, Keara
Hart, Lauren N
Paerl, Hans W
Chaffin, Justin D
Boyer, Gregory L
Castro, Hector F
Campagna, Shawn R
Bullerjahn, George S
Wilhelm, Steven W
Zepernick, Brittany N
Niknejad, David J
Chase, Emily E
Abiodun, Blessing A
Adler, Meaghan J
Houghton, Katelyn A
Olavesen, Jason L
Sarumi, Qudus
Truchon, Alexander R
Walton, Jillian L
Cheshire, Jack H
Stanislawczyk, Keara
Hart, Lauren N
Paerl, Hans W
Chaffin, Justin D
Boyer, Gregory L
Castro, Hector F
Campagna, Shawn R
Bullerjahn, George S
Wilhelm, Steven W
collection PubMed - marine biology
contents The ornithine-arginine cycle supported a toxic, metalimnic Planktothrix rubescens bloom. Zepernick, Brittany N Niknejad, David J Chase, Emily E Abiodun, Blessing A Adler, Meaghan J Houghton, Katelyn A Olavesen, Jason L Sarumi, Qudus Truchon, Alexander R Walton, Jillian L Cheshire, Jack H Stanislawczyk, Keara Hart, Lauren N Paerl, Hans W Chaffin, Justin D Boyer, Gregory L Castro, Hector F Campagna, Shawn R Bullerjahn, George S Wilhelm, Steven W Cyanobacteria Arginine Ornithine Harmful Algal Bloom Metagenomics Planktothrix rubescens is distinct from other cyanobacterial harmful algal bloom (cHAB) genera: the crimson-red cHAB thrives in the cold, low-light, nutrient-limited metalimnion. Studies have attributed this ecological success to buoyancy regulation, low-light adaptations, and the uptake of nitrogen-rich amino acids. Yet, it remains to be mechanistically determined how this cHAB maintains physiological nutrient quotas in the metalimnion due to limited in situ molecular studies. We employed metagenomics and metabolomics to generate hypotheses concerning a toxigenic P. rubescens bloom in Mead's Quarry (Knoxville, TN, USA) observed in two separate years. Our results suggest a perennial, metalimnic P. rubescens population may exist, with spring turnover facilitating seasonal migration to the epilimnion. Although P. rubescens dominated the epilimnion and metalimnion, intracellular metabolite pools grouped by depth and suggested depth-discrete partitioning of the arginine deiminase-mediated ornithine-arginine cycle (OAC, i.e., urea cycle) - while further indicating the presence of the arginine catabolic pathway. Though the arginine influx driving the OAC is unclear, we hypothesize this input is provided via the uptake of urea or nitrogen-rich amino acids. Further, we demonstrate arginine deiminase (agrE/argZ) is broadly distributed in Planktothrix genera and known microcystin producers, suggesting agrE/argZ-mediated arginine metabolism and the OAC may influence the fitness of toxigenic cHAB genera which require ample nitrogen to synthesize microcystins. Cumulatively, our results serve as a case study to provide insight on the metabolic pathways driving the ecological success of metalimnic P. rubescens blooms. On a broader scale, this work strengthens the case that alternative nitrogen metabolism - including urea utilization, amino acid catabolism, and the OAC - is a driver of toxigenic cHABs in fresh waters.
format Artículo científico
id pubmed_41349993
institution PubMed
language en
publishDate 2026
publisher Harmful algae
record_format pubmed
spellingShingle The ornithine-arginine cycle supported a toxic, metalimnic Planktothrix rubescens bloom.
Zepernick, Brittany N
Niknejad, David J
Chase, Emily E
Abiodun, Blessing A
Adler, Meaghan J
Houghton, Katelyn A
Olavesen, Jason L
Sarumi, Qudus
Truchon, Alexander R
Walton, Jillian L
Cheshire, Jack H
Stanislawczyk, Keara
Hart, Lauren N
Paerl, Hans W
Chaffin, Justin D
Boyer, Gregory L
Castro, Hector F
Campagna, Shawn R
Bullerjahn, George S
Wilhelm, Steven W
Cyanobacteria
Arginine
Ornithine
Harmful Algal Bloom
Metagenomics
The ornithine-arginine cycle supported a toxic, metalimnic Planktothrix rubescens bloom. Zepernick, Brittany N Niknejad, David J Chase, Emily E Abiodun, Blessing A Adler, Meaghan J Houghton, Katelyn A Olavesen, Jason L Sarumi, Qudus Truchon, Alexander R Walton, Jillian L Cheshire, Jack H Stanislawczyk, Keara Hart, Lauren N Paerl, Hans W Chaffin, Justin D Boyer, Gregory L Castro, Hector F Campagna, Shawn R Bullerjahn, George S Wilhelm, Steven W Cyanobacteria Arginine Ornithine Harmful Algal Bloom Metagenomics Planktothrix rubescens is distinct from other cyanobacterial harmful algal bloom (cHAB) genera: the crimson-red cHAB thrives in the cold, low-light, nutrient-limited metalimnion. Studies have attributed this ecological success to buoyancy regulation, low-light adaptations, and the uptake of nitrogen-rich amino acids. Yet, it remains to be mechanistically determined how this cHAB maintains physiological nutrient quotas in the metalimnion due to limited in situ molecular studies. We employed metagenomics and metabolomics to generate hypotheses concerning a toxigenic P. rubescens bloom in Mead's Quarry (Knoxville, TN, USA) observed in two separate years. Our results suggest a perennial, metalimnic P. rubescens population may exist, with spring turnover facilitating seasonal migration to the epilimnion. Although P. rubescens dominated the epilimnion and metalimnion, intracellular metabolite pools grouped by depth and suggested depth-discrete partitioning of the arginine deiminase-mediated ornithine-arginine cycle (OAC, i.e., urea cycle) - while further indicating the presence of the arginine catabolic pathway. Though the arginine influx driving the OAC is unclear, we hypothesize this input is provided via the uptake of urea or nitrogen-rich amino acids. Further, we demonstrate arginine deiminase (agrE/argZ) is broadly distributed in Planktothrix genera and known microcystin producers, suggesting agrE/argZ-mediated arginine metabolism and the OAC may influence the fitness of toxigenic cHAB genera which require ample nitrogen to synthesize microcystins. Cumulatively, our results serve as a case study to provide insight on the metabolic pathways driving the ecological success of metalimnic P. rubescens blooms. On a broader scale, this work strengthens the case that alternative nitrogen metabolism - including urea utilization, amino acid catabolism, and the OAC - is a driver of toxigenic cHABs in fresh waters.
title The ornithine-arginine cycle supported a toxic, metalimnic Planktothrix rubescens bloom.
topic Cyanobacteria
Arginine
Ornithine
Harmful Algal Bloom
Metagenomics
url https://pubmed.ncbi.nlm.nih.gov/41349993/