Thomas Billman scite author profile

Thomas Billman

2Publications

16Citation Statements Received

55Citation Statements Given

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Affiliations

Blue Cross and Blue Shield of North Carolina Foundation, University of North Carolina Wilmington

Publications

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Plant growth regulators interact with elevated temperature to alter heat stress signaling via the Unfolded Protein Response in maize

Neill

Byrd

Billman

et al. 2019

Sci Rep

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Plants are increasingly exposed to high temperatures, which can cause accumulation of unfolded protein in the endoplasmic reticulum (ER). This condition, known as ER stress, evokes the unfolded protein response (UPR), a cytoprotective signaling pathway. One important branch of the UPR is regulated by splicing of bZIP60 mRNA by the IRE1 stress sensor. There is increasing evidence that commercial plant growth regulators may protect against abiotic stressors including heat stress and drought, but there is very little mechanistic information about these effects or about the regulatory pathways involved. We evaluated evidence in the B73 Zea mays inbred for differences in the activity of the UPR between permissive and elevated temperature in conjunction with plant growth regulator application. Treatment with elevated temperature and plant growth regulators increased UPR activation, as assessed by an increase in splicing of the mRNA of the IRE1 target bZIP60 following paclobutrazol treatment. We propose that plant growth regulator treatment induces bZIP60 mRNA splicing which ‘primes’ plants for rapid adaptive response to subsequent endoplasmic reticulum-stress inducing conditions.

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Plant growth regulators interact with elevated temperature to alter heat stress signaling via the Unfolded Protein Response in maize

Neill

Byrd

Billman

et al. 2019

Preprint

View full text Add to dashboard Cite

Plants are increasingly exposed to high temperatures, which can cause accumulation of unfolded protein in the endoplasmic reticulum (ER). This condition, known as ER stress, evokes the unfolded protein response (UPR), a cytoprotective signaling pathway. One important branch of the UPR is regulated by splicing of bZIP60 mRNA by the IRE1 stress sensor. There is increasing evidence that commercial plant growth regulators may protect against abiotic stressors including heat stress and drought, but there is very little mechanistic information about these effects or about the regulatory pathways involved. We evaluated evidence in the B73 Zea mays inbred for differences in the activity of the UPR between permissive and elevated temperature in conjunction with plant growth regulator application. Treatment with elevated temperature and plant growth regulators increased UPR activation, as assessed by an increase in splicing of the mRNA of the IRE1 target bZIP60 following paclobutrazol treatment. We propose that plant growth regulator treatment induces bZIP60 mRNA splicing which 'primes' plants for rapid adaptive response to subsequent endoplasmic reticulum-stress inducing conditions.

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Thomas Billman

Plant growth regulators interact with elevated temperature to alter heat stress signaling via the Unfolded Protein Response in maize

Plant growth regulators interact with elevated temperature to alter heat stress signaling via the Unfolded Protein Response in maize

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