Jay E. Johnson scite author profile

The NlM7 (for noninducible hmunity) gene product is involved in the signal transduction cascade leading to both systemic acquired resistance (SAR) and gene-for-gene disease resistance in Arabidopsis. We have isolated and characterized five new alleles of nim7 that show a range of phenotypes from weakly impaired in chemically induced pathogenesis-related protein-1 gene expression and funga1 resistance to very strongly blocked. We have isolated the NlM7 gene by using a map-based cloning procedure. Interestingly, the NlMl protein shows sequence homology to the mammalian signal transduction factor IKB subclass (Y. NF-KB/IKB signaling pathways are implicated in disease resistance responses in a range of organisms from Drosophila to mammals, suggesting that the SAR signaling pathway in plants is representative of an ancient and ubiquitous defense mechanism in higher organisms.

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Targeting of ^D MinC/MinD and ^D MinC/DicB Complexes to Septal Rings in Escherichia coli Suggests a Multistep Mechanism for MinC-Mediated Destruction of Nascent FtsZ Rings

Johnson

2002

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Altered gene expression in the Werner and Bloom syndromes is associated with sequences having G-quadruplex forming potential

et al. 2009

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The human Werner and Bloom syndromes (WS and BS) are caused by deficiencies in the WRN and BLM RecQ helicases, respectively. WRN, BLM and their Saccharomyces cerevisiae homologue Sgs1, are particularly active in vitro in unwinding G-quadruplex DNA (G4-DNA), a family of non-canonical nucleic acid structures formed by certain G-rich sequences. Recently, mRNA levels from loci containing potential G-quadruplex-forming sequences (PQS) were found to be preferentially altered in sgs1Δ mutants, suggesting that G4-DNA targeting by Sgs1 directly affects gene expression. Here, we extend these findings to human cells. Using microarrays to measure mRNAs obtained from human fibroblasts deficient for various RecQ family helicases, we observe significant associations between loci that are upregulated in WS or BS cells and loci that have PQS. No such PQS associations were observed for control expression datasets, however. Furthermore, upregulated genes in WS and BS showed no or dramatically reduced associations with sequences similar to PQS but that have considerably reduced potential to form intramolecular G4-DNA. These findings indicate that, like Sgs1, WRN and BLM can regulate transcription globally by targeting G4-DNA.

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Methionine Restriction Activates the Retrograde Response and Confers Both Stress Tolerance and Lifespan Extension to Yeast, Mouse and Human Cells

2014

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A methionine-restricted diet robustly improves healthspan in key model organisms. For example, methionine restriction reduces age-related pathologies and extends lifespan up to 45% in rodents. However, the mechanisms underlying these benefits remain largely unknown. We tested whether the yeast chronological aging assay could model the benefits of methionine restriction, and found that this intervention extends lifespan when enforced by either dietary or genetic approaches, and furthermore, that the observed lifespan extension is due primarily to reduced acid accumulation. In addition, methionine restriction-induced lifespan extension requires the activity of the retrograde response, which regulates nuclear gene expression in response to changes in mitochondrial function. Consistent with an involvement of stress-responsive retrograde signaling, we also found that methionine-restricted yeast are more stress tolerant than control cells. Prompted by these findings in yeast, we tested the effects of genetic methionine restriction on the stress tolerance and replicative lifespans of cultured mouse and human fibroblasts. We found that such methionine-restricted mammalian cells are resistant to numerous cytotoxic stresses, and are substantially longer-lived than control cells. In addition, similar to yeast, the extended lifespan of methionine-restricted mammalian cells is associated with NFκB-mediated retrograde signaling. Overall, our data suggest that improved stress tolerance and extension of replicative lifespan may contribute to the improved healthspan observed in methionine-restricted rodents, and also support the possibility that manipulation of the pathways engaged by methionine restriction may improve healthspan in humans.

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Jay E. Johnson

The Arabidopsis NIM1 protein shows homology to the mammalian transcription factor inhibitor I kappa B.

Targeting of ^D MinC/MinD and ^D MinC/DicB Complexes to Septal Rings in Escherichia coli Suggests a Multistep Mechanism for MinC-Mediated Destruction of Nascent FtsZ Rings

Altered gene expression in the Werner and Bloom syndromes is associated with sequences having G-quadruplex forming potential

Methionine Restriction Activates the Retrograde Response and Confers Both Stress Tolerance and Lifespan Extension to Yeast, Mouse and Human Cells

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About

Jay E. Johnson

The Arabidopsis NIM1 protein shows homology to the mammalian transcription factor inhibitor I kappa B.

Targeting of D MinC/MinD and D MinC/DicB Complexes to Septal Rings in Escherichia coli Suggests a Multistep Mechanism for MinC-Mediated Destruction of Nascent FtsZ Rings

Altered gene expression in the Werner and Bloom syndromes is associated with sequences having G-quadruplex forming potential

Methionine Restriction Activates the Retrograde Response and Confers Both Stress Tolerance and Lifespan Extension to Yeast, Mouse and Human Cells

Contact Info

Product

Resources

About

Targeting of ^D MinC/MinD and ^D MinC/DicB Complexes to Septal Rings in Escherichia coli Suggests a Multistep Mechanism for MinC-Mediated Destruction of Nascent FtsZ Rings