Vincent Ma scite author profile

The NEET family is a newly discovered group of proteins involved in a diverse array of biological processes, including autophagy, apoptosis, aging, diabetes, and reactive oxygen homeostasis. They form a novel structure, the NEET fold, in which two protomers intertwine to form a two-domain motif, a cap, and a unique redox-active labile 2Fe-2S cluster binding domain. To accelerate the functional study of NEET proteins, as well as to examine whether they have an evolutionarily conserved role, we identified and characterized a plant NEET protein. Here, we show that the Arabidopsis thaliana At5g51720 protein (At-NEET) displays biochemical, structural, and biophysical characteristics of a NEET protein. Phenotypic characterization of At-NEET revealed a key role for this protein in plant development, senescence, reactive oxygen homeostasis, and Fe metabolism. A role in Fe metabolism was further supported by biochemical and cell biology studies of At-NEET in plant and mammalian cells, as well as mutational analysis of its cluster binding domain. Our findings support the hypothesis that NEET proteins have an ancient role in cells associated with Fe metabolism.

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Linking genes of unknown function with abiotic stress responses by high‐throughput phenotype screening

Song

Hegie

Suzuki

et al. 2013

Physiologia Plantarum

107

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Over 13% of all genes in the Arabidopsis thaliana genome encode for proteins classified as having a completely unknown function, with the function of >30% of the Arabidopsis proteome poorly characterized. Although empirical data in the form of mRNA and proteome profiling experiments suggest that many of these proteins play an important role in different biological processes, their functional characterization remains one of the major challenges in modern biology. To expand the annotation of genes with unknown function involved in the response of Arabidopsis to different environmental stress conditions, we selected 1007 such genes and tested the response of their corresponding homozygous T-DNA insertional mutants to salinity, oxidative, osmotic, heat, cold and hypoxia stresses. Depending on the specific abiotic stresses tested, 12-31% of mutants had an altered stress-response phenotype. Interestingly, 832 out of 1007 mutants showed tolerance or sensitivity to more than one abiotic stress treatment, suggesting that genes of unknown function could play an important role in abiotic stress-response signaling, or general acclimation mechanisms. Further analysis of multiple stress-response phenotypes within different populations of mutants revealed interesting links between acclimation to heat, cold and oxidative stresses, as well as between sensitivity to ABA, osmotic, salinity, oxidative and hypoxia stresses. Our findings provide a significant contribution to the biological characterization of genes with unknown function in Arabidopsis and demonstrate that many of these genes play a key role in the response of plants to abiotic stresses.

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Comparison of Pain Score Reduction Using Triamcinolone vs. Dexamethasone in Cervical Transforaminal Epidural Steroid Injections

Shakir

Mehta

2013

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Prediction of Therapeutic Response to Cervical Epidural Steroid Injection According to Distribution of Radicular Pain

Shakir

Mehta

2011

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Vincent Ma

Characterization of Arabidopsis NEET Reveals an Ancient Role for NEET Proteins in Iron Metabolism

Linking genes of unknown function with abiotic stress responses by high‐throughput phenotype screening

Comparison of Pain Score Reduction Using Triamcinolone vs. Dexamethasone in Cervical Transforaminal Epidural Steroid Injections

Prediction of Therapeutic Response to Cervical Epidural Steroid Injection According to Distribution of Radicular Pain

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