Coordination of K
            <sup>+</sup>
            Transporters in Neurospora: TRK1 Is Scarce and Constitutive, while HAK1 Is Abundant and Highly Regulated

Rivetta, Alberto; Allen, Kenneth E.; Slayman, Carolyn W.; Slayman, Clifford L.

doi:10.1128/ec.00017-13

Cited by 18 publications

(10 citation statements)

References 78 publications

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“…On the other hand, TRK1 was not found to be transcriptionally regulated, while HAK1 was strongly induced in response to very low K + concentrations and was down-regulated by the presence of K + . Similar behaviors were shown in the homologous systems of Neurospora [53,61].…”

Section: The Dual Transportome For Plant K+ Nutrition Of the Two Psupporting

confidence: 80%

The Role of Soil Fungi in K+ Plant Nutrition

Haro

Benito

2019

IJMS

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K+ is an essential cation and the most abundant in plant cells. After N, its corresponding element, K, is the nutrient required in the largest amounts by plants. Despite the numerous roles of K in crop production, improvements in the uptake and efficiency of use of K have not been major focuses in conventional or transgenic breeding studies in the past. In research on the mineral nutrition of plants in general, and K in particular, this nutrient has been shown to be essential to soil-dwelling-microorganisms (fungi, bacteria, protozoa, nematodes, etc.) that form mutualistic associations and that can influence the availability of mineral nutrients for plants. Therefore, this article aims to provide an overview of the role of soil microorganisms in supplying K+ to plants, considering both the potassium-solubilizing microorganisms and the potassium-facilitating microorganisms that are in close contact with the roots of plants. These microorganisms can influence the active transporter-mediated transfer of K+. Regarding the latter group of microorganisms, special focus is placed on the role of endophytic fungus. This review also includes a discussion on productivity through sustainable agriculture.

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Section: The Dual Transportome For Plant K+ Nutrition Of the Two Psupporting

confidence: 80%

The Role of Soil Fungi in K+ Plant Nutrition

Haro

Benito

2019

IJMS

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“…Also lacking are publicly-available whole-transcriptome data sets such as has been used for other organisms when selecting reference genes. Therefore, potential reference genes were selected based on the following features: previous transcriptomic-based studies from N. crassa ( acl ) [25] or other fungi ( adk , asl ) [23] in which the expression of these genes remained unchanged; via selection from the Broad Institute N. crassa database ( http://www.broadinstitute.org/annotation/genome/neurospora/MultiHome.html ) with genes for which no expression data existed ( tbp ), or from previous studies of genes whose results pertaining to their function and regulation indicated the potential for use as a reference gene ( vma1 , vma2 , vma3 , trk) [26] , [27] Additionally, N. crassa genes employed as reference genes in previous studies were also evaluated here ( act , btl , l6 , frh ) [28] , albeit with newly-designed primers for use in the btl and frh assays.…”

Section: Resultsmentioning

confidence: 99%

Selection and Evaluation of Reference Genes for Expression Studies with Quantitative PCR in the Model Fungus Neurospora crassa under Different Environmental Conditions in Continuous Culture

et al. 2014

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Neurospora crassa has served as a model organism for studying circadian pathways and more recently has gained attention in the biofuel industry due to its enhanced capacity for cellulase production. However, in order to optimize N. crassa for biotechnological applications, metabolic pathways during growth under different environmental conditions must be addressed. Reverse-transcription quantitative PCR (RT-qPCR) is a technique that provides a high-throughput platform from which to measure the expression of a large set of genes over time. The selection of a suitable reference gene is critical for gene expression studies using relative quantification, as this strategy is based on normalization of target gene expression to a reference gene whose expression is stable under the experimental conditions. This study evaluated twelve candidate reference genes for use with N. crassa when grown in continuous culture bioreactors under different light and temperature conditions. Based on combined stability values from NormFinder and Best Keeper software packages, the following are the most appropriate reference genes under conditions of: (1) light/dark cycling: btl, asl, and vma1; (2) all-dark growth: btl, tbp, vma1, and vma2; (3) temperature flux: btl, vma1, act, and asl; (4) all conditions combined: vma1, vma2, tbp, and btl. Since N. crassa exists as different cell types (uni- or multi-nucleated), expression changes in a subset of the candidate genes was further assessed using absolute quantification. A strong negative correlation was found to exist between ratio and threshold cycle (CT) values, demonstrating that CT changes serve as a reliable reflection of transcript, and not gene copy number, fluctuations. The results of this study identified genes that are appropriate for use as reference genes in RT-qPCR studies with N. crassa and demonstrated that even with the presence of different cell types, relative quantification is an acceptable method for measuring gene expression changes during growth in bioreactors.

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“…2, calibrating sample band intensities by means of HA-tagged plasma membrane ATPase (ScPma1-HA; enzyme provided by A. B. Mason) as described previously (34). Samples were assayed for total protein content using the Lowry method (35), before being electrophoresed on precast polyacrylamide gradient gels (4 -15% TGX gel 456 -1086; Bio-Rad), and then stained for 1 h with primary anti-HA monoclonal antibody (MMS-101P, Covance Corp., Berkeley, CA) and for a 2nd h with antimouse antibody coupled to horseradish peroxidase (HRP; 4021, Promega Corp., Madison, WI).…”

Section: Methodsmentioning

confidence: 99%

“…We determined the amount of FEX protein in yeast plasma membranes using quantitative Western blotting with HA-tagged versions of Fex1p and Fex2p and a calibration standard (34). When expressed separately, Fex1p and Fex2p are present in yeast membranes at the same level, 1.7 or 1.8 fmol/g of membrane protein, respectively.…”

Section: Fex1 and Fex2 Produce Fluoride Conductance In The Plasmamentioning

confidence: 99%

Yeast Fex1p Is a Constitutively Expressed Fluoride Channel with Functional Asymmetry of Its Two Homologous Domains

Smith

Gordon

Rivetta³

et al. 2015

Journal of Biological Chemistry

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Background: Fluoride is broadly toxic, and organisms use fluoride export (FEX) proteins to expel it. Results: FEX is a constitutively expressed fluoride channel, and mutations to the C-and N-terminal domains have asymmetric effects. Conclusion: Protection from fluoride is constantly needed, and a positive residue in the membrane is required. Significance: Understanding FEX furthers our knowledge of fluoride resistance mechanisms.

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Coordination of K ⁺ Transporters in Neurospora: TRK1 Is Scarce and Constitutive, while HAK1 Is Abundant and Highly Regulated

Cited by 18 publications

References 78 publications

The Role of Soil Fungi in K+ Plant Nutrition

The Role of Soil Fungi in K+ Plant Nutrition

Selection and Evaluation of Reference Genes for Expression Studies with Quantitative PCR in the Model Fungus Neurospora crassa under Different Environmental Conditions in Continuous Culture

Yeast Fex1p Is a Constitutively Expressed Fluoride Channel with Functional Asymmetry of Its Two Homologous Domains

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Coordination of K + Transporters in Neurospora: TRK1 Is Scarce and Constitutive, while HAK1 Is Abundant and Highly Regulated

Cited by 18 publications

References 78 publications

The Role of Soil Fungi in K+ Plant Nutrition

The Role of Soil Fungi in K+ Plant Nutrition

Selection and Evaluation of Reference Genes for Expression Studies with Quantitative PCR in the Model Fungus Neurospora crassa under Different Environmental Conditions in Continuous Culture

Yeast Fex1p Is a Constitutively Expressed Fluoride Channel with Functional Asymmetry of Its Two Homologous Domains

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Coordination of K ⁺ Transporters in Neurospora: TRK1 Is Scarce and Constitutive, while HAK1 Is Abundant and Highly Regulated