Elias Bassil —BIO-PROTOCOL

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Eduardo Blumwald Department of Plant Sciences, University of California, USA
1 protocol

Karin Schumacher Center for Organismal Studies, Ruprecht-Karls-Universitat, Germany
1 protocol

Stephen Halperin* Horticulture Department, Pennsylvania State University, USA
1 protocol

Melanie Krebs Center for Organismal Studies, Ruprecht-Karls-Universitat, Germany
1 protocol

Ru Zhang Donald Danforth Plant Science Center
49 protocols

Tie Liu University of Florida
159 protocols

Reviewer

Elias Bassil

Faculty, University of Florida

Research focus

Plant science
Plant nutrition, stress physiology, ion transport, membrane trafficking

1 Author merit
Reviewer merit
Editor merit

Education

PhD, University of California

Lab information

Research in Elias Bassil's lab focuses on understanding how plant cells regulate their intracellular ion balance and how this affects growth and stress acclimation.

Publications

https://scholar.google.com/citations?user=judOokEAAAAJ&hl=en

https://scholar.google.com/citations?user=n40q3-IAAAAJ&hl=en

https://www.researchgate.net/profile/Elias_Bassil

1 Protocol published

Fluorescent Dye Based Measurement of Vacuolar pH and K⁺

Authors: Elias Bassil, Melanie Krebs, Stephen Halperin*, Karin Schumacher and Eduardo Blumwald, date: 07/05/2013, view: 10716, Q&A: 0

Availability of ion specific fluorescent dyes has enabled the possibility to perform in vivo ion specific measurements using live cell imaging in many cellular compartments (Krebs et al., 2010; Bassil et al., 2011; ...

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3 Protocols reviewed

Mitochondrial RNA Transcript Analysis Assay of Arabidopsis Leaf Tissues

Authors: Etienne Delannoy, Andéol Falcon de Longevialle and Catherine Colas des Francs-Small, date: 10/20/2015, view: 7007, Q&A: 0

This qPCR-based assay provides an overview of the expression levels of all mitochondrial transcripts (mRNAs and rRNAs) as well as splicing efficiency in Arabidopsis. It was developed before RNAseq techniques were widely used (de Longevialle ...

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Measurement of Cellular Redox in Pollen with Redox-Sensitive GFP (roGFP) Using Live Cell Imaging

Authors: Wei-Jie Huang and Wei-Hua Tang, date: 03/05/2015, view: 8318, Q&A: 0

Redox homeostasis is a fundamental property of living cells and responds actively to both cellular metabolism and external stimulus. The development of redox-sensitive GFP (roGFP) enables dynamic monitoring of changes in cellular redox poise (Hanson ...

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