2014
DOI: 10.4236/ajmb.2014.42008
|View full text |Cite
|
Sign up to set email alerts
|

Inhibition of MAPK Hog1 Results in Increased Hsp104 Aggregate Formation Probably through Elevated Arsenite Influx into the Cells, an Approach with Numerous Potential Applications

Abstract: Arsenic is a highly toxic and carcinogenic metalloid widely dispersed in the environment, contaminating water and soil and accumulating in crops. Paradoxically, arsenic is also part of modern therapy and employed in treating numerous ailments and diseases. Hence, inventing strategies to tune cellular arsenic uptake based on purpose is striking. Here, we describe an approach in which the arsenite uptake can be increased using a MAPK inhibitor. Employing microfluidic flow chambers in combination with optical twe… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
1

Citation Types

0
1
0

Year Published

2018
2018
2018
2018

Publication Types

Select...
1

Relationship

1
0

Authors

Journals

citations
Cited by 1 publication
(1 citation statement)
references
References 58 publications
(81 reference statements)
0
1
0
Order By: Relevance
“…Precise spatial and temporal control of the extracellular environment has been successfully applied to define the dynamics of yeast AMP‐activated kinase signaling under different glucose conditions and to characterize cell‐to‐cell variability by imaging of nuclear translocation of fluorescently tagged transcription repressor protein Mig1 (Almquist et al., ; Bendrioua et al., ; Welkenhuysen et al., ). This method has also been used to determine cellular arsenite uptake in yeast, as controlled by a mitogen‐activated protein kinase inhibitor (Ahmadpour et al., ). Furthermore, the technique has been used to determine the yeast adaptation response following osmotic stress by imaging of nuclear translocation of fluorescently tagged proteins Hog1 and Msn2 (Babazadeh et al., ; Babazadeh et al., ; Petelenz‐Kurdziel et al., ).…”
Section: Commentarymentioning
confidence: 99%
“…Precise spatial and temporal control of the extracellular environment has been successfully applied to define the dynamics of yeast AMP‐activated kinase signaling under different glucose conditions and to characterize cell‐to‐cell variability by imaging of nuclear translocation of fluorescently tagged transcription repressor protein Mig1 (Almquist et al., ; Bendrioua et al., ; Welkenhuysen et al., ). This method has also been used to determine cellular arsenite uptake in yeast, as controlled by a mitogen‐activated protein kinase inhibitor (Ahmadpour et al., ). Furthermore, the technique has been used to determine the yeast adaptation response following osmotic stress by imaging of nuclear translocation of fluorescently tagged proteins Hog1 and Msn2 (Babazadeh et al., ; Babazadeh et al., ; Petelenz‐Kurdziel et al., ).…”
Section: Commentarymentioning
confidence: 99%