Figure 6 Hsp33 µAPPJ activation
Applied Microbiology
- The cold atmospheric pressure plasma-generated species superoxide, singlet oxygen and atomic oxygen activate the molecular chaperone Hsp33
Datasets
1133 results
Figure 3a Plasma-induced Hsp33 activation
Applied Microbiology
- The cold atmospheric pressure plasma-generated species superoxide, singlet oxygen and atomic oxygen activate the molecular chaperone Hsp33
Figure 2b Hsp33 Degradation
Applied Microbiology
- The cold atmospheric pressure plasma-generated species superoxide, singlet oxygen and atomic oxygen activate the molecular chaperone Hsp33
Figure 1b Survival longer treatment
Applied Microbiology
- The cold atmospheric pressure plasma-generated species superoxide, singlet oxygen and atomic oxygen activate the molecular chaperone Hsp33
Figure 4b Hsp33 Tryptophan fluorescence
Applied Microbiology
- The cold atmospheric pressure plasma-generated species superoxide, singlet oxygen and atomic oxygen activate the molecular chaperone Hsp33
Figure 2a Plasma stability Hsp33
Applied Microbiology
- The cold atmospheric pressure plasma-generated species superoxide, singlet oxygen and atomic oxygen activate the molecular chaperone Hsp33
Figure 1a Survival Rates
Applied Microbiology
- The cold atmospheric pressure plasma-generated species superoxide, singlet oxygen and atomic oxygen activate the molecular chaperone Hsp33
Figure 3b CD spectra Hsp33
Applied Microbiology
- The cold atmospheric pressure plasma-generated species superoxide, singlet oxygen and atomic oxygen activate the molecular chaperone Hsp33
Figure 4a Hsp33 Carbonylation
Applied Microbiology
- The cold atmospheric pressure plasma-generated species superoxide, singlet oxygen and atomic oxygen activate the molecular chaperone Hsp33
Figure 6b bubble radius evolution pos. pol.
EP2
- Ignition and propagation of nanosecond pulsed plasmas in distilled water - negative vs. positive polarity applied to a pin electrode