Single-cell tracking reveals antibiotic-induced changes in mycobacterial energy metabolism
Ž Maglica, E Özdemir, JD McKinney - MBio, 2015 - Am Soc Microbiol
ABSTRACT ATP is a key molecule of cell physiology, but despite its importance, there are
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
[HTML][HTML] Single-Cell Tracking Reveals Antibiotic-Induced Changes in Mycobacterial Energy Metabolism
Ž Maglica, E Özdemir, JD McKinney - mBio, 2015 - ncbi.nlm.nih.gov
ABSTRACT ATP is a key molecule of cell physiology, but despite its importance, there are
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
Single-Cell Tracking Reveals Antibiotic-Induced Changes in Mycobacterial Energy Metabolism
Ž Maglica, E Özdemir, JD McKinney - 2015 - agris.fao.org
ABSTRACT ATP is a key molecule of cell physiology, but despite its importance, there are
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
[PDF][PDF] Single-Cell Tracking Reveals Antibiotic-Induced Changes in Mycobacterial Energy Metabolism
Ž Maglica, E Özdemir, JD McKinney - 2015 - academia.edu
ABSTRACT ATP is a key molecule of cell physiology, but despite its importance, there are
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
[PDF][PDF] Single-Cell Tracking Reveals Antibiotic-Induced Changes in Mycobacterial Energy Metabolism
Ž Maglica, E Özdemir, JD McKinney - 2015 - Citeseer
ABSTRACT ATP is a key molecule of cell physiology, but despite its importance, there are
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
Single-Cell Tracking Reveals Antibiotic-Induced Changes in Mycobacterial Energy Metabolism
Z Maglica, E Oezdemir, JD Mckinney - Mbio, 2015 - infoscience.epfl.ch
ATP is a key molecule of cell physiology, but despite its importance, there are currently no
methods for monitoring single-cell ATP fluctuations in live bacteria. This is a major obstacle …
methods for monitoring single-cell ATP fluctuations in live bacteria. This is a major obstacle …
Single-cell tracking reveals antibiotic-induced changes in mycobacterial energy metabolism.
Ž Maglica, E Özdemir, JD McKinney - Mbio, 2015 - europepmc.org
ABSTRACT ATP is a key molecule of cell physiology, but despite its importance, there are
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
[PDF][PDF] Single-Cell Tracking Reveals Antibiotic-Induced Changes in Mycobacterial Energy Metabolism
Ž Maglica, E Özdemir, JD McKinney - 2015 - researchgate.net
ABSTRACT ATP is a key molecule of cell physiology, but despite its importance, there are
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
[PDF][PDF] Single-Cell Tracking Reveals Antibiotic-Induced Changes in Mycobacterial Energy Metabolism
Ž Maglica, E Özdemir, JD McKinney - 2015 - core.ac.uk
ABSTRACT ATP is a key molecule of cell physiology, but despite its importance, there are
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
currently no methods for monitoring single-cell ATP fluctuations in live bacteria. This is a …
Single-cell tracking reveals antibiotic-induced changes in mycobacterial energy metabolism.
Ž Maglica, E Özdemir, JD McKinney - mBio, 2015 - sonar.ch
ATP is a key molecule of cell physiology, but despite its importance, there are currently no
methods for monitoring single-cell ATP fluctuations in live bacteria. This is a major obstacle …
methods for monitoring single-cell ATP fluctuations in live bacteria. This is a major obstacle …