RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
I identify with this blebing cell.
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
Sir. SIR.
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
@doldivizio
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
A cell version of a stress ball! 🤗
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
RT @MAG2ART: Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it…
Sure; we explore cellular mechanics with more precise methods, but it is still fun to test if a cell will bleb by squishing it. https://t.co/rxtOIBOB06 https://t.co/ERb1AbkCSp
O paper completo: https://t.co/1DYIafeUGW
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Myosin-IIA (red) generates cortex tension while myosin-IIB (green) acts as a cortex stabilizer Cortex tension is tuned by com…
RT @MAG2ART: Myosin-IIA (red) generates cortex tension while myosin-IIB (green) acts as a cortex stabilizer Cortex tension is tuned by com…
RT @MAG2ART: Myosin-IIA (red) generates cortex tension while myosin-IIB (green) acts as a cortex stabilizer Cortex tension is tuned by com…
RT @MAG2ART: Myosin-IIA (red) generates cortex tension while myosin-IIB (green) acts as a cortex stabilizer Cortex tension is tuned by com…
RT @MAG2ART: Myosin-IIA (red) generates cortex tension while myosin-IIB (green) acts as a cortex stabilizer Cortex tension is tuned by com…
RT @MAG2ART: Myosin-IIA (red) generates cortex tension while myosin-IIB (green) acts as a cortex stabilizer Cortex tension is tuned by com…
RT @MAG2ART: Myosin-IIA (red) generates cortex tension while myosin-IIB (green) acts as a cortex stabilizer Cortex tension is tuned by com…
RT @MAG2ART: Myosin-IIA (red) generates cortex tension while myosin-IIB (green) acts as a cortex stabilizer Cortex tension is tuned by com…
Myosin-IIA (red) generates cortex tension while myosin-IIB (green) acts as a cortex stabilizer Cortex tension is tuned by composition of myosin-IIA/B hetero-filaments https://t.co/rxtOIBOB06 https://t.co/yPW9ng2VDR
RT @MAG2ART: "Precise Tuning of Cortical Contractility Regulates Cell Shape during cytokineisis" is now online! @nilaytaneja Video: a my…
RT @MAG2ART: "Precise Tuning of Cortical Contractility Regulates Cell Shape during cytokineisis" is now online! @nilaytaneja Video: a my…
RT @CellReports: Distinct roles for the two myosin-II paralogs in regulating actin cortex mechanics during cell division https://t.co/h0uC8…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @CellReports: Distinct roles for the two myosin-II paralogs in regulating actin cortex mechanics during cell division https://t.co/h0uC8…
Distinct roles for the two myosin-II paralogs in regulating actin cortex mechanics during cell division https://t.co/h0uC8veku4
RT @MAG2ART: Myosin II Dynamics during Cytokinesis Confocal microscopy of myosin IIA (red) and Myosin IIB (green). Note that myosin IIB sta…
RT @MitoPsychoBio: Beautiful image of life... with every little movement in the cytoplasm, membrane protrusion, pulling of the DNA, and cel…
RT @MitoPsychoBio: Beautiful image of life... with every little movement in the cytoplasm, membrane protrusion, pulling of the DNA, and cel…
RT @MitoPsychoBio: Beautiful image of life... with every little movement in the cytoplasm, membrane protrusion, pulling of the DNA, and cel…
Beautiful image of life... with every little movement in the cytoplasm, membrane protrusion, pulling of the DNA, and cell movement moved by energy.
RT @MAG2ART: Myosin II Dynamics during Cytokinesis Confocal microscopy of myosin IIA (red) and Myosin IIB (green). Note that myosin IIB sta…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
@cell_rm
RT @MAG2ART: Myosin II Dynamics during Cytokinesis Confocal microscopy of myosin IIA (red) and Myosin IIB (green). Note that myosin IIB sta…
RT @MAG2ART: Myosin II Dynamics during Cytokinesis Confocal microscopy of myosin IIA (red) and Myosin IIB (green). Note that myosin IIB sta…
RT @MAG2ART: Myosin II Dynamics during Cytokinesis Confocal microscopy of myosin IIA (red) and Myosin IIB (green). Note that myosin IIB sta…
RT @MAG2ART: Myosin II Dynamics during Cytokinesis Confocal microscopy of myosin IIA (red) and Myosin IIB (green). Note that myosin IIB sta…
RT @MAG2ART: Myosin II Dynamics during Cytokinesis Confocal microscopy of myosin IIA (red) and Myosin IIB (green). Note that myosin IIB sta…
RT @MAG2ART: Myosin II Dynamics during Cytokinesis Confocal microscopy of myosin IIA (red) and Myosin IIB (green). Note that myosin IIB sta…
RT @MAG2ART: Myosin II Dynamics during Cytokinesis Confocal microscopy of myosin IIA (red) and Myosin IIB (green). Note that myosin IIB sta…
Myosin II Dynamics during Cytokinesis Confocal microscopy of myosin IIA (red) and Myosin IIB (green). Note that myosin IIB stays in the cleavage furrow at the end of cytokinesis. Spoiler alert: IIB is important for abscission. #CellBiology https://t.co/rxt
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @nilaytaneja: Excited to share the latest manuscript from @MAG2ART lab that's been a long time in the making. We show that the compositi…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @nilaytaneja: Excited to share the latest manuscript from @MAG2ART lab that's been a long time in the making. We show that the compositi…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @nilaytaneja: Excited to share the latest manuscript from @MAG2ART lab that's been a long time in the making. We show that the compositi…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @nilaytaneja: Excited to share the latest manuscript from @MAG2ART lab that's been a long time in the making. We show that the compositi…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @nilaytaneja: Excited to share the latest manuscript from @MAG2ART lab that's been a long time in the making. We show that the compositi…
RT @nilaytaneja: Excited to share the latest manuscript from @MAG2ART lab that's been a long time in the making. We show that the compositi…
RT @nilaytaneja: Excited to share the latest manuscript from @MAG2ART lab that's been a long time in the making. We show that the compositi…
RT @MAG2ART: Membrane blebbing-induced oscillations during cytokinesis can create a bi-nucleated cell by pushing all of the DNA into a sing…
RT @nilaytaneja: Excited to share the latest manuscript from @MAG2ART lab that's been a long time in the making. We show that the compositi…