PLOS Biology<p>Caspases have well known roles in <a href="https://fediscience.org/tags/apoptosis" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>apoptosis</span></a>, but roles in other cellular processes are emerging... This study shows that <a href="https://fediscience.org/tags/caspase" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>caspase</span></a> -3 & -7 promote cytoprotective <a href="https://fediscience.org/tags/autophagy" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>autophagy</span></a> in response to non-lethal stress by modulating PARP1 activity in <a href="https://fediscience.org/tags/BreastCancer" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>BreastCancer</span></a> cells <a href="https://fediscience.org/tags/plosbiology" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>plosbiology</span></a> <a href="https://plos.io/41xfLVm" rel="nofollow noopener noreferrer" translate="no" target="_blank"><span class="invisible">https://</span><span class="">plos.io/41xfLVm</span><span class="invisible"></span></a></p>
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#apoptosis
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Europe Says<p><a href="https://www.europesays.com/1642105/" rel="nofollow noopener noreferrer" target="_blank"><span class="invisible">https://www.</span><span class="">europesays.com/1642105/</span><span class="invisible"></span></a> Mitochondrial energy shutdown triggers inflammatory response instead of cell death <a href="https://pubeurope.com/tags/Apoptosis" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>Apoptosis</span></a> <a href="https://pubeurope.com/tags/Cell" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>Cell</span></a> <a href="https://pubeurope.com/tags/CellDeath" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>CellDeath</span></a> <a href="https://pubeurope.com/tags/Energy" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>Energy</span></a> <a href="https://pubeurope.com/tags/immunity" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>immunity</span></a> <a href="https://pubeurope.com/tags/Inflammation" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>Inflammation</span></a> <a href="https://pubeurope.com/tags/medicine" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>medicine</span></a> <a href="https://pubeurope.com/tags/Mitochondria" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>Mitochondria</span></a> <a href="https://pubeurope.com/tags/research" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>research</span></a> <a href="https://pubeurope.com/tags/Stress" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>Stress</span></a></p>
rsp<p>I'm extracting DNA from the legs of spiders which were euthanized by freezing in a household freezer. In almost every spider, the DNA shows a banding pattern associated with apoptosis. Why would there be so much programed cell death in the legs of spiders? Had it already happened naturally? Was it induced during the freezing process? I do not see this happening in other organisms using the same extraction procedure.</p><p>Each lane is DNA extracted from a different spider.</p><p><a href="https://ecoevo.social/tags/genetics" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>genetics</span></a> <a href="https://ecoevo.social/tags/DNA" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>DNA</span></a> <a href="https://ecoevo.social/tags/apoptosis" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>apoptosis</span></a></p>
PLOS Biology<p>For <a href="https://fediscience.org/tags/epithelial" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>epithelial</span></a> tissue homeostasis, cell elimination & proliferation must balance. @DaikiUmetsu &co show that faster cell removal is associated with switch from isolated to clustered <a href="https://fediscience.org/tags/apoptosis" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>apoptosis</span></a>, induced by ⬇️ <a href="https://fediscience.org/tags/endocytosis" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>endocytosis</span></a> & EGFR signaling <a href="https://fediscience.org/tags/PLOSBiology" class="mention hashtag" rel="nofollow noopener noreferrer" target="_blank">#<span>PLOSBiology</span></a> <a href="https://plos.io/403rQ3Y" rel="nofollow noopener noreferrer" translate="no" target="_blank"><span class="invisible">https://</span><span class="">plos.io/403rQ3Y</span><span class="invisible"></span></a></p>
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