| Reactivity | Hu, MuSpecies Glossary |
| Applications | Flow |
| Clone | 683906 |
| Clonality | Monoclonal |
| Host | Mouse |
| Conjugate | Alexa Fluor 647 |
| Immunogen | E. coli-derived recombinant human ATG7 Asn387-Gln570 Accession # O95352 |
| Specificity | Detects human ATG7 in direct ELISAs and Western blots.
In direct ELISAs and Western blots, no
cross-reactivity with recombinant human ATG3, 4A, 4B, 5, 10, 12, or 16L1 is
observed. |
| Source | N/A |
| Isotype | IgG1 |
| Clonality | Monoclonal |
| Host | Mouse |
| Purity Statement | Protein A or G purified from hybridoma culture supernatant |
| Innovator's Reward | Test in a species/application not listed above to receive a full credit towards a future purchase. |
| Storage | Protect from light. Do not freeze.
|
| Buffer | Supplied 0.2 mg/mL in a saline solution containing BSA and Sodium Azide. |
ATG7, also known as APG7, is a 78 kDa cytosolic ubiquitin-E1-like enzyme that plays a key role in the autophagic pathway of intracellular bulk degradation. It is required for the conjugation of ATG5 to ATG12, the lipidation of ATG8, and subsequent autophagosome formation. ATG7 is required for mitochondrial removal during erythropoiesis and for the maintenance of axonal homeostasis. Alternate splicing of human ATG7 generates an isoform that lacks 31 aa at the C-terminus, a region that is required for ATG8 lipidation. Human ATG7 shares 93% aa sequence identitiy with mouse and rat ATG7.
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Secondary Antibodies |
Isotype Controls |
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Liver ASK1 activates autophagy to protect against hepatic fat accumulation, non-alcoholic steatohepatitis and fibrosis By Jamshed Arslan, Pharm. D., PhD. The most common chronic liver disorder worldwide is non-alcoholic fatty liver disease (NAFLD). This obesity-linked disorder can manifest as hepatic fat accumulation (steatosis) wit... Read full blog post. |
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Read full blog post. |
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Read full blog post. |
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Read full blog post. |
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Animal Models to Study Autophagy By Christina Towers, PhD What is autophagy?Autophagy is the catabolic process that degrades cytoplasmic material via the lysosome. The process of macroautophagy was originally characterized in yeast, where the... Read full blog post. |
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Monitoring Autophagy in Neurons By Christina Towers, PhD. Autophagy is a critical cellular process used by most cells in the body to recycle nutrients and prevent harmful buildup of damaged proteins. It is particularly important in the brain, where ... Read full blog post. |
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Autophagy independent roles of the core ATG proteins By Christina Towers, PhD. Autophagy and ATG ProteinsAutophagy is a nutrient recycling process that cells use to fuel metabolism, particularly in response to nutrient deprivation. It is critical for removal of dam... Read full blog post. |
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Nuclear LC3: Why is it there and what is it doing? By Christina Towers, PhD. Cells use the complex process of autophagy to degrade and recycle cytoplasmic material. There are over 20 proteins that have been implicated in this process and appropriately named core ... Read full blog post. |
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From Then ‘till Now: The History of Autophagy and Cancer Research By Christina Towers, PhD. The fundamental process that cells use to degrade damaged cytoplasmic material and recycle nutrients is called autophagy. This term was first coined by the Belgium biochemist Christian de... Read full blog post. |
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ATG4B - a cysteine protease involved in autophagosome elongation Autophagy can be broken down into 4 main stages: phagophore nucleation, autophagosome elongation, autophagosome docking and fusion with a lysosome, and vesicle breakdown and degradation. ATG4B is one of four ATG4 homologs (ATG4A, ATG4B, ATG4C, and ... Read full blog post. |
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