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Rabbit anti lc3 primary antibodies

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Rabbit anti-LC3 primary antibodies are immunological reagents used to detect the LC3 (Microtubule-associated protein 1A/1B-light chain 3) protein in various biological samples. LC3 is a widely used marker for autophagy, a cellular process involving the degradation and recycling of cellular components. These antibodies can be used in techniques such as Western blotting, immunocytochemistry, and immunohistochemistry to identify and study the expression and localization of the LC3 protein.

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Lab products found in correlation

Poly d lysine, by Merck Group (2 mentions) Laminin, by BD (2 mentions) Anti rabbit alexa 488 labeled secondary antibodies, by Thermo Fisher Scientific (2 mentions)

Spelling variants of this product

Anti-LC3 (85 citations) Rabbit anti-LC3 (21 citations)

2 protocols using rabbit anti lc3 primary antibodies

1

Rat Cortical Neuron Transfection and TDP-43 Immunocytochemistry

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Cortical neurons from rats were isolated as described50 (link) and plated onto 12-mm glass coverslips coated with laminin (BD Biosciences) and poly-D-lysine (Millipore), then transfected at 4 days in vitro with pGW1-mApple and pGW1-TDP43(WT)-EGFP or pGW1-TDP43(A315T)-EGFP. Immunocytochemistry was performed as described50 (link) using rabbit anti-TDP43 polyclonal antibodies (Proteintech; 1:1000) and anti-rabbit Cy5-labeled secondary antibodies (Jackson Immunochemical; 1:250). For LC3 immunocytochemistry, neurons were treated for 24 h at 37°C with the indicated compound or DMSO, then fixed and probed with rabbit anti-LC3 primary antibodies (Novus Biologicals, 1:200), and anti-rabbit Alexa 488-labeled secondary antibodies (Invitrogen, 1:500). Nuclei were stained by a brief incubation in PBS supplemented with Hoechst dye (10 μM final concentration). Immunocytochemical samples were imaged using a Zeiss LSM510 confocal microscope equipped with Meta. The total normalized TDP43 level was determined by comparing the intensity of TDP43 immunolabeling in transfected cells to that in non-transfected cells within the same high-powered (63×) field.
Barmada S.J., Serio A., Arjun A., Bilican B., Daub A., Ando D.M., Tsvetkov A., Pleiss M., Li X., Peisach D., Shaw C., Chandran S, & Finkbeiner S. (2014). Autophagy induction enhances TDP43 turnover and survival in neuronal ALS models. Nature chemical biology, 10(8), 677-685.
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2

Rat Cortical Neuron Transfection and TDP-43 Immunocytochemistry

Check if the same lab product or an alternative is used in the 5 most similar protocols
Cortical neurons from rats were isolated as described50 (link) and plated onto 12-mm glass coverslips coated with laminin (BD Biosciences) and poly-D-lysine (Millipore), then transfected at 4 days in vitro with pGW1-mApple and pGW1-TDP43(WT)-EGFP or pGW1-TDP43(A315T)-EGFP. Immunocytochemistry was performed as described50 (link) using rabbit anti-TDP43 polyclonal antibodies (Proteintech; 1:1000) and anti-rabbit Cy5-labeled secondary antibodies (Jackson Immunochemical; 1:250). For LC3 immunocytochemistry, neurons were treated for 24 h at 37°C with the indicated compound or DMSO, then fixed and probed with rabbit anti-LC3 primary antibodies (Novus Biologicals, 1:200), and anti-rabbit Alexa 488-labeled secondary antibodies (Invitrogen, 1:500). Nuclei were stained by a brief incubation in PBS supplemented with Hoechst dye (10 μM final concentration). Immunocytochemical samples were imaged using a Zeiss LSM510 confocal microscope equipped with Meta. The total normalized TDP43 level was determined by comparing the intensity of TDP43 immunolabeling in transfected cells to that in non-transfected cells within the same high-powered (63×) field.
Barmada S.J., Serio A., Arjun A., Bilican B., Daub A., Ando D.M., Tsvetkov A., Pleiss M., Li X., Peisach D., Shaw C., Chandran S, & Finkbeiner S. (2014). Autophagy induction enhances TDP43 turnover and survival in neuronal ALS models. Nature chemical biology, 10(8), 677-685.
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