This site is for customers in Japan. Customers in other regions, please go to Global page.
HOME > Product search results > Code No. PM036 Anti-LC3 pAb

Code No. PM036

Anti-LC3 pAb

Price

¥48,000

Availability (in Japan)

10 or more

(In Japan at 17:00,
Sep 21, 2019 in JST)

Size

100 µL

Data
  • Western Blotting

  • Western Blotting

  • Immunoprecipitation

  • Immunocytochemistry

  • Immunohistochemistry

Clonality Polyclonal Clone Polyclonal
Isotype (Immunized Animal) Rabbit IgG
Applications
WB
1:1,000  
IP
2 µL/300 µL of cell extract from 1x107 cells  
FCM
1:200  
IC
1:500-1:1,000  
IH
1:1,000-1:2,000  
Other(Immuno-EM)
reported.  (PMID: 28063257
Immunogen (Antigen) recombinant Human LC3 (MAP1LC3B:1-120 a.a.)
Reactivity [Gene ID]

Human[81631/84557], Mouse[67443/66734], Rat[64862/362245], Hamster[100769810], Zebrafish*[406466](28924380/29323117)

Storage buffer PBS/50% glycerol, pH 7.2
Storage temp. -20°C Conjugate Unlabeled Manufacturer MBL
Alternative names MAP1LC3B, LC3B, ATG8F, MAP1LC3B-a, MAP1
Background Macroautophagy mediates the bulk degradation of cytoplasmic components. These components are delivered to lysosomes via autophagosomes. The microtubule-associated protein 1 light chain 3 (LC3), a homologue of yeast Atg8 (Aut7/Apg8), localizes to autophagosomal membranes after post-translational modifications. The C-terminal fragment of LC3 is cleaved immediately following synthesis to yield a cytosolic form called LC3-I. A subpopulation of LC3-I is further converted to an autophagosome-associating form, LC3-II. This antibody can detect both forms of LC3.
Related products PM036-PN Positive control for anti-LC3 antibody
M152-3 Anti-LC3 mAb
M186-3 Anti-LC3 mAb
PD014 Anti-LC3 pAb
PM072 Anti-VMP1 pAb
PM045 Anti-p62 (SQSTM1) pAb
M162-3 Anti-p62 (SQSTM1) (Human) mAb
PM066 Anti-p62 C-terminal pAb
PD017 Anti-Beclin 1 pAb
PM037 Anti-GABARAP pAb
M135-3 Anti-GABARAP mAb
PM038 Anti-GATE-16 pAb
PM039 Anti-Atg7 (Human) pAb
M133-3 Anti-Atg3 mAb
8485 Autophagy Ab Sampler Set
M152-3MS Anti-LC3 mAb for My select sampler set
PM040MS Anti-Atg16L pAb for My select sampler set
M200-3MS Anti-NRF2 mAb for My select sampler set
M153-3 Anti-Atg5 mAb
M150-3 Anti-Atg16L mAb
8486 Autophagy Watch
M134-3 Anti-Atg4B mAb
M150-3MS Anti-Atg16L mAb for My select sampler set
M154-3 Anti-Atg12 (Human) mAb
M162-A48 Anti-p62 (SQSTM1) (Human) mAb-Alexa Fluor® 488
M162-A59 Anti-p62 (SQSTM1) (Human) mAb-Alexa Fluor® 594
M162-A64 Anti-p62 (SQSTM1) (Human) mAb-Alexa Fluor® 647
M186-7 Anti-LC3 mAb-HRP-DirecT
M186-7MS Anti-LC3 mAb-HRP-DirecT for My select sampler set
M200-3 Anti-NRF2 mAb
PM040 Anti-Atg16L pAb
PM050 Anti-Atg5 pAb
Citations

Western Blotting

  1. Saitoh T et al. Loss of the autophagy protein Atg16L1 enhances endotoxin-induced IL-1beta production. Nature 456, 264-8 (2008)(PMID:18849965)
  2. Katona I et al. Distinct pathogenic processes between Fig4-deficient motor and sensory neurons. Eur J Neurosci. 33, 1401-10 (2011)(PMID:21410794)
  3. Lee EJ, Tournier C. The requirement of uncoordinated 51-like kinase 1 (ULK1) and ULK2 in the regulation of autophagy. Autophagy. 7, 689-95 (2011)(PMID:21460635)
  4. Pan JA et al. Inhibition of protein degradation induces apoptosis through a microtubule-associated protein 1 light chain 3-mediated activation of caspase-8 at intracellular membranes. Mol Cell Biol. 31, 3158-70 (2011)(PMID:21628531)
  5. Huang Y et al. PML-RARα enhances constitutive autophagic activity through inhibiting the Akt/mTOR pathway. Autophagy 7, 1132-44 (2011)(PMID:21673516)
  6. Miranda S et al. Beneficial effects of fenofibrate in retinal pigment epithelium by the modulation of stress and survival signaling under diabetic conditions. J Cell Physiol. 227, 2352-62 (2012)(PMID:21826649)
  7. Otomo T et al. Lysosomal storage causes cellular dysfunction in mucolipidosis II skin fibroblasts. J Biol Chem. 286, 35283-90 (2011)(PMID:21846724)
  8. Yan J et al. Methyl-β-cyclodextrin induces programmed cell death in chronic myeloid leukemia cells and, combined with imatinib, produces a synergistic downregulation of ERK/SPK1 signaling. Anticancer Drugs. 23, 22-31 (2012)(PMID:21857502)
  9. Takaesu G et al. TGFβ-activated kinase 1 (TAK1)-binding proteins (TAB) 2 and 3 negatively regulate autophagy. J Biochem. 151, 157-66 (2012)(PMID:21976705)
  10. Taguwa S et al. Dysfunction of autophagy participates in vacuole formation and cell death in cells replicating hepatitis C virus. J Virol. 85, 13185-94 (2011)(PMID:21994453)
  11. Xu T et al. Modulation of autophagic activity by extracellular pH. Autophagy 7, 1316-22 (2011)(PMID:21997366)
  12. Rasmussen SB et al. Activation of autophagy by α-herpesviruses in myeloid cells is mediated by cytoplasmic viral DNA through a mechanism dependent on stimulator of IFN genes. J Immunol. 187, 5268-76 (2011)(PMID:21998456)
  13. Wu SY et al. Ras-related tumorigenesis is suppressed by BNIP3-mediated autophagy through inhibition of cell proliferation. Neoplasia 13, 1171-82 (2011)(PMID:22241963)
  14. Starr T et al. Selective subversion of autophagy complexes facilitates completion of the Brucella intracellular cycle. Cell Host Microbe. 11, 33-45 (2012(PMID:22264511)
  15. Kaini RR et al. Autophagy regulates lipolysis and cell survival through lipid droplet degradation in androgen-sensitive prostate cancer cells. Prostate 72, 1412-22 (2012)(PMID:22294520)
  16. Yu X et al. Differential degradation of full-length and cleaved ataxin-7 fragments in a novel stable inducible SCA7 model. J Mol Neurosci. 47, 219-33 (2012)(PMID:22367614)
  17. Niizuma S et al. Effect of persistent activation of phosphoinositide 3-kinase on heart. Life Sci. 90, 619-28 (2012)(PMID:22391413)
  18. Kaminskyy VO et al. Suppression of basal autophagy reduces lung cancer cell proliferation and enhances caspase-dependent and -independent apoptosis by stimulating ROS formation. Autophagy 8, 1032-44 (2012)(PMID:22562073)
  19. Botbol Y et al. Common γ-chain cytokine signaling is required for macroautophagy induction during CD4+ T-cell activation. Autophagy 11, 1864-77 (2015)(PMID:26391567)
  20. Botbol Y, Macian F. Assays for Monitoring Macroautophagy Activity in T cells. Methods Mol Biol. 1343, 143-53 (2015)(PMID:26420715)
  21. Guo JL et al. The Dynamics and Turnover of Tau Aggregates in Cultured Cells: INSIGHTS INTO THERAPIES FOR TAUOPATHIES. J Biol Chem. 291, 13175-93 (2016)(PMID:27129267)
  22. Sano O et al. Vacuolin-1 inhibits autophagy by impairing lysosomal maturation via PIKfyve inhibition. FEBS Lett. 590, 1576-85 (2016)(PMID:27135648)
  23. Fujita N et al. Genetic screen in Drosophila muscle identifies autophagy-mediated T-tubule remodeling and a Rab2 role in autophagy. Elife. 6, e23367 (2017)(PMID:28063257)
  24. Cao M et al. Parkinson Sac Domain Mutation in Synaptojanin 1 Impairs Clathrin Uncoating at Synapses and Triggers Dystrophic Changes in Dopaminergic Axons. Neuron. 93, 882-896.e5 (2017)(PMID:28231468)
  25. Taguchi Y et al. Novel prosurvival function of Yip1A in human cervical cancer cells: constitutive activation of the IRE1 and PERK pathways of the unfolded protein response. Cell Death Dis. 8, e2718 (2017)(PMID:28358375)
  26. Chen L et al. Fasting-induced hormonal regulation of lysosomal function. Cell Res. 27, 748-763 (2017)(PMID:28374748)
  27. Sakamoto S et al. Mild MPP+ exposure-induced glucose starvation enhances autophagosome synthesis and impairs its degradation. Sci Rep. 7, 46668 (2017)(PMID:28443637)
  28. Arasaki K et al. Legionella effector Lpg1137 shuts down ER-mitochondria communication through cleavage of syntaxin 17. Nat Commun. 8, 15406 (2017)(PMID:28504273)
  29. Takahashi K et al. Disruption of Small GTPase Rab7 Exacerbates the Severity of Acute Pancreatitis in Experimental Mouse Models. Sci Rep. 7, 2817 (2017)(PMID:28588238)
  30. Hori I et al. Defects in autophagosome-lysosome fusion underlie Vici syndrome, a neurodevelopmental disorder with multisystem involvement. Sci Rep. 7, 3552 (2017)(PMID:28615637)
  31. Lu SL et al. Endothelial cells are intrinsically defective in xenophagy of Streptococcus pyogenes. PLoS Pathog. 13, e1006444 (2017)(PMID:28683091)
  32. Ono A et al. Feedback activation of AMPK-mediated autophagy acceleration is a key resistance mechanism against SCD1 inhibitor-induced cell growth inhibition. PLoS One. 12, e0181243 (2017)(PMID:28704514)
  33. Anzai E et al. FOXA1 Induces E-Cadherin Expression at the Protein Level via Suppression of Slug in Epithelial Breast Cancer Cells. Biol Pharm Bull. 40, 1483-1489 (2017)(PMID:28867731)
  34. Zhao Q et al. Dual Roles of Two Isoforms of Autophagy-related Gene ATG10 in HCV-Subgenomic replicon Mediated Autophagy Flux and Innate Immunity. Sci Rep. 7, 11250 (2017)(PMID:28900156)
  35. Meng XH et al. Intracellular Insulin and Impaired Autophagy in a Zebrafish model and a Cell Model of Type 2 diabetes. Int J Biol Sci. 13, 985-995 (2017)(PMID:28924380)
  36. Sato Y et al. Apobec2 deficiency causes mitochondrial defects and mitophagy in skeletal muscle. FASEB J. 32, 1428-1439 (2018)(PMID:29127187)
  37. Lee PP et al. Wiskott-Aldrich syndrome protein regulates autophagy and inflammasome activity in innate immune cells. Nat Commun. 8, 1576 (2017)(PMID:29146903)
  38. Yanagisawa H et al. L-leucine and SPNS1 coordinately ameliorate dysfunction of autophagy in mouse and human Niemann-Pick type C disease. Sci Rep. 7, 15944 (2017)(PMID:29162837)
  39. Hsieh CH et al. A triazole-conjugated benzoxazone induces reactive oxygen species and promotes autophagic apoptosis in human lung cancer cells. Apoptosis. 23, 1-15 (2018)(PMID:29185084)
  40. Prieto-Domínguez N et al. Melatonin enhances sorafenib actions in human hepatocarcinoma cells by inhibiting mTORC1/p70S6K/HIF-1α and hypoxia-mediated mitophagy.(PMID:29207653)
  41. Mizunoe Y et al. Trehalose protects against oxidative stress by regulating the Keap1–Nrf2 and autophagy pathways. Redox Biol. 15, 115-124 (2017)(PMID:29241092)
  42. Festa BP et al. Impaired autophagy bridges lysosomal storage disease and epithelial dysfunction in the kidney. Nat Commun. 9, 161 (2018)(PMID:29323117)
  43. Chu J et al. ATG4B inhibitor FMK-9a induces autophagy independent on its enzyme inhibition. Arch Biochem Biophys. 644, 29-36 (2018)(PMID:29510087)
  44. Kaneko H et al. Taurine is an amino acid with the ability to activate autophagy in adipocytes. Amino Acids. 50, 527-535 (2018)(PMID:29523960)
  45. Sun Y et al. 3′-epi-12β-hydroxyfroside, a new cardenolide, induces cytoprotective autophagy via blocking the Hsp90/Akt/mTOR axis in lung cancer cells. Theranostics 8, 2044-2060 (2018)(PMID:29556372)
  46. El-Darawish Y et al. Frontline Science: IL-18 primes murine NK cells for proliferation by promoting protein synthesis, survival, and autophagy. J Leukoc Biol. 104, 253-264 (2018)(PMID:29603367)
  47. Chen B et al. Comparative Study of Different Diets-Induced NAFLD Models of Zebrafish. Front Endocrinol 9, 366 (2018)(PMID:30026731)
  48. Phadwal K et al. Spermine increases acetylation of tubulins and facilitates autophagic degradation of prion aggregates. Sci Rep. 8, 10004 (2018)(PMID:29968775)
  49. Sun Y et al. Ischemic Postconditioning Alleviates Cerebral Ischemia-Reperfusion Injury Through Activating Autophagy During Early Reperfusion in Rats. Neurochem Res. 43, 1826-1840 (2018)(PMID:30046966)
  50. Bak DH et al. Anti-apoptotic effects of human placental hydrolysate against hepatocyte toxicity in vivo and in vitro. Int J Mol Med. 42, 2569-2583 (2018)(PMID:30132515)
  51. Mohamud Y et al. CALCOCO2/NDP52 and SQSTM1/p62 differentially regulate coxsackievirus B3 propagation. Cell Death Differ. (2018) In press. (PMID:30154446)
  52. Hagio-Izaki K et al. Lipopolysaccharide induces bacterial autophagy in epithelial keratinocytes of the gingival sulcus. BMC Cell Biol. 19, 18 (2018)(PMID:30165815)
  53. Ashraf NS et al. Citalopram reduces aggregation of ATXN3 in a YAC transgenic mouse model of Machado-Joseph disease. Mol Neurobiol. (2018) In press.(PMID:30187384)
  54. Lu SZ et al. Suppression of astrocytic autophagy by αB-crystallin contributes to α-synuclein inclusion formation. Transl Neurodegener. 8, 3 (2019) (PMID:30675347)
  55. Ma B et al. The SIAH2-NRF1 axis spatially regulates tumor microenvironment remodeling for tumor progression. Nat Commun. 10, 1034 (2019)(PMID:30833558)
  56. Hsu YH et al. Traffic-related particulate matter exposure induces nephrotoxicity in vitro and in vivo. Free Radic Biol Med. 135, 235-244 (2019)(PMID:30878646)
  57. Eid N et al. Ethanol-Induced Mitochondrial Damage in Sertoli Cells is Associated with Parkin Overexpression and Activation of Mitophagy. Cells. 8, pii: E283 (2019)(PMID:30934625)
  58. Ding X et al. RAB2 regulates the formation of autophagosome and autolysosome in mammalian cells. Autophagy. 15, 1774-1786 (2019)(PMID:30957628)
  59. Slowicka K et al. Physical and functional interaction between A20 and ATG16L1-WD40 domain in the control of intestinal homeostasis. Nat Commun. 10, 1834 (2019)(PMID:31015422)

Immunoprecipitation

  1. Botbol Y et al. Common γ-chain cytokine signaling is required for macroautophagy induction during CD4+ T-cell activation. Autophagy 11, 1864-77 (2015)(PMID:26391567)

Immunocytochemistry

  1. Wu YN et al. The selective growth inhibition of oral cancer by iron core-gold shell nanoparticles through mitochondria-mediated autophagy. Biomaterials. 32, 4565-73 (2011)(PMID:21458061)
  2. Yan J et al. Methyl-β-cyclodextrin induces programmed cell death in chronic myeloid leukemia cells and, combined with imatinib, produces a synergistic downregulation of ERK/SPK1 signaling. Anticancer Drugs. 23, 22-31 (2012)(PMID:21857502)
  3. Taguwa S et al. Dysfunction of autophagy participates in vacuole formation and cell death in cells replicating hepatitis C virus. J Virol. 85, 13185-94 (2011)(PMID:21994453)
  4. Rasmussen SB et al. Activation of autophagy by α-herpesviruses in myeloid cells is mediated by cytoplasmic viral DNA through a mechanism dependent on stimulator of IFN genes. J Immunol. 187, 5268-76 (2011)(PMID:21998456)
  5. Starr T et al. Selective subversion of autophagy complexes facilitates completion of the Brucella intracellular cycle. Cell Host Microbe. 11, 33-45 (2012)(PMID:22264511)
  6. Seillier M et al. TP53INP1, a tumor suppressor, interacts with LC3 and ATG8-family proteins through the LC3-interacting region (LIR) and promotes autophagy-dependent cell death. Cell Death Differ. 19, 1525-35 (2012)(PMID:22421968)
  7. Kaminskyy VO et al. Suppression of basal autophagy reduces lung cancer cell proliferation and enhances caspase-dependent and -independent apoptosis by stimulating ROS formation. Autophagy 8, 1032-44 (2012)(PMID:22562073)
  8. Botbol Y et al. Common γ-chain cytokine signaling is required for macroautophagy induction during CD4+ T-cell activation. Autophagy 11, 1864-77 (2015)(PMID:26391567)
  9. Botbol Y, Macian F. Assays for Monitoring Macroautophagy Activity in T cells. Methods Mol Biol. 1343, 143-53 (2015)(PMID:26420715)
  10. Cherepkova MY et al. Leukemia inhibitory factor (LIF) withdrawal activates mTOR signaling pathway in mouse embryonic stem cells through the MEK/ERK/TSC2 pathway. Cell Death Dis. 7, e2050 (2016)(PMID:26775702)
  11. Guo JL et al. The Dynamics and Turnover of Tau Aggregates in Cultured Cells: INSIGHTS INTO THERAPIES FOR TAUOPATHIES. J Biol Chem. 291, 13175-93 (2016)(PMID:27129267)
  12. Fujita N et al. Genetic screen in Drosophila muscle identifies autophagy-mediated T-tubule remodeling and a Rab2 role in autophagy. Elife. 6, e23367 (2017)(PMID:28063257)
  13. Girault V et al. Prenatal alcohol exposure impairs autophagy in neonatal brain cortical microvessels. Cell Death Dis. 8, e2610 (2017)(PMID:28182007)
  14. Kim TS et al. Ohmyungsamycins promote antimicrobial responses through autophagy activation via AMP-activated protein kinase pathway. Sci Rep. 7, 3431 (2017)(PMID:28611371)
  15. Raulien N et al. Fatty Acid Oxidation Compensates for Lipopolysaccharide-Induced Warburg Effect in Glucose-Deprived Monocytes. Front Immunol. 8, 609 (2017)
  16. Hori I et al. Defects in autophagosome-lysosome fusion underlie Vici syndrome, a neurodevelopmental disorder with multisystem involvement. Sci Rep. 7, 3552 (2017)(PMID:28615637)
  17. Lu SL et al. Endothelial cells are intrinsically defective in xenophagy of Streptococcus pyogenes. PLoS Pathog. 13, e1006444 (2017)(PMID:28683091)
  18. Ono A et al. Feedback activation of AMPK-mediated autophagy acceleration is a key resistance mechanism against SCD1 inhibitor-induced cell growth inhibition. PLoS One. 12, e0181243 (2017)(PMID:28704514)
  19. Chen YD et al. Exophagy of annexin A2 via RAB11, RAB8A and RAB27A in IFN-γ-stimulated lung epithelial cells. Sci Rep. 7, 5676 (2017)(PMID:28720835)
  20. Cheng YL et al. Galectin-3 Inhibits Galectin-8/Parkin-Mediated Ubiquitination of Group A Streptococcus. MBio. 8, e00899-17 (2017)(PMID:28743815)
  21. Kjos I et al. Rab7b modulates autophagic flux by interacting with Atg4B. EMBO Rep. 18, 1727-1739 (2017)(PMID:28835545)
  22. Meng XH et al. Intracellular Insulin and Impaired Autophagy in a Zebrafish model and a Cell Model of Type 2 diabetes. Int J Biol Sci. 13, 985-995 (2017)(PMID:28924380)
  23. Wang Y et al. Mitochondrial Fission Promotes the Continued Clearance of Apoptotic Cells by Macrophages. Cell 171, 331-345.e22 (2017)(PMID:28942921)
  24. Lee PP et al. Wiskott-Aldrich syndrome protein regulates autophagy and inflammasome activity in innate immune cells. Nat Commun. 8, 1576 (2017)(PMID:29146903)
  25. Yanagisawa H et al. L-leucine and SPNS1 coordinately ameliorate dysfunction of autophagy in mouse and human Niemann-Pick type C disease. Sci Rep. 7, 15944 (2017)(PMID:29162837)
  26. Hsu CL et al. MAP4K3 mediates amino acid-dependent regulation of autophagy via phosphorylation of TFEB. Nat Commun. 9, 942 (2018)(PMID:29507340)
  27. Sun Y et al. 3′-epi-12β-hydroxyfroside, a new cardenolide, induces cytoprotective autophagy via blocking the Hsp90/Akt/mTOR axis in lung cancer cells. Theranostics 8, 2044-2060 (2018)(PMID:29556372)
  28. El-Darawish Y et al. Frontline Science: IL-18 primes murine NK cells for proliferation by promoting protein synthesis, survival, and autophagy. J Leukoc Biol. 104, 253-264 (2018)(PMID:29603367)
  29. Raulien N et al. Fatty Acid Oxidation Compensates for Lipopolysaccharide-Induced Warburg Effect in Glucose-Deprived Monocytes. Front Immunol. 8, 609 (2017)(PMID:28611773)
  30. Härtlova A et al. LRRK2 is a negative regulator of Mycobacterium tuberculosis phagosome maturation in macrophages. EMBO J. 37, e98694 (2018)(PMID:29789389)
  31. Phadwal K et al. Spermine increases acetylation of tubulins and facilitates autophagic degradation of prion aggregates. Sci Rep. 8, 10004 (2018)(PMID:29968775)
  32. Skah S et al. cAMP-mediated autophagy inhibits DNA damage-induced death of leukemia cells independent of p53. Oncotarget 9, 30434–30449 (2018)(PMID:30100998)
  33. Hagio-Izaki K et al. Lipopolysaccharide induces bacterial autophagy in epithelial keratinocytes of the gingival sulcus. BMC Cell Biol. 19, 18 (2018)(PMID:30165815)
  34. Jiao YN et al. Marsdenia tenacissima extract induces apoptosis and suppresses autophagy through ERK activation in lung cancer cells. Cancer Cell Int. 18, 149 (2018)(PMID:30275772)
  35. Kim JK et al. GABAergic signaling linked to autophagy enhances host protection against intracellular bacterial infections. Nat Commun. 9, 4184 (2018)(PMID:30305619)
  36. Mori H et al. Induction of selective autophagy in cells replicating hepatitis C virus genome. J Gen Virol. 99, 1643-1657 (2018)(PMID:30311874)
  37. Janssen AFJ et al. Probing aggrephagy using chemically-induced protein aggregates. Nat Commun. 9, 4245 (2018)(PMID:30315152)
  38. Schulthess J et al. The Short Chain Fatty Acid Butyrate Imprints an Antimicrobial Program in Macrophages. Immunity. 50, 432-445.e7 (2019)(PMID:30683619)
  39. Ma B et al. The SIAH2-NRF1 axis spatially regulates tumor microenvironment remodeling for tumor progression. Nat Commun. 10, 1034 (2019)(PMID:30833558)
  40. Ding X et al. RAB2 regulates the formation of autophagosome and autolysosome in mammalian cells. Autophagy. 15, 1774-1786 (2019)(PMID:30957628)

Immunohistochemistry

  1. Hasui K et al. Enhanced Autophagy and Reduced Expression of Cathepsin D Are Related to Autophagic Cell Death in Epstein-Barr Virus-Associated Nasal Natural Killer/T-Cell Lymphomas: An Immunohistochemical Analysis of Beclin-1, LC3, Mitochondria (AE-1), and Cathepsin D in Nasopharyngeal Lymphomas. Acta Histochem Cytochem. 44, 119-31 (2011)(PMID:21753858)
  2. Girault V et al. Prenatal alcohol exposure impairs autophagy in neonatal brain cortical microvessels. Cell Death Dis. 8, e2610 (2017)(PMID:28182007)
  3. Qi M et al. ERK inhibition represses gefitinib resistance in non-small cell lung cancer cells. Oncotarget. 9, 12020-12034 (2018)(PMID:29552290)
  4. Ko PY et al. Schwann-Cell Autophagy, Functional Recovery, and Scar Reduction After Peripheral Nerve Repair. J Mol Neurosci. 64, 601-610 (2018)(PMID:29644600)
  5. Alvarez-Garcia O et al. FOXO are required for intervertebral disk homeostasis during aging and their deficiency promotes disk degeneration. Aging Cell. 17, e12800 (2018)(PMID:29963746)
  6. Horibe A et al. Ethanol-Induced Autophagy in Sertoli Cells Is Specifically Marked at Androgen-Dependent Stages of the Spermatogenic Cycle: Potential Mechanisms and Implications. Int J Mol Sci. 20, pii: E184 (2019)(PMID:30621351)
  7. Lu SZ et al. Suppression of astrocytic autophagy by αB-crystallin contributes to α-synuclein inclusion formation. Transl Neurodegener. 8, 3 (2019)(PMID:30675347)
  8. Hsu YH et al. Traffic-related particulate matter exposure induces nephrotoxicity in vitro and in vivo. Free Radic Biol Med. 135, 235-244 (2019)(PMID:30878646)
  9. Eid N et al. Ethanol-Induced Mitochondrial Damage in Sertoli Cells is Associated with Parkin Overexpression and Activation of Mitophagy. Cells. 8, pii: E283 (2019)(PMID:30934625)

Immunofluorescence

  1. Nakajima S et al. Fat-specific protein 27α inhibits autophagy-dependent lipid droplet breakdown in white adipocytes. J Diabetes Investig. in press.(PMID:30927519)

Other(Immuno-EM)

  1. Fujita N et al. Genetic screen in Drosophila muscle identifies autophagy-mediated T-tubule remodeling and a Rab2 role in autophagy. Elife. 6, e23367 (2017)(PMID:28063257)
  2. Eid N et al. Ethanol-Induced Mitochondrial Damage in Sertoli Cells is Associated with Parkin Overexpression and Activation of Mitophagy. Cells. 8, pii: E283 (2019)(PMID:30934625)
Product category
Research area
Autophagy
Tools
Molecular pathology tools
Brands
この製品に関するお問い合わせをする

  • The availability is based on the information in Japan at 17:00, Sep 21, 2019 in JST.
  • The special price is shown in red color.
  • Please note that products cannot be ordered from this website. To purchase the items listed in this website, please contact us or local distributers.
  • Abbreviations for applications:
    WB: Western Blotting, IH: Immunohistochemistry, IC: Immunocytochemistry, IP: Immunoprecipitation
    FCM: Flow Cytometry, NT: Neutralization, IF: Immunofluorescence, RIP: RNP Immunoprecipitation
    ChIP: Chromatin Immunoprecipitation, CoIP: Co-Immunoprecipitation
    DB: Dot Blotting, NB: Northern Blotting, RNA FISH: RNA Fluorescence in situ hybridization
  • For applications and reactivity:
    *: The use is reported in a research article (Not tested by MBL). Please check the data sheet for detailed information.
    **: The use is reported from the licenser (Under evaluation or not tested by MBL).
  • For storage temparature: RT: room temparature
  • Please note that products in this website might be changed or discontinued without notification in advance for quality improvement.