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AB106542

Anti-AP2M1 antibody

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(4 Publications)

Chicken Polyclonal AP2M1 antibody. Suitable for WB, IHC-P, ICC/IF and reacts with Human samples. Cited in 4 publications. Immunogen corresponding to Synthetic Peptide within Human AP2M1.

View Alternative Names

CLAPM1, KIAA0109, AP2M1, AP-2 complex subunit mu, AP-2 mu chain, Adaptin-mu2, Adaptor protein complex AP-2 subunit mu, Adaptor-related protein complex 2 subunit mu, Clathrin assembly protein complex 2 mu medium chain, Clathrin coat assembly protein AP50, Clathrin coat-associated protein AP50, HA2 50 kDa subunit, Plasma membrane adaptor AP-2 50 kDa protein

1 Images
Western blot - Anti-AP2M1 antibody (AB106542)
  • WB

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Western blot - Anti-AP2M1 antibody (AB106542)

Lane 1:

Western blot - Anti-AP2M1 antibody (ab106542) at 1 µg/mL

Lane 2:

Western blot - Anti-AP2M1 antibody (ab106542) at 2 µg/mL

All lanes:

Human kidney tissue lysate at 15 µg

Predicted band size: 49 kDa

false

Key facts

Host species

Chicken

Clonality

Polyclonal

Isotype

IgY

Carrier free

No

Reacts with

Human

Applications

ICC/IF, WB, IHC-P

applications

Immunogen

Synthetic Peptide within Human AP2M1. The exact immunogen used to generate this antibody is proprietary information.

Q96CW1

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Reactivity data

{ "title": "Reactivity Data", "filters": { "stats": ["", "Species", "Dilution Info", "Notes"], "tabs": { "all-applications": {"fullname" : "All Applications", "shortname": "All Applications"}, "WB" : {"fullname" : "Western blot", "shortname":"WB"}, "IHCP" : {"fullname" : "Immunohistochemistry (Formalin/PFA-fixed paraffin-embedded sections)", "shortname":"IHC-P"}, "ICCIF" : {"fullname" : "Immunocytochemistry/ Immunofluorescence", "shortname":"ICC/IF"} }, "product-promise": { "all": "all", "testedAndGuaranteed": "tested", "guaranteed": "expected", "predicted": "predicted", "notRecommended": "not-recommended" } }, "values": { "Human": { "WB-species-checked": "testedAndGuaranteed", "WB-species-dilution-info": "1-2 µg/mL", "WB-species-notes": "<p></p>", "IHCP-species-checked": "guaranteed", "IHCP-species-dilution-info": "", "IHCP-species-notes": "<p></p>", "ICCIF-species-checked": "guaranteed", "ICCIF-species-dilution-info": "", "ICCIF-species-notes": "<p></p>" } } }
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Properties and storage information

Form
Liquid
Purification technique
Affinity purification Immunogen
Storage buffer
pH: 7.2 Preservative: 0.02% Sodium azide Constituents: PBS
Shipped at conditions
Blue Ice
Appropriate short-term storage duration
Up to 12 months
Appropriate short-term storage conditions
+4°C
Appropriate long-term storage conditions
-20°C
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Supplementary information

This supplementary information is collated from multiple sources and compiled automatically.

The protein AP2M1 also known as AP-2 complex subunit mu plays an important role in clathrin-mediated endocytosis. It weighs approximately 50 kDa. AP2M1 is mainly expressed in different cell types including neuronal epithelial and fibroblast cells. This protein is part of the adaptor protein (AP) complex family specifically the AP-2 complex which facilitates the recruitment of clathrin and cargo proteins to form clathrin-coated vesicles at the plasma membrane.
Biological function summary

The AP2M1 protein is involved in the sorting and trafficking of membrane proteins and lipids. It functions as part of the AP-2 complex a heterotetrameric assembly composed of two large adaptins a medium chain (mu) adaptin like AP2M1 and a small chain adaptin. This complex helps recognize and bind specific sorting signals found on the cytosolic tails of transmembrane cargo proteins allowing their incorporation into forming vesicles during endocytosis.

Pathways

AP2M1 contributes significantly to the endocytic pathway and the regulation of receptor-mediated signaling. Involvement with the insulin signaling pathway highlights its role in internalizing insulin receptors and modulating insulin sensitivity. AP2M1 interacts with other proteins such as clathrin which influences the assembly of clathrin-coated pits at the cell membrane and also with accessory proteins like dynamin facilitating the fission of vesicles during endocytosis.

Research associates AP2M1 with neurodegenerative diseases such as Alzheimer's disease due to its role in synaptic vesicle recycling and endocytosis affecting neuron function. It also relates to metabolic disorders like diabetes as improper function or regulation of AP2M1 can impact insulin receptor internalization and downstream signaling. Other proteins connected to AP2M1 through these disorders include clathrin and dynamin which are pivotal for maintaining the integrity of cellular transport mechanisms.
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Product protocols

For this product, it's our understanding that no specific protocols are required. You can visit:
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Target data

Component of the adaptor protein complex 2 (AP-2) (PubMed : 12694563, PubMed : 12952941, PubMed : 14745134, PubMed : 14985334, PubMed : 15473838, PubMed : 31104773). Adaptor protein complexes function in protein transport via transport vesicles in different membrane traffic pathways (PubMed : 12694563, PubMed : 12952941, PubMed : 14745134, PubMed : 14985334, PubMed : 15473838, PubMed : 31104773). Adaptor protein complexes are vesicle coat components and appear to be involved in cargo selection and vesicle formation (PubMed : 12694563, PubMed : 12952941, PubMed : 14745134, PubMed : 14985334, PubMed : 15473838, PubMed : 31104773). AP-2 is involved in clathrin-dependent endocytosis in which cargo proteins are incorporated into vesicles surrounded by clathrin (clathrin-coated vesicles, CCVs) which are destined for fusion with the early endosome (PubMed : 12694563, PubMed : 12952941, PubMed : 14745134, PubMed : 14985334, PubMed : 15473838, PubMed : 31104773). The clathrin lattice serves as a mechanical scaffold but is itself unable to bind directly to membrane components (PubMed : 12694563, PubMed : 12952941, PubMed : 14745134, PubMed : 14985334, PubMed : 15473838, PubMed : 31104773). Clathrin-associated adaptor protein (AP) complexes which can bind directly to both the clathrin lattice and to the lipid and protein components of membranes are considered to be the major clathrin adaptors contributing the CCV formation (PubMed : 12694563, PubMed : 12952941, PubMed : 14745134, PubMed : 14985334, PubMed : 15473838, PubMed : 31104773). AP-2 also serves as a cargo receptor to selectively sort the membrane proteins involved in receptor-mediated endocytosis (PubMed : 16581796). AP-2 seems to play a role in the recycling of synaptic vesicle membranes from the presynaptic surface (PubMed : 12694563, PubMed : 12952941, PubMed : 14745134, PubMed : 14985334, PubMed : 15473838, PubMed : 31104773). AP-2 recognizes Y-X-X-[FILMV] (Y-X-X-Phi) and [ED]-X-X-X-L-[LI] endocytosis signal motifs within the cytosolic tails of transmembrane cargo molecules (By similarity). AP-2 may also play a role in maintaining normal post-endocytic trafficking through the ARF6-regulated, non-clathrin pathway (PubMed : 19033387). During long-term potentiation in hippocampal neurons, AP-2 is responsible for the endocytosis of ADAM10 (PubMed : 23676497). The AP-2 mu subunit binds to transmembrane cargo proteins; it recognizes the Y-X-X-Phi motifs (By similarity). The surface region interacting with to the Y-X-X-Phi motif is inaccessible in cytosolic AP-2, but becomes accessible through a conformational change following phosphorylation of AP-2 mu subunit at Thr-156 in membrane-associated AP-2 (PubMed : 11877457). The membrane-specific phosphorylation event appears to involve assembled clathrin which activates the AP-2 mu kinase AAK1 (PubMed : 11877457). Plays a role in endocytosis of frizzled family members upon Wnt signaling (By similarity).
See full target information AP2M1
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Publications (4)

Recent publications for all applications. Explore the full list and refine your search

Cell reports 41:111766 PubMed36476872

2022

Hippo-released WWC1 facilitates AMPA receptor regulatory complexes for hippocampal learning.

Applications

Unspecified application

Species

Unspecified reactive species

Jens Stepan,Daniel E Heinz,Frederik Dethloff,Thomas Bajaj,Andreas Zellner,Kathrin Hafner,Svenja Wiechmann,Sarah Mackert,Yara Mecdad,Michael Rabenstein,Tim Ebert,Silvia Martinelli,Alexander S Häusl,Maximilian L Pöhlmann,Anke Hermann,Xiao Ma,Hermann Pavenstädt,Mathias V Schmidt,Alexandra Philipsen,Chris W Turck,Jan M Deussing,Bernhard Kuster,Michael C Wehr,Valentin Stein,Joachim Kremerskothen,Carsten T Wotjak,Nils C Gassen

European journal of pain (London, England) 26:991-1005 PubMed35138669

2022

Electroacupuncture relieves neuropathic pain by inhibiting degradation of the ecto-nucleotidase PAP in the dorsal root ganglions of CCI mice.

Applications

Unspecified application

Species

Unspecified reactive species

Xiaoxin Zhou,Wanbing Dai,Yi Qin,Siyi Qi,Yizhe Zhang,Weitian Tian,Xiyao Gu,Beijie Zheng,Jie Xiao,Weifeng Yu,Xuemei Chen,Diansan Su

Traffic (Copenhagen, Denmark) 21:603-616 PubMed32657003

2020

An internally eGFP-tagged α-adaptin is a fully functional and improved fiduciary marker for clathrin-coated pit dynamics.

Applications

Unspecified application

Species

Unspecified reactive species

Rosa E Mino,Zhiming Chen,Marcel Mettlen,Sandra L Schmid

Molecular and cellular biology 33:4308-20 PubMed24001769

2013

SORLA-dependent and -independent functions for PACS1 in control of amyloidogenic processes.

Applications

Unspecified application

Species

Unspecified reactive species

Tilman Burgert,Vanessa Schmidt,Safak Caglayan,Fuyu Lin,Annette Füchtbauer,Ernst-Martin Füchtbauer,Anders Nykjaer,Anne-Sophie Carlo,Thomas E Willnow
View all publications
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Product promise

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