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MUC1 Glycopeptide Array 1

10615

From: $2,160.00

The MUC1 glycopeptide array 1 enables researchers to screen a MUC1 glycopeptide library. This upgraded version features 93 MUC1 glycopeptides and one unglycosylated control peptide, each 23-mer in length and modified with Tn (GalNAc-Ser or -Thr), STn (Neu5Ac-6-GalNAc-Ser or -Thr), and/or T (Gal-3-GalNAc-Ser or -Thr). The array facilitates the identification, profiling, and comparison of specific antibody responses, as well as the detection and validation of protein interactions with various MUC1 glycoforms. The MUC1 glycopeptide array can be customized to meet the specific needs of individual clients. Assay services and custom synthesis of various MUC1 glycopeptides are available upon request.

Explore the MUC1 Glycopeptide Array 2, which includes additional ST, Core 2, and diST glycopeptides.

SKU: 10615 Category:
Description
Structures
Examples
Document

Description

Mucin 1 (MUC1) is a transmembrane glycoprotein. It is one of the several proteins that make up mucus. The extracellular domain of MUC1 comprises a variable number of 20-amino-acid tandem repeats that are highly O-glycosylated. In each O-glycosite, α-N-acetylgalactosamine (GalNAc, Tn) is first attached to the hydroxyl group of threonine (Thr) and serine (Ser) of the tandem repeats, which are further extended with galactose (Gal), N-acetylglucosamine (GlcNAc), or GalNAc to form eight different core structures. These structures can be further modified by sialylation, sulfation, acetylation, fucosylation, and polylactosamine extensions.

MUC1 is expressed on the surface of normal epithelial cells, and changes in glycosylation patterns occur in various pathological conditions. For example, aberrant glycosylation of MUC1 prevents cancer cells from forming core 2-based glycans. Therefore, cancer-associated MUC1 is hypoglycosylated with short carbohydrate structures such as Tn (GalNAc-Ser or -Thr) and STn (Neu5Ac-6-GalNAc-Thr). This unique feature makes MUC1 an ideal cancer-specific antigen for therapeutic development.

ZBiotech has developed a robust microarray platform that allows researchers to screen a large MUC1 glycopeptide library. The current MUC1 glycopeptide array 1 includes 93 MUC1 glycopeptides and 1 unglycosylated control peptide. Each glycopeptide is 23-mer in length and modified with Tn (GalNAc-Ser or -Thr), STn (Neu5Ac-6-GalNAc-Ser or -Thr) and/or T (Gal-3-GalNAc-Ser or -Thr). This microarray allows researchers to identify, profile, and compare specific antibody responses and detect and validate protein interactions with various MUC1 glycoforms. This array is highly sensitive with low background. The MUC1 glycopeptide array can be customized to meet individual client needs. Assay services are available upon request. We also provide services to synthesize various MUC1 glycopeptides.

Features

  • Unrivaled sensitivity and specificity;
  • Simple assay format;
  • Small sample volume;
  • Customizable (select MUC1 peptides and/or glycopeptides for a specific microarray format)
  • Assay service available;

Applications

  • Serological screening of disease-associated autoantibodies binding to MUC1 glycopeptides;
  • Map unique MUC1 glycopeptide epitopes to determine carbohydrate specificities of antibodies;
  • Evaluate binding specificities of MUC1-interacting proteins, vesicles, cells, and viral particles.

Structures

List of MUC1 glycopeptide sequences on the array (download the PDF)

# Sequence
1 NH2-PPAHGV{GalNAca}TSAPDTRPAPGSTAPPA-OH
2 NH2-PPAHGVT{GalNAca}SAPDTRPAPGSTAPPA-OH
3 NH2-PPAHGVTSAPD{GalNAca}TRPAPGSTAPPA-OH
4 NH2-PPAHGVTSAPDTRPAPG{GalNAca}STAPPA-OH
5 NH2-PPAHGVTSAPDTRPAPGS{GalNAca}TAPPA-OH
6 NH2-PPAHGV{GalNAca}T{GalNAca}SAPDTRPAPGSTAPPA-OH
7 NH2-PPAHGV{GalNAca}TSAPD{GalNAca}TRPAPGSTAPPA-OH
8 NH2-PPAHGV{GalNAca}TSAPDTRPAPG{GalNAca}STAPPA-OH
9 NH2-PPAHGV{GalNAca}TSAPDTRPAPGS{GalNAca}TAPPA-OH
10 NH2-PPAHGVT{GalNAca}SAPD{GalNAca}TRPAPGSTAPPA-OH
11 NH2-PPAHGVT{GalNAca}SAPDTRPAPG{GalNAca}STAPPA-OH
12 NH2-PPAHGVT{GalNAca}SAPDTRPAPGS{GalNAca}TAPPA-OH
13 NH2-PPAHGVTSAPD{GalNAca}TRPAPG{GalNAca}STAPPA-OH
14 NH2-PPAHGVTSAPD{GalNAca}TRPAPGS{GalNAca}TAPPA-OH
15 NH2-PPAHGVTSAPDTRPAPG{GalNAca}S{GalNAca}TAPPA-OH
16 NH2-PPAHGV{GalNAca}T{GalNAca}SAPD{GalNAca}TRPAPGSTAPPA-OH
17 NH2-PPAHGV{GalNAca}T{GalNAca}SAPDTRPAPG{GalNAca}STAPPA-OH
18 NH2-PPAHGV{GalNAca}T{GalNAca}SAPDTRPAPGS{GalNAca}TAPPA-OH
19 NH2-PPAHGV{GalNAca}TSAPD{GalNAca}TRPAPG{GalNAca}STAPPA-OH
20 NH2-PPAHGV{GalNAca}TSAPD{GalNAca}TRPAPGS{GalNAca}TAPPA-OH
21 NH2-PPAHGV{GalNAca}TSAPDTRPAPG{GalNAca}S{GalNAca}TAPPA-OH
22 NH2-PPAHGVT{GalNAca}SAPD{GalNAca}TRPAPG{GalNAca}STAPPA-OH
23 NH2-PPAHGVT{GalNAca}SAPD{GalNAca}TRPAPGS{GalNAca}TAPPA-OH
24 NH2-PPAHGVT{GalNAca}SAPDTRPAPG{GalNAca}S{GalNAca}TAPPA-OH
25 NH2-PPAHGVTSAPD{GalNAca}TRPAPG{GalNAca}S{GalNAca}TAPPA-OH
26 NH2-PPAHGV{GalNAca}T{GalNAca}SAPD{GalNAca}TRPAPG{GalNAca}STAPPA-OH
27 NH2-PPAHGV{GalNAca}T{GalNAca}SAPD{GalNAca}TRPAPGS{GalNAca}TAPPA-OH
28 NH2-PPAHGV{GalNAca}T{GalNAca}SAPDTRPAPG{GalNAca}S{GalNAca}TAPPA-OH
29 NH2-PPAHGV{GalNAca}TSAPD{GalNAca}TRPAPG{GalNAca}S{GalNAca}TAPPA-OH
30 NH2-PPAHGVT{GalNAca}SAPD{GalNAca}TRPAPG{GalNAca}S{GalNAca}TAPPA-OH
31 NH2-PPAHGV{GalNAca}T{GalNAca}SAPD{GalNAca}TRPAPG{GalNAca}S{GalNAca}TAPPA-OH
32 NH2-PPAHGV{Neu5Aca2-6GalNAca}TSAPDTRPAPGSTAPPA-OH
33 NH2-PPAHGVT{Neu5Aca2-6GalNAca}SAPDTRPAPGSTAPPA-OH
34 NH2-PPAHGVTSAPD{Neu5Aca2-6GalNAca}TRPAPGSTAPPA-OH
35 NH2-PPAHGVTSAPDTRPAPG{Neu5Aca2-6GalNAca}STAPPA-OH
36 NH2-PPAHGVTSAPDTRPAPGS{Neu5Aca2-6GalNAca}TAPPA-OH
37 NH2-PPAHGV{Neu5Aca2-6GalNAca}T{Neu5Aca2-6GalNAca}SAPDTRPAPGSTAPPA-OH
38 NH2-PPAHGV{Neu5Aca2-6GalNAca}TSAPD{Neu5Aca2-6GalNAca}TRPAPGSTAPPA-OH
39 NH2-PPAHGV{Neu5Aca2-6GalNAca}TSAPDTRPAPG{Neu5Aca2-6GalNAca}STAPPA-OH
40 NH2-PPAHGV{Neu5Aca2-6GalNAca}TSAPDTRPAPGS{Neu5Aca2-6GalNAca}TAPPA-OH
41 NH2-PPAHGVT{Neu5Aca2-6GalNAca}SAPD{Neu5Aca2-6GalNAca}TRPAPGSTAPPA-OH
42 NH2-PPAHGVT{Neu5Aca2-6GalNAca}SAPDTRPAPG{Neu5Aca2-6GalNAca}STAPPA-OH
43 NH2-PPAHGVT{Neu5Aca2-6GalNAca}SAPDTRPAPGS{Neu5Aca2-6GalNAca}TAPPA-OH
44 NH2-PPAHGVTSAPD{Neu5Aca2-6GalNAca}TRPAPG{Neu5Aca2-6GalNAca}STAPPA-OH
45 NH2-PPAHGVTSAPD{Neu5Aca2-6GalNAca}TRPAPGS{Neu5Aca2-6GalNAca}TAPPA-OH
46 NH2-PPAHGVTSAPDTRPAPG{Neu5Aca2-6GalNAca}S{Neu5Aca2-6GalNAca}TAPPA-OH
47 NH2-PPAHGV{Neu5Aca2-6GalNAca}T{Neu5Aca2-6GalNAca}SAPD{Neu5Aca2-6GalNAca}TRPAPGSTAPPA-OH
48 NH2-PPAHGV{Neu5Aca2-6GalNAca}T{Neu5Aca2-6GalNAca}SAPDTRPAPG{Neu5Aca2-6GalNAca}STAPPA-OH
49 NH2-PPAHGV{Neu5Aca2-6GalNAca}T{Neu5Aca2-6GalNAca}SAPDTRPAPGS{Neu5Aca2-6GalNAca}TAPPA-OH
50 NH2-PPAHGV{Neu5Aca2-6GalNAca}TSAPD{Neu5Aca2-6GalNAca}TRPAPG{Neu5Aca2-6GalNAca}STAPPA-OH
51 NH2-PPAHGV{Neu5Aca2-6GalNAca}TSAPD{Neu5Aca2-6GalNAca}TRPAPGS{Neu5Aca2-6GalNAca}TAPPA-OH
52 NH2-PPAHGV{Neu5Aca2-6GalNAca}TSAPDTRPAPG{Neu5Aca2-6GalNAca}S{Neu5Aca2-6GalNAca}TAPPA-OH
53 NH2-PPAHGVT{Neu5Aca2-6GalNAca}SAPD{Neu5Aca2-6GalNAca}TRPAPG{Neu5Aca2-6GalNAca}STAPPA-OH
54 NH2-PPAHGVT{Neu5Aca2-6GalNAca}SAPD{Neu5Aca2-6GalNAca}TRPAPGS{Neu5Aca2-6GalNAca}TAPPA-OH
55 NH2-PPAHGVT{Neu5Aca2-6GalNAca}SAPDTRPAPG{Neu5Aca2-6GalNAca}S{Neu5Aca2-6GalNAca}TAPPA-OH
56 NH2-PPAHGVTSAPD{Neu5Aca2-6GalNAca}TRPAPG{Neu5Aca2-6GalNAca}S{Neu5Aca2-6GalNAca}TAPPA-OH
57 NH2-PPAHGV{Neu5Aca2-6GalNAca}T{Neu5Aca2-6GalNAca}SAPD{Neu5Aca2-6GalNAca}TRPAPG{Neu5Aca2-6GalNAca}STAPPA-OH
58 NH2-PPAHGV{Neu5Aca2-6GalNAca}T{Neu5Aca2-6GalNAca}SAPD{Neu5Aca2-6GalNAca}TRPAPGS{Neu5Aca2-6GalNAca}TAPPA-OH
59 NH2-PPAHGV{Neu5Aca2-6GalNAca}T{Neu5Aca2-6GalNAca}SAPDTRPAPG{Neu5Aca2-6GalNAca}S{Neu5Aca2-6GalNAca}TAPPA-OH
60 NH2-PPAHGV{Neu5Aca2-6GalNAca}TSAPD{Neu5Aca2-6GalNAca}TRPAPG{Neu5Aca2-6GalNAca}S{Neu5Aca2-6GalNAca}TAPPA-OH
61 NH2-PPAHGVT{Neu5Aca2-6GalNAca}SAPD{Neu5Aca2-6GalNAca}TRPAPG{Neu5Aca2-6GalNAca}S{Neu5Aca2-6GalNAca}TAPPA-OH
62 NH2-PPAHGV{Neu5Aca2-6GalNAca}T{Neu5Aca2-6GalNAca}SAPD{Neu5Aca2-6GalNAca}TRPAPG{Neu5Aca2-6GalNAca}S{Neu5Aca2-6GalNAca}TAPPA-OH
63 NH2-PPAHGVTSAPDTRPAPGSTAPPA-OH
64 NH2-PPAHGV{Galb1-3GalNAca}TSAPDTRPAPGSTAPPA-OH
65 NH2-PPAHGVT{Galb1-3GalNAca}SAPDTRPAPGSTAPPA-OH
66 NH2-PPAHGVTSAPD{Galb1-3GalNAca}TRPAPGSTAPPA-OH
67 NH2-PPAHGVTSAPDTRPAPG{Galb1-3GalNAca}STAPPA-OH
68 NH2-PPAHGVTSAPDTRPAPGS{Galb1-3GalNAca}TAPPA-OH
69 NH2-PPAHGV{Galb1-3GalNAca}T{Galb1-3GalNAca}SAPDTRPAPGSTAPPA-OH
70 NH2-PPAHGV{Galb1-3GalNAca}TSAPD{Galb1-3GalNAca}TRPAPGSTAPPA-OH
71 NH2-PPAHGV{Galb1-3GalNAca}TSAPDTRPAPG{Galb1-3GalNAca}STAPPA-OH
72 NH2-PPAHGV{Galb1-3GalNAca}TSAPDTRPAPGS{Galb1-3GalNAca}TAPPA-OH
73 NH2-PPAHGVT{Galb1-3GalNAca}SAPD{Galb1-3GalNAca}TRPAPGSTAPPA-OH
74 NH2-PPAHGVT{Galb1-3GalNAca}SAPDTRPAPG{Galb1-3GalNAca}STAPPA-OH
75 NH2-PPAHGVT{Galb1-3GalNAca}SAPDTRPAPGS{Galb1-3GalNAca}TAPPA-OH
76 NH2-PPAHGVTSAPD{Galb1-3GalNAca}TRPAPG{Galb1-3GalNAca}STAPPA-OH
77 NH2-PPAHGVTSAPD{Galb1-3GalNAca}TRPAPGS{Galb1-3GalNAca}TAPPA-OH
78 NH2-PPAHGVTSAPDTRPAPG{Galb1-3GalNAca}S{Galb1-3GalNAca}TAPPA-OH
79 NH2-PPAHGV{Galb1-3GalNAca}T{Galb1-3GalNAca}SAPD{Galb1-3GalNAca}TRPAPGSTAPPA-OH
80 NH2-PPAHGV{Galb1-3GalNAca}T{Galb1-3GalNAca}SAPDTRPAPG{Galb1-3GalNAca}STAPPA-OH
81 NH2-PPAHGV{Galb1-3GalNAca}T{Galb1-3GalNAca}SAPDTRPAPGS{Galb1-3GalNAca}TAPPA-OH
82 NH2-PPAHGV{Galb1-3GalNAca}TSAPD{Galb1-3GalNAca}TRPAPG{Galb1-3GalNAca}STAPPA-OH
83 NH2-PPAHGV{Galb1-3GalNAca}TSAPD{Galb1-3GalNAca}TRPAPGS{Galb1-3GalNAca}TAPPA-OH
84 NH2-PPAHGV{Galb1-3GalNAca}TSAPDTRPAPG{Galb1-3GalNAca}S{Galb1-3GalNAca}TAPPA-OH
85 NH2-PPAHGVT{Galb1-3GalNAca}SAPD{Galb1-3GalNAca}TRPAPG{Galb1-3GalNAca}STAPPA-OH
86 NH2-PPAHGVT{Galb1-3GalNAca}SAPD{Galb1-3GalNAca}TRPAPGS{Galb1-3GalNAca}TAPPA-OH
87 NH2-PPAHGVT{Galb1-3GalNAca}SAPDTRPAPG{Galb1-3GalNAca}S{Galb1-3GalNAca}TAPPA-OH
88 NH2-PPAHGVTSAPD{Galb1-3GalNAca}TRPAPG{Galb1-3GalNAca}S{Galb1-3GalNAca}TAPPA-OH
89 NH2-PPAHGV{Galb1-3GalNAca}T{Galb1-3GalNAca}SAPD{Galb1-3GalNAca}TRPAPG{Galb1-3GalNAca}STAPPA-OH
90 NH2-PPAHGV{Galb1-3GalNAca}T{Galb1-3GalNAca}SAPD{Galb1-3GalNAca}TRPAPGS{Galb1-3GalNAca}TAPPA-OH
91 NH2-PPAHGV{Galb1-3GalNAca}T{Galb1-3GalNAca}SAPDTRPAPG{Galb1-3GalNAca}S{Galb1-3GalNAca}TAPPA-OH
92 NH2-PPAHGV{Galb1-3GalNAca}TSAPD{Galb1-3GalNAca}TRPAPG{Galb1-3GalNAca}S{Galb1-3GalNAca}TAPPA-OH
93 NH2-PPAHGVT{Galb1-3GalNAca}SAPD{Galb1-3GalNAca}TRPAPG{Galb1-3GalNAca}S{Galb1-3GalNAca}TAPPA-OH
94 NH2-PPAHGV{Galb1-3GalNAca}T{Galb1-3GalNAca}SAPD{Galb1-3GalNAca}TRPAPG{Galb1-3GalNAca}S{Galb1-3GalNAca}TAPPA-OH

Examples

Assessing the binding specificity of BPL and PNA lectins using the MUC1 glycopeptide array

The MUC1 glycopeptide array was used to assess the binding specificity of biotinylated Bauhinia purpurea lectin (BPL) and peanut agglutinin (PNA) at a concentration of 10 μg/mL. Following the application of BPL and PNA, the array was treated with streptavidin conjugated to Cy3 for detection. Scanning was performed using a microarray scanner at a wavelength of 532 nm. The positive control displayed expected binding signals. Both BPL and PNA showed specific binding to MUC1 glycopeptides that were modified with Tn and/or T antigens.

Document

List of MUC1 glycopeptide sequences on the array  (download the PDF)

Protocol & User Manual (download the manual)

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