Recombinant Proteins

p53
LBP
CEA
HLA
TCL
TTC
NPM
MAF
Bax
BID

ANXA1 Human

Annexin A1 Human Recombinant

This product consists of the human ANXA1 protein produced in E. coli. It is a single, non-glycosylated polypeptide chain comprising 346 amino acids (amino acids 1-346) and has a molecular weight of 38.7 kDa. The protein is purified using proprietary chromatographic methods.
Shipped with Ice Packs
Cat. No.
BT19749
Source
Escherichia Coli.
Appearance
Clear, colorless solution that has been sterilized by filtration.

ANXA1 Mouse

Annexin A1 Mouse Recombinant

Recombinant ANXA1 Mouse, expressed in E. coli, is a single, non-glycosylated polypeptide chain. It consists of 369 amino acids (1-346 a.a), has a molecular mass of 41.1 kDa, and is fused to a 23 amino acid His-tag at its N-terminus. Purification is achieved using proprietary chromatographic techniques.
Shipped with Ice Packs
Cat. No.
BT19802
Source
Escherichia Coli.
Appearance
A clear, colorless solution that has been sterilized by filtration.

ANXA10 Human

Annexin A10 Human Recombinant

Recombinant Human ANXA10, expressed in E. coli, is a single, non-glycosylated polypeptide chain consisting of 348 amino acids (1-324 a.a.) with a molecular weight of 39.8 kDa. The protein includes an N-terminal 24-amino acid His-tag and is purified using proprietary chromatographic methods.
Shipped with Ice Packs
Cat. No.
BT19901
Source
Escherichia Coli.
Appearance
A clear, sterile solution without any color.

ANXA11 Human

Annexin A11 Human Recombinant

Recombinant human ANXA11, produced in E. coli, is a single, non-glycosylated polypeptide chain comprising 525 amino acids (1-505) with a molecular weight of 56.6 kDa. This protein features a 20 amino acid His-Tag fused at the N-terminus and is purified using proprietary chromatographic techniques.
Shipped with Ice Packs
Cat. No.
BT19982
Source
Escherichia Coli.
Appearance
A sterile, colorless solution.

ANXA13 Human

Annexin A13 Human Recombinant

Recombinant human ANXA13, fused with a 20 amino acid His tag at its N-terminus, is produced in E. coli. This protein is a single, non-glycosylated polypeptide chain consisting of 336 amino acids (specifically, amino acids 1 to 316) and has a molecular weight of 37.5 kDa. The purification of ANXA13 is achieved through proprietary chromatographic methods.

Shipped with Ice Packs
Cat. No.
BT20063
Source
Escherichia Coli.
Appearance
The product is a sterile, filtered solution that appears colorless.

ANXA2

Annexin A2 Human Recombinant

Recombinant human ANXA2, produced in E. coli, is a single, non-glycosylated polypeptide chain comprising 376 amino acids (1-339a.a.). With a molecular mass of 42.8 kDa, this protein is fused to a 37 amino acid His-Tag at its N-terminus and undergoes purification using proprietary chromatographic techniques.
Shipped with Ice Packs
Cat. No.
BT20150
Source
Escherichia Coli.
Appearance
Clear, colorless solution that has been sterilized by filtration.

ANXA2 Human

Annexin A2 Human

Derived from human adipose tissue, this recombinant Human Annexin A2 protein exhibits a molecular weight of 38.472 kDa (excluding glycosylation). It comprises 338 amino acid residues.
Shipped with Ice Packs
Cat. No.
BT20246
Source
Human Adipose Tissue.
Appearance
White powder, lyophilized (freeze-dried) and filtered.

ANXA3 Human

Annexin A3 Human Recombinant

Produced in E. coli, ANXA3 is a single, non-glycosylated polypeptide chain comprising 323 amino acids (1-323 a.a.) with a molecular weight of 36.3 kDa. The purification process involves proprietary chromatographic techniques.
Shipped with Ice Packs
Cat. No.
BT20356
Source
Escherichia Coli.
Appearance
A sterile, colorless solution that has been filtered.

ANXA4 Human

Annexin A4 Human Recombinant

Recombinant human ANXA4, expressed in E. coli, is a single, non-glycosylated polypeptide chain encompassing 321 amino acids (residues 1-321). The protein has a molecular weight of 36 kDa and is purified using proprietary chromatographic techniques.
Shipped with Ice Packs
Cat. No.
BT20438
Source
Escherichia Coli.
Appearance
Clear, colorless, and sterile-filtered solution.

ANXA5 Human

Annexin A5 Human Recombinant

Produced in E. coli, our ANXA5 is a single, non-glycosylated polypeptide chain comprising 320 amino acids (1-320 a.a.) with a molecular weight of 35.9 kDa. The purification process involves proprietary chromatographic techniques.
Shipped with Ice Packs
Cat. No.
BT20557
Source
Escherichia Coli.
Appearance
The product is a clear and colorless solution that has been sterilized by filtration.
Definition and Classification

Annexins are a family of calcium-dependent phospholipid-binding proteins found in eukaryotic organisms, including animals, plants, and fungi . These proteins are characterized by their ability to bind to negatively charged phospholipids in a calcium-dependent manner and contain a 70 amino acid repeat sequence known as the annexin repeat . In humans, there are twelve known annexins, labeled Annexin A1 to Annexin A13 (with A12 currently unassigned) .

Biological Properties

Key Biological Properties: Annexins are involved in various cellular processes such as membrane scaffolding, vesicle trafficking, exocytosis, endocytosis, and calcium ion channel formation . They can bind to both endomembranes and the plasma membrane in a calcium-dependent or independent manner .

Expression Patterns and Tissue Distribution: Annexins are ubiquitously expressed in different tissues and cells. For instance, Annexin A1 is found in various tissues and plays a role in anti-inflammatory responses . Annexin A5 is widely distributed in human cells and body fluids, performing functions by binding to phosphatidylserine in a calcium-dependent manner .

Biological Functions

Primary Biological Functions: Annexins play crucial roles in cellular processes such as cell adhesion, proliferation, apoptosis, and membrane organization . They are also involved in the trafficking and organization of vesicles, exocytosis, and endocytosis .

Role in Immune Responses and Pathogen Recognition: Annexins, particularly Annexin A1, are known for their anti-inflammatory properties and involvement in immune responses. They help regulate the immune system by modulating the behavior of immune cells . Annexin A5, for example, can protect cells and reduce adhesive properties, influencing immune cell actions .

Modes of Action

Annexins interact with various cell-membrane components, participating in membrane organization and modulating cell signaling . They can bind to phosphatidylserine on cell membranes, forming a shield over membranes and neutralizing overexposure of phosphatidylserine . This interaction affects immune cell behavior and has anti-inflammatory, anti-thrombotic, and cell membrane repair properties .

Regulatory Mechanisms

Transcriptional Regulation: Annexin expression is regulated at the transcriptional level by various factors, including glucocorticoids . For instance, glucocorticoids can increase the expression of Annexin A1, which in turn inhibits inflammation by blocking the release of arachidonic acid .

Post-Translational Modifications: Annexins can undergo post-translational modifications such as phosphorylation, which can alter their affinity for calcium and interaction with cytoplasmic proteins . These modifications play a crucial role in regulating their activity and function.

Applications in Biomedical Research

Annexins have significant applications in biomedical research, including their use as diagnostic tools and therapeutic strategies . For example, Annexin A5 is used as a biomarker for diagnosing certain diseases due to its ability to bind phosphatidylserine . Additionally, annexins are being explored for their therapeutic potential in treating conditions such as sepsis, COVID-19, and various cancers .

Role in the Life Cycle

Throughout the life cycle, annexins play essential roles in development, aging, and disease . They are involved in processes such as cell cycle control, exocytosis, endocytosis, and apoptosis . Annexin A11, for instance, has a crucial role in the pathogenesis of sarcoidosis by affecting apoptosis pathways . In plants, annexins are central regulators of growth and stress signaling, operating in pathways involving cytosolic free calcium and reactive oxygen species .

© Copyright 2024 Thebiotek. All Rights Reserved.