Enzymes

Transferase
Creatine Kinases
Isomerase
Phosphatase
TPA
TGFBR
Transaminase
Cyclin-Dependent Kinase
PPARG
PI3-kinase
Cyclin
Phosphorylase
Cyclophilin
Jun N-terminal Kinase
Jun Proto-Oncogene
Polymerase
Kallikrein
Protease
Deaminase
Ligase
Proteasome
Lipase
Decarboxylase
Lipocalin
Dehydrogenase
Lyase
LYVE1
MMP
Protein Kinase-A
Protein Kinase-C
Protein Kinase Akt1/PKB alpha
Protein Kinases
TIMP
Mitogen-Activated Protein Kinase
Mutase
Natural Enzymes
Nuclease
Discoidin Domain Receptor Tyrosine Kinase
DNA Polymerase
TGM2
Reductase
EGF Receptor
Nucleotidase
Tyrosine Kinase
Endonuclease
Nudix Type Motif
Enolase
Ubiquitin Conjugating Enzyme
Enterokinase
Epimerase
Esterase
Oxidase
FGF Receptors
Oxygenase
FK506 Binding Protein
Uromodulin
VEGF Receptors
Fructosamine 3 Kinase
Paraoxonase
Galactosidase
Peptidase
Secreted Phospholipase A2
Glucosidase
Gluteradoxin
Other Enzymes
Serine Threonine Kinase
Glycogen synthase kinase
Sulfatase
Glycosylase
Synthase
Glyoxalase
Granzyme
ACE2
Guanylate Kinase
Hexokinase
Peroxiredoxin
Activating Transcription Factor
Histone Deacetylase
Adenylate Kinase
Heparanase
Protein Tyrosine Phosphatase
Hydratase
Synthetase
AHCY
Aldolase
Hydrolase
Alkaline Phosphatase
Asparaginase
Aurora Kinase
Beta Lactamase
Calcium/Calmodulin-Dependent Protein Kinase
TIE1,TIE2
Calcium and Integrin Binding
Carbonic Anhydrase
Hydroxylase
Casein Kinase
Cathepsin
Chitinase

Product List

GSTA1 Human

Glutathione S-Transferase Alpha-1 Human Recombinant

Recombinantly produced in E.Coli, GSTA1 Human Recombinant is a single, non-glycosylated polypeptide chain comprising 222 amino acids (1-222 a.a.) with a molecular mass of 25.6 kDa. The purification of GSTA1 is achieved through proprietary chromatographic techniques.
Shipped with Ice Packs
Cat. No.
BT6494
Source
Escherichia Coli.
Appearance
A sterile, colorless solution.
View Details

AMT Human

Aminomethyltransferase Human Recombinant

Recombinant human AMT, expressed in E. coli, is a single, non-glycosylated polypeptide chain comprising 398 amino acids (29-403 a.a) with a molecular weight of 43.3 kDa. It includes a 23 amino acid His-tag at the N-terminus and is purified using proprietary chromatographic methods.
Shipped with Ice Packs
Cat. No.
BT2447
Source
Escherichia Coli.
Appearance
A sterile, filtered solution that is colorless.
View Details

APRT Human

Adenine Phosphoribosyltransferase Human Recombinant

Recombinant human APRT, expressed in E. coli, is available as a purified, non-glycosylated protein. It consists of a single polypeptide chain comprising 180 amino acids, corresponding to the full-length protein sequence (amino acids 1-180). The molecular weight of the protein is 19.6 kDa. Purification is achieved through standard chromatographic techniques.
Shipped with Ice Packs
Cat. No.
BT2542
Source
Escherichia Coli.
Appearance
Clear, colorless solution, sterile-filtered.
View Details

DLST Human

Dihydrolipoamide S-Succinyltransferase Human Recombinant

DLST is a full-length cDNA that codes for the mature human OGDC-E2 protein. This protein has a molecular mass of 42,301 Daltons at a pH of 6.3 and is fused to a hexa-histidine purification tag.
Shipped with Ice Packs
Cat. No.
BT3644
Source
Sf9 insect cells.
View Details

DNMT3L Human

DNA Cytosine-5--Methyltransferase 3-Like Human Recombinant

This product consists of the human DNMT3L protein manufactured in E. coli bacteria. It is a single chain of amino acids that is not glycosylated, meaning it does not have sugars attached. The protein comprises 411 amino acids (specifically, amino acids 1 to 386 of the full-length protein) and has a molecular weight of 46.2 kDa. For purification and ease of use, a 25 amino acid His-tag is attached to the start of the protein. The purification process utilizes specialized chromatographic methods.
Shipped with Ice Packs
Cat. No.
BT3751
Source
Escherichia Coli.
Appearance
A clear solution that has been sterilized by filtration.
View Details

GSTA4 Human, Active

Glutathione S-Transferase Alpha 4 Human Recombinant, Active

Recombinant human GSTA4, expressed in E. coli, is a single, non-glycosylated polypeptide chain. It consists of 222 amino acids (representing the core protein sequence, excluding any tags), with an additional 24 amino acid His-tag fused at the N-terminus, resulting in a total molecular weight of 28.3kDa. The purification process involves proprietary chromatographic techniques to ensure high purity.
Shipped with Ice Packs
Cat. No.
BT6764
Source
Escherichia Coli.
Appearance
A clear solution that has been sterilized by filtration.
View Details

GSTK1 Human

Glutathione S-Transferase Kappa 1 Human Recombinant

Recombinant human GSTK1, expressed in E. coli, is available as a purified, non-glycosylated polypeptide chain. This protein consists of 226 amino acids (spanning positions 1 to 226) and exhibits a molecular weight of 25.5 kDa. The purification process involves proprietary chromatographic techniques to ensure high purity.
Shipped with Ice Packs
Cat. No.
BT6838
Source
Escherichia Coli.
Appearance
The product is provided as a sterile, colorless solution that has been filtered for clarity.
View Details

GSTM1 Human

Glutathione S-Transferase M1 Human Recombinant

Recombinant human GSTM1 protein, expressed in E. coli, is available as a single, non-glycosylated polypeptide chain. The protein consists of 203 amino acids, with amino acids 1-181 representing the GSTM1 sequence, followed by a 22 amino acid His-tag at the N-terminus. The molecular weight of the protein is 23.6 kDa. Purification is achieved through proprietary chromatographic techniques.
Shipped with Ice Packs
Cat. No.
BT6914
Source
Escherichia Coli.
Appearance
The product is a clear, sterile-filtered solution.
View Details

GSTP2 Mouse

Glutathione S-Transferase pi 2 Mouse Recombinant

This product consists of the recombinant mouse GSTP2 protein, which was produced in E. coli bacteria. It is a single polypeptide chain that lacks glycosylation modifications and is comprised of 210 amino acids (amino acids 1-210). This protein has a molecular weight of 23.5 kDa. The GSTP2 protein undergoes purification using specialized chromatographic techniques to ensure its purity and isolation.
Shipped with Ice Packs
Cat. No.
BT8121
Source
Escherichia Coli.
Appearance
The product is a clear solution that has undergone sterile filtration to remove any potential contaminants.
View Details

GSTP2 Mouse, His

Glutathione S-Transferase pi 2 Mouse Recombinant, His Tag

Recombinant GSTP2 Mouse protein, expressed in E. coli, is a single, non-glycosylated polypeptide chain consisting of 233 amino acids (1-210 a.a.) with a molecular weight of 25.9 kDa. It includes a 23 amino acid His-tag fused at the N-terminus. Purification is achieved using proprietary chromatographic techniques.
Shipped with Ice Packs
Cat. No.
BT8194
Source
Escherichia Coli.
Appearance
A clear, colorless solution that has been sterilized by filtration.
View Details

Introduction

Definition and Classification

Transferases are a class of enzymes that catalyze the transfer of specific functional groups (e.g., methyl, glycosyl) from one molecule (the donor) to another (the acceptor) . They are involved in numerous biochemical pathways and are integral to many of life’s essential processes. Transferases are classified under the EC 2 category in the Enzyme Commission (EC) numbering system, which includes over 450 unique enzymes . The classification is primarily based on the type of biochemical group transferred, such as acyl, glycosyl, methyl, and amino groups .

Biological Properties

Key Biological Properties: Transferases are ubiquitous in nature and play crucial roles in various cellular processes. They are involved in the metabolism of amino acids, carbohydrates, and lipids .

Expression Patterns: The expression of transferases can vary significantly depending on the tissue type and the physiological state of the organism. For example, certain transferases are highly expressed in the liver, where they participate in detoxification processes .

Tissue Distribution: Transferases are distributed across different tissues, with some being tissue-specific. For instance, glutathione S-transferases (GSTs) are predominantly found in the liver, kidneys, and intestines, where they help in detoxifying harmful compounds .

Biological Functions

Primary Biological Functions: Transferases facilitate the transfer of functional groups, which is essential for the synthesis and degradation of biomolecules. They play a pivotal role in metabolic pathways, including glycolysis, the citric acid cycle, and amino acid metabolism .

Role in Immune Responses and Pathogen Recognition: Some transferases, such as glycosyltransferases, are involved in the modification of glycoproteins and glycolipids, which are crucial for cell-cell recognition and immune responses . These modifications can help in the recognition and neutralization of pathogens .

Modes of Action

Mechanisms with Other Molecules and Cells: Transferases typically function by binding to both the donor and acceptor molecules, facilitating the transfer of the functional group. This process often involves the formation of a transient enzyme-substrate complex .

Binding Partners and Downstream Signaling Cascades: Transferases can interact with various binding partners, including coenzymes and other proteins. For example, aminotransferases require pyridoxal phosphate (PLP) as a coenzyme for their activity . These interactions can trigger downstream signaling cascades that regulate cellular functions .

Regulatory Mechanisms

Control of Expression and Activity: The expression and activity of transferases are tightly regulated at multiple levels. Transcriptional regulation involves specific transcription factors that bind to the promoter regions of transferase genes .

Post-Translational Modifications: Transferases can undergo various post-translational modifications, such as phosphorylation, acetylation, and glycosylation, which can modulate their activity and stability .

Applications

Biomedical Research: Transferases are widely used in biomedical research to study metabolic pathways and disease mechanisms. For instance, GSTs are used as biomarkers for oxidative stress and liver function .

Diagnostic Tools: Certain transferases, such as alanine aminotransferase (ALT) and aspartate aminotransferase (AST), are used as diagnostic markers for liver damage .

Therapeutic Strategies: Transferases are being explored as therapeutic targets for various diseases, including cancer and metabolic disorders. Inhibitors of specific transferases are being developed as potential drugs .

Role in the Life Cycle

Development to Aging and Disease: Transferases play critical roles throughout the life cycle. During development, they are involved in the synthesis of essential biomolecules and the regulation of metabolic pathways . In aging, changes in transferase activity can affect cellular homeostasis and contribute to age-related diseases . For example, decreased activity of certain transferases has been linked to neurodegenerative diseases .

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