Products

Antibodies

Primary Antibodies

IVD Antibodies

Secondary Antibodies

Tag Antibodies

Isotype Controls

CAPSID

S PROTEIN

N PROTEIN

AMH

MAPT

NPPB

EGFR

BCL2

DDK

CD274

CD8A

CD3E

CD40LG

H2AX

IL2RA

AAV8

BCL6

CASP3

CD38

CD4

CD40

E-CADHERIN(CDH1)

G6PC1

GATA6

H3-3A

HNF1-BETA(HNF1B)

HSD17B13

MUC1

SARS-COV-2 SPIKE PROTEIN

SMARCA4

SMARCB1

CD99

HSPB1

MYC

S

TNFRSF17

AAV2

AAV5

CCR5

CD163

CD19

CD22

CD37

CD44

CD52

CD80

EIF4E

GLUL

HIGG LAMBDA LIGHT CHAIN

IL3RA

ITGB2

MAPK14

MIGG (1,2A,2B,3)

MIGG2A

MSLN

MUC6

NFASC

NFKBIA

P40

PNPLA3

PSCA

SOX2

STAT3

UBB

VEGFA

YAP1

ACTA1

APP

ATF2

BAX

CCNB1

CD28

CD63

CD74

CDK4

CDKN2A

CR1

CTNND1

DDK (FLAG)

ENO1

ERBB2

ESR1

HIS

IL18

IL9

INSR

ITGA2B

LDHA

LGALS3

MAP2K1

MAPK1

PIP

PRDX2

PTGS2

SLAMF7

SMAD3

TNF

UCHL1

VCAM1

VSIR

Human

Mouse

Rat

SARS-CoV-2

HIV

Hamster

Monkey

C-term DDK

Vertebrates

Adenovirus 8

Cow

Rabbit

All Species

Adenovirus 5

Bovine

Chimpanzee

Dog

Pig

Sheep

Adenovirus

Adenovirus 9

Chicken

Cynomolgus

Goat

Guinea Pig

N-term and C-term DDK

Primate

SARS-CoV

Baboon

Dengue virus

Drosophila melanogaster

Escherichia coli

Feline

Ferret

Macaque

Marmoset

Respiratory Syncytial Virus

Saccharomyces cerevisiae

Virus

West Nile Virus

Yellow Fever Virus

Zebrafish

WB

IHC

ELISA

IP

IF

FC

Bl

Assay

SISCAPA

ICC

ChIP

LMNX

Neutralize

Inhib

EM

FN

P

R

Dot

EIA

Func

Mouse

Rabbit

Rat

Hamster

Human

Humanized

Goat

Chimeric

Cocktail

var.

IgG

IgG, kappa

IgG1

IgG-Fc Fusion

scFv

Ig

IgG fraction

IgG2b

Polyclonal

Monoclonal

Unconjugated

Biotin

This chimeric rabbit antibody was made using the variable domain sequences of the original Mouse IgG1 format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Rat IgG2a format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Mouse IgG2a format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Human IgG1 format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original murine IgG1 format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Rat IgG2b format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Human Fab format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Mouse IgG2b format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Rat IgG1 format, for improved compatibility with existing reagents, assays and techniques.

Phospho-specific

This chimeric rabbit antibody was made using the variable domain sequences of the original Hamster IgG format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original murine IgG2a format, for improved compatibility with existing reagents, assays and techniques.

This full-length, chimeric rabbit antibody was made using the variable domain sequences of the original Mouse scFv format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Mouse IgG format, for improved compatibility with existing reagents, assays and techniques.

This full-length, chimeric rabbit antibody was made using the variable domain sequences of the original Human scFv format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original VHH format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Human IgG4 format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Mouse IgG3 format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Mouse IgM format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original rat IgG2a format, for improved compatibility with existing reagents, assays and techniques.

This is a chimeric antibody created as part of a panel offering antibodies of the same specificity in different formats (species, isotype, subtype and modified versions) for use as isotype controls.

This chimeric rabbit antibody was made using the variable domain sequences of the original format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original IgG1 format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Hamster IgG2 format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Human IgM format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original human IgG1 format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original human scFv format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original murine IgG2b format, for improved compatibility with existing reagents, assays and techniques.

NOT FOR THERAPEUTIC USE - This is a research-grade biosimilar. This chimeric rabbit antibody was made using the variable domain sequences of the original Human IgG4 format, for improved compatibility with existing reagents, assays and techniques.

NOT FOR THERAPEUTIC USE - This is a research-grade biosimilar. This chimeric rabbit antibody was made using the variable domain sequences of the original human IgG1 format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Hamster IgG1 format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Rat IgG format, for improved compatibility with existing reagents, assays and techniques.

NOT FOR THERAPEUTIC USE - This is a research-grade biosimilar. This chimeric rabbit antibody was made using the variable domain sequences of the original Human IgG1 format, for improved compatibility with existing reagents, assays and techniques.

NOT FOR THERAPEUTIC USE - This is a research-grade biosimilar. This chimeric rabbit antibody was made using the variable domain sequences of the original Human IgG4 (primatized) format, for improved compatibility with existing reagents, assays and techniques.

NOT FOR THERAPEUTIC USE - This is a research-grade biosimilar. This chimeric rabbit antibody was made using the variable domain sequences of the original human IgG4 format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Armenian Hamster IgG format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Armenian Hamster IgG format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Hamster format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Human format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Mouse format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Mouse IgG2 format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original Mouse scFv antibody fragment format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original murine IgG3 format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original rat IgG1 format, for improved compatibility with existing reagents, assays and techniques.

This chimeric rabbit antibody was made using the variable domain sequences of the original rat IgG2b format, for improved compatibility with existing reagents, assays and techniques.

This full-length, chimeric rabbit antibody was made using the variable domain sequences of the original Chicken scFv format, for improved compatibility with existing reagents, assays and techniques.

Indirect

Sandwich

96-well plate

Druggable Genome

Secreted Protein

Transmembrane

Transcription Factors

ES Cell Differentiation/IPS

Stem cell - Pluripotency

Embryonic stem cells

Protein Kinase

Adult stem cells

Induced pluripotent stem cells

Protease

Cancer stem cells

Nuclear Hormone Receptor

Stem cell relevant signaling - DSL/Notch pathway

Phosphatase

Stem cell relevant signaling - JAK/STAT signaling pathway

Stem cell relevant signaling - Wnt Signaling pathway

Stem cell relevant signaling - TGFb/BMP signaling pathway

GPCR

Pathways in cancer

Cytokine-cytokine receptor interaction

MAPK signaling pathway

TGF-beta signaling pathway

Alzheimer's disease

Metabolic pathways

Focal adhesion

Cell adhesion molecules (CAMs)

Insulin signaling pathway

Neurotrophin signaling pathway

Prostate cancer

Colorectal cancer

Hematopoietic cell lineage

Leukocyte transendothelial migration

Regulation of actin cytoskeleton

Small cell lung cancer

Apoptosis

Amyotrophic lateral sclerosis (ALS)

ErbB signaling pathway

Melanoma

Acute myeloid leukemia

Adipocytokine signaling pathway

Endometrial cancer

Chronic myeloid leukemia

Jak-STAT signaling pathway

Glioma

Natural killer cell mediated cytotoxicity

Pancreatic cancer

Bladder cancer

Non-small cell lung cancer

mTOR signaling pathway

Glycolysis / Gluconeogenesis

Parkinson's disease

Primary immunodeficiency

Renal cell carcinoma

T cell receptor signaling pathway

Antigen processing and presentation

Arginine and proline metabolism

B cell receptor signaling pathway

Cell cycle

Chemokine signaling pathway

Endocytosis

Hypertrophic cardiomyopathy (HCM)

Starch and sucrose metabolism

Systemic lupus erythematosus

VEGF signaling pathway

Wnt signaling pathway

p53 signaling pathway

Alanine

Arrhythmogenic right ventricular cardiomyopathy (ARVC)

Dilated cardiomyopathy

Galactose metabolism

Long-term potentiation

Melanogenesis

Phosphatidylinositol signaling system

Progesterone-mediated oocyte maturation

Toll-like receptor signaling pathway

Type II diabetes mellitus

Viral myocarditis

aspartate and glutamate metabolism

Adherens junction

Basal cell carcinoma

Calcium signaling pathway

Epithelial cell signaling in Helicobacter pylori infection

Huntington's disease

Inositol phosphate metabolism

Nitrogen metabolism

Oocyte meiosis

Phenylalanine metabolism

Thyroid cancer

Tight junction

Vascular smooth muscle contraction

Fc epsilon RI signaling pathway

Fc gamma R-mediated phagocytosis

Glycerolipid metabolism

Glycerophospholipid metabolism

Hedgehog signaling pathway

Limonene and pinene degradation

Maturity onset diabetes of the young

Pathogenic Escherichia coli infection

Prion diseases

Tyrosine metabolism

Complement and coagulation cascades

ECM-receptor interaction

GnRH signaling pathway

Long-term depression

Ubiquitin mediated proteolysis

Cysteine and methionine metabolism

Dorso-ventral axis formation

Gap junction

Mismatch repair

NOD-like receptor signaling pathway

Non-homologous end-joining

Notch signaling pathway

Nucleotide excision repair

ABC transporters

Axon guidance

Cardiac muscle contraction

DNA replication

Folate biosynthesis

Glutathione metabolism

Homologous recombination

Lysosome

Methane metabolism

Neuroactive ligand-receptor interaction

Nicotinate and nicotinamide metabolism

Olfactory transduction

One carbon pool by folate

PPAR signaling pathway

Pentose phosphate pathway

Propanoate metabolism

Pyruvate metabolism

RIG-I-like receptor signaling pathway

Regulation of autophagy

Renin-angiotensin system

Terpenoid backbone biosynthesis

Vibrio cholerae infection

TrueRAB

UltraMAB

TrueMAB

Yes

In Stock

TA600549

TA600561

2

1