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Reactivities
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Antibody Hosts
Isotypes
- IgG (25205)
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Clonalities
Conjugates
Carrier-free
Knockout (KO) Validation
Modifications
- Unmodified (2395)
- Phospho-specific (472)
- 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. (37)
- 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. (16)
- 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. (11)
- 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. (9)
- 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. (8)
- 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. (7)
- NOT FOR THERAPEUTIC USE - This is a research-grade biosimilar. (6)
- 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. (6)
- 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. (5)
- 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. (5)
- 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. (4)
- NOT FOR THERAPEUTIC USE - This is a research-grade biosimilar. This is a chimeric antibody created for improved compatibility with existing reagents, assays and techniques. (3)
- This chimeric mouse antibody was made using the variable domain sequences of the original Human IgG1 format, for improved compatibility with existing reagents, assays and techniques. (3)
- 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. (3)
- 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. (3)
- Acetyl K12 (2)
- Acetyl K5 (2)
- Phospho S127 (2)
- Phospho S39 (2)
- Phospho S727 (2)
- Phospho S795 (2)
- This chimeric rabbit antibody was made using the variable domain sequences of the original format, for improved compatibility with existing reagents, assays and techniques. (2)
- 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. (2)
- This constant region of this antibody has been modified to bind to Protein A, allowing highly-specific purification of this antibody by Protein A-affinity column. (2)
- 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. (2)
- This full-length, reformatted human antibody was made using the variable domain sequences of the original Human scFv format, for improved compatibility with existing reagents, assays and techniques. (2)
- This is a chimeric antibody created for improved compatibility with existing reagents, assays and techniques. (2)
- This reformatted mouse antibody was made using the variable domain sequences of the original Mouse IgG format, for improved compatibility with existing reagents, assays and techniques. (2)
- TriMethyl K56 (2)
- Acetyl K15 (1)
- Acetyl K18 (1)
- Acetyl K23 (1)
- Acetyl K27 (1)
- Acetyl K56 (1)
- Acetyl K8 (1)
- Acetyl K9 (1)
- Acetyl K9/K14/K18/K23/K27 (1)
- Asymmetric DiMethyl R3 (1)
- DiMethyl K385 (1)
- MonoMethyl K36 (1)
- NOT FOR THERAPEUTIC USE - This is a research-grade biosimilar. This chimeric mouse antibody was made using the variable domain sequences of the original Human IgG4 (primatized) format, for improved compatibility with existing reagents, assays and techniques. (1)
- NOT FOR THERAPEUTIC USE - This is a research-grade biosimilar. This chimeric mouse antibody was made using the variable domain sequences of the original Human IgG4 format, for improved compatibility with existing reagents, assays and techniques. (1)
- 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. (1)
- 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. (1)
- 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. (1)
- NOT FOR THERAPEUTIC USE - This is a research-grade biosimilar. This reformatted human antibody was made using the variable domain sequences of the original Human IgG4 (primatized) format, for improved compatibility with existing reagents, assays and techniques. (1)
- Pan DiMethyl-lysine (1)
- Phospho S1 (1)
- Phospho S10 (1)
- Phospho S10/T11 (1)
- Phospho S104 (1)
- Phospho S1177 (1)
- Phospho S1248 (1)
- Phospho S15 (1)
- Phospho S157 (1)
- Phospho S182 (1)
- Phospho S240/244 (1)
- Phospho S243 (1)
- Phospho S280 (1)
- Phospho S33 (1)
- Phospho S33/S37/T41 (1)
- Phospho S37 (1)
- Phospho S376 (1)
- Phospho S425 (1)
- Phospho S428 (1)
- Phospho S455 (1)
- Phospho S465/467 + S423/425 (1)
- Phospho S473 (1)
- Phospho S473,Phospho S474,Phospho S472 (1)
- Phospho S5 (1)
- Phospho S51 (1)
- Phospho S529 (1)
- Phospho S612 (1)
- Phospho S62 (1)
- Phospho S73 (1)
- Phospho S80 (1)
- Phospho S82 (1)
- Phospho S89 (1)
- Phospho S957 (1)
- Phospho Ser416 (1)
- Phospho T11 (1)
- Phospho T17 (1)
- Phospho T179 (1)
- Phospho T18/S19 (1)
- Phospho T183/T172 (1)
- Phospho T1989 (1)
- Phospho T202/Y204 + T185/Y187 (1)
- Phospho T24,Phospho T32,Phospho T28 (1)
- Phospho T286 (1)
- Phospho T308 (1)
- Phospho T32 (1)
- Phospho T320 (1)
- Phospho T37/46 (1)
- Phospho T389 (1)
- Phospho T45 (1)
- Phospho T58 (1)
- Phospho T6 (1)
- Phospho T69/71 (1)
- Phospho T69/T71 (1)
- Phospho T70 (1)
- Phospho T91 (1)
- Phospho Y1007/1008 (1)
- Phospho Y1217 (1)
- Phospho Y1349 (1)
- Phospho Y15 (1)
- Phospho Y182 (1)
- Phospho Y207 (1)
- Phospho Y245 (1)
- Phospho Y412 (1)
- Phospho Y694 (1)
- Phospho Y705 (1)
- This chimeric human antibody was made using the variable domain sequences of the original Mouse IgG2a format, for improved compatibility with existing reagents, assays and techniques. (1)
- This chimeric mouse antibody was made using the variable domain sequences of the original Human format, for improved compatibility with existing reagents, assays and techniques. (1)
- 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. (1)
- 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. (1)
- 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. (1)
- 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. (1)
- 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. (1)
- 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. (1)
- 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. (1)
- 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. (1)
- 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. (1)
- 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. (1)
- 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. (1)
- 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. (1)
- 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. (1)
- 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. (1)
- This is a chimeric antibody created to reduce immunogenicity during in vivo applications. (1)
- This is a chimeric mouse antibody, based on the original rat IgG2b format, created for improved compatibility with existing reagents, assays and techniques. (1)
- This reformatted mouse antibody was made using the variable domain sequences of the original Mouse format, for improved compatibility with existing reagents, assays and techniques. (1)
- This reformatted mouse antibody was made using the variable domain sequences of the original Mouse IgG2a format, for improved compatibility with existing reagents, assays and techniques. (1)
- This reformatted mouse antibody was made using the variable domain sequences of the original Mouse IgG3 format, for improved compatibility with existing reagents, assays and techniques. (1)
- This reformatted mouse 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. (1)
- phospho T1079,Phospho T1041 (1)
Assay Types
Families
- Druggable Genome (27912)
- Transmembrane (10153)
- Transcription Factors (6487)
- Secreted Protein (4464)
- ES Cell Differentiation/IPS (3682)
- Protein Kinase (3218)
- Protease (2074)
- Stem cell - Pluripotency (2000)
- Adult stem cells (824)
- GPCR (774)
- Embryonic stem cells (524)
- Nuclear Hormone Receptor (513)
- Phosphatase (452)
- Cancer stem cells (406)
- Induced pluripotent stem cells (311)
- P450 (289)
- Stem cell relevant signaling - JAK/STAT signaling pathway (265)
- Stem cell relevant signaling - DSL/Notch pathway (222)
- Ion Channels: Other (221)
- Stem cell relevant signaling - TGFb/BMP signaling pathway (139)
- Ion Channels: Potassium (101)
- Stem cell relevant signaling - Wnt Signaling pathway (100)
- Ion Channels: Transient receptor potential (93)
- Ion Channels: Cys-loop Receptors (59)
- Ion Channels: Glutamate Receptors (52)
- Ion Channels: Sodium (27)
- Ion Channels: Calcium (11)
- Ion Channels: Cyclic nucleotide gated (11)
- Ion Channels: ATP Receptors (10)
Pathways
- Metabolic pathways (4698)
- Pathways in cancer (3584)
- MAPK signaling pathway (2079)
- Focal adhesion (1952)
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- Neurotrophin signaling pathway (1473)
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- T cell receptor signaling pathway (1412)
- ErbB signaling pathway (1382)
- Pancreatic cancer (1342)
- Toll-like receptor signaling pathway (1338)
- Regulation of actin cytoskeleton (1337)
- Chronic myeloid leukemia (1294)
- Melanoma (1279)
- Endometrial cancer (1239)
- Insulin signaling pathway (1233)
- Glioma (1202)
- Cell adhesion molecules (CAMs) (1184)
- Cytokine-cytokine receptor interaction (1172)
- Non-small cell lung cancer (1170)
- Bladder cancer (1138)
- Cell cycle (1133)
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- Apoptosis (1076)
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- Small cell lung cancer (960)
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- Renal cell carcinoma (937)
- Jak-STAT signaling pathway (924)
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- Natural killer cell mediated cytotoxicity (872)
- Alzheimer's disease (866)
- GnRH signaling pathway (833)
- VEGF signaling pathway (822)
- p53 signaling pathway (796)
- Huntington's disease (781)
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- Thyroid cancer (718)
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- mTOR signaling pathway (648)
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- Type II diabetes mellitus (579)
- Vascular smooth muscle contraction (570)
- Pyrimidine metabolism (568)
- Tight junction (536)
- Pathogenic Escherichia coli infection (533)
- Axon guidance (529)
- Epithelial cell signaling in Helicobacter pylori infection (520)
- Parkinson's disease (514)
- Long-term potentiation (513)
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- Long-term depression (505)
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- Basal cell carcinoma (489)
- Primary immunodeficiency (479)
- Prion diseases (474)
- TGF-beta signaling pathway (451)
- Arginine and proline metabolism (449)
- Lysosome (446)
- Antigen processing and presentation (438)
- RIG-I-like receptor signaling pathway (434)
- Systemic lupus erythematosus (428)
- ECM-receptor interaction (407)
- NOD-like receptor signaling pathway (399)
- Dilated cardiomyopathy (381)
- Hypertrophic cardiomyopathy (HCM) (381)
- Valine (377)
- leucine and isoleucine degradation (370)
- PPAR signaling pathway (360)
- Drug metabolism - cytochrome P450 (354)
- Glycerolipid metabolism (350)
- Oxidative phosphorylation (350)
- Dorso-ventral axis formation (346)
- Metabolism of xenobiotics by cytochrome P450 (345)
- Arrhythmogenic right ventricular cardiomyopathy (ARVC) (343)
- Phosphatidylinositol signaling system (339)
- Nucleotide excision repair (331)
- Cytosolic DNA-sensing pathway (327)
- Fatty acid metabolism (314)
- Viral myocarditis (313)
- Tryptophan metabolism (308)
- Autoimmune thyroid disease (305)
- Arachidonic acid metabolism (302)
- Spliceosome (271)
- Lysine degradation (270)
- Inositol phosphate metabolism (269)
- Type I diabetes mellitus (266)
- Alanine (265)
- aspartate and glutamate metabolism (265)
- Hedgehog signaling pathway (261)
- RNA degradation (257)
- Butanoate metabolism (254)
- DNA replication (253)
- Glutathione metabolism (250)
- Propanoate metabolism (250)
- Mismatch repair (245)
- Tyrosine metabolism (243)
- Retinol metabolism (236)
- Pyruvate metabolism (235)
- Base excision repair (233)
- Histidine metabolism (219)
- Notch signaling pathway (212)
- Glycine (207)
- serine and threonine metabolism (207)
- Allograft rejection (204)
- Cardiac muscle contraction (201)
- Renin-angiotensin system (197)
- ABC transporters (186)
- Vibrio cholerae infection (183)
- Homologous recombination (182)
- Proteasome (179)
- One carbon pool by folate (175)
- Starch and sucrose metabolism (173)
- Graft-versus-host disease (171)
- beta-Alanine metabolism (170)
- Cysteine and methionine metabolism (163)
- Pentose phosphate pathway (158)
- Drug metabolism - other enzymes (155)
- Amino sugar and nucleotide sugar metabolism (153)
- Fructose and mannose metabolism (148)
- Linoleic acid metabolism (141)
- Citrate cycle (TCA cycle) (138)
- Regulation of autophagy (136)
- Circadian rhythm - mammal (127)
- Maturity onset diabetes of the young (122)
- Nicotinate and nicotinamide metabolism (122)
- Sphingolipid metabolism (118)
- Terpenoid backbone biosynthesis (117)
- Galactose metabolism (114)
- Ribosome (114)
- Nitrogen metabolism (110)
- Glycerophospholipid metabolism (108)
- Primary bile acid biosynthesis (102)
- SNARE interactions in vesicular transport (101)
- Aminoacyl-tRNA biosynthesis (97)
- Folate biosynthesis (96)
- Asthma (95)
- Fatty acid elongation in mitochondria (94)
- Sulfur metabolism (92)
- N-Glycan biosynthesis (91)
- Caffeine metabolism (85)
- Porphyrin and chlorophyll metabolism (83)
- Non-homologous end-joining (81)
- Olfactory transduction (80)
- Phenylalanine metabolism (80)
- Taste transduction (78)
- Synthesis and degradation of ketone bodies (75)
- Androgen and estrogen metabolism (70)
- Selenoamino acid metabolism (70)
- Other glycan degradation (68)
- Methane metabolism (65)
- Glyoxylate and dicarboxylate metabolism (59)
- Biosynthesis of unsaturated fatty acids (57)
- RNA polymerase (56)
- Glycosaminoglycan degradation (51)
- Ascorbate and aldarate metabolism (44)
- Pantothenate and CoA biosynthesis (42)
- Basal transcription factors (41)
- Ether lipid metabolism (40)
- Limonene and pinene degradation (40)
- Cyanoamino acid metabolism (39)
- Riboflavin metabolism (38)
- Pentose and glucuronate interconversions (37)
- Taurine and hypotaurine metabolism (36)
- O-Glycan biosynthesis (34)
- Steroid biosynthesis (30)
- Fatty acid biosynthesis (29)
- C21-Steroid hormone metabolism (28)
- Vitamin B6 metabolism (25)
- Glycosphingolipid biosynthesis - ganglio series (23)
- Glycosphingolipid biosynthesis - lacto and neolacto series (21)
- D-Glutamine and D-glutamate metabolism (20)
- Keratan sulfate biosynthesis (18)
- Thiamine metabolism (17)
- leucine and isoleucine biosynthesis (17)
- Chondroitin sulfate biosynthesis (14)
- alpha-Linolenic acid metabolism (13)
- Glycosphingolipid biosynthesis - globo series (12)
- Heparan sulfate biosynthesis (11)
- Protein export (10)
- Glycosylphosphatidylinositol(GPI)-anchor biosynthesis (9)
- Phenylalanine (9)
- tyrosine and tryptophan biosynthesis (9)
- Lysine biosynthesis (6)
- Biotin metabolism (5)
- O-Mannosyl glycan biosynthesis (3)
- Ubiquinone and other terpenoid-quinone biosynthesis (3)