优化搜索结果
Species
- Human (105372)
- Mouse (7211)
- SARS-CoV-2 (109)
- Cynomolgus (77)
- Rat (33)
- Escherichia coli (24)
- Rhesus (22)
- Bovine (18)
- Blomia tropicalis (10)
- Chicken (7)
- 2019-nCoV (6)
- Dermatophagoides pteronyssinus (6)
- Orf Virus (5)
- Staphylococcus aureus (5)
- Streptococcus Pyogenes (5)
- Hepatitis B Virus (3)
- Rabbit (3)
- Saccharomyces cerevisiae (3)
- Cavia porcellus (2)
- Dermatophagoides farinae (2)
- HIV (2)
- Streptococcus sp. (2)
- Alternaria alternata (1)
- B.subtilis (1)
- Betula pendula (1)
- Carassiusauratus (1)
- Chlorocebus aethiops (1)
- D. aromatica (1)
- Drosophila melanogaster (1)
- E.coli (1)
- Enterobacteria phage T4 (1)
- Escherichia phage T7 (1)
- Human herpesvirus (1)
- Human papillomavirus (1)
- Humon (1)
- Humulus japonicus (1)
- Klebsiella pneumoniae (1)
- Lachnospiraceae bacterium ND2006 (1)
- Lepidoglyphus destructor (1)
- Leptotrichia wadei (1)
- Macaca fascicularis (1)
- Marmoset (1)
- Mucor hiemalis (1)
- Mus musculus (1)
- Proteobacteria (1)
- S. hygroscopicus (1)
- SIV (1)
- Serratia marcescens (1)
- Sheep (1)
- Staphylococcus aureus subsp. (1)
- Streptococcus (1)
- Streptomyces avidinii (1)
- Streptomyces plicatus (1)
- T. fusca (1)
- Tobacco etch virus (1)
- Vaccinia virus (1)
- Vacciniavirus (1)
- Vibrio cholerae (1)
- Virus (1)
- viral (1)
Target Symbol
- ALPHA 1 ANTITRYPSIN (72)
- S PROTEIN (RBD) (67)
- BDNF (62)
- NCALD (61)
- NDRG2 (54)
- RIBONUCLEASE INHIBITOR (51)
- IRF5 (50)
- VEGFA (50)
- UBE2D3 (49)
- HMGA1 (46)
- PDE9A (46)
- CONSTITUTIVE ANDROSTANE RECEPTOR (43)
- MTH1 (43)
- TPM1 (43)
- HNRNP F (42)
- MBNL1 (42)
- PQBP1 (42)
- MYOSIN (40)
- 14-3-3 ZETA (39)
- ALKALINE PHOSPHATASE (39)
- FGF1 (39)
- FGFR1 (39)
- PCBP2 (38)
- PRKAR1B (38)
- BIN1 (37)
- CATHEPSIN B (37)
- M-CSF (37)
- MYELIN BASIC PROTEIN (37)
- TGIF (37)
- AURORA A (36)
- B3GALT5 (36)
- CD10 (36)
- S100 CALCIUM BINDING PROTEIN A13 (36)
- ZFYVE27 (36)
- ALPHA SYNUCLEIN (35)
- CAMK2B (35)
- CD59 (35)
- FHL1 (35)
- ICAM2 (35)
- P38 (35)
- SULT1A1 (35)
- UBE2I (35)
- MAX (34)
- ACRV1 (33)
- CPNE1 (33)
- FGL1 (33)
- OSBPL9 (33)
- TAU (33)
- HNF 4 ALPHA (32)
- NRG1 (32)
- PAX2 (32)
- TROPOMYOSIN 3 (32)
- ANNEXIN A2 (31)
- ARSA (31)
- DGKA (31)
- GM CSF RECEPTOR ALPHA (31)
- MORTALITY FACTOR 4 LIKE 2 (31)
- NDUF3 (31)
- ABLIM2 (30)
- ASPARTATE BETA HYDROXYLASE (30)
- DOUBLECORTIN (30)
- DYSTROBREVIN ALPHA (30)
- FHL2 (30)
- IL1RA (30)
- KALLIKREIN 11 (30)
- NEK6 (30)
- PPAR GAMMA (30)
- RAB27A (30)
- CARDIAC TROPONIN T (29)
- CD36 (29)
- HNRNPD (29)
- HOMER2 (29)
- JNK1 (29)
- MPST (29)
- RGS3 (29)
- SSH3BP1 (29)
- TRKB (29)
- YPEL5 (29)
- ALDOLASE (28)
- C2ORF88 (28)
- C4BPB (28)
- CASPASE-7 (28)
- COASY (28)
- GBA (28)
- GIPC (28)
- GMPR2 (28)
- IGF1 (28)
- IKK GAMMA (28)
- LMO2 (28)
- MEIS2 (28)
- QK1 (28)
- SEPTIN6 (28)
- SPART (28)
- THYN1 (28)
- GLUTAMINE SYNTHETASE (27)
- IL32 (27)
- ISOCITRATE DEHYDROGENASE (27)
- MBNL3 (27)
- P53 (27)
- PAX8 (27)
Applications
Expression Hosts
Tags
- C-Myc/DDK (77392)
- C-MYC/DDK (26611)
- N-His (2894)
- C-His (2413)
- Tag Free (683)
- N-GST and C-His (441)
- C-Fc (397)
- C-Human Fc (269)
- C-6His (237)
- C-DDK (201)
- C-6×His (175)
- N-GST and C-HIS (150)
- C-HIS (116)
- N-GST (112)
- C-DDK/His (104)
- Myc-DDK (82)
- His-tag (75)
- C-Fc&His (60)
- C-Mouse Fc (54)
- N-His-ABP (Albumin-Binding Protein) (52)
- N-Human Fc (51)
- C-mFc (46)
- His-Tag (42)
- N-His&C-His (42)
- N-6His (38)
- C-6His-Avi (37)
- C-Mouse Fc and 6×His (32)
- C-8His (29)
- N-T7&C-His (24)
- N-Trx&His (24)
- C-hFc (22)
- C-Avi-6His (18)
- N-His-Trx (18)
- C-Fc-Avi (16)
- C-Human Fc and 6×His (16)
- C-10His (13)
- N-Fc (13)
- N-GST, C-His (13)
- hIgG-His-Tag (12)
- N-HIS (10)
- N-His&SUMO (9)
- C- 6×His (8)
- N-6×His (8)
- N-GST&His (8)
- Tag-free (8)
- C-Avi&6His (7)
- C-6xHis (6)
- hIgG-Tag (6)
- C-Fc&AVI (5)
- N-Avi (5)
- N-His PDCD1(Pro21-Val170) (5)
- N-His/DDK (5)
- N-Mouse Fc and C-6×His (5)
- C-6×His tag and C-Human Fc (4)
- C-AVI&His (4)
- C-mouse Fc (4)
- N-6His-Avi (4)
- N-8His (4)
- N-His&C-Fc (4)
- N-His&T7 (4)
- N-His-GST (4)
- N-MARI (4)
- N-Trx (4)
- C-Fc/His (3)
- C-Flag (3)
- C-hFc&His (3)
- His-tagged, myc-tagged (3)
- N-DDK (3)
- N-mFc (3)
- C-3×Flag Tag (2)
- C-6xHis/AVI (2)
- C-7×His (2)
- C-DDK-His (2)
- C-FC (2)
- C-Fc-Flag&C-Fc-6His (2)
- C-HUMAN (2)
- C-Myc-DDK (2)
- N-6His-Flag (2)
- N-8His&N-FLAG (2)
- N-FC (2)
- N-Fc-FLAG (2)
- N-His&Flag (2)
- N-His-PDCD1(Pro21-Val170) (2)
- N-Mouse Fc (2)
- N-terminal His (2)
- N-terminal His-PDCD1(Pro21-Val170) tag (2)
- C-AVI (1)
- C-AVI-PLUS (1)
- C-Avi (1)
- C-Avi-10His (1)
- C-Avi-His (1)
- C-DDK/10xHis (1)
- C-DDK/6xHis (1)
- C-FC-6HIS&C-FC-Flag (1)
- C-FC/6xHis (1)
- C-FLAG-Fc (1)
- C-Fc Human (1)
- C-Fc Mouse (1)
- C-Flag,C-6His (1)
- C-GST (1)
- C-HIS/C (1)
- C-HIS/DDK (1)
- C-His&AVI (1)
- C-His&Flag (1)
- C-His&HA&AVI (1)
- C-His/AVIplus (1)
- C-His/DDK (1)
- C-Human Fc, Avi (1)
- C-Human Fc-Avi (1)
- C-MIgG2a (1)
- C-hIgG1 Fc (1)
- C-hIgG2 Fc (1)
- C-hIgG4 Fc (1)
- C-hIgG4P Fc (1)
- C-mFC (1)
- C-mFc&His (1)
- C-mIgG2AFc (1)
- C-mIgG2a Fc (1)
- C-mIgG2aFc (1)
- C-terminal DDK (1)
- C-terminal His (1)
- DDK-tag (1)
- His tag (1)
- N-10*His (1)
- N-10His (1)
- N-10His-Flag (1)
- N-6His-FLAG (1)
- N-8His-Flag (1)
- N-AVI (1)
- N-AVI&His (1)
- N-Avi&6His (1)
- N-DDK/His (1)
- N-FLAG (1)
- N-FUSION (1)
- N-Flag&C-His (1)
- N-Flag&His (1)
- N-GFP (1)
- N-GST(CKM) and N-His(CKB) (1)
- N-HIS and C-AVIPLUS (1)
- N-His&MBP (1)
- N-PROTEIN (1)
- N-T7 (1)
- N-TRX (1)
- N-TRXA (1)
- N-Trx-His (1)
- N-hFc (1)
- N-terminal His-tag (1)
- N-terminal murine Fc Tag (1)
- No (1)
- Tag free (1)
Conjugates
Mutants
Brands
QC Levels
Families
- WB (40494)
- Druggable Genome (27889)
- Transmembrane (13164)
- Transcription Factors (6113)
- Secreted Protein (5992)
- Protein Kinase (2501)
- ES Cell Differentiation/IPS (1996)
- Protease (1811)
- Stem cell - Pluripotency (1562)
- Phosphatase (762)
- Ion Channels: Other (455)
- Adult stem cells (446)
- GPCR (441)
- Embryonic stem cells (338)
- Nuclear Hormone Receptor (290)
- P450 (222)
- Cancer stem cells (203)
- Induced pluripotent stem cells (187)
- Stem cell relevant signaling - JAK/STAT signaling pathway (158)
- Ion Channels: Potassium (125)
- Stem cell relevant signaling - TGFb/BMP signaling pathway (101)
- Stem cell relevant signaling - DSL/Notch pathway (89)
- Stem cell relevant signaling - Wnt Signaling pathway (89)
- Ion Channels: Cys-loop Receptors (58)
- ELISA (55)
- SDS-PAGE (42)
- Ion Channels: Glutamate Receptors (39)
- Ion Channels: Transient receptor potential (35)
- Ion Channels: ATP Receptors (28)
- Bioactivity (27)
- the solution can be further dialyzed against PBS (phosphate buffered saline (20)
- 10 mM Tris-HCl (18)
- 2 mM dithiothreitol (18)
- Ion Channels: Sodium (17)
- Enzyme Activity (12)
- both dissolved in 9.5 M urea buffer (see above). Protofilaments and filament complexes are obtained by dialyzing the resulting polypeptide solution stepwise to a concentration of 4 M urea and then to low salt condition (50 mM NaCl (12)
- e.g. Dulbecco's PBS). (12)
-
ELISA.
Western Blot. (11) - Flow Cyt (11)
- Ion Channels: Cyclic nucleotide gated (9)
- pH 7.4). For immunization purposes (8)
-
Protein standard in 1D and 2D SDS gelelectrophoresis.
Immunoassays.
Immunization.
Protocol: Reconstitution to filaments is performed by mixing equimolar amounts of keratins of type I and type II at concentrations of approx. 0.5 mg/ml (6) -
Protein standard in 1D and 2D SDS gelelectrophoresis.
Immunoassays.
Immunization. (6) -
pH 7.4).
For immunization purposes (6) - Ion Channels: Calcium (5)
-
Protein standard in 1D and 2D SDS gelelectrophoresis.
Immunoassays.
Immunization.
Protocol: Reconstitution to filaments is performed by mixing equimolar amounts of keratins of type I and type II at concentrations of approx. 0.5 mg/ml (4) -
Protein standard in 1D and 2D SDS gelelectrophoresis.
Immunoassays.
Immunization.
Protocol: Reconstitution to filaments is performed by mixing equimolar amounts of keratins of type I and type II at concentrations of approx. 0.5 mg/ml (4) - e.g. Dulbeccos PBS). (4)
-
e.g. Dulbeccos PBS).
See References 2 and 3 for more details. (4) -
pH 7.4).
For immunization purposes (4) -
pH 7.4).
For Immunization purposes (4) - Biological activity/ Working concentration: Optimum concentration for human umbilical vein endothelial cells (HUVEC) range from 50-200 μg/ml (3)
- ELISA. (3)
-
Protein standard in 1D and 2D SDS gelelectrophoresis.
Immunoblotting.
Receptor-binding studies. (3) - Western Blot. (3)
- 0.1% (w/v) insulin (2)
- 000-1/5 (2)
- 10 mM sodium phosphate (2)
- 10mM Tris-HCl (2)
- 1mM DTT (2)
- 2 mM dithiothreitol (2)
-
2mM EDTA.
2. Add 4ug of recombinant thioredoxin into reaction cocktail and mix immediately.
3. Incubate at 25°C for 20 minutes.
4. Record the increase in A650nm for 15 minutes (2) - 2mM dithiothreitol (2)
- 63mM sodium phosphate (2)
- Biological activity/ Working concentration: The working concentration of ECGF for HUVEC is in the range of 25µg/ml to 100µg/ml. When adding Heparin (2.5mg per mg ECGF) an ECGF concentration of 12µg/ml (30µg/ml Heparin) is optimal. In this case 6mg ECGF are sufficient for 500 ml medium. (2)
-
Protein standard in 1D and 2D SDS gelelectrophoresis.
Immunoassays.
Immunization.
Protocol: Reconstitution to filaments: After vimentin is dissolved in 9.5M Urea buffer (see above) (2) -
Protein standard in 1D and 2D SDS gelelectrophoresis.
Immunoassays.
Immunization.
Protocol: Reconstitution to Filaments is performed by dissolving in 6 M urea buffer (see above) at concentrations of approx. 0.5 mg/ml. Protofilaments and filament complexes are obtained by dialyzing the resulting polypeptide solution stepwise to a concentration of 4 M urea and then to low salt condition (50 mM NaCl (2) - Can be used as standard in a Sandwich ELISA. (2)
-
ELISA.
Western blotting. (2) - FACS (2)
-
Protein standard in 1D and 2D SDS gel electrophoresis.
Immunoassay.
Antigen for immunization. (2) -
Protein standard in 1D and 2D SDS gelelectrophoresis.
Immunoassays.
Immunization.
Protocol: Reconstitution to filaments: after desmin is dissolved in 9.5 M urea buffer (see above) (2) -
Protein standard in 1D and 2D SDS gelelectrophoresis.
Immunoassays.
Immunization.
Protocol: Reconstitution to filaments: after vimentin is dissolved in 6 M urea buffer (see above) (2) - Protocol: 1. Uehara Y. (2)
-
Protocol: Activity Assay
1. Prepare a 1 ml reaction cocktail into a suitable container: The final concentrations are 5mM Tris (2) - Suitable for Immunoblotting (Western or Dot blot) (2)
-
and Fukazawa H. (1991) Methods Enzymol. 201: 370.
2. Fukazawa H. (2) - and Nuccitelli R. (1992) J.Biol.Chem. 267:5608. (2)
-
both dissolved in 9.5 M urea buffer (see above).
Protofilaments and filament complexes are obtained by dialyzing the resulting polypeptide solution stepwise to a concentration of 4 M urea and then to low salt condition (50 mM NaCl (2) - e.g.Dulbecco's PBS). (2)
-
et al. (1991) Biochem. Pharmacol. 42: 1661.
3. Satoh T. (2) -
et al.(1992) J.Biol.Chem. 267: 2537.
4. Weiss R. (2) - optimal concentration with heparin (30 μg/ml) is about 12 μg/ml. (2)
- protofilaments and filament complexes are obtained by dialyzing the resulting polypeptide solution stepwise to a concentration of 4 M urea and then to low salt condition (50 mM NaCl (2)
- protofilaments and filament complexes are obtained by dialyzing the resulting polypeptide solution stepwise to a concentration of 4M Urea and then to low salt condition (50mM NaCl (2)
- protofilaments and filament complexes are obtained by dialyzing the resulting polypeptide solution stepwise to a concentration of 4M urea and then to low salt condition (50 mM NaCl (2)
- the solution can be further dialyzed against PBS (Phosphate Buffered Saline (2)
- 000) as well as other antibody based fluorescent assays. (1)
-
000)
Flow Cytometry/FACS (1/1 (1) - 000-1/200 (1)
- 000-1/32 (1)
- 000-1/40 (1)
- 000. (1)
-
000.
Immunohistochemistry: 1/1 (1) -
000.
Protein G Peroxidase is a useful reagent in Western Blotting and ELISA experiments. Protein G Peroxidase can be utilized as a pseudo-secondary detection reagent when used in conjunction with an IgG-based primary antibody and appropriate substrate (such as TMB-1000 or Femtomax-110). (1) -
000.
Western Blot: 1/500-1/2 (1) -
000.
Western blot: 1/10 (1) -
500.
Immunohistochemistry: 1/200-1/1 (1) -
ELISA.
Western Blot.
Cell culture and/or animal studies. (1) -
ELISA.
Suitable for use as a Control or standard in indirect trapping ELISA for quantitation of antigen in serum using a standard curve.
Immunoprecipitation.
Western blotting. (1) -
ELISA.
Western Blot. (1) -
ELISA.
Western blotting. (1) - ELISA: this protein is suitable for use as a Mouse IgE standard in ELISA assays. (1)
- ELISA. (1)
- Functional Assays. (1)
- Positive control for Western blot analysis (1)
-
Positive control for Western blot analysis.
Standard for ELISA. (1) -
Adermann K. Role of the prosequence of guanylin. Protein Sci. 1999 Sep; 8(9): 1850-9.
4. Lauber T (1) -
Cell culture and/or animal studies.
ELISA.
Western Blot. (1) -
Cohen MB. Proguanylin secretion and the role of negative-feedback inhibition in a villous epithelial cell line. Am J Physiol Gastrointest Liver Physiol. 2002 Sep; 283(3): G695-702.
3. Schulz A (1) -
ELISA and Immunohistochemistry as well as other beta galactosidase-avidin/biotin based enzymatic assays. This product has been assayed against 1.0 µg of biotinylated IgG in a standard capture ELISA using OPNG as a substrate for 30 minutes at room temperature.
Recommended Dilutions:
ELISA: 1/8000-1/32000.
Western Blot: 1/500-1/2500.
Immunohistochemistry: 1/200-1/1000. (1) -
ELISA and immunohistochemistry as well as other glucose oxidase-antibody based enzymatic assays.
Recommended Dilutions:
ELISA: 1/8 (1) -
ELISA.
Functional Assays. (1) - For use as a Control or Standard in Indirect trapping ELISA for quantitation of antigen in serum using a standard curve (1)
-
For use as a Control or standard in indirect trapping ELISA for quantitation of antigen in serum using a standard curve.
Immunoprecipitation.
Western blotting. (1) - Forssmann WG (1)
- Hawkins JA (1)
- Hidaka Y (1)
- Immunofluorescence Microscopy (1/1 (1)
-
Immunoperoxidase Electron Microscopy and Immunohistochemistry as well as other peroxidase-biotin-avidin based enzymatic assays.
Recommended Dilutions:
ELISA: 1/20 (1) - Marx UC (1)
-
Marx UC. Native and recombinant proguanylin feature identical biophysical properties and are monomeric in solution. Biochemistry. 2002 Dec 10; 41(49): 14602-12.
2. Rudolph JA (1) - Marx UC. Solution structure of human proguanylin: the role of a hormone prosequence. J Biol Chem. 2003 Jun 27; 278(26): 24118-24. Epub 2003 Apr 21. (1)
- Neudecker P (1)
- Nourse A (1)
- Rosch P (1)
- Schulz A (1)
- Shimonishi Y (1)
- Specific methodologies have not been tested using this product. (1)
- Suitable for Immunoblotting (Western or dot blot) (1)
-
Western Blot.
ELISA. (1) -
Western Blot.
Protocol: 1. Lauber T (1) - Western Blotting. (1)
-
change growth medium against basal medium (EBM) in the early afternoon]
- change EGF against EBM (for HUVEC: EBM +1-2% FCS)
- incubate 24 h
- change medium again and add factors (growth factors (1) -
etc.)
- incubate for 18 h
- add 10 µl 3H-Thymidine solution [0.025 mCi/ml] per well (=0.25 µCi)
- incubate another 6h at 37°C
- Washing steps: (250 µl/well)
PBS 1x
MeOH 2x 5 min
TCA 2x 10 min
H2O 1x
- lyse cells in 250 µl 0.3M NaOH per well
- transfer 2.5 ml ECO Plus into the appropriate scintillation vials
- transfer cell lysats into the scintillation vials
- count by liquid scintillation (ß-counter; Beckmann Instruments) (1) - for immunoprecipitation and for Wwestern blotting. (1)
- inhibitors (1)
-
optimal concentration with heparin (50 μg/ml) is about 12 μg/ml.
Protocol: Thymidine Incorporation with HUVEC
- plate cells with a density at 5-7 x 10e3 cells/well in growth medium (EGM)
- incubate cells over night [if urgent (1) - plate cells in the morning (1)
Pathways
- Metabolic pathways (7727)
- Pathways in cancer (3017)
- MAPK signaling pathway (2447)
- Cytokine-cytokine receptor interaction (2390)
- Regulation of actin cytoskeleton (1728)
- Focal adhesion (1669)
- Endocytosis (1469)
- Chemokine signaling pathway (1461)
- Jak-STAT signaling pathway (1289)
- Neurotrophin signaling pathway (1281)
- Purine metabolism (1174)
- Natural killer cell mediated cytotoxicity (1150)
- Ubiquitin mediated proteolysis (1121)
- Wnt signaling pathway (1110)
- Alzheimer's disease (1107)
- Insulin signaling pathway (1094)
- T cell receptor signaling pathway (1049)
- Huntington's disease (1046)
- Cell adhesion molecules (CAMs) (1033)
- Calcium signaling pathway (1024)
- Neuroactive ligand-receptor interaction (1023)
- Axon guidance (1014)
- Hematopoietic cell lineage (1008)
- Toll-like receptor signaling pathway (993)
- Cell cycle (988)
- Leukocyte transendothelial migration (942)
- Tight junction (936)
- ErbB signaling pathway (908)
- Progesterone-mediated oocyte maturation (889)
- Oocyte meiosis (886)
- Lysosome (854)
- Prostate cancer (847)
- Apoptosis (843)
- GnRH signaling pathway (811)
- Pancreatic cancer (796)
- Spliceosome (782)
- Adherens junction (768)
- Colorectal cancer (761)
- Fc gamma R-mediated phagocytosis (759)
- Melanoma (746)
- Systemic lupus erythematosus (745)
- Fc epsilon RI signaling pathway (731)
- Pyrimidine metabolism (731)
- Dilated cardiomyopathy (730)
- Hypertrophic cardiomyopathy (HCM) (720)
- TGF-beta signaling pathway (697)
- Parkinson's disease (695)
- Melanogenesis (693)
- B cell receptor signaling pathway (680)
- Chronic myeloid leukemia (679)
- Small cell lung cancer (675)
- VEGF signaling pathway (672)
- Vascular smooth muscle contraction (671)
- Antigen processing and presentation (670)
- Renal cell carcinoma (669)
- Glioma (650)
- RIG-I-like receptor signaling pathway (632)
- Oxidative phosphorylation (628)
- PPAR signaling pathway (625)
- Adipocytokine signaling pathway (620)
- Gap junction (620)
- NOD-like receptor signaling pathway (619)
- Epithelial cell signaling in Helicobacter pylori infection (603)
- Complement and coagulation cascades (595)
- Glycolysis / Gluconeogenesis (591)
- p53 signaling pathway (588)
- Acute myeloid leukemia (586)
- Olfactory transduction (558)
- Phosphatidylinositol signaling system (552)
- Long-term potentiation (548)
- Arrhythmogenic right ventricular cardiomyopathy (ARVC) (536)
- Pathogenic Escherichia coli infection (536)
- Endometrial cancer (528)
- Non-small cell lung cancer (528)
- Long-term depression (517)
- Cytosolic DNA-sensing pathway (499)
- Viral myocarditis (489)
- ECM-receptor interaction (480)
- Bladder cancer (475)
- Cardiac muscle contraction (475)
- Arginine and proline metabolism (469)
- Amyotrophic lateral sclerosis (ALS) (467)
- Metabolism of xenobiotics by cytochrome P450 (464)
- Drug metabolism - cytochrome P450 (462)
- Glycerophospholipid metabolism (448)
- mTOR signaling pathway (446)
- Ribosome (434)
- Inositol phosphate metabolism (417)
- Vibrio cholerae infection (401)
- Autoimmune thyroid disease (399)
- Amino sugar and nucleotide sugar metabolism (395)
- Valine (395)
- Glutathione metabolism (388)
- Drug metabolism - other enzymes (380)
- Thyroid cancer (379)
- Type I diabetes mellitus (379)
- Type II diabetes mellitus (373)
- Retinol metabolism (371)
- RNA degradation (346)
- leucine and isoleucine degradation (345)
- Tyrosine metabolism (343)
- Starch and sucrose metabolism (339)
- Hedgehog signaling pathway (337)
- Pyruvate metabolism (333)
- Proteasome (330)
- Arachidonic acid metabolism (326)
- Fructose and mannose metabolism (320)
- Graft-versus-host disease (320)
- Fatty acid metabolism (318)
- Glycerolipid metabolism (318)
- Tryptophan metabolism (315)
- Alanine (307)
- Allograft rejection (307)
- aspartate and glutamate metabolism (307)
- Basal cell carcinoma (302)
- Cysteine and methionine metabolism (295)
- Nucleotide excision repair (294)
- Prion diseases (294)
- Primary immunodeficiency (285)
- Base excision repair (277)
- Regulation of autophagy (269)
- Androgen and estrogen metabolism (266)
- Porphyrin and chlorophyll metabolism (266)
- Notch signaling pathway (265)
- Lysine degradation (263)
- Butanoate metabolism (261)
- Sphingolipid metabolism (260)
- Pentose phosphate pathway (253)
- Nitrogen metabolism (250)
- Citrate cycle (TCA cycle) (246)
- SNARE interactions in vesicular transport (244)
- Propanoate metabolism (239)
- Galactose metabolism (235)
- DNA replication (231)
- Histidine metabolism (229)
- Aminoacyl-tRNA biosynthesis (226)
- Glycine (214)
- serine and threonine metabolism (214)
- Ether lipid metabolism (210)
- Asthma (208)
- Taste transduction (201)
- Selenoamino acid metabolism (200)
- beta-Alanine metabolism (197)
- N-Glycan biosynthesis (195)
- Nicotinate and nicotinamide metabolism (195)
- Dorso-ventral axis formation (187)
- Linoleic acid metabolism (185)
- Glycosphingolipid biosynthesis - lacto and neolacto series (184)
- Maturity onset diabetes of the young (182)
- Phenylalanine metabolism (170)
- RNA polymerase (167)
- Sulfur metabolism (167)
- Basal transcription factors (163)
- Glycosaminoglycan degradation (162)
- Homologous recombination (159)
- Mismatch repair (159)
- Pantothenate and CoA biosynthesis (152)
- O-Glycan biosynthesis (151)
- Pentose and glucuronate interconversions (147)
- Renin-angiotensin system (144)
- Riboflavin metabolism (144)
- Other glycan degradation (136)
- Glyoxylate and dicarboxylate metabolism (134)
- Ascorbate and aldarate metabolism (132)
- Primary bile acid biosynthesis (131)
- Terpenoid backbone biosynthesis (129)
- One carbon pool by folate (121)
- alpha-Linolenic acid metabolism (114)
- Heparan sulfate biosynthesis (108)
- Biosynthesis of unsaturated fatty acids (107)
- Glycosphingolipid biosynthesis - globo series (105)
- Glycosylphosphatidylinositol(GPI)-anchor biosynthesis (102)
- Keratan sulfate biosynthesis (101)
- C21-Steroid hormone metabolism (100)
- Limonene and pinene degradation (93)
- Folate biosynthesis (89)
- Chondroitin sulfate biosynthesis (84)
- Circadian rhythm - mammal (82)
- Steroid biosynthesis (82)
- Non-homologous end-joining (81)
- ABC transporters (80)
- leucine and isoleucine biosynthesis (77)
- Thiamine metabolism (76)
- Taurine and hypotaurine metabolism (75)
- Glycosphingolipid biosynthesis - ganglio series (74)
- Synthesis and degradation of ketone bodies (70)
- Caffeine metabolism (64)
- Fatty acid elongation in mitochondria (54)
- Methane metabolism (54)
- Ubiquinone and other terpenoid-quinone biosynthesis (52)
- Protein export (50)
- Cyanoamino acid metabolism (48)
- Fatty acid biosynthesis (37)
- Phenylalanine (36)
- tyrosine and tryptophan biosynthesis (36)
- Lysine biosynthesis (28)
- Vitamin B6 metabolism (28)
- D-Glutamine and D-glutamate metabolism (26)
- Lipoic acid metabolism (19)
- Biotin metabolism (14)
- O-Mannosyl glycan biosynthesis (13)
- D-Arginine and D-ornithine metabolism (7)
Protein Source
- Human (1398)
- Human 293 (110)
- E. coli (74)
- Plasma (7)
- P.Pichia (6)
- Spinal Cord (6)
- Brain (4)
- Liver (4)
- Baculovirus (3)
- HEK293 (3)
- Placenta (3)
- 293F (2)
- Erythrocytes (2)
- Gizzard (2)
- Insect (2)
- Neutrophils (2)
- Stomach (2)
- CHO Stable (1)
- Carcinoma (1)
- Cell culture (1)
- Egg white (1)
- Expi293 (1)
- Leukocytes (1)
- Mammalian (1)
- Pancreas (1)
- Pichia pastoris (1)
- Pituitary (1)
- S. avidinii (1)
- Serum (1)
- Synthetic (1)
- Urine (1)