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Illustration of tirzepatide (red blue and grey spheres) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (pinkbeige vertical) A G
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Illustration of tirzepatide (silver helix) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (multi-coloured helices across membrane)
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SpCas9 enzymes splicing DNA illustration
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SpCas9 enzymes splicing DNA illustration
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SpCas9 enzymes splicing DNA illustration
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Illustration of a bispecific antibody showing two discrete antigen binding sites (pink and green) within the antibody structure by THOM LEACH SCIE
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Illustration of a bispecific antibody (yellow and orange) binding to two different membrane proteins (purple and blue) by THOM LEACH SCIENCE PHOTO
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Illustration of a bispecific antibody (pink and green) binding to two different membrane proteins (yellow and blue) by THOM LEACH SCIENCE PHOTO LI
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Illustration of a bispecific antibody (green and light blue) binding to two different membrane proteins (pink and dark blue) by THOM LEACH SCIENCE
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Patient using an auto-injector device containing the migraine drug Erenumab Sold under the brand name Aimovig this is a preventative treatment that
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Illustration of a bispecific antibody (blue and purple) binding to two different membrane proteins (green and orange) by THOM LEACH SCIENCE PHOTO
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Illustration of a bispecific antibody showing two discrete antigen binding sites (pink and green) within the antibody structure by THOM LEACH SCI
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Illustration of an aptamer drug Aptamers are a special class of nucleic acids that can bind proteins or other cellular targets and are potential drug
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Illustration of an aptamer drug Aptamers are a special class of nucleic acids that can bind proteins or other cellular targets and are potential drug
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Illustration of an aptamer drug Aptamers are a special class of nucleic acids that can bind proteins or other cellular targets and are potential drug
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Illustration of an aptamer drug Aptamers are a special class of nucleic acids that can bind proteins or other cellular targets and are potential drug
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Illustration of a thrombin-RNA (ribonucleic acid) aptamer complex Aptamers are a special class of nucleic acids that can bind proteins or other cellu
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Illustration of an aptamer drug Aptamers are a special class of nucleic acids that can bind proteins or other cellular targets and are potential drug
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Illustration of an aptamer drug Aptamers are a special class of nucleic acids that can bind proteins or other cellular targets and are potential drug
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Editorial use only Auto-injector device containing the migraine drug Erenumab sold under the brand name Aimovig This is a preventative treatment t
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Illustration of an aptamer drug Aptamers are a special class of nucleic acids that can bind proteins or other cellular targets and are potential drug
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Illustration of an aptamer drug Aptamers are a special class of nucleic acids that can bind proteins or other cellular targets and are potential drug
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Illustration of an aptamer drug Aptamers are a special class of nucleic acids that can bind proteins or other cellular targets and are potential drug
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Illustration of an aptamer drug Aptamers are a special class of nucleic acids that can bind proteins or other cellular targets and are potential drug
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Illustration of antibody drug conjugates Antibody drug conjugates can consist of a monoclonal antibody (blue) and a cytotoxic payload (orange) for ta
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Illustration of antibody drug conjugates Antibody drug conjugates can consist of a monoclonal antibody (bluepurple) and a cytotoxic payload (orange)
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Illustration of antibody drug conjugates Antibody drug conjugates can consist of a monoclonal antibody (bluepurple) and a cytotoxic payload (glowing
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Illustration of antibody drug conjugates Antibody drug conjugates can consist of a monoclonal antibody (bluepurple) and a cytotoxic payload (orange)
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Illustration of the antigen binding site (orange) of a human IgG1 (immunoglobulin G1) antibody by THOM LEACH SCIENCE PHOTO LIBRARY
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Editorial use only Packaging for an auto-injector device of the migraine drug Erenumab sold under the brand name Aimovig This is a preventative tr
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Antibodies attacking virus particle illustration
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Antibodies attacking virus particle illustration
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Antibodies attacking virus particles illustration
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Antidiabetic drug tirzepatide molecular structure illustration
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Antidiabetic drug tirzepatide molecular structure illustration
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Illustration showing the molecular structure of tirzepatide a drug used to treat type 2 diabetes and obesity It functions by mimicking glucose-depen
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Illustration showing the molecular structure of tirzepatide a drug used to treat type 2 diabetes and obesity It functions by mimicking glucose-depen
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Illustration of the molecular structure of semaglutide a drug used to treat type-2 diabetes Semaglutide is a GLP-1 agonist meaning it mimics the fu
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Illustration of the molecular structure of semaglutide a drug used to treat type-2 diabetes Semaglutide is a GLP-1 agonist meaning it mimics the fu
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Editorial use only Packaging for an auto-injector device of the migraine drug Erenumab sold under the brand name Aimovig This is a preventative tr
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Antidiabetic drug semaglutide molecular structure illustration
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Antidiabetic drug semaglutide molecular structure illustration
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Illustration of tirzepatide (red blue and grey spheres) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (beige vertical) A G prot
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Illustration of tirzepatide (silver helix) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (multi-coloured helices across membrane)
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Illustration of tirzepatide (red blue and grey spheres) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (multi-coloured 3d structur
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Illustration of tirzepatide (silver helix) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (multi-coloured helices across membrane)
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Illustration of tirzepatide (red blue and grey spheres) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (beige vertical structure)
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Illustration of semaglutide (blue red and grey spheres) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (multi-coloured 3D structur
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Semaglutide antidiabetic drug action illustration
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Paramyxovirus particles Computer artwork of a paramyxovirus particles (virions) This family of RNA (ribonucleic acid) viruses is responsible for a n
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DNA replication illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
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DNA replication illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Chimeric antigen receptor illustration CAR T cells are currently developed with the hope they may eventually transform immunotherapy of cancer patie
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Chimeric antigen receptor illustration CAR T cells are currently developed with the hope they may eventually transform immunotherapy of cancer patie
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Chimeric antigen receptor illustration CAR T cells are currently developed with the hope they may eventually transform immunotherapy of cancer patie
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Chimeric antigen receptor illustration CAR T cells are currently developed with the hope they may eventually transform immunotherapy of cancer patie
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Chimeric antigen receptor illustration CAR T cells are currently developed with the hope they may eventually transform immunotherapy of cancer patie
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Chimeric antigen receptor illustration CAR T cells are currently developed with the hope they may eventually transform immunotherapy of cancer patie
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Chimeric antigen receptor illustration CAR T cells are currently developed with the hope they may eventually transform immunotherapy of cancer patie
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Paramyxovirus particles Computer artwork of a paramyxovirus particles (virions) This family of RNA (ribonucleic acid) viruses is responsible for a n
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Nanobodies and Covid-19 virus spike protein illustration
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GLP-1 receptors and semaglutide agonists illustration
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Antibody binding to respiratory syncytial virus illustration
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GLP-1 receptors and semaglutide agonists illustration
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Inactivated GLP-1 receptor near semaglutide illustration
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GLP-1 receptor activated by semaglutide illustration
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Beta-cyclodextrin bound to AMPK beta subunit illustration
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Carbon monoxide bound to horseradish peroxidase illustration
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Enalapril drug bound to ACE illustration
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Viruses and antibodies Computer artwork of four viruses (round left) surrounded by Y-shaped immunoglobulins or antibodies (white) A white blood cel
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Lead atoms complexed with ALAD enzyme illustration
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Transcription factors bound to DNA illustration
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Rheumatoid arthritis treatment illustration
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Kinetochore bound to centromere protein illustration
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Dicer bound to microRNA precursor illustration
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Illustration of the US molecular biologist George P Smith (born 1941) Smith is best known for the development of phage display a laboratory techniq
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Ion transport across cell membrane illustration
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Illustration of the extracellular V (orange) C1 (magenta) and C2 (cyan) domains of the receptor for advanced glycation endproducts (RAGE) This trans
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Illustration of the extracellular V (purple) C1 (cyan) and C2 (green) domains of the receptor for advanced glycation endproducts (RAGE) This transme
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Herpes viruses Coloured Transmission Electron Micrograph (TEM) of clusters of herpes viruses infecting a cell Cross-sections of individual virus par
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Illustration of the extracellular V (green) C1 (yellow) and C2 (magenta) domains of the receptor for advanced glycation endproducts (RAGE) This tran
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Illustration of the extracellular V (orange) C1 (magenta) and C2 (cyan) domains of the receptor for advanced glycation endproducts (RAGE) This trans
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Illustration of a receptor for advanced glycation endproducts (RAGE) within a lipid bilayer membrane This transmembrane protein belongs to the immuno
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Illustration of a receptor for advanced glycation endproducts (RAGE) within a lipid bilayer membrane Above the membrane the receptors V C1 and C2
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Illustration of a receptor for advanced glycation endproducts (RAGE) within a lipid bilayer membrane This transmembrane protein belongs to the immuno
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Illustration of a receptor for advanced glycation endproducts (RAGE) within a lipid bilayer membrane This transmembrane protein belongs to the immuno
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Illustration of glycoprotein spikes (GP120 pink) on the surface of a human immunodeficiency virus (HIV) binding to surface proteins on a CD4 T-lymph
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Illustration of the transient receptor potential cation channel subfamily V member 2 (TRPV2) binding cannabidiol (red) TRPV2 can be activated by th
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Illustration of a cholesterol molecule (spheres) binding to the G-protein coupled receptor (GPCR) Ste2 from the yeast Saccharomyces cerevisiae Sre2 i
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Computer model of the most abundant protein in the circulatory system Human Serum Albumin (HSA) important for the maintenance of plasma volume and t
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Illustration of the binding domain of the human insulin receptor complexed with insulin (yellow) The insulin receptor is a transmembrane protein Bin
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Illustration of the human voltage-gated potassium (Kv) ion channel Kv42 in complex with its dipeptidyl peptidase-related protein 6 (DPP6) modulator
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Nanobody aSA3 complexed with SARS-CoV-1 RBD molecular model Shown are the dimeric spike glycoproteins (yellow blue) of the receptor binding protein
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Nanobody aSA3 complexed with SARS-CoV-1 RBD molecular model Shown are the dimeric spike glycoproteins (yellow blue) of the receptor binding protein
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Illustration of a DNA (deoxyribonucleic acid) binding protein from the bacterium Vibrio parahaemolyticus The binding of the two monomers (left and ri
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Illustration of a monoclonal antibody (light blue) bound to an amyloid beta peptide (orange) Misfolded amyloid beta peptides aggregate and form amylo
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Illustration of a monoclonal antibody (blue) bound to an amyloid beta peptide (orange) Misfolded amyloid beta peptides aggregate and form amyloid pla
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Illustration of a monoclonal antibody (blue) bound to an amyloid beta peptide (orange) Misfolded amyloid beta peptides aggregate and form amyloid pla
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Illustration of a 26S proteasome Proteasomes are protein-digesting enzymes They recognise proteins that have been tagged for destruction by the addi
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Computer graphics image of lymphocytes (white blood cells) antibodies (Y-shaped objects) in an artery Antibodies special blood proteins are syn
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