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Illustration of the enzyme human topoisomerase II (whitepink globular) undoing the overcoiling of DNA (deoxyribonuclease yellow and bluewhite heli
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Illustration of the enzyme human topoisomerase II (whitepink globular) undoing the overcoiling of DNA (deoxyribonuclease yellow and bluewhite heli
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Illustration of the enzyme human topoisomerase II (whitepink globular) undoing the overcoiling of DNA (deoxyribonuclease yellow and bluewhite heli
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Illustration of the enzyme human topoisomerase II (whitepink globular) undoing the overcoiling of DNA (deoxyribonuclease yellow and bluewhite heli
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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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Castor oil plant seed Light micrograph of a section through the seed of a castor oil plant (Ricinus communis) The castor oil seed has an outer testa
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Illustration of the structure of a targeted protein degrader molecule such as a proteolysis-targeting chimera (PROTAC) Targeted protein degraders ar
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Illustration of the components of proteolysis-targeting chimera (PROTAC) and some targeted protein degradation technologies Seen are the proteolysis-
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Illustration of the structure of a targeted protein degrader molecule such as a proteolysis-targeting chimera (PROTAC) Targeted protein degraders ar
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Illustration of the structure of a targeted protein degrader molecule such as a proteolysis-targeting chimera (PROTAC) Targeted protein degraders ar
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Structure of a camel nanobody illustration Nanobodies are also known as single domain antibodies They are small in size with novel therapeutic cha
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Structure of a camel nanobody illustration Nanobodies are also known as single domain antibodies They are small in size with novel therapeutic cha
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Structure of a camel nanobody illustration Nanobodies are also known as single domain antibodies They are small in size with novel therapeutic cha
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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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Castor oil plant seed Light micrograph of a section through the seed of a castor oil plant (Ricinus communis) The castor oil seed has an outer testa
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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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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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Dendritic cell Coloured Scanning Electron Micrograph (SEM) of a protective cell of the human immune system known as a dendritic or Langerhans cell 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 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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AIDS research laboratory A high-security door and air lock isolate Dr Quentin Sattentau while he conducts research in a high-security (level 3) labor
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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 a human IgG1 (immunoglobulin G1) antibody Colours represent the two light chains (green and yellow) and two heavy chains (blue and pu
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Illustration of a human IgG1 (immunoglobulin G1) antibody Colours represent the two light chains (red and purple) and two heavy chains (cyan and gree
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Illustration of a human IgG1 (immunoglobulin G1) antibody Colours represent the two light chains (blue and cyan) and two heavy chains (purple and yel
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Illustration of the ribbon protein structure of a human immunoglobulin G1 (IgG1) antibody Colours represent the two light chains (yellow and red) and
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Illustration of antibodies based on the 3D structure of human immunoglobulin G1 (IGG1) by THOM LEACH SCIENCE PHOTO LIBRARY
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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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Illustration of antibodies based on the 3D structure of human immunoglobulin G1 (IGG1) by THOM LEACH SCIENCE PHOTO LIBRARY
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Illustration of antibody technologies based on the 3D structure of human immunoglobulin G1 (IGG1) by THOM LEACH SCIENCE PHOTO LIBRARY
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AIDS research laboratory High-security doors and air locks isolate Dr Quentin Sattentau as he passes out of a high security (level 3) laboratory He
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Illustration of antibody technologies based on the 3D structure of human immunoglobulin G1 (IGG1) by THOM LEACH SCIENCE PHOTO LIBRARY
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Illustration of antibodies based on the 3D structure of human immunoglobulin G1 (IGG1) by THOM LEACH SCIENCE PHOTO LIBRARY
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Illustration of antibodies based on the 3D structure of human immunoglobulin G1 (IGG1) by THOM LEACH SCIENCE PHOTO LIBRARY
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of RNA (ribonucleic acid) obelisks in human gut bacteria RNA obelisks are viroid-like fragments of RNA that have been found replicating
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of RNA (ribonucleic acid) obelisks in human gut bacteria RNA obelisks are viroid-like fragments of RNA that have been found replicating
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Illustration of RNA (ribonucleic acid) obelisks in human gut bacteria RNA obelisks are viroid-like fragments of RNA that have been found replicating
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Cross section of a computerised model of a crystal of Human Serum Albumin (each side of a square represents one molecule) Images are made by X- rayin
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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RNA obelisk illustration
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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False-colour transmission electron micrograph (TEM) of the Hepatitis B viruses sometimes called serum hepatitis Here the large spheres (known as Da
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RNA obelisk illustration
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of a kinesin (yellow) walking along a microtubule (white and grey) while carrying a vesicle (purple) as its cargo Kinesins are a type of
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of RNA (ribonucleic acid) obelisks in human gut bacteria RNA obelisks are viroid-like fragments of RNA that have been found replicating
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Illustration of RNA (ribonucleic acid) obelisks in human gut bacteria RNA obelisks are viroid-like fragments of RNA that have been found replicating
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Tamiflu drug molecule computer model Tamiflu (oseltamivir phosphate) is an anti-viral drug used to treat influenza Atoms are colour-coded carbon (
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Illustration of RNA (ribonucleic acid) obelisks in human gut bacteria RNA obelisks are viroid-like fragments of RNA that have been found replicating
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Illustration of an RNA (ribonucleic acid) obelisk in the human gut RNA obelisks are viroid-like fragments of RNA that have been found replicating in
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Illustration of an RNA (ribonucleic acid) obelisk in the human gut RNA obelisks are viroid-like fragments of RNA that have been found replicating in
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of an RNA (ribonucleic acid) obelisk RNA obelisks are viroid-like fragments of RNA that have been found replicating in bacteria in the h
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Illustration of a kinesin (yellow) walking along a microtubule (white and grey) while carrying a vesicle (purple) as its cargo Kinesins are a type of
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Illustration of a kinesin (yellow) walking along a microtubule (white and grey) while carrying a vesicle (purple) as its cargo Kinesins are a type of
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Conceptual illustration of RNA (ribonucleic acid) obelisks (blue) in the human gut RNA obelisks are viroid-like fragments of RNA that have been found
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Conceptual illustration of RNA (ribonucleic acid) obelisks (blue) in the human gut RNA obelisks are viroid-like fragments of RNA that have been found
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Blood clot Coloured Scanning Electron Micrograph of an early blood clot The red blood cells are forming rouleaux (rolls) as they become enmeshed i
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Conceptual illustration of RNA (ribonucleic acid) obelisks (yellow) and Streptococcus sp bacteria (green) RNA obelisks are viroid-like fragments of
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Conceptual illustration of RNA (ribonucleic acid) obelisks (blue) and Streptococcus sp bacteria (pink) RNA obelisks are viroid-like fragments of RNA
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Conceptual illustration of RNA (ribonucleic acid) obelisks (blue) and bacteria in the human gut RNA obelisks are viroid-like fragments of RNA that ha
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Conceptual illustration of RNA (ribonucleic acid) obelisks (yellow) and Streptococcus sp bacteria (green) RNA obelisks are viroid-like fragments of
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Conceptual illustration of RNA (ribonucleic acid) obelisks (blue) in the human gut RNA obelisks are viroid-like fragments of RNA that have been found
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Conceptual illustration of RNA (ribonucleic acid) obelisks (blue) in the human gut RNA obelisks are viroid-like fragments of RNA that have been found
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Soap molecules destroying coronavirus conceptual illustration Soap molecules have a hydrophilic (water loving) head (blue) and a hydrophobic (fat lo
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Thalassiosira pseudonana microalgae A type of diatom that is being researched as a potential source of biofuel and as a food supplement due to its hi
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Phaeodactylum tricornutum microalgae A type of diatom that is being researched as a potential source of biofuel and as a food supplement due to its h
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Rotaviruses Coloured transmission electron micrograph (TEM) of rotavirus particles a common cause of intestinal infections in infants and young anim
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