Image Type:

Collection:

Orientation:

Color Space:

Display images per page:

SuperStock
Search Results


Stock Photos - MOLECULAR BIOLOGY (2,375 results)

Next Page of Stock Photography
Page 1 of 12
Previous Page of Stock Photos

Stock Photo #4128R-23132, DNA deoxyribonucleic acid, molecular model.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
DNA deoxyribonucleic acid, molecular model.
Stock Photo #1598R-9939117, Female scientist examining molecular structure
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Female scientist examining molecular structure
Stock Photo #4128R-13902, Nitrofen herbicide, molecular model. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, nitrogen blue, oxygen red and chlorine green.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Nitrofen herbicide, molecular model. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, nitr...
Nitrofen herbicide, molecular model. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, nitrogen blue, oxygen red and chlorine green.
Stock Photo #4128R-33792, Iron storage molecule. Molecular model of ferritin, a protein that acts as an iron store and is mainly found in the liver, kidneys and spleen.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Iron storage molecule. Molecular model of ferritin, a protein that acts as an iron store and is mainly found in the liver, ki...
Iron storage molecule. Molecular model of ferritin, a protein that acts as an iron store and is mainly found in the liver, kidneys and spleen.
Stock Photo #1899-83581, Histology microscope slides.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Histology microscope slides.
Stock Photo #1555R-331783, Molecular grid
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Molecular grid
Stock Photo #4297-1286, Computer generated three-dimensional molecular model of Carbon dioxide
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Computer generated three-dimensional molecular model of Carbon dioxide
Stock Photo #4128R-33844, Manganese catalase. Molecular model of the enzyme manganese catalase from the bacterium Lactobacillus plantarum. This enzyme catalyses the break down of hydrogen peroxide to water and oxygen. Hydrogen peroxide is a highly toxic byproduct of a number of normal cellular processes.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Manganese catalase. Molecular model of the enzyme manganese catalase from the bacterium Lactobacillus plantarum. This enzyme ...
Manganese catalase. Molecular model of the enzyme manganese catalase from the bacterium Lactobacillus plantarum. This enzyme catalyses the break down of hydrogen peroxide to water and oxygen. Hydrogen peroxide is a highly toxic byproduct of a number of normal cellular processes.
Stock Photo #4128R-30822, Genetic code, computer artwork.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Genetic code, computer artwork.
Stock Photo #4128R-33743, Yeast DNA recognition. Computer model showing a GAL4 transcription activator protein bound to a yeast DNA (deoxyribonucleic acid) molecule (red and blue). A transcriptional activator is a protein that increases transcription of a gene or set of genes. Transcription is the first step of gene expression.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Yeast DNA recognition. Computer model showing a GAL4 transcription activator protein bound to a yeast DNA (deoxyribonucleic a...
Yeast DNA recognition. Computer model showing a GAL4 transcription activator protein bound to a yeast DNA (deoxyribonucleic acid) molecule (red and blue). A transcriptional activator is a protein that increases transcription of a gene or set of genes. Transcription is the first step of gene expression.
Stock Photo #4378-3016, Molecular model showing the chemical structure of nicotine.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Molecular model showing the chemical structure of nicotine.
Stock Photo #4128R-34111, MscS ion channel protein structure. Molecular model of a mechanosensitive channel of small conductance (MscS) from an Escherichia coli bacterium. MscSs play a critical role in converting physical stress at the cell membrane into an electrochemical response. They respond to smaller pressures than the large conductance channels. In prokaryotes such as bacteria, such channels open in response to stretch forces in the membrane and help regulate osmotic pressure within the cell by controlling the pas
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
MscS ion channel protein structure. Molecular model of a mechanosensitive channel of small conductance (MscS) from an Escheri...
MscS ion channel protein structure. Molecular model of a mechanosensitive channel of small conductance (MscS) from an Escherichia coli bacterium. MscSs play a critical role in converting physical stress at the cell membrane into an electrochemical response. They respond to smaller pressures than the large conductance channels. In prokaryotes such as bacteria, such channels open in response to stretch forces in the membrane and help regulate osmotic pressure within the cell by controlling the pas
Stock Photo #1598R-10010786, Molecular model of cholesterol
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Molecular model of cholesterol
Stock Photo #1555R-236045, Sample analysis
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageView CDCalculate Image Price
Sample analysis
Stock Photo #4128R-33796, Birch pollen allergen. Molecular model of Bet v 1l, the molecule responsible for allergic reactions to birch pollen. Here, Bet v 1l is shown in complex with two deoxycholate molecules (grey and red spheres), whose primary structure is shown. Individuals that are allergic to birch pollen, experience hayfever in March and May.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Birch pollen allergen. Molecular model of Bet v 1l, the molecule responsible for allergic reactions to birch pollen. Here, Be...
Birch pollen allergen. Molecular model of Bet v 1l, the molecule responsible for allergic reactions to birch pollen. Here, Bet v 1l is shown in complex with two deoxycholate molecules (grey and red spheres), whose primary structure is shown. Individuals that are allergic to birch pollen, experience hayfever in March and May.
Stock Photo #824-54783, VIROLOGY LABORATORY. VIROLOGY LABORATORY Photo essay from laboratory. Institut Pasteur. Department of virology. Unit of molecular genetics of Bunyaviridae. Group entomology Mosquito team. Research on the transmission of Chikungunya virus to mosquitoes Aedes albopictus and Aedes aegypti. Here, titration of the Chikungunya virus by counting the lysis plaques formed on the Vero cells. The Vero epithelial cell line is issue from the kidney of a vervet monkey Chlorocebus aethiops , it is used in the
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
VIROLOGY LABORATORY. VIROLOGY LABORATORY Photo essay from laboratory. Institut Pasteur. Department of virology. Unit of molec...
VIROLOGY LABORATORY. VIROLOGY LABORATORY Photo essay from laboratory. Institut Pasteur. Department of virology. Unit of molecular genetics of Bunyaviridae. Group entomology Mosquito team. Research on the transmission of Chikungunya virus to mosquitoes Aedes albopictus and Aedes aegypti. Here, titration of the Chikungunya virus by counting the lysis plaques formed on the Vero cells. The Vero epithelial cell line is issue from the kidney of a vervet monkey Chlorocebus aethiops , it is used in the
Stock Photo #1824R-96375, Smiling man examining plant in laboratory
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Smiling man examining plant in laboratory
Stock Photo #4128R-33689, Alcohol dehydrogenase, molecular model. Alcohol dehydrogenase (ADH) is an enzyme that facilitates the break-down of alcohols in the body, which could otherwise be toxic.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Alcohol dehydrogenase, molecular model. Alcohol dehydrogenase (ADH) is an enzyme that facilitates the break-down of alcohols ...
Alcohol dehydrogenase, molecular model. Alcohol dehydrogenase (ADH) is an enzyme that facilitates the break-down of alcohols in the body, which could otherwise be toxic.
Stock Photo #1829-69785, Girls Looking at Molecular Model
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Girls Looking at Molecular Model
Stock Photo #824R-3451, NANOTECHNOLOGY
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
NANOTECHNOLOGY
Stock Photo #4128R-33788, Bacteriorhodopsin protein. Molecular model showing the structure of bacteriorhodopsin (bR), a protein found in primitive micro-organisms known as Archaea. This protein acts as a proton pump. It harnesses the energy of light to drive cellular ATP synthesis.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Bacteriorhodopsin protein. Molecular model showing the structure of bacteriorhodopsin (bR), a protein found in primitive micr...
Bacteriorhodopsin protein. Molecular model showing the structure of bacteriorhodopsin (bR), a protein found in primitive micro-organisms known as Archaea. This protein acts as a proton pump. It harnesses the energy of light to drive cellular ATP synthesis.
Stock Photo #4128R-484, Unzipped DNA molecule, artwork
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Unzipped DNA molecule, artwork
Stock Photo #1566-395060, Laminar flow hoods. Microbiology Laboratory. Microbiological analysis of food. AZTI-Tecnalia. Technological Centre specialised in Marine and Food Research. Sukarrieta, Bizkaia, Euskadi. Spain.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Laminar flow hoods. Microbiology Laboratory. Microbiological analysis of food. AZTI-Tecnalia. Technological Centre specialise...
Laminar flow hoods. Microbiology Laboratory. Microbiological analysis of food. AZTI-Tecnalia. Technological Centre specialised in Marine and Food Research. Sukarrieta, Bizkaia, Euskadi. Spain.
Stock Photo #4239R-8044, Stylized view of strands of human DNA or deoxyribonucleic acid.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Stylized view of strands of human DNA or deoxyribonucleic acid.
Stock Photo #1899-82562, Cell biology laboratory, NBT / Molecular Neurobiology Department at IIT Scientists using confocal fluorescence microscopy
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Cell biology laboratory, NBT / Molecular Neurobiology Department at IIT Scientists using confocal fluorescence microscopy
Stock Photo #4239R-8558, Conceptual image of a neuron.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Conceptual image of a neuron.
Stock Photo #1895-13023, DNA molecular model, 1993.
Product Tooltip Area
Add Image to LightboxThis Photograph has Additional RestrictionsRights Managed ImageCalculate Image Price
DNA molecular model, 1993.
Stock Photo #824-46840, ELECTROPHORESIS. Ce pole medico_tecnhique est le deuxième plus gros plateau biologique de France.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
ELECTROPHORESIS. Ce pole medico_tecnhique est le deuxième plus gros plateau biologique de France.
Stock Photo #4128R-13396, Viral infection, conceptual computer artwork.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Viral infection, conceptual computer artwork.
Stock Photo #4128R-13781, Bupropion, molecular model. This antidepressant and smoking cessation aid is sold under the brand names Zyban, Buproban and Wellbutrin. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, oxygen red, nitrogen blue and chlor
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Bupropion, molecular model. This antidepressant and smoking cessation aid is sold under the brand names Zyban, Buproban and W...
Bupropion, molecular model. This antidepressant and smoking cessation aid is sold under the brand names Zyban, Buproban and Wellbutrin. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, oxygen red, nitrogen blue and chlor
Stock Photo #1830-53713, Glowing Green Brain
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Glowing Green Brain
Stock Photo #4128R-13331, DNA molecule. Molecular model of DNA deoxyribonucleic acid.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
DNA molecule. Molecular model of DNA deoxyribonucleic acid.
Stock Photo #4128R-33696, Nucleosome, molecular model. A nucleosome is a subunit of chromatin, the substance that forms chromosomes. It consists of a short length of DNA (deoxyribonucleic acid, red and blue helix) wrapped around a core of eight histone proteins (centre). Here the secondary structure of the proteins is shown. The structure of the nucleosome allows large quantities of DNA, the genetic material, to be packaged into a cell's nucleus.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Nucleosome, molecular model. A nucleosome is a subunit of chromatin, the substance that forms chromosomes. It consists of a s...
Nucleosome, molecular model. A nucleosome is a subunit of chromatin, the substance that forms chromosomes. It consists of a short length of DNA (deoxyribonucleic acid, red and blue helix) wrapped around a core of eight histone proteins (centre). Here the secondary structure of the proteins is shown. The structure of the nucleosome allows large quantities of DNA, the genetic material, to be packaged into a cell's nucleus.
Stock Photo #4128R-33847, Early endosome antigen 1 (EEA1), molecular model. This protein is involved in the fusion and sorting of endosomes (membrane-bound compartments used to transport molecules).
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Early endosome antigen 1 (EEA1), molecular model. This protein is involved in the fusion and sorting of endosomes (membrane-b...
Early endosome antigen 1 (EEA1), molecular model. This protein is involved in the fusion and sorting of endosomes (membrane-bound compartments used to transport molecules).
Stock Photo #4128R-13790, Digitoxin, molecular model. This heart drug is obtained from the foxglove plant. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white and oxygen red.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Digitoxin, molecular model. This heart drug is obtained from the foxglove plant. Atoms are represented as spheres and are col...
Digitoxin, molecular model. This heart drug is obtained from the foxglove plant. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white and oxygen red.
Stock Photo #4128R-34110, Integrin and fibrinogen complex. Molecular model of integrin alpha-II beta-3 complexed with fibrinogen. Integrin alpha-II beta-3 is a transmembrane protein found on platelets. Fibrinogen (factor I) is a blood clotting glycoprotein. The binding of these two proteins results in platelet aggregation.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Integrin and fibrinogen complex. Molecular model of integrin alpha-II beta-3 complexed with fibrinogen. Integrin alpha-II bet...
Integrin and fibrinogen complex. Molecular model of integrin alpha-II beta-3 complexed with fibrinogen. Integrin alpha-II beta-3 is a transmembrane protein found on platelets. Fibrinogen (factor I) is a blood clotting glycoprotein. The binding of these two proteins results in platelet aggregation.
Stock Photo #4297-1297, Computer generated three-dimensional model of Gamma-hydroxybutyric acid (GHB)
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Computer generated three-dimensional model of Gamma-hydroxybutyric acid (GHB)
Stock Photo #4128R-34042, Insulin receptor, molecular model. The insulin receptor is a transmembrane protein, that is it spans the cellular membrane. The part of the receptor that sits on the outside of the cell, the ectodomain, is seen here, complexed with the antigen-binding fragment (Fab) of an antibody. Binding of insulin to the extracellular part of the protein activates a number of changes inside the cell that lead to the uptake of glucose, the synthesis of glycogen and fatty acids and glycolysis, the production of
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Insulin receptor, molecular model. The insulin receptor is a transmembrane protein, that is it spans the cellular membrane. T...
Insulin receptor, molecular model. The insulin receptor is a transmembrane protein, that is it spans the cellular membrane. The part of the receptor that sits on the outside of the cell, the ectodomain, is seen here, complexed with the antigen-binding fragment (Fab) of an antibody. Binding of insulin to the extracellular part of the protein activates a number of changes inside the cell that lead to the uptake of glucose, the synthesis of glycogen and fatty acids and glycolysis, the production of
Stock Photo #4378-1807, Genetic determining human chromosomes.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Genetic determining human chromosomes.
Stock Photo #4128R-34119, Bacterial biofilm enzyme. Molecular model of the enzyme glucansucrase from the bacterium Streptococcus mutans. This enzyme is used to form bacterial biofilms on teeth that cause dental caries (cavities).
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Bacterial biofilm enzyme. Molecular model of the enzyme glucansucrase from the bacterium Streptococcus mutans. This enzyme is...
Bacterial biofilm enzyme. Molecular model of the enzyme glucansucrase from the bacterium Streptococcus mutans. This enzyme is used to form bacterial biofilms on teeth that cause dental caries (cavities).
Stock Photo #4128R-33825, Bacterial cell wall enzyme. Molecular model of D-alanyl-D-alanine carboxypeptidase, a transpeptidase. This enzyme cross-links peptidoglycan chains in bacterial cell walls, making them rigid. It is the target of the drug penicillin.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Bacterial cell wall enzyme. Molecular model of D-alanyl-D-alanine carboxypeptidase, a transpeptidase. This enzyme cross-links...
Bacterial cell wall enzyme. Molecular model of D-alanyl-D-alanine carboxypeptidase, a transpeptidase. This enzyme cross-links peptidoglycan chains in bacterial cell walls, making them rigid. It is the target of the drug penicillin.
Stock Photo #4128R-33742, Sex hormone-binding globulin. Molecular model of the sex hormone-binding globulin (SHBG) protein complexed with the male sex hormone dihydrotestosterone. SHBG transports steroid sex hormones in blood and regulates their access to target tissues.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Sex hormone-binding globulin. Molecular model of the sex hormone-binding globulin (SHBG) protein complexed with the male sex ...
Sex hormone-binding globulin. Molecular model of the sex hormone-binding globulin (SHBG) protein complexed with the male sex hormone dihydrotestosterone. SHBG transports steroid sex hormones in blood and regulates their access to target tissues.
Stock Photo #4128R-33997, Bacteriophage ATPase. Molecular model of an ATP synthase (ATPase) molecule from the phi 12 bacteriophage. ATPase is an important enzyme that provides energy for cells through the synthesis of adenosine triphosphate (ATP) from adenosine diphosphate (ADP) and inorganic phosphate.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Bacteriophage ATPase. Molecular model of an ATP synthase (ATPase) molecule from the phi 12 bacteriophage. ATPase is an import...
Bacteriophage ATPase. Molecular model of an ATP synthase (ATPase) molecule from the phi 12 bacteriophage. ATPase is an important enzyme that provides energy for cells through the synthesis of adenosine triphosphate (ATP) from adenosine diphosphate (ADP) and inorganic phosphate.
Stock Photo #4128R-34100, E. coli virulence factor. Molecular model of the beta-domain of the EspP autotransporter protein from the bacterium Escherichia coli. This virulence factor sits in the bacterium's outer membrane and facilitates the secretion of serine proteases.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
E. coli virulence factor. Molecular model of the beta-domain of the EspP autotransporter protein from the bacterium Escherich...
E. coli virulence factor. Molecular model of the beta-domain of the EspP autotransporter protein from the bacterium Escherichia coli. This virulence factor sits in the bacterium's outer membrane and facilitates the secretion of serine proteases.
Stock Photo #4128R-35400, DNA molecule, computer artwork.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
DNA molecule, computer artwork.
Stock Photo #1824R-12881, Arabidopsis in a petri dish
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageView CDCalculate Image Price
Arabidopsis in a petri dish
Stock Photo #4445R-5308, Asian people engaging in nurturing research
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Asian people engaging in nurturing research
Stock Photo #4128R-33706, Myosin fragment. Molecular molecule of a fragment of striated muscle myosin complexed with ADP (adenosine diphosphate). Myosins are a large family of motor proteins that are responsible for muscle contraction in eukaryotic tissues.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Myosin fragment. Molecular molecule of a fragment of striated muscle myosin complexed with ADP (adenosine diphosphate). Myosi...
Myosin fragment. Molecular molecule of a fragment of striated muscle myosin complexed with ADP (adenosine diphosphate). Myosins are a large family of motor proteins that are responsible for muscle contraction in eukaryotic tissues.
Stock Photo #4128R-33951, Rhinovirus capsid, molecular model. This is human rhinovirus. The rhinovirus infects the upper respiratory tract and is the cause of the common cold. It is spread by coughs and sneezes. In viruses, the capsid is the protein shell that encloses the genetic material. A capsid's subunits are capsomeres that self-assemble to form the shell seen here. Here, this shell, approximately spherical in shape, has icosahedral symmetry. One of the functions of the capsid is to aid the transmission of the vira
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Rhinovirus capsid, molecular model. This is human rhinovirus. The rhinovirus infects the upper respiratory tract and is the c...
Rhinovirus capsid, molecular model. This is human rhinovirus. The rhinovirus infects the upper respiratory tract and is the cause of the common cold. It is spread by coughs and sneezes. In viruses, the capsid is the protein shell that encloses the genetic material. A capsid's subunits are capsomeres that self-assemble to form the shell seen here. Here, this shell, approximately spherical in shape, has icosahedral symmetry. One of the functions of the capsid is to aid the transmission of the vira
Stock Photo #1566-395067, Molecular Biology Laboratory. Detecting pesticides in food (cereals) with ELISA (Enzyme-Linked ImmunoSorbent Assay) technique. AZTI-Tecnalia. Technological Centre specialised in Marine and Food Research. Sukarrieta, Bizkaia, Euskadi. Spain.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Molecular Biology Laboratory. Detecting pesticides in food (cereals) with ELISA (Enzyme-Linked ImmunoSorbent Assay) technique...
Molecular Biology Laboratory. Detecting pesticides in food (cereals) with ELISA (Enzyme-Linked ImmunoSorbent Assay) technique. AZTI-Tecnalia. Technological Centre specialised in Marine and Food Research. Sukarrieta, Bizkaia, Euskadi. Spain.
Stock Photo #4128R-12448, DNA structure
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
DNA structure
Stock Photo #4297-1615, 3D computer graphic illustration of water molecules
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
3D computer graphic illustration of water molecules
Stock Photo #1566-563962, Polymerase Change Reaction (PCR), analysis of DNA, Laboratory of Molecular genetics. Hospital Policlinica Gipuzkoa, San Sebastian, Donostia, Euskadi, Spain
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Polymerase Change Reaction (PCR), analysis of DNA, Laboratory of Molecular genetics. Hospital Policlinica Gipuzkoa, San Sebas...
Polymerase Change Reaction (PCR), analysis of DNA, Laboratory of Molecular genetics. Hospital Policlinica Gipuzkoa, San Sebastian, Donostia, Euskadi, Spain
Stock Photo #4297-1124, Computer generated three-dimensional ball and stick model of the amino acid, Carbon atoms are shown in light blue, nitrogen in dark blue, hydrogen in grey, and oxygen in white
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Computer generated three-dimensional ball and stick model of the amino acid, Carbon atoms are shown in light blue, nitrogen i...
Computer generated three-dimensional ball and stick model of the amino acid, Carbon atoms are shown in light blue, nitrogen in dark blue, hydrogen in grey, and oxygen in white
Stock Photo #824-100185, GENETICS RESEARCH. GENETICS RESEARCH Photo essay. Cytogenetic laboratory. DNA karyotype.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
GENETICS RESEARCH. GENETICS RESEARCH Photo essay. Cytogenetic laboratory. DNA karyotype.
Stock Photo #4107-55722, Liquid Dripping on Seedling
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Liquid Dripping on Seedling
Stock Photo #4128R-33748, Ribonuclease bound to inhibitor, molecular model. Ribonuclease (RNase) is a type of nuclease that catalyses the degradation of RNA (ribonucleic acid) into smaller components in preparation for other genetic processes.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Ribonuclease bound to inhibitor, molecular model. Ribonuclease (RNase) is a type of nuclease that catalyses the degradation o...
Ribonuclease bound to inhibitor, molecular model. Ribonuclease (RNase) is a type of nuclease that catalyses the degradation of RNA (ribonucleic acid) into smaller components in preparation for other genetic processes.
Stock Photo #4128R-33806, SV40 antigen and tumour suppressor. Molecular model of the simian virus (SV40) large T antigen bound to a retinoblastoma tumour suppressor (Rb). Large T antigens play a role in regulating the viral life cycle of the polyomaviridae viruses, such as SV40. SV40 is potentially tumour-causing in primates and humans. Rb proteins encourage normal cell cycles, thus preventing the formation of tumours. When the large T antigen binds to Rb, the tumour suppressor's action is blocked, and the development of
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
SV40 antigen and tumour suppressor. Molecular model of the simian virus (SV40) large T antigen bound to a retinoblastoma tumo...
SV40 antigen and tumour suppressor. Molecular model of the simian virus (SV40) large T antigen bound to a retinoblastoma tumour suppressor (Rb). Large T antigens play a role in regulating the viral life cycle of the polyomaviridae viruses, such as SV40. SV40 is potentially tumour-causing in primates and humans. Rb proteins encourage normal cell cycles, thus preventing the formation of tumours. When the large T antigen binds to Rb, the tumour suppressor's action is blocked, and the development of
Stock Photo #1436R-361669,
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
 
Stock Photo #4128R-6457, DNA molecule, artwork
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
DNA molecule, artwork
Stock Photo #4128R-6770, DNA molecules, computer artwork
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
DNA molecules, computer artwork
Stock Photo #4128R-34096, Poly(A) polymerase and RNA. Molecular model of poly(A) polymerase complexed with RNA (ribonucleic acid) and ATP (adenosine triphosphate). Poly(A) polymerase is an enzyme that adds a poly(A) tail to an RNA molecule.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Poly(A) polymerase and RNA. Molecular model of poly(A) polymerase complexed with RNA (ribonucleic acid) and ATP (adenosine tr...
Poly(A) polymerase and RNA. Molecular model of poly(A) polymerase complexed with RNA (ribonucleic acid) and ATP (adenosine triphosphate). Poly(A) polymerase is an enzyme that adds a poly(A) tail to an RNA molecule.
Stock Photo #1899-82563, Cell biology laboratory, NBT / Molecular Neurobiology Department at IIT Scientists using confocal fluorescence microscopy
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Cell biology laboratory, NBT / Molecular Neurobiology Department at IIT Scientists using confocal fluorescence microscopy
Stock Photo #4239R-8057, Microscopic view of ligand binding to a receptor. The receptor protein alters its chemical conformation (three dimensional shape).
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Microscopic view of ligand binding to a receptor. The receptor protein alters its chemical conformation (three dimensional sh...
Microscopic view of ligand binding to a receptor. The receptor protein alters its chemical conformation (three dimensional shape).
Stock Photo #4311-103, A 96 Well Plate Loaded With Media
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
A 96 Well Plate Loaded With Media
Stock Photo #4128R-23131, DNA deoxyribonucleic acid, molecular model.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
DNA deoxyribonucleic acid, molecular model.
Stock Photo #4128R-22564, Chromosomes, computer artwork.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Chromosomes, computer artwork.
Stock Photo #824-49282, ELECTROPHORESIS
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
ELECTROPHORESIS
Stock Photo #4239R-9390, Conceptual image of sperm anatomy.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Conceptual image of sperm anatomy.
Stock Photo #4128R-34199, Multidrug efflux pump. Molecular model of the multidrug efflux pump AcrB from the bacterium Escherichia coli transporting two doxorubicin molecules. This protein pumps drugs, including antibiotics, out of the bacterial cell. Doxorubicin is a chemotherapy drug.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Multidrug efflux pump. Molecular model of the multidrug efflux pump AcrB from the bacterium Escherichia coli transporting two...
Multidrug efflux pump. Molecular model of the multidrug efflux pump AcrB from the bacterium Escherichia coli transporting two doxorubicin molecules. This protein pumps drugs, including antibiotics, out of the bacterial cell. Doxorubicin is a chemotherapy drug.
Stock Photo #4128R-33699, Aspartyl-tRNA synthetase protein molecule. Molecular model showing bacterial aspartyl-tRNA synthetase complexed with aspartyl tRNA (transfer ribonucleic acid). Aspartyl-tRNA synthetase attaches the correct amino acid, in this case aspartyl, onto the corresponding tRNA molecule during protein translation.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Aspartyl-tRNA synthetase protein molecule. Molecular model showing bacterial aspartyl-tRNA synthetase complexed with aspartyl...
Aspartyl-tRNA synthetase protein molecule. Molecular model showing bacterial aspartyl-tRNA synthetase complexed with aspartyl tRNA (transfer ribonucleic acid). Aspartyl-tRNA synthetase attaches the correct amino acid, in this case aspartyl, onto the corresponding tRNA molecule during protein translation.
Stock Photo #1895-17487, Templates from Crick and Watson’s DNA molecular model, 1953.
Product Tooltip Area
Add Image to LightboxThis Photograph has Additional RestrictionsRights Managed ImageCalculate Image Price
Templates from Crick and Watson’s DNA molecular model, 1953.
Stock Photo #4128R-13935, Vaccinia virus complement control protein. Molecular model of the C_terminal portion of the complement control protein from the Vaccinia virus. This protein protects the virus against attack by the host complement system, a part of the immune system.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Vaccinia virus complement control protein. Molecular model of the C_terminal portion of the complement control protein from t...
Vaccinia virus complement control protein. Molecular model of the C_terminal portion of the complement control protein from the Vaccinia virus. This protein protects the virus against attack by the host complement system, a part of the immune system.
Stock Photo #4128R-13567, Genome sequencing machine. 96_channel size selection robot for genomic library construction for next_generation sequencing. Photographed at the Genome Sciences Center, Vancouver, Canada.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Genome sequencing machine. 96_channel size selection robot for genomic library construction for next_generation sequencing. P...
Genome sequencing machine. 96_channel size selection robot for genomic library construction for next_generation sequencing. Photographed at the Genome Sciences Center, Vancouver, Canada.
Stock Photo #1436R-447100, Illustrative image of DNA replica made from tablets
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Illustrative image of DNA replica made from tablets
Stock Photo #1647R-170752, Chemical Symbols of Chilli Varieties
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Chemical Symbols of Chilli Varieties
Stock Photo #4297-1332, Tetrahydrocannabinol (THC), or dronabinol, is the main psychoactive substance found in the cannabis or marijuana plant
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Tetrahydrocannabinol (THC), or dronabinol, is the main psychoactive substance found in the cannabis or marijuana plant
Stock Photo #4128R-17262, Guanine, molecular model. One of the four main nucleobases found in DNA and RNA. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, nitrogen blue and oxygen red.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Guanine, molecular model. One of the four main nucleobases found in DNA and RNA. Atoms are represented as spheres and are col...
Guanine, molecular model. One of the four main nucleobases found in DNA and RNA. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, nitrogen blue and oxygen red.
Stock Photo #4128R-33935, Cytochrome c oxidase. Molecular model of a cytochrome c oxidase enzyme complexed with an antibody. Cytochrome molecules perform oxidation and reduction reactions for electron transport, a chain of reactions used to power cellular processes that require energy. This molecule is the last enzyme in that reaction. It sits in the mitochondrial membrane, where it transfers electrons to oxygen molecules. With the addition of hydrogen ions water is formed, releasing energy. The movement of the hydrogen
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Cytochrome c oxidase. Molecular model of a cytochrome c oxidase enzyme complexed with an antibody. Cytochrome molecules perfo...
Cytochrome c oxidase. Molecular model of a cytochrome c oxidase enzyme complexed with an antibody. Cytochrome molecules perform oxidation and reduction reactions for electron transport, a chain of reactions used to power cellular processes that require energy. This molecule is the last enzyme in that reaction. It sits in the mitochondrial membrane, where it transfers electrons to oxygen molecules. With the addition of hydrogen ions water is formed, releasing energy. The movement of the hydrogen
Stock Photo #1647R-229060, Incubator
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Incubator
Stock Photo #4128R-13577, Genome sequencing machine. Close_up of a paired_end module machine used in genome sequencing. Photographed at the Genome Sciences Center, Vancouver, Canada.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Genome sequencing machine. Close_up of a paired_end module machine used in genome sequencing. Photographed at the Genome Scie...
Genome sequencing machine. Close_up of a paired_end module machine used in genome sequencing. Photographed at the Genome Sciences Center, Vancouver, Canada.
Stock Photo #4285-5839, ENZYME ULTRA HIGH FILTRATION UNIT.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
ENZYME ULTRA HIGH FILTRATION UNIT.
Stock Photo #1830-75376, Hands on science
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Hands on science
Stock Photo #1566-563353, DNA study, identification of genetic risk variants predisposing to celiac disease, Laboratory of Molecular genetics. Hospital Policlinica Gipuzkoa, San Sebastian, Donostia, Euskadi, Spain
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
DNA study, identification of genetic risk variants predisposing to celiac disease, Laboratory of Molecular genetics. Hospital...
DNA study, identification of genetic risk variants predisposing to celiac disease, Laboratory of Molecular genetics. Hospital Policlinica Gipuzkoa, San Sebastian, Donostia, Euskadi, Spain
Stock Photo #4325-107, X-Ray Structural Analysis of a Crystalline Compound
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
X-Ray Structural Analysis of a Crystalline Compound
Stock Photo #4128R-2395, DNA molecule, computer artwork
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
DNA molecule, computer artwork
Stock Photo #1824R-12904, Arabidopsis held in tweezers
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageView CDCalculate Image Price
Arabidopsis held in tweezers
Stock Photo #1647R-168818, Biotechnology Research: Seedling growing in laboratory undergoing experiment
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Biotechnology Research: Seedling growing in laboratory undergoing experiment
Stock Photo #824-84513, ELECTROPHORESIS
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
ELECTROPHORESIS
Stock Photo #4128R-33769, Artwork of the human erythropoietin (EPO) hormone molecule (yellow) bound to receptors (pink). Erythropoietin regulates blood oxygen levels in the body, when levels are low it is released to stimulate the formation of red blood cells. It is used illegally as a performance-enhancing drug.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Artwork of the human erythropoietin (EPO) hormone molecule (yellow) bound to receptors (pink). Erythropoietin regulates blood...
Artwork of the human erythropoietin (EPO) hormone molecule (yellow) bound to receptors (pink). Erythropoietin regulates blood oxygen levels in the body, when levels are low it is released to stimulate the formation of red blood cells. It is used illegally as a performance-enhancing drug.
Stock Photo #4239R-8063, Clathrin Mediated Endocytosis
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Clathrin Mediated Endocytosis
Stock Photo #4128R-33838, Calcium pumping ATPase enzyme. Molecular model of the ATPase enzyme that pumps calcium in and out of muscle cells and controls muscle contractions. The name ATPase refers to this enzyme's ability to break up the ATP (adenosine triphosphate) molecule and release energy. This ATPase uses the energy to pump calcium ions in and out of muscle cells, and is found in muscle cell membranes. Calcium ions are central to the process of muscle contraction.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Calcium pumping ATPase enzyme. Molecular model of the ATPase enzyme that pumps calcium in and out of muscle cells and control...
Calcium pumping ATPase enzyme. Molecular model of the ATPase enzyme that pumps calcium in and out of muscle cells and controls muscle contractions. The name ATPase refers to this enzyme's ability to break up the ATP (adenosine triphosphate) molecule and release energy. This ATPase uses the energy to pump calcium ions in and out of muscle cells, and is found in muscle cell membranes. Calcium ions are central to the process of muscle contraction.
Stock Photo #1566-395073, Studying textures in food (Dairy products) Rheology. R+D Laboratory. AZTI-Tecnalia. Technological Centre specialised in Marine and Food Research. Sukarrieta, Bizkaia, Euskadi. Spain.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Studying textures in food (Dairy products) Rheology. R+D Laboratory. AZTI-Tecnalia. Technological Centre specialised in Marin...
Studying textures in food (Dairy products) Rheology. R+D Laboratory. AZTI-Tecnalia. Technological Centre specialised in Marine and Food Research. Sukarrieta, Bizkaia, Euskadi. Spain.
Stock Photo #4107-27620, Chromosomes
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Chromosomes
Stock Photo #4128R-34106, Copper, zinc superoxide dismutase enzyme, molecular model. This enzyme scavenges and decomposes the potentially toxic first reduction product, superoxide, of aerobic respiration.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Copper, zinc superoxide dismutase enzyme, molecular model. This enzyme scavenges and decomposes the potentially toxic first r...
Copper, zinc superoxide dismutase enzyme, molecular model. This enzyme scavenges and decomposes the potentially toxic first reduction product, superoxide, of aerobic respiration.
Stock Photo #4128R-1815, DNA molecule, artwork
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
DNA molecule, artwork
Stock Photo #4239R-7947, Microscopic view of sicke cells causing anemia disease.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Microscopic view of sicke cells causing anemia disease.
Stock Photo #824-89193, ELECTROPHORESIS
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
ELECTROPHORESIS
Stock Photo #1829-14609, Genetic Tomato
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Genetic Tomato
Stock Photo #4128R-33901, Epidermal growth factor molecule. Molecular model of epidermal growth factor (EGF) bound to a receptor. EGF plays an important role in the regulation of cell growth, proliferation and differentiation.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Epidermal growth factor molecule. Molecular model of epidermal growth factor (EGF) bound to a receptor. EGF plays an importan...
Epidermal growth factor molecule. Molecular model of epidermal growth factor (EGF) bound to a receptor. EGF plays an important role in the regulation of cell growth, proliferation and differentiation.
Stock Photo #4297-1329, Computer generated three-dimensional model of Paclitaxel or taxol, it is a mitotic inhibitor used in cancer chemotherapy.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Computer generated three-dimensional model of Paclitaxel or taxol, it is a mitotic inhibitor used in cancer chemotherapy.
Stock Photo #4128R-13855, Viagra. Molecular model of the drug sildenafil citrate, marketed under the brands Viagra and Revatio. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, nitrogen blue, oxygen red, sulphur yellow.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Viagra. Molecular model of the drug sildenafil citrate, marketed under the brands Viagra and Revatio. Atoms are represented a...
Viagra. Molecular model of the drug sildenafil citrate, marketed under the brands Viagra and Revatio. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, nitrogen blue, oxygen red, sulphur yellow.
Stock Photo #4128R-13949, TATA box_binding protein. Molecular model of the TATA box_binding protein blue and purple complexed with DNA pink.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
TATA box_binding protein. Molecular model of the TATA box_binding protein blue and purple complexed with DNA pink.
Stock Photo #4128R-13365, Methadone molecule, computer model. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, nitrogen blue and oxygen red.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Methadone molecule, computer model. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, nitro...
Methadone molecule, computer model. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, nitrogen blue and oxygen red.
Stock Photo #1824R-99536, Studio shot of laboratory cylinder with corn seeds
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Studio shot of laboratory cylinder with corn seeds
Stock Photo #4128R-20495, DNA molecule, computer artwork
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
DNA molecule, computer artwork
Stock Photo #4128R-33729, Calcium-binding protein. Molecule model of the calcium-binding protein calmodulin (CaM). This protein is found in all eukaryotic cells, where it regulates and modifies the activities of many calcium-binding enzymes. Cellular processes that CaM affects include muscle contraction, inflammation, immune response and memory.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Calcium-binding protein. Molecule model of the calcium-binding protein calmodulin (CaM). This protein is found in all eukaryo...
Calcium-binding protein. Molecule model of the calcium-binding protein calmodulin (CaM). This protein is found in all eukaryotic cells, where it regulates and modifies the activities of many calcium-binding enzymes. Cellular processes that CaM affects include muscle contraction, inflammation, immune response and memory.
Stock Photo #4128R-13932, Semliki forest virus fusion protein. Molecular model of the glycoprotein E1 from the Semliki forest virus. This protein is involved in the fusion of the virus with host cells.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Semliki forest virus fusion protein. Molecular model of the glycoprotein E1 from the Semliki forest virus. This protein is in...
Semliki forest virus fusion protein. Molecular model of the glycoprotein E1 from the Semliki forest virus. This protein is involved in the fusion of the virus with host cells.
Stock Photo #1657R-32771, Scientist holding molecular model in a laboratory
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Scientist holding molecular model in a laboratory
Stock Photo #4297-1304, Computer generated three-dimensional molecular model of hemoglobin
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Computer generated three-dimensional molecular model of hemoglobin
Stock Photo #4128R-33832, Immunoglobulin G (IgG) antibody, molecular model. This is the most abundant immunoglobulin and is found in all body fluids. Each Y-shaped molecule has two arms (top) that can bind to specific antigens, for instance bacterial or viral proteins. In doing this they mark the antigen for destruction by phagocytes, white blood cells that ingest and destroy foreign bodies. Antibodies can also kill some pathogens directly, and can neutralise toxins.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Immunoglobulin G (IgG) antibody, molecular model. This is the most abundant immunoglobulin and is found in all body fluids. E...
Immunoglobulin G (IgG) antibody, molecular model. This is the most abundant immunoglobulin and is found in all body fluids. Each Y-shaped molecule has two arms (top) that can bind to specific antigens, for instance bacterial or viral proteins. In doing this they mark the antigen for destruction by phagocytes, white blood cells that ingest and destroy foreign bodies. Antibodies can also kill some pathogens directly, and can neutralise toxins.
Stock Photo #4239R-8326, Microscopic view of barrel shaped structure of centrioles within a human cell. A centriole is a cylinder shaped cell structure found in most eukaryotic cells, family required for centrosome duplication in C. Elegans and in human cells.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Microscopic view of barrel shaped structure of centrioles within a human cell. A centriole is a cylinder shaped cell structur...
Microscopic view of barrel shaped structure of centrioles within a human cell. A centriole is a cylinder shaped cell structure found in most eukaryotic cells, family required for centrosome duplication in C. Elegans and in human cells.
Stock Photo #4029R-366738, Digitally Generated Image, Pattern, Magnification, Rna
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Digitally Generated Image, Pattern, Magnification, Rna
Stock Photo #4128R-34220, Alcohol dehydrogenase, molecular model. Alcohol dehydrogenase (ADH) is an enzyme that facilitates the break-down of alcohols in the body, which could otherwise be toxic.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Alcohol dehydrogenase, molecular model. Alcohol dehydrogenase (ADH) is an enzyme that facilitates the break-down of alcohols ...
Alcohol dehydrogenase, molecular model. Alcohol dehydrogenase (ADH) is an enzyme that facilitates the break-down of alcohols in the body, which could otherwise be toxic.
Stock Photo #1589R-176578, Molecular model on blue background
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Molecular model on blue background
Stock Photo #4128R-33720, Diels-Alder antibody catalyst. Molecular model of an antibody that can be used to catalyse the Diels-Alder reaction.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Diels-Alder antibody catalyst. Molecular model of an antibody that can be used to catalyse the Diels-Alder reaction.
Stock Photo #4208R-29816, Scientist and businesswoman examining molecular model in conference room
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Scientist and businesswoman examining molecular model in conference room
Stock Photo #4128R-33692, Beta glucanase enzyme, molecular model. This enzyme hydrolyses the glucose subunits that make up some polysaccharides. This is a circular permeation of the enzyme.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Beta glucanase enzyme, molecular model. This enzyme hydrolyses the glucose subunits that make up some polysaccharides. This i...
Beta glucanase enzyme, molecular model. This enzyme hydrolyses the glucose subunits that make up some polysaccharides. This is a circular permeation of the enzyme.
Stock Photo #4128R-13340, Molecular model, computer artwork.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Molecular model, computer artwork.
Stock Photo #4239R-8064, The interior of an eukaryotic cell.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
The interior of an eukaryotic cell.
Stock Photo #4128R-33871, Escherichia coli heat-labile enterotoxin, molecular model. This is one of several proteins produced by pathogenic E. coli bacteria in the intestines. Unlike the heat-stable enterotoxin, this one is inactivated at high temperatures. The toxin causes diarrhoea and can be fatal in severe cases.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Escherichia coli heat-labile enterotoxin, molecular model. This is one of several proteins produced by pathogenic E. coli bac...
Escherichia coli heat-labile enterotoxin, molecular model. This is one of several proteins produced by pathogenic E. coli bacteria in the intestines. Unlike the heat-stable enterotoxin, this one is inactivated at high temperatures. The toxin causes diarrhoea and can be fatal in severe cases.
Stock Photo #4128R-23204, Transfer RNA tRNA, molecular model. tRNA transfer ribonucleic acid translates messenger RNA mRNA into a protein product. Each tRNA molecule carries a specific amino acid, in this case tryptophan.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Transfer RNA tRNA, molecular model. tRNA transfer ribonucleic acid translates messenger RNA mRNA into a protein product. Each...
Transfer RNA tRNA, molecular model. tRNA transfer ribonucleic acid translates messenger RNA mRNA into a protein product. Each tRNA molecule carries a specific amino acid, in this case tryptophan.
Stock Photo #1899-82560, Cell biology laboratory, NBT / Molecular Neurobiology Department at IIT Scientists using confocal fluorescence microscopy
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Cell biology laboratory, NBT / Molecular Neurobiology Department at IIT Scientists using confocal fluorescence microscopy
Stock Photo #4128R-35407, DNA molecule, computer artwork.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
DNA molecule, computer artwork.
Stock Photo #1849-5347, Scientists working on magnified structure of virus
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Scientists working on magnified structure of virus
Stock Photo #4128R-14523, Genetic research, conceptual computer artwork.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Genetic research, conceptual computer artwork.
Stock Photo #1829-58226, Different sorts of glass glass flasks
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Different sorts of glass glass flasks
Stock Photo #4128R-34004, Hydroxysteroid dehydrogenase. Molecular model of the human type 5 hydroxysteroid dehydrogenase enzyme bound to a molecule of the steroid drug androstene. This enzyme plays a role in the transformation of dehydroepiandrosterone into dihydrotestosterone, the most potent of the male sex hormones.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Hydroxysteroid dehydrogenase. Molecular model of the human type 5 hydroxysteroid dehydrogenase enzyme bound to a molecule of ...
Hydroxysteroid dehydrogenase. Molecular model of the human type 5 hydroxysteroid dehydrogenase enzyme bound to a molecule of the steroid drug androstene. This enzyme plays a role in the transformation of dehydroepiandrosterone into dihydrotestosterone, the most potent of the male sex hormones.
Stock Photo #4128R-13344, Molecular model, computer artwork.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Molecular model, computer artwork.
Stock Photo #4128R-33738, Citrate synthase, molecular model. This enzyme is involved in the first step of the citric acid (or Krebs) cycle, the process by which mitochondria convert glucose to energy. It catalyses the synthesis of citrate from acetyl coenzyme A and oxaloacetate.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Citrate synthase, molecular model. This enzyme is involved in the first step of the citric acid (or Krebs) cycle, the process...
Citrate synthase, molecular model. This enzyme is involved in the first step of the citric acid (or Krebs) cycle, the process by which mitochondria convert glucose to energy. It catalyses the synthesis of citrate from acetyl coenzyme A and oxaloacetate.
Stock Photo #4128R-13297, Buckyball molecule, computer artwork.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Buckyball molecule, computer artwork.
Stock Photo #4128R-13968, Transcription preinitiation complex. Molecular model of a TATA_box_binding protein green and blue complexed with the transcription factor IIB yellow and a DNA deoxyribonucleic acid molecule double helix down centre.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Transcription preinitiation complex. Molecular model of a TATA_box_binding protein green and blue complexed with the transcri...
Transcription preinitiation complex. Molecular model of a TATA_box_binding protein green and blue complexed with the transcription factor IIB yellow and a DNA deoxyribonucleic acid molecule double helix down centre.
Stock Photo #4297-1608, Computer generated three-dimensional model of the structure of the DNA helix
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Computer generated three-dimensional model of the structure of the DNA helix
Stock Photo #4297-1313, Computer generated three-dimensional model of Mescaline or 3, 4, 5-trimethoxyphenethylamine is a naturally-occurring psychedelic alkaloid of the phenethylamine class
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Computer generated three-dimensional model of Mescaline or 3, 4, 5-trimethoxyphenethylamine is a naturally-occurring psychede...
Computer generated three-dimensional model of Mescaline or 3, 4, 5-trimethoxyphenethylamine is a naturally-occurring psychedelic alkaloid of the phenethylamine class
Stock Photo #4128R-13914, Effexor. Molecular model of the selective serotonin reuptake inhibitor SSRI antidepressant drug venlafaxine. This drug is marketed as Effexor. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, oxygen red and nitrogen dark
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Effexor. Molecular model of the selective serotonin reuptake inhibitor SSRI antidepressant drug venlafaxine. This drug is mar...
Effexor. Molecular model of the selective serotonin reuptake inhibitor SSRI antidepressant drug venlafaxine. This drug is marketed as Effexor. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, oxygen red and nitrogen dark
Stock Photo #1830-4558, Soccer Team
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Soccer Team
Stock Photo #4128R-34145, Glucansucrase, molecular model. This enzyme catalyses the cleavage of sucrose into fructose and glucose.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Glucansucrase, molecular model. This enzyme catalyses the cleavage of sucrose into fructose and glucose.
Stock Photo #824-87648, VIROLOGY LABORATORY. VIROLOGY LABORATORY Photo essay from laboratory. Institut Pasteur. Department of virology. Unit of molecular genetics of Bunyaviridae. Group entomology Mosquito team. Research on the transmission of Chikungunya virus to mosquitoes Aedes albopictus and Aedes aegypti. Here, a sample of the cell culture is placed in a counting chamber type Kova slide for observation under microscope.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
VIROLOGY LABORATORY. VIROLOGY LABORATORY Photo essay from laboratory. Institut Pasteur. Department of virology. Unit of molec...
VIROLOGY LABORATORY. VIROLOGY LABORATORY Photo essay from laboratory. Institut Pasteur. Department of virology. Unit of molecular genetics of Bunyaviridae. Group entomology Mosquito team. Research on the transmission of Chikungunya virus to mosquitoes Aedes albopictus and Aedes aegypti. Here, a sample of the cell culture is placed in a counting chamber type Kova slide for observation under microscope.
Stock Photo #4311-160, A Scientist Looks Up From Her Microscope
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
A Scientist Looks Up From Her Microscope
Stock Photo #4128R-13773, Atenolol, molecular model. This hypertension high blood pressure drug is marketed as Tenormin. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, oxygen red and nitrogen blue.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Atenolol, molecular model. This hypertension high blood pressure drug is marketed as Tenormin. Atoms are represented as spher...
Atenolol, molecular model. This hypertension high blood pressure drug is marketed as Tenormin. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, oxygen red and nitrogen blue.
Stock Photo #1899-83580, Histology microscope slides.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Histology microscope slides.
Stock Photo #824-111068, MOSQUITO BREEDING IN LABORATORY. Photo essay from laboratory. Institut Pasteur. Department of virology. Unit of molecular genetics of Bunyaviridae. Group entomology Mosquito team. Research on the transmission of Chikungunya virus to mosquitoes of the genus Aedes albopictus, aegypti and vexans. Here, breeding of the mosquito Aedes aegypti coming from the Petite Terre Islands, in Guadeloupe. A beaker containing female mostiquitos is added to do the reproduction.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
MOSQUITO BREEDING IN LABORATORY. Photo essay from laboratory. Institut Pasteur. Department of virology. Unit of molecular gen...
MOSQUITO BREEDING IN LABORATORY. Photo essay from laboratory. Institut Pasteur. Department of virology. Unit of molecular genetics of Bunyaviridae. Group entomology Mosquito team. Research on the transmission of Chikungunya virus to mosquitoes of the genus Aedes albopictus, aegypti and vexans. Here, breeding of the mosquito Aedes aegypti coming from the Petite Terre Islands, in Guadeloupe. A beaker containing female mostiquitos is added to do the reproduction.
Stock Photo #4128R-34109, SelB elongation factor bound to RNA. Molecular model of the SelB elongation factor bound to an mRNA (messenger ribonucleic acid) hairpin formed by the selenocysteine insertion sequence (SECIS). SelB elongation factor is needed to incorporate the amino acid selenocysteine into proteins.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
SelB elongation factor bound to RNA. Molecular model of the SelB elongation factor bound to an mRNA (messenger ribonucleic ac...
SelB elongation factor bound to RNA. Molecular model of the SelB elongation factor bound to an mRNA (messenger ribonucleic acid) hairpin formed by the selenocysteine insertion sequence (SECIS). SelB elongation factor is needed to incorporate the amino acid selenocysteine into proteins.
Stock Photo #4128R-34150, Chaperonin protein, molecular mode. Chaperonins are proteins that provide favourable conditions for the correct folding of other proteins, thus preventing aggregation (clumping) due to mis-folded proteins.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Chaperonin protein, molecular mode. Chaperonins are proteins that provide favourable conditions for the correct folding of ot...
Chaperonin protein, molecular mode. Chaperonins are proteins that provide favourable conditions for the correct folding of other proteins, thus preventing aggregation (clumping) due to mis-folded proteins.
Stock Photo #4128R-19465, Progesterone, molecular model. Steroid hormone involved in the female menstrual cycle, pregnancy and embryogenesis. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white and oxygen red.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Progesterone, molecular model. Steroid hormone involved in the female menstrual cycle, pregnancy and embryogenesis. Atoms are...
Progesterone, molecular model. Steroid hormone involved in the female menstrual cycle, pregnancy and embryogenesis. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white and oxygen red.
Stock Photo #4378-2979, Diagram showing the internal operations of a human cell.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Diagram showing the internal operations of a human cell.
Stock Photo #4128R-4071, DNA molecules, artwork
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
DNA molecules, artwork
Stock Photo #4128R-34151, Zinc transporter Yiip, molecular model. This transmembrane protein facilitates the movement of zinc ions.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Zinc transporter Yiip, molecular model. This transmembrane protein facilitates the movement of zinc ions.
Stock Photo #4128R-34224, HIV-1 protease and inhibitor. Molecular model of the enzyme HIV-1 protease (pink and blue ribbons) bound to an inhibitor molecule (centre). This enzyme, from HIV (human immunodeficiency virus), cleaves viral polyproteins into functional proteins that are essential for viral assembly and infectivity. It is composed of two identical subunits. This molecule is a target for AIDS drugs.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
HIV-1 protease and inhibitor. Molecular model of the enzyme HIV-1 protease (pink and blue ribbons) bound to an inhibitor mole...
HIV-1 protease and inhibitor. Molecular model of the enzyme HIV-1 protease (pink and blue ribbons) bound to an inhibitor molecule (centre). This enzyme, from HIV (human immunodeficiency virus), cleaves viral polyproteins into functional proteins that are essential for viral assembly and infectivity. It is composed of two identical subunits. This molecule is a target for AIDS drugs.
Stock Photo #1830-8162, Heart Floating in Vat
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Heart Floating in Vat
Stock Photo #4128R-33715, Human tissue factor. Molecular model of human tissue factor, also known as factor III. Tissue factor is found on the outside of blood vessels and plays a role in the coagulation cascade, the physiological process that leads to blood clotting in the case of injury.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Human tissue factor. Molecular model of human tissue factor, also known as factor III. Tissue factor is found on the outside ...
Human tissue factor. Molecular model of human tissue factor, also known as factor III. Tissue factor is found on the outside of blood vessels and plays a role in the coagulation cascade, the physiological process that leads to blood clotting in the case of injury.
Stock Photo #4239R-7948, Conceptual image of bacteria.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Conceptual image of bacteria.
Stock Photo #4239R-7950, Microscopic view of bacteria.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Microscopic view of bacteria.
Stock Photo #824-52491, VIROLOGY LABORATORY. VIROLOGY LABORATORY Photo essay from laboratory. Institut Pasteur. Department of virology. Unit of molecular genetics of Bunyaviridae. Group entomology Mosquito team. Research on the transmission of Chikungunya virus to mosquitoes Aedes albopictus and Aedes aegypti. Here, a sample of the cell culture is placed in a counting chamber type Kova slide for observation under microscope.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
VIROLOGY LABORATORY. VIROLOGY LABORATORY Photo essay from laboratory. Institut Pasteur. Department of virology. Unit of molec...
VIROLOGY LABORATORY. VIROLOGY LABORATORY Photo essay from laboratory. Institut Pasteur. Department of virology. Unit of molecular genetics of Bunyaviridae. Group entomology Mosquito team. Research on the transmission of Chikungunya virus to mosquitoes Aedes albopictus and Aedes aegypti. Here, a sample of the cell culture is placed in a counting chamber type Kova slide for observation under microscope.
Stock Photo #4128R-34098, Hepatitis B virus capsid, molecular model. This virus, transmitted through infected bodily fluids or blood, causes the disease hepatitis B in humans, leading to acute liver inflammation. In viruses, the capsid is the protein shell that encloses the genetic material. A capsid consists of subunits called capsomeres that self-assemble to form the shell seen here. Here, this shell, approximately spherical in shape, has icosahedral symmetry. One of the functions of the capsid is to aid the transmissi
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Hepatitis B virus capsid, molecular model. This virus, transmitted through infected bodily fluids or blood, causes the diseas...
Hepatitis B virus capsid, molecular model. This virus, transmitted through infected bodily fluids or blood, causes the disease hepatitis B in humans, leading to acute liver inflammation. In viruses, the capsid is the protein shell that encloses the genetic material. A capsid consists of subunits called capsomeres that self-assemble to form the shell seen here. Here, this shell, approximately spherical in shape, has icosahedral symmetry. One of the functions of the capsid is to aid the transmissi
Stock Photo #1895-21086, Detail of DNA exhibit, Science Museum, London, May 2001.
Product Tooltip Area
Add Image to LightboxThis Photograph has Additional RestrictionsRights Managed ImageCalculate Image Price
Detail of DNA exhibit, Science Museum, London, May 2001.
Stock Photo #4128R-4426, DNA molecule, artwork
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
DNA molecule, artwork
Stock Photo #4128R-33733, Serotonin N-acetyl transferase. Molecular model of serotonin N-acetyl transferase complexed with coenzyme A-S-acetyltryptamine. Serotonin N-acetyl transferase is the penultimate enzyme involved in the conversion of serotonin to melatonin in the cells of the pineal gland in the brain. Melatonin modulates the function of the circadian clock, influencing activity and sleep.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Serotonin N-acetyl transferase. Molecular model of serotonin N-acetyl transferase complexed with coenzyme A-S-acetyltryptamin...
Serotonin N-acetyl transferase. Molecular model of serotonin N-acetyl transferase complexed with coenzyme A-S-acetyltryptamine. Serotonin N-acetyl transferase is the penultimate enzyme involved in the conversion of serotonin to melatonin in the cells of the pineal gland in the brain. Melatonin modulates the function of the circadian clock, influencing activity and sleep.
Stock Photo #4029R-3519, Molecule, Biology, Holding, Order, Group Of Objects, Part Of, Laboratory Equipment
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Molecule, Biology, Holding, Order, Group Of Objects, Part Of, Laboratory Equipment
Stock Photo #1824R-12855, Using tweezers to select arabidopsis
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageView CDCalculate Image Price
Using tweezers to select arabidopsis
Stock Photo #4128R-13883, Cetirizine antihistamine, molecular model. Atoms are represented as spheres and are colour_coded, carbon grey, hydrogen white, nitrogen blue, oxygen red and chlorine green.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Cetirizine antihistamine, molecular model. Atoms are represented as spheres and are colour_coded, carbon grey, hydrogen white...
Cetirizine antihistamine, molecular model. Atoms are represented as spheres and are colour_coded, carbon grey, hydrogen white, nitrogen blue, oxygen red and chlorine green.
Stock Photo #4128R-33910, Dengue virus surface protein molecule. Molecular model of the envelope glycoprotein found on the surface of the dengue haemorrhagic fever (DHF) virus. The function of this protein is to bind to the surface of its target cell and allow the viral genes into the cell, where replication occurs. The type of protein displayed by a virus determines its host. Symptoms of dengue fever can range from a mild fever and joint pain to spontaneous bleeding of the skin and circulatory failure, which are often f
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Dengue virus surface protein molecule. Molecular model of the envelope glycoprotein found on the surface of the dengue haemor...
Dengue virus surface protein molecule. Molecular model of the envelope glycoprotein found on the surface of the dengue haemorrhagic fever (DHF) virus. The function of this protein is to bind to the surface of its target cell and allow the viral genes into the cell, where replication occurs. The type of protein displayed by a virus determines its host. Symptoms of dengue fever can range from a mild fever and joint pain to spontaneous bleeding of the skin and circulatory failure, which are often f
Stock Photo #4297-1311, Computer generated three-dimensional model of Lysergic acid diethylamide, abbreviated LSD also known as lysergide and colloquially as acid
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Computer generated three-dimensional model of Lysergic acid diethylamide, abbreviated LSD also known as lysergide and colloqu...
Computer generated three-dimensional model of Lysergic acid diethylamide, abbreviated LSD also known as lysergide and colloquially as acid
Stock Photo #824-122808, Illustration of a chromosome and the chromatid unwinding to reach the DNA double helix.
Product Tooltip Area
Add Image to LightboxThis Photograph has Additional RestrictionsRights Managed ImageCalculate Image Price
Illustration of a chromosome and the chromatid unwinding to reach the DNA double helix.
Stock Photo #1824R-99524, Studio shot of laptop and molecular model
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Studio shot of laptop and molecular model
Stock Photo #4175-399, Gene patente
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Gene patente
Stock Photo #4239R-9411, Conceptual image of cancer virus.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Conceptual image of cancer virus.
Stock Photo #4128R-13798, Flavin adenine dinucleotide, molecular model. This coenzyme is an important intermediary in biological oxidations and reductions. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, oxygen red, nitrogen blue and phosphorus
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Flavin adenine dinucleotide, molecular model. This coenzyme is an important intermediary in biological oxidations and reducti...
Flavin adenine dinucleotide, molecular model. This coenzyme is an important intermediary in biological oxidations and reductions. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, oxygen red, nitrogen blue and phosphorus
Stock Photo #4128R-33950, Interferon gamma, molecular model. Interferon gamma is produced by certain immune cells (T cells, dendritic cells and NK cells) as part of the immune response to invading pathogens and tumours. It is able to directly inhibit viral replication and also prompts neighbouring cells to produce protective enzymes and activates immune system cells.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Interferon gamma, molecular model. Interferon gamma is produced by certain immune cells (T cells, dendritic cells and NK cell...
Interferon gamma, molecular model. Interferon gamma is produced by certain immune cells (T cells, dendritic cells and NK cells) as part of the immune response to invading pathogens and tumours. It is able to directly inhibit viral replication and also prompts neighbouring cells to produce protective enzymes and activates immune system cells.
Stock Photo #4239R-7977, Microscopic view of chromosome.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Microscopic view of chromosome.
Stock Photo #1802R-135212, Molecular Structure and Test Tubes
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Molecular Structure and Test Tubes
Stock Photo #4297-1120, Computer generated three-dimensional ball and stick model of the amino acid, Carbon atoms are shown in light blue, nitrogen in dark blue, hydrogen in grey, and oxygen in white
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Computer generated three-dimensional ball and stick model of the amino acid, Carbon atoms are shown in light blue, nitrogen i...
Computer generated three-dimensional ball and stick model of the amino acid, Carbon atoms are shown in light blue, nitrogen in dark blue, hydrogen in grey, and oxygen in white
Stock Photo #4128R-6149, Unzipped DNA molecule, artwork
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Unzipped DNA molecule, artwork
Stock Photo #4325-287, A World of Science in France
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
A World of Science in France
Stock Photo #1895-14711, Ball and spoke model of DNA.
Product Tooltip Area
Add Image to LightboxThis Photograph has Additional RestrictionsRights Managed ImageCalculate Image Price
Ball and spoke model of DNA.
Stock Photo #4128R-34123, Isocitrate dehydrogenase, molecular model. This enzyme catalyses the third step in the citric acid (or Krebs) cycle, the process by which mitochondria convert glucose to energy.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Isocitrate dehydrogenase, molecular model. This enzyme catalyses the third step in the citric acid (or Krebs) cycle, the proc...
Isocitrate dehydrogenase, molecular model. This enzyme catalyses the third step in the citric acid (or Krebs) cycle, the process by which mitochondria convert glucose to energy.
Stock Photo #4325-553, Separating DNA From a Sample
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Separating DNA From a Sample
Stock Photo #824-84508, ELECTROPHORESIS
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
ELECTROPHORESIS
Stock Photo #824-42541, RNA INTERFERENCE. Interfering RNA RNAi _ stage 2. In the cytoplasm of the cell_host, replication of the viral single_stranded RNA into double_stranded by RNA replicase RNA dependent RNA polymerase. The replication of the RNA occurs for the negative_stranded RNA viruses. Interfering RNA is a mean for the cell to destroy the RNA parasites viruses RNA, transposons. In the cytoplasm, proteins Dicer, visible here in background, then RISC, associated to a fragment of RNA RNA guide, link to the molecul
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
RNA INTERFERENCE. Interfering RNA RNAi _ stage 2. In the cytoplasm of the cell_host, replication of the viral single_stranded...
RNA INTERFERENCE. Interfering RNA RNAi _ stage 2. In the cytoplasm of the cell_host, replication of the viral single_stranded RNA into double_stranded by RNA replicase RNA dependent RNA polymerase. The replication of the RNA occurs for the negative_stranded RNA viruses. Interfering RNA is a mean for the cell to destroy the RNA parasites viruses RNA, transposons. In the cytoplasm, proteins Dicer, visible here in background, then RISC, associated to a fragment of RNA RNA guide, link to the molecul
Stock Photo #1436R-361673,
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
 
Stock Photo #4128R-33957, EcoRV restriction enzyme. Molecular model of the type II restriction enzyme EcoRV (pink and yellow) bound to a cleaved section of DNA (deoxyribonucleic acid, red and blue). Restriction enzymes, also known as restriction endonucleases, recognise specific nucleotide sequences and cut the DNA at these sites. They are found in bacteria and archaea and are though to have evolved as a defence against viral infection. Type II restriction enzymes cut double stranded DNA. EcoRV is found in some strains o
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
EcoRV restriction enzyme. Molecular model of the type II restriction enzyme EcoRV (pink and yellow) bound to a cleaved sectio...
EcoRV restriction enzyme. Molecular model of the type II restriction enzyme EcoRV (pink and yellow) bound to a cleaved section of DNA (deoxyribonucleic acid, red and blue). Restriction enzymes, also known as restriction endonucleases, recognise specific nucleotide sequences and cut the DNA at these sites. They are found in bacteria and archaea and are though to have evolved as a defence against viral infection. Type II restriction enzymes cut double stranded DNA. EcoRV is found in some strains o
Stock Photo #824-86529, GENETICS RESEARCH. Photo essay. Institut Gustave_Roussy, in the French region of Ile_de_France. Clinical Biology Department. Molecular genetics workstation.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
GENETICS RESEARCH. Photo essay. Institut Gustave_Roussy, in the French region of Ile_de_France. Clinical Biology Department. ...
GENETICS RESEARCH. Photo essay. Institut Gustave_Roussy, in the French region of Ile_de_France. Clinical Biology Department. Molecular genetics workstation.
Stock Photo #4128R-33759, HP1 molecule C-terminal domain. Molecular model showing the structure of the C terminal (shadow chromo) domain of a heterochromatin protein 1 (HP1) molecule from a mouse. Heterochromatin is a tightly packaged form of DNA (deoxyribonucleic acid). HP1 proteins are highly conserved adapter proteins that have important functions in the cell nucleus. They are fundamental units of heterochromatin packaging that are found at the centromeres and telomeres of nearly all eukaryotic chromosomes. Members of
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
HP1 molecule C-terminal domain. Molecular model showing the structure of the C terminal (shadow chromo) domain of a heterochr...
HP1 molecule C-terminal domain. Molecular model showing the structure of the C terminal (shadow chromo) domain of a heterochromatin protein 1 (HP1) molecule from a mouse. Heterochromatin is a tightly packaged form of DNA (deoxyribonucleic acid). HP1 proteins are highly conserved adapter proteins that have important functions in the cell nucleus. They are fundamental units of heterochromatin packaging that are found at the centromeres and telomeres of nearly all eukaryotic chromosomes. Members of
Stock Photo #4128R-13910, Modafinil, molecular model. This stimulant drug is used to treat narcolepsy. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, oxygen red, nitrogen blue and sulphur yellow.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Modafinil, molecular model. This stimulant drug is used to treat narcolepsy. Atoms are represented as spheres and are colour_...
Modafinil, molecular model. This stimulant drug is used to treat narcolepsy. Atoms are represented as spheres and are colour_coded: carbon grey, hydrogen white, oxygen red, nitrogen blue and sulphur yellow.
Stock Photo #1830-54558, Test Tubes
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Test Tubes
Stock Photo #4128R-33814, Serum transferrin, molecular model. Transferrins are iron-binding glycoproteins found in blood plasma.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Serum transferrin, molecular model. Transferrins are iron-binding glycoproteins found in blood plasma.
Stock Photo #4297-1117, Computer generated three-dimensional ball and stick model of the amino acid, asparagine Carbon atoms are shown in light blue, nitrogen in dark blue, hydrogen in grey, and oxygen in white
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Computer generated three-dimensional ball and stick model of the amino acid, asparagine Carbon atoms are shown in light blue,...
Computer generated three-dimensional ball and stick model of the amino acid, asparagine Carbon atoms are shown in light blue, nitrogen in dark blue, hydrogen in grey, and oxygen in white
Stock Photo #4359-289, Sample Analysis
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Sample Analysis
Stock Photo #1843R-2816, Mapping of genetic bond in human body
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Mapping of genetic bond in human body
Stock Photo #4128R-33980, Reverse transcriptase and inhibitor. Molecular model of HIV reverse transcriptase complexed with a non-nucleoside reverse transcriptase inhibitor drug.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Reverse transcriptase and inhibitor. Molecular model of HIV reverse transcriptase complexed with a non-nucleoside reverse tra...
Reverse transcriptase and inhibitor. Molecular model of HIV reverse transcriptase complexed with a non-nucleoside reverse transcriptase inhibitor drug.
Stock Photo #4128R-33854, Anthrax oedema factor. Molecular model of oedema factor (EF) from the anthrax bacterium Bacillus antracis complexed with a calmodulin protein molecule. EF is one of three protein components that form the anthrax toxin. It is an enzyme that interferes with water homeostasis, leading to the accumulation of fluid in the tissues. Anthrax most commonly affects cattle, sheep and goats, but can also infect humans.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Anthrax oedema factor. Molecular model of oedema factor (EF) from the anthrax bacterium Bacillus antracis complexed with a ca...
Anthrax oedema factor. Molecular model of oedema factor (EF) from the anthrax bacterium Bacillus antracis complexed with a calmodulin protein molecule. EF is one of three protein components that form the anthrax toxin. It is an enzyme that interferes with water homeostasis, leading to the accumulation of fluid in the tissues. Anthrax most commonly affects cattle, sheep and goats, but can also infect humans.
Stock Photo #4378-2594, Cross section of a mitochondrion.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Cross section of a mitochondrion.
Stock Photo #4128R-33797, Xanthine dehydrogenase molecule. Molecular model of the Xanthine dehydrogenase (XDH) enzyme. XDH is an oxidoreductase enzyme that catalyses the last two steps in the formation of urate (uric acid) during purine metabolism.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Xanthine dehydrogenase molecule. Molecular model of the Xanthine dehydrogenase (XDH) enzyme. XDH is an oxidoreductase enzyme ...
Xanthine dehydrogenase molecule. Molecular model of the Xanthine dehydrogenase (XDH) enzyme. XDH is an oxidoreductase enzyme that catalyses the last two steps in the formation of urate (uric acid) during purine metabolism.
Stock Photo #1647R-229020, Five potted plants
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Five potted plants
Stock Photo #4128R-33713, Collagen-like molecule. Molecular model showing the triple helical structure of the collagen-like molecule T3-785.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Collagen-like molecule. Molecular model showing the triple helical structure of the collagen-like molecule T3-785.
Stock Photo #4128R-33767, Poliovirus particle, molecular model.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Poliovirus particle, molecular model.
Stock Photo #4325-589, Photo Illustration of Bacterial Culture
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Photo Illustration of Bacterial Culture
Stock Photo #4239R-7962, Microscopic view of bacteriophage attacking bacteria.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Microscopic view of bacteriophage attacking bacteria.
Stock Photo #4128R-33919, Para-hydroxybenzoate hydroxylase, molecular model. This flavoprotein enzyme is involved in the degradation of aromatic compounds.
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRoyalty Free ImageCalculate Image Price
Para-hydroxybenzoate hydroxylase, molecular model. This flavoprotein enzyme is involved in the degradation of aromatic compou...
Para-hydroxybenzoate hydroxylase, molecular model. This flavoprotein enzyme is involved in the degradation of aromatic compounds.
Stock Photo #1829-63479, Science of the Human Body
Product Tooltip Area
Add Image to LightboxAdd Photo to CartRights Managed ImageCalculate Image Price
Science of the Human Body

Next Page of Stock Images
Page 1 of 12
Previous Page of Stock Pictures


MOLECULAR BIOLOGY Stock Photos, MOLECULAR BIOLOGY Stock Photography Illustrations