Ajax loader

Search results for: biochemistry

Insulin Molecule, Animation
SS22488682
RF
Juan Gaertner/Science Source / Science Source
Insulin Molecule, Animation
Testosterone vs Ecdysterone, Molecular Model
SS22039193
RF
Juan Gaertner / Science Source
Testosterone vs Ecdysterone, Molecular Model
Glucose molecule (carbohydrate)
SS24303
RM
INTELECOM / Science Source
Glucose molecule (carbohydrate)
Enzyme binding
SS24267
RM
INTELECOM / Science Source
Enzyme binding
Activation energy enzyme demo
SS24261
RM
INTELECOM / Science Source
Activation energy enzyme demo
Enzymes catalyze chemical reactions
SS24258
RM
INTELECOM / Science Source
Enzymes catalyze chemical reactions
Enzymes catalyze chemical reactions with titles
SS24259
RM
INTELECOM / Science Source
Enzymes catalyze chemical reactions with titles
Chemical Reactions w/o enzymes
SS24256
RM
INTELECOM / Science Source
Chemical Reactions w/o enzymes
Cholesterol Molecules
SS22489055
RF
Juan Gaertner / Science Source
Cholesterol Molecules
Cholesterol Molecule, Animation
SS22488668
RF
Juan Gaertner/Science Source / Science Source
Cholesterol Molecule, Animation
Protease Inhibitor
SS2616151
RM
Leonard Lessin / Science Source
Protease Inhibitor
Cholesterol molecule (lipid)
SS24305
RM
INTELECOM / Science Source
Cholesterol molecule (lipid)
Myoglobin molecule (protein)
SS24301
RM
INTELECOM / Science Source
Myoglobin molecule (protein)
Enzyme binding: lock and key
SS24268
RM
INTELECOM / Science Source
Enzyme binding: lock and key
amino acid chain forms into enzyme
SS24264
RM
INTELECOM / Science Source
amino acid chain forms into enzyme
Glucose molecule
SS23960
RM
INTELECOM / Science Source
Glucose molecule
Glucose cycle (with titles)
SS23959
RM
INTELECOM / Science Source
Glucose cycle (with titles)
Nicotinamide and Urea Mixture, Polarized Light Microscopy
SS22618320
RM
Karl Gaff / Science Source
Nicotinamide and Urea Mixture, Polarized Light Microscopy
Close-up view of molecules, illustration
SS22602700
RM
Kateryna Kon / Science Source
Close-up view of molecules, illustration
Close-up view of molecules, illustration
SS22602687
RM
Kateryna Kon / Science Source
Close-up view of molecules, illustration
Close-up view of molecules, illustration
SS22602686
RM
Kateryna Kon / Science Source
Close-up view of molecules, illustration
Close-up view of molecules, illustration
SS22602633
RM
Kateryna Kon / Science Source
Close-up view of molecules, illustration
Close-up view of molecules, illustration
SS22602624
RM
Kateryna Kon / Science Source
Close-up view of molecules, illustration
Close-up view of molecules, illustration
SS22602623
RM
Kateryna Kon / Science Source
Close-up view of molecules, illustration
Close-up view of molecules, illustration
SS22602622
RM
Kateryna Kon / Science Source
Close-up view of molecules, illustration
Close-up view of molecules, illustration
SS22602609
RM
Kateryna Kon / Science Source
Close-up view of molecules, illustration
Plant Disease Research
SS22597291
RF
USDA-ARS/Keith Weller / Science Source
Plant Disease Research
Sodium Channel Transporting Sodium Ions Through Cell Membrane
SS22489134
RF
Juan Gaertner / Science Source
Sodium Channel Transporting Sodium Ions Through Cell Membrane
Voltage-gated Sodium Channel in the Open Conformation
SS22489133
RM
Juan Gaertner / Science Source
Voltage-gated Sodium Channel in the Open Conformation
RecBCD, Enzyme of E. coli
SS22489095
RM
Juan Gaertner / Science Source
RecBCD, Enzyme of E. coli
RecBCD, Enzyme of E. coli
SS22489070
RM
Juan Gaertner / Science Source
RecBCD, Enzyme of E. coli
Voltage-gated Sodium Channel in the Open Conformation
SS22489056
RM
Juan Gaertner / Science Source
Voltage-gated Sodium Channel in the Open Conformation
Mitotic Kinase NEK7 in Inactive and Active Forms
SS22488977
RM
Juan Gaertner / Science Source
Mitotic Kinase NEK7 in Inactive and Active Forms
Sodium Channel Transporting Sodium Ion, Animation
SS22488710
RM
Juan Gaertner/Science Source / Science Source
Sodium Channel Transporting Sodium Ion, Animation
Proteasome Degrading a Protein, Illustration
SS22015292
RF
Juan Gaertner / Science Source
Proteasome Degrading a Protein, Illustration
Chloride channels conducting chloride ions across a cell membrane
SS21862942
RF
Juan Gaertner / Science Source
Chloride channels conducting chloride ions across a cell membrane
Chloride channels on a cell membrane
SS21862898
RF
Juan Gaertner/Science Source / Science Source
Chloride channels on a cell membrane
Chloride channels on a cell membrane
SS21862887
RM
Juan Gaertner/Science Source / Science Source
Chloride channels on a cell membrane
2,3,4,5-Tetrahydro-1,5-methano-l H-3-benzazepine
SS21474461
RM
Spencer Sutton / Science Source
2,3,4,5-Tetrahydro-1,5-methano-l H-3-benzazepine
Opioid Receptor Embedded in a Membrane
SS21030445
RM
Greg Williams / Science Source
Opioid Receptor Embedded in a Membrane
Molecular Structure of Oxycodone
SS21029770
RM
Greg Williams / Science Source
Molecular Structure of Oxycodone
Molecular Structure of Oxycodone
SS21029769
RM
Greg Williams / Science Source
Molecular Structure of Oxycodone
Biological Structure of an Opioid Receptor Protein
SS21026947
RM
Greg Williams / Science Source
Biological Structure of an Opioid Receptor Protein
Opioid Receptor Membrane Protein
SS21026946
RM
Greg Williams / Science Source
Opioid Receptor Membrane Protein
Oxycodone model
SS2952970
RM
Greg Williams / Science Source
Oxycodone model
Hydrocodone model
SS2952965
RM
Greg Williams / Science Source
Hydrocodone model
Line Structure of Baricitinib
SS2881951
RM
Greg Williams / Science Source
Line Structure of Baricitinib
Ball-and-Stick Model of Baricitinib
SS2881950
RM
Greg Williams / Science Source
Ball-and-Stick Model of Baricitinib
Crystal Structure of apo-Cas9
SS2877943
RM
Greg Williams / Science Source
Crystal Structure of apo-Cas9
Ribbon Structure of Apo Cas9
SS2877942
RM
Greg Williams / Science Source
Ribbon Structure of Apo Cas9
Nuclease Lobe of Cas9
SS2877939
RM
Greg Williams / Science Source
Nuclease Lobe of Cas9
Structure of Black Mamba Toxin
SS2877938
RM
Greg Williams / Science Source
Structure of Black Mamba Toxin
Biuret Test for Proteins
SS2874620
RM
Turtle Rock Scientific / Science Source
Biuret Test for Proteins
Biuret Test for Proteins
SS2874619
RM
Turtle Rock Scientific / Science Source
Biuret Test for Proteins
Biuret Test for Proteins
SS2874618
RM
Turtle Rock Scientific / Science Source
Biuret Test for Proteins
Biuret Test for Proteins
SS2874617
RM
Turtle Rock Scientific / Science Source
Biuret Test for Proteins
Biuret Test for Proteins
SS2874616
RM
Turtle Rock Scientific / Science Source
Biuret Test for Proteins
Biuret Test for Proteins
SS2874615
RM
Turtle Rock Scientific / Science Source
Biuret Test for Proteins
Ferritin molecular model
SS2863514
RM
Greg Williams / Science Source
Ferritin molecular model
Phosphodiglycerides Membrane
SS2863503
RM
Greg Williams / Science Source
Phosphodiglycerides Membrane
Biuret test for proteins
SS2857342
RM
Turtle Rock Scientific / Science Source
Biuret test for proteins
Citric Acid
SS2836830
RM
M. I. Walker / Science Source
Citric Acid
Citric Acid
SS2836828
RM
M. I. Walker / Science Source
Citric Acid
Biochemist's Iontophoresis Membrane Experiment
SS2626760
RM
Paul Shambroom / Science Source
Biochemist's Iontophoresis Membrane Experiment
Gel with DNA Fragments after Electrophoresis
SS2626208
RM
National Cancer Institute / Science Source
Gel with DNA Fragments after Electrophoresis
Sphingomyelin
SS2616155
RM
Leonard Lessin / Science Source
Sphingomyelin
Reverse Transcriptase
SS2616152
RM
Leonard Lessin / Science Source
Reverse Transcriptase
Estradiol
SS2616153
RM
Leonard Lessin / Science Source
Estradiol
Cholesterol molecule (lipid)
SS2608263
RM
INTELECOM / Science Source
Cholesterol molecule (lipid)
Glucose molecule (carbohydrate)
SS2608262
RM
INTELECOM / Science Source
Glucose molecule (carbohydrate)
Myoglobin molecule (protein)
SS2608261
RM
INTELECOM / Science Source
Myoglobin molecule (protein)
Activation Energy (3 of 3)
SS2608234
RM
INTELECOM / Science Source
Activation Energy (3 of 3)
Activation Energy (2 of 3)
SS2608233
RM
INTELECOM / Science Source
Activation Energy (2 of 3)
Activation Energy (1 of 3)
SS2608232
RM
INTELECOM / Science Source
Activation Energy (1 of 3)
Vitamin B1, Molecular Model
SS2608111
RF
Evan Oto / Science Source
Vitamin B1, Molecular Model
Vitamin B1, Molecular Model
SS2608109
RF
Evan Oto / Science Source
Vitamin B1, Molecular Model
Vitamin B1, Molecular Model
SS2608108
RF
Evan Oto / Science Source
Vitamin B1, Molecular Model
Vitamin B1, Molecular Model
SS2608107
RF
Evan Oto / Science Source
Vitamin B1, Molecular Model
Vitamin B1, Molecular Model
SS2608105
RF
Evan Oto / Science Source
Vitamin B1, Molecular Model
Vitamin B1, Molecular Model
SS2608104
RF
Evan Oto / Science Source
Vitamin B1, Molecular Model
Mitosis LM, Blood Marrow Cells
SS2408760
RM
Biophoto Associates / Science Source
Mitosis LM, Blood Marrow Cells
Gel Electrophoresis of DNA
SS2399186
RM
Richard T. Nowitz / Science Source
Gel Electrophoresis of DNA
Myoglobin Molecule
SS2366210
RM
Leonard Lessin / Science Source
Myoglobin Molecule
Automated Crystal Screening System
SS2341908
RM
Southeast Collaboratory for Structural Genomics/NIGMS / Science Source
Automated Crystal Screening System
Reading biochemical reactions
SS2294060
RM
John Watney / Science Source
Reading biochemical reactions
Chemical warfare: mustard gas
SS2245836
RM
Kenneth Eward / BioGrafx / Science Source
Chemical warfare: mustard gas
Biosensor enzyme
SS2201651
RM
Kenneth Eward / BioGrafx / Science Source
Biosensor enzyme
DNA double helix
SS2187264
RM
Kenneth Eward / BioGrafx / Science Source
DNA double helix
B-DNA
SS2143262
RM
Kenneth Eward / Science Source
B-DNA
Molecular structure of water
SS2105323
RM
Kenneth Eward / BioGrafx / Science Source
Molecular structure of water
DNA double helix
SS287591
RM
Kenneth Eward / BioGrafx / Science Source
DNA double helix
DNA double helix
SS287589
RM
Kenneth Eward / BioGrafx / Science Source
DNA double helix
Rotating Computer Model of a Heparin Molecule
SS261894
RM
Science Source Video / Science Source
Rotating Computer Model of a Heparin Molecule
Rotating Computer Model of a Heparin Molecule
SS261893
RM
Science Source Video / Science Source
Rotating Computer Model of a Heparin Molecule
Rotating Computer Model of a Heparin Molecule
SS261892
RM
Science Source Video / Science Source
Rotating Computer Model of a Heparin Molecule
Rotating molecular model of the amino acid valine
SS234653
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid valine
Rotating molecular model of the amino acid valine
SS234651
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid valine
Rotating molecular model of the amino acid valine
SS234649
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid valine
Rotating molecular model of the amino acid tyrosine
SS234648
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid tyrosine
Rotating molecular model of the amino acid tyrosine
SS234645
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid tyrosine
Rotating molecular model of the amino acid tyrosine
SS234643
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid tyrosine
Rotating molecular model of the amino acid tryptophan
SS234642
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid tryptophan
Rotating molecular model of the amino acid tryptophan
SS234640
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid tryptophan
Rotating molecular model of the amino acid tryptophan
SS234636
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid tryptophan
Rotating molecular model of the amino acid threonine
SS234634
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid threonine
Rotating molecular model of the amino acid threonine
SS234635
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid threonine
Rotating molecular model of the amino acid threonine
SS234632
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid threonine
Rotating molecular model of the amino acid serine
SS234627
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid serine
Rotating molecular model of the amino acid serine
SS234626
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid serine
Rotating molecular model of the amino acid serine
SS234625
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid serine
Rotating molecular model of the amino acid selenocysteine
SS234624
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid selenocysteine
Rotating molecular model of the amino acid selenocysteine
SS234620
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid selenocysteine
Rotating molecular model of the amino acid proline
SS234619
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid proline
Rotating molecular model of the amino acid proline
SS234617
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid proline
Rotating molecular model of the amino acid proline
SS234616
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid proline
Rotating molecular model of the amino acid methionine
SS234608
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid methionine
Rotating molecular model of the amino acid methionine
SS234605
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid methionine
Rotating molecular model of the amino acid methionine
SS234602
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid methionine
Rotating molecular model of the amino acid lysine
SS234601
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid lysine
Rotating molecular model of the amino acid lysine
SS234600
RM
Scott Camazine / Science Source
Rotating molecular model of the amino acid lysine
Active Lightbox:
Open Lightboxes
Sort by
Display
Items per page
Page
of 186