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RNA codons illustration
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RNA codons illustration
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RNA codon table illustration
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RNA codon table illustration
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Illustration of the histone methyltransferase SET8 (green) in complex with the cofactor S-adenosyl-methionine (SAM red) bound to a nucleosome Nucleo
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Histone methylation molecular model
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Creatine capsiule isolated on white background Sport nutrition and supplement for bodybuilding concept 3d illustration
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Epigenetic modifications molecular model
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Molecular model of the disruptor of telomeric silencing 1-like (DOT1L mid blue) protein complexed with a histone (dark blue) Histones are proteins t
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Tomography) scan of an axial section of the brain of a person suffering untreated schizophrenia The use of the radioactive tracer methionine (an am
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DNA methyl transferase--1 and DNA illustration
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Molecular model of DNA methyl transferase-1 (DMNT1 blue) complexed with DNA (deoxyribonucleic acid orange) DMNT1 transfers a methyl group from S-ad
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Methyltransferase ribozyme RNA complex molecular model
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Methyltransferase ribozyme RNA complex molecular model The image shows a SAM-dependent methyltransferase ribozyme RNA (purple red) complexed with t
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Foot bacteria SEM
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Foot bacteria SEM
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Foot bacteria SEM
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Foot bacteria SEM
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Foot bacteria SEM
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Polarised light micrograph of crystalline Methionine Magnification x40 at 35mm size
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Foot bacteria SEM
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Foot bacteria SEM
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Methionine amino acid crystals light micrograph
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Methionine amino acid crystals light micrograph
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Methionine amino acid crystals light micrograph
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Methionine amino acid crystals light micrograph
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Methionine amino acid molecule Computer illustration showing the structure of a molecule of the amino acid methionine (C5H11NO2S) Atoms are repre
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Aspartic acid amino acid molecule Computer illustration showing the structure of a molecule of the amino acid aspartic acid (aspartate C4H7NO4) A
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Bacterial culture from a trainer SEM
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Series of 2 PET scans (positron emission tomography) of axial sections of the brain of a person suffering from a large cancerous tumour in the left ce
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Bacterial culture from a trainer SEM
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SAM-IIV variant riboswitch aptamer domain Computer model showing the structure of the SAM-IIV variant riboswitch aptamer domain (pink) with residue
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SAM-IIV variant riboswitch aptamer domain Computer model showing the structure of the SAM-IIV variant riboswitch aptamer domain (pink) with residue
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Sulphur crystal SEM
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Sulphur crystal SEM
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Sulphur from a volcanic steam vent SEM
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Coloured scanning electron micrograph (SEM) of Sulphur crystals from a volcano steam vent Shown here are sulphur crystal deposits on the surface of a
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Sulphur from a volcanic steam vent SEM
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Coloured scanning electron micrograph (SEM) of Sulphur crystals from a volcano steam vent Shown here are sulphur crystal deposits on the surface of a
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Series of eight PET scans (positron emission tomography) of axial sections through a normal human brain illustrating the gradual incorporation of a r
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Computer artwork of the molecule of N-Formylmethionine a proteinogenic non-standard amino acid that plays a crucial part in the protein synthesis of
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Computer artwork of the molecule of N-Formylmethionine a proteinogenic non-standard amino acid that plays a crucial part in the protein synthesis of
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Computer artwork of the molecule of N-Formylmethionine a proteinogenic non-standard amino acid that plays a crucial part in the protein synthesis of
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Computer artwork of Methionine an essential amino acid The human body is not able to manufacture it by itself That means that a constant blood seru
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Computer artwork of Methionine an essential amino acid The human body is not able to manufacture it by itself That means that a constant blood seru
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Computer artwork of Methionine an essential amino acid The human body is not able to manufacture it by itself That means that a constant blood seru
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Molecular model of Aspartic Acid or Aspartate (C4 H7 NO4) a negative charged non-essential and genetically coded amino acid which plays an importa
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Molecular model of Aspartic Acid or Aspartate (C4 H7 NO4) a negative charged non-essential and genetically coded amino acid which plays an importa
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Molecular model of Aspartic Acid or Aspartate (C4 H7 NO4) a negative charged non-essential and genetically coded amino acid which plays an importa
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Series of twelve PET scans (positron emission tomography) of axial sections through a normal human brain illustrating the gradual incorporation of a
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L-Carnitine food supplement molecule Chemical structure stick representation surrounded by a wireframe indication of the electrostatic potential Ato
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L-Carnitine food supplement molecule Chemical structure ball and stick representation Atoms are color-coded hydrogen (white) carbon (grey) nitrog
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L-Carnitine food supplement molecule Chemical structure stick representation surrounded by a wireframe indication of the electrostatic potential Thi
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Methionine Molecular model of the essential amino acid methionine (C5H11NO2S) This sulphur-containing alpha-amino acid is one of the amino acids
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Nirenbergs genetic codon table 1965
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Nirenbergs genetic codon table 1965-6
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Aspartic acid Molecular model of the amino acid aspartic acid (C4H7NO4) Structurally an alpha amino acid aspartic acid is a non-essential amino
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Methionine aminopeptidase molecular model This enzyme removes the amino acid methionine from proteins
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Methionine aminopeptidase molecular model This enzyme removes the amino acid methionine from proteins
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PET scan (positron emission tomography) of an axial section through a normal human brain PET scans are obtained by injecting a tracer labelled with a
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Stages of protein synthesis Illustration of the stages in protein synthesis in cells initiation (top) elongation (middle) and termination (bottom)
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Stages of protein synthesis Illustration of the stages in protein synthesis in cells initiation (top) elongation (middle) and termination (bottom)
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Brain in Alzheimers disease PET scan
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Glycine N-methyltransferase Molecular model of a glycine N-methyltransferase (GNMT) molecule complexed with S-adenosyl methionine and acetate GNMT i
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Glycine N-methyltransferase Molecular model of a glycine N-methyltransferase (GNMT) molecule complexed with S-adenosyl methionine and acetate GNMT i
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Carnitine molecular model Carnitine is responsible for the transport of fatty acids from a cells cytoplasm into mitochondria where they are oxidis
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L-carnitine SEM
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Enkephalin crystals light micrograph
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Enkephalin crystals light micrograph
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3D illustration of a methionine (C5H11NO2S) molecule Atoms are colour-coded carbon (grey) hydrogen (white) oxygen (red) nitrogen (blue) sulphur
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3D illustration of a methionine (C5H11NO2S) molecule Atoms are colour-coded carbon (grey) hydrogen (white) oxygen (red) nitrogen (blue) sulphur
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Vitamin U molecular model The chemical formula for vitamin U also called S-methylmethionine is C6H15NO2S Atoms are represented as rods and ar
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Vitamin U molecular model The chemical formula for vitamin U also called S-methylmethionine is C6H15NO2S Atoms are represented as spheres and
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Methionine Molecular model of the amino acid methionine Its chemical formula is C5H11NO2S Atoms are represented as rods and are colour- coded
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Methionine Molecular model of the amino acid methionine Its chemical formula is C5H11NO2S Atoms are represented as spheres and are colour- code
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L-carnitine SEM
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Carnitine crystals light micrograph
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Carnitine crystals light micrograph
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Carnitine crystals light micrograph
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Methionine Molecular model of the essential amino acid methionine (C5H11NO2S) This sulphur-containing alpha-amino acid is one of the amino acids
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Aspartic acid Molecular model of the amino acid aspartic acid (C4H7NO4) Structurally an alpha amino acid aspartic acid is a non-essential amino
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Beloranib obesity drug molecule Stylized skeletal formula (chemical structure) Atoms are shown as color-coded circles hydrogen (hidden) carbon (gr
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Beloranib obesity drug molecule Atoms are represented as spheres with conventional colour coding hydrogen (white) carbon (grey) oxygen (red) nitr
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Beloranib obesity drug molecule Atoms are represented as spheres with conventional colour coding hydrogen (white) carbon (grey) oxygen (red) nitr
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Beloranib obesity drug molecule Atoms are represented as spheres with conventional colour coding hydrogen (white) carbon (grey) oxygen (red) nitr
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Beloranib obesity drug molecule Atoms are represented as spheres with conventional colour coding hydrogen (white) carbon (black) oxygen (red) nit
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Acetyl hexapeptide-3 molecule
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Carnitine molecule chemical structure Often found in nutritional supplements Natural food sources include red meat and dairy products Atoms are re
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Methionine aminopeptidase molecular model This enzyme removes the amino acid methionine from proteins
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Methionine aminopeptidase molecular model This enzyme removes the amino acid methionine from proteins
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Methionine molecular model Essential alpha-amino acid Atoms are represented as spheres and are colour-coded carbon (grey) hydrogen (white) nitro
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Methionine molecular model Essential alpha-amino acid Atoms are represented as spheres and are colour-coded carbon (grey) hydrogen (blue-green)
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Aspartic acid molecule Alpha-amino acid nonessential in mammals Precursor to several amino acids including methionine threonine isoleucine and lys
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Methionine molecular model Essential alpha-amino acid Atoms are represented as spheres and are colour-coded carbon (grey) hydrogen (blue-green)
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Aspartic acid molecule Alpha-amino acid nonessential in mammals Precursor to several amino acids including methionine threonine isoleucine and lys
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Aspartic acid molecule Alpha-amino acid nonessential in mammals Precursor to several amino acids including methionine threonine isoleucine and lys
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RNA codons illustration
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RNA codons illustration
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RNA codon table illustration
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RNA codon table illustration
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