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Tetrahydrofolate riboswitches illustration
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Riboswitch illustration
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Riboswitch illustration
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SAM-SAH riboswitch molecular model The SAMAH riboswitch is a conserved RNA structure in certain bacteria that binds S-adenosylmethionine (SAM) and
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SAM-SAH riboswitch molecular model The SAMAH riboswitch is a conserved RNA structure in certain bacteria that binds S-adenosylmethionine (SAM) and
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THF (tetrahydrofolate) riboswitch aptamer domain molecular model THF serves to regulate the genes Atoms are represented as spheres and are colour-c
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THF (tetrahydrofolate) riboswitch aptamer domain molecular model THF serves to regulate the genes Atoms are represented as spheres and are colour-c
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Hepatitis C riboswitch-like complex Computer model showing a riboswitch-like structure of hepatitis C RNA (ribonucleic acid magenta orange) complex
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Hepatitis C riboswitch-like complex Computer model showing a riboswitch-like structure of hepatitis C RNA (ribonucleic acid magenta orange) complex
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FMN riboswitch complexed with inhibitor Computer model showing the structure of an FMN (flavin mononucleotide) riboswitch (magenta orange) complexed
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FMN riboswitch complexed with inhibitor Computer model showing the structure of an FMN (flavin mononucleotide) riboswitch (magenta orange) complexed
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Riboswitch sensing manganese ions Computer model showing the structure of a yybP-ykoY orphan riboswitch (green) from Lactococcus lactis with an affin
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Riboswitch sensing manganese ions Computer model showing the structure of a yybP-ykoY orphan riboswitch (green) from Lactococcus lactis with an affin
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ydaO-type riboswitch Computer model showing the structure of a ydaO-type riboswitch from Thermovirga lienii used in the recognition of c-di-AMP (mage
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ydaO-type riboswitch Computer model showing the structure of a ydaO-type riboswitch from Thermovirga lienii used in the recognition of c-di-AMP (mage
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SAM-I IV riboswitch aptamer domain
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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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Guanine riboswitch aptamer domain Computer model showing the structure of a guanine-responsive riboswitch (blue) with residues ACT and NCO (pink) co
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Guanine riboswitch aptamer domain Computer model showing the structure of a guanine-responsive riboswitch (blue) with residues ACT and NCO (pink) co
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Bacterial c-di-GMP riboswitch Computer model showing the structure of a bacterial riboswitch (pink) that senses c-di-GMP complexed with a small ribo
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Bacterial c-di-GMP riboswitch Computer model showing the structure of a bacterial riboswitch (blue red)) that senses c-di-GMP complexed with a smal
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Magnesium level sensing riboswitch Computer model showing the structure of a riboswitch able to sense the levels of magnesium ions Two magnesium ion
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Magnesium level sensing riboswitch Computer model showing the structure of a riboswitch able to sense the levels of magnesium ions Two magnesium ion
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Riboswitch sensing ribostamycin Computer model showing the structure of an engineered RNA (ribonucleic acid) riboswitch (green) sensing ribostamycin
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Riboswitch sensing ribostamycin Computer model showing the structure of an engineered RNA (ribonucleic acid) riboswitch (green) sensing ribostamycin
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Guanine-responsive riboswitch
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Guanine-responsive riboswitch
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GlmS ribozyme molecule
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Molecular model of the glmS ribozyme complexed with glucosamine-6-phosphate This molecule functions as both a ribozyme an RNA (ribonucleic acid) wit
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Guanine-responsive riboswitch
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Metal-sensing RNA molecule Molecular model of an M-box riboswitch a length of RNA (ribonucleic acid) that regulates levels of metal ions in a cell
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Molecular model of the bacterial glycine riboswitch This is an RNA element that can bind the amino acid glycine Glycine riboswitches usually consist
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Glycine riboswitch molecule
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Metal-sensing RNA molecule Molecular model of an M-box riboswitch a length of RNA (ribonucleic acid) that regulates levels of metal ions in a cell
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Guanine-responsive riboswitch molecular model This protein regulates gene expression by binding to the nucleotide guanine to switch off transcriptio
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Vitamin B1 (thiamine) molecule Stylized skeletal formula (chemical structure) Atoms are shown as color-coded circles with thick black outlines and b
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Vitamin B1 (thiamine) molecule Stylized skeletal formula (chemical structure) Atoms are shown as color-coded circles hydrogen (hidden) carbon (gre
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