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Reference: CSB-EP751944SKY_20
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Toxin that seems to act by forming pores in the membrane of the cell. Has a hemolytic and a leucotoxic activity.
Reference: CSB-EP751944SKY_100
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Toxin that seems to act by forming pores in the membrane of the cell. Has a hemolytic and a leucotoxic activity.
Reference: CSB-EP751944SKY_1
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Toxin that seems to act by forming pores in the membrane of the cell. Has a hemolytic and a leucotoxic activity.
Reference: CSB-YP319970AAC_20
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The A chain is responsible for inhibiting protein synthesis through the catalytic inactivation of 60S ribosomal subunits by removing adenine from position 4,324 of 28S rRNA. Abrin-a is more toxic than ricin.
The B...
Reference: CSB-YP319970AAC_100
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The A chain is responsible for inhibiting protein synthesis through the catalytic inactivation of 60S ribosomal subunits by removing adenine from position 4,324 of 28S rRNA. Abrin-a is more toxic than ricin.
The B...
Reference: CSB-YP319970AAC_1
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The A chain is responsible for inhibiting protein synthesis through the catalytic inactivation of 60S ribosomal subunits by removing adenine from position 4,324 of 28S rRNA. Abrin-a is more toxic than ricin.
The B...
Reference: CSB-EP319970AAC_20
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The A chain is responsible for inhibiting protein synthesis through the catalytic inactivation of 60S ribosomal subunits by removing adenine from position 4,324 of 28S rRNA. Abrin-a is more toxic than ricin.
The B...
Reference: CSB-EP319970AAC_100
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The A chain is responsible for inhibiting protein synthesis through the catalytic inactivation of 60S ribosomal subunits by removing adenine from position 4,324 of 28S rRNA. Abrin-a is more toxic than ricin.
The B...
Reference: CSB-EP319970AAC_1
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The A chain is responsible for inhibiting protein synthesis through the catalytic inactivation of 60S ribosomal subunits by removing adenine from position 4,324 of 28S rRNA. Abrin-a is more toxic than ricin.
The B...
Reference: CSB-EP320814AAD_20
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Actins are highly conserved proteins that are involved in various types of cell motility and are ubiquitously expressed in all eukaryotic cells.
Reference: CSB-EP320814AAD_100
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Actins are highly conserved proteins that are involved in various types of cell motility and are ubiquitously expressed in all eukaryotic cells.
Reference: CSB-EP320814AAD_1
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Actins are highly conserved proteins that are involved in various types of cell motility and are ubiquitously expressed in all eukaryotic cells.
Reference: CSB-EP301302DUS_20
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Ferredoxins are iron-sulfur proteins that transfer electrons in a wide variety of metabolic reactions.
Reference: CSB-EP301302DUS_100
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Ferredoxins are iron-sulfur proteins that transfer electrons in a wide variety of metabolic reactions.
Reference: CSB-EP301302DUS_1
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Ferredoxins are iron-sulfur proteins that transfer electrons in a wide variety of metabolic reactions.
Reference: CSB-YP523812AVW_20
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This methylase recognizes the double-stranded sequence GTGCAC, causes specific methylation on C-? on both strands, and protects the DNA from cleavage by the ApaLI endonuclease.
Reference: CSB-YP523812AVW_100
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This methylase recognizes the double-stranded sequence GTGCAC, causes specific methylation on C-? on both strands, and protects the DNA from cleavage by the ApaLI endonuclease.
Reference: CSB-YP523812AVW_500
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This methylase recognizes the double-stranded sequence GTGCAC, causes specific methylation on C-? on both strands, and protects the DNA from cleavage by the ApaLI endonuclease.
Reference: CSB-EP523812AVW_20
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This methylase recognizes the double-stranded sequence GTGCAC, causes specific methylation on C-? on both strands, and protects the DNA from cleavage by the ApaLI endonuclease.
Reference: CSB-EP523812AVW_100
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This methylase recognizes the double-stranded sequence GTGCAC, causes specific methylation on C-? on both strands, and protects the DNA from cleavage by the ApaLI endonuclease.
Reference: CSB-EP523812AVW_1
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This methylase recognizes the double-stranded sequence GTGCAC, causes specific methylation on C-? on both strands, and protects the DNA from cleavage by the ApaLI endonuclease.
Reference: CSB-EP431428ATX_20
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Transfers the 4'-phosphopantetheine moiety from coenzyme A to a Ser of acyl-carrier-protein
Reference: CSB-EP431428ATX_100
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Transfers the 4'-phosphopantetheine moiety from coenzyme A to a Ser of acyl-carrier-protein
Reference: CSB-EP431428ATX_1
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Transfers the 4'-phosphopantetheine moiety from coenzyme A to a Ser of acyl-carrier-protein
Reference: CSB-EP306078ABS_20
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May be involved in transporting molecules across the outer membrane.
Reference: CSB-EP306078ABS_100
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May be involved in transporting molecules across the outer membrane.
Reference: CSB-EP306078ABS_1
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May be involved in transporting molecules across the outer membrane.
Reference: CSB-EP761ABS_20
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Reference: CSB-EP761ABS_100
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Reference: CSB-EP761ABS_1
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Reference: CSB-YP025342AUD_20
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This protein promotes the GTP-dependent binding of aminoacyl-tRNA to the A-site of ribosomes during protein biosynthesis.
Reference: CSB-YP025342AUD_100
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This protein promotes the GTP-dependent binding of aminoacyl-tRNA to the A-site of ribosomes during protein biosynthesis.
Reference: CSB-YP025342AUD_500
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This protein promotes the GTP-dependent binding of aminoacyl-tRNA to the A-site of ribosomes during protein biosynthesis.
Reference: CSB-EP025342AUD_20
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This protein promotes the GTP-dependent binding of aminoacyl-tRNA to the A-site of ribosomes during protein biosynthesis.
Reference: CSB-EP025342AUD_100
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This protein promotes the GTP-dependent binding of aminoacyl-tRNA to the A-site of ribosomes during protein biosynthesis.
Reference: CSB-EP025342AUD_1
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This protein promotes the GTP-dependent binding of aminoacyl-tRNA to the A-site of ribosomes during protein biosynthesis.
Reference: CSB-YP387720AUD_20
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Porin. Induces apoptosis in human cells through caspases-dependent and AIF-dependent pathways. Purified Omp38 enters the cells and localizes to the mitochondria, which leads to a release of proapoptotic molecules such...
Reference: CSB-YP387720AUD_100
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Porin. Induces apoptosis in human cells through caspases-dependent and AIF-dependent pathways. Purified Omp38 enters the cells and localizes to the mitochondria, which leads to a release of proapoptotic molecules such...
Reference: CSB-YP387720AUD_500
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Porin. Induces apoptosis in human cells through caspases-dependent and AIF-dependent pathways. Purified Omp38 enters the cells and localizes to the mitochondria, which leads to a release of proapoptotic molecules such...
Reference: CSB-EP387720AUD_20
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Porin. Induces apoptosis in human cells through caspases-dependent and AIF-dependent pathways. Purified Omp38 enters the cells and localizes to the mitochondria, which leads to a release of proapoptotic molecules such...
Reference: CSB-EP387720AUD_100
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Porin. Induces apoptosis in human cells through caspases-dependent and AIF-dependent pathways. Purified Omp38 enters the cells and localizes to the mitochondria, which leads to a release of proapoptotic molecules such...
Reference: CSB-EP387720AUD_1
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Porin. Induces apoptosis in human cells through caspases-dependent and AIF-dependent pathways. Purified Omp38 enters the cells and localizes to the mitochondria, which leads to a release of proapoptotic molecules such...
Reference: CSB-EP460177AWOe1_20
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Catalyzes the hydrolysis of UDP-3-O-myristoyl-N-acetylglucosamine to form UDP-3-O-myristoylglucosamine and acetate, the committed step in lipid A biosynthesis.
Reference: CSB-EP460177AWOe1_100
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Catalyzes the hydrolysis of UDP-3-O-myristoyl-N-acetylglucosamine to form UDP-3-O-myristoylglucosamine and acetate, the committed step in lipid A biosynthesis.
Reference: CSB-EP460177AWOe1_1
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Catalyzes the hydrolysis of UDP-3-O-myristoyl-N-acetylglucosamine to form UDP-3-O-myristoylglucosamine and acetate, the committed step in lipid A biosynthesis.
Reference: CSB-EP460177AWO_20
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Catalyzes the hydrolysis of UDP-3-O-myristoyl-N-acetylglucosamine to form UDP-3-O-myristoylglucosamine and acetate, the committed step in lipid A biosynthesis.
Reference: CSB-EP460177AWO_100
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Catalyzes the hydrolysis of UDP-3-O-myristoyl-N-acetylglucosamine to form UDP-3-O-myristoylglucosamine and acetate, the committed step in lipid A biosynthesis.
Reference: CSB-EP460177AWO_1
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Catalyzes the hydrolysis of UDP-3-O-myristoyl-N-acetylglucosamine to form UDP-3-O-myristoylglucosamine and acetate, the committed step in lipid A biosynthesis.
Reference: CSB-EP357202AWW_20
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Catechol + O2 = cis,cis-muconate.
Reference: CSB-EP357202AWW_100
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Catechol + O2 = cis,cis-muconate.
Reference: CSB-EP357202AWW_1
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Catechol + O2 = cis,cis-muconate.
Reference: CSB-EP306913AWR_20
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Reference: CSB-EP306913AWR_100
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Reference: CSB-EP306913AWR_1
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Reference: CSB-EP351109ACN_20
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Pore-forming protein that forms cations-selective hydrophilic pores of around 1 nm and causes cardiac stimulation and hemolysis. Pore formation is a multi-step process that involves specific recognition of membrane...
Reference: CSB-EP351109ACN_100
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Pore-forming protein that forms cations-selective hydrophilic pores of around 1 nm and causes cardiac stimulation and hemolysis. Pore formation is a multi-step process that involves specific recognition of membrane...
Reference: CSB-EP351109ACN_1
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Pore-forming protein that forms cations-selective hydrophilic pores of around 1 nm and causes cardiac stimulation and hemolysis. Pore formation is a multi-step process that involves specific recognition of membrane...
Reference: CSB-EP2017AXF_20
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Reference: CSB-EP2017AXF_100
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Reference: CSB-EP2017AXF_1
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Reference: CSB-EP337389AXF_20
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Reference: CSB-EP337389AXF_100
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Reference: CSB-EP337389AXF_1
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Reference: CSB-EP333489ACY_20
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Catalyzes the hydrolysis of the palmitoyl moiety of the antifungal antibiotic, aculeacin-A, giving a hexapeptide moiety and a long chain fatty acid.
Reference: CSB-EP333489ACY_100
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Catalyzes the hydrolysis of the palmitoyl moiety of the antifungal antibiotic, aculeacin-A, giving a hexapeptide moiety and a long chain fatty acid.
Reference: CSB-EP333489ACY_1
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Catalyzes the hydrolysis of the palmitoyl moiety of the antifungal antibiotic, aculeacin-A, giving a hexapeptide moiety and a long chain fatty acid.
Reference: CSB-YP321587AXQ_20
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Thought to be involved in blood-feeding.
Reference: CSB-YP321587AXQ_100
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Thought to be involved in blood-feeding.
Reference: CSB-YP321587AXQ_500
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Thought to be involved in blood-feeding.
Reference: CSB-EP321587AXQ_20
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Thought to be involved in blood-feeding.
Reference: CSB-EP321587AXQ_100
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Thought to be involved in blood-feeding.
Reference: CSB-EP321587AXQ_1
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Thought to be involved in blood-feeding.
Reference: CSB-YP337004ADO_20
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Energy-transfer acceptor. Its role is to transduce the blue chemiluminescence of the protein aequorin into green fluorescent light by energy transfer. Fluoresces in vivo upon receiving energy from the Ca2+-activated...
Reference: CSB-YP337004ADO_100
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Energy-transfer acceptor. Its role is to transduce the blue chemiluminescence of the protein aequorin into green fluorescent light by energy transfer. Fluoresces in vivo upon receiving energy from the Ca2+-activated...
Reference: CSB-YP337004ADO_500
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Energy-transfer acceptor. Its role is to transduce the blue chemiluminescence of the protein aequorin into green fluorescent light by energy transfer. Fluoresces in vivo upon receiving energy from the Ca2+-activated...
Reference: CSB-EP337004ADOa2_20
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Energy-transfer acceptor. Its role is to transduce the blue chemiluminescence of the protein aequorin into green fluorescent light by energy transfer. Fluoresces in vivo upon receiving energy from the Ca2+-activated...
Reference: CSB-EP337004ADOa2_100
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Energy-transfer acceptor. Its role is to transduce the blue chemiluminescence of the protein aequorin into green fluorescent light by energy transfer. Fluoresces in vivo upon receiving energy from the Ca2+-activated...
Reference: CSB-EP337004ADOa2_1
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Energy-transfer acceptor. Its role is to transduce the blue chemiluminescence of the protein aequorin into green fluorescent light by energy transfer. Fluoresces in vivo upon receiving energy from the Ca2+-activated...
Reference: CSB-EP337004ADO_20
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Energy-transfer acceptor. Its role is to transduce the blue chemiluminescence of the protein aequorin into green fluorescent light by energy transfer. Fluoresces in vivo upon receiving energy from the Ca2+-activated...
Reference: CSB-EP337004ADO_100
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Energy-transfer acceptor. Its role is to transduce the blue chemiluminescence of the protein aequorin into green fluorescent light by energy transfer. Fluoresces in vivo upon receiving energy from the Ca2+-activated...
Reference: CSB-EP337004ADO_1
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Energy-transfer acceptor. Its role is to transduce the blue chemiluminescence of the protein aequorin into green fluorescent light by energy transfer. Fluoresces in vivo upon receiving energy from the Ca2+-activated...
Reference: CSB-EP517042AXW_20
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PPIases accelerate the folding of proteins. It catalyzes the cis-trans isomerization of proline imidic peptide bonds in oligopeptides. FkpA probably acts in the folding of extraCytoplasmic domain proteins.
Reference: CSB-EP517042AXW_100
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PPIases accelerate the folding of proteins. It catalyzes the cis-trans isomerization of proline imidic peptide bonds in oligopeptides. FkpA probably acts in the folding of extraCytoplasmic domain proteins.
Reference: CSB-EP517042AXW_1
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PPIases accelerate the folding of proteins. It catalyzes the cis-trans isomerization of proline imidic peptide bonds in oligopeptides. FkpA probably acts in the folding of extraCytoplasmic domain proteins.
Reference: CSB-EP367173AUH_20
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Reference: CSB-EP367173AUH_100
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Reference: CSB-EP367173AUH_1
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Reference: CSB-EP856653AXZ_20
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Directly involved in the toxicity for RTG-2 (rainbow trout gonad) fish cells.
Reference: CSB-EP856653AXZ_100
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Directly involved in the toxicity for RTG-2 (rainbow trout gonad) fish cells.
Reference: CSB-EP856653AXZ_1
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Directly involved in the toxicity for RTG-2 (rainbow trout gonad) fish cells.
Reference: CSB-YP324434ADX_20
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Essential for the replication of viral ssDNA. The closed circular ssDNA genome is first converted to a superhelical dsDNA. Rep binds a specific region at the genome origin of replication. It introduces an...
Reference: CSB-YP324434ADX_100
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Essential for the replication of viral ssDNA. The closed circular ssDNA genome is first converted to a superhelical dsDNA. Rep binds a specific region at the genome origin of replication. It introduces an...
Reference: CSB-YP324434ADX_500
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Essential for the replication of viral ssDNA. The closed circular ssDNA genome is first converted to a superhelical dsDNA. Rep binds a specific region at the genome origin of replication. It introduces an...
Reference: CSB-EP324434ADX_20
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Essential for the replication of viral ssDNA. The closed circular ssDNA genome is first converted to a superhelical dsDNA. Rep binds a specific region at the genome origin of replication. It introduces an...
Reference: CSB-EP324434ADX_100
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Essential for the replication of viral ssDNA. The closed circular ssDNA genome is first converted to a superhelical dsDNA. Rep binds a specific region at the genome origin of replication. It introduces an...
Reference: CSB-EP324434ADX_1
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Essential for the replication of viral ssDNA. The closed circular ssDNA genome is first converted to a superhelical dsDNA. Rep binds a specific region at the genome origin of replication. It introduces an...
Reference: CSB-EP717644AEC1_20
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