Bacteriophage T7 Endonuclease I
نویسندگان
چکیده
منابع مشابه
Flap endonuclease of bacteriophage T7
Gene 6 protein of bacteriophage T7 has 5'-3'-exonuclease activity specific for duplex DNA. We have found that gene 6 protein also has flap endonuclease activity. The flap endonuclease activity is considerably weaker than the exonuclease activity. Unlike the human homolog of gene 6 protein, the flap endonuclease activity of gene 6 protein is dependent on the length of the 5'-flap. This dependenc...
متن کاملBacteriophage T7 endonuclease. I. Properties of the enzyme purified from T7 phage-infected Escherichia coli B.
An endonuclease activity present in extracts from Escherichia coli B infected with T7f phage has been purified 2500fold. This enzyme, T7 endonuclease I, is the product of gene 3, and its activity is maximal 7.5 min after infection at 37”. The activity is at least 100 times greater with single stranded DNA as substrate than with duplex DNA. The limit product obtained by digestion of single stran...
متن کاملHeteroduplex resolution using T7 endonuclease I in microbial community analyses.
Microbial community analyses using molecular techniques, such as PCR followed by genomic library construction, have been helpful in better understanding microbial communities. This is especially critical in ecological systems where most of the microbes present cannot be cultured using traditional techniques. Unfortunately, there are problems associated with the use of such molecular techniques ...
متن کاملThe mechanism of the amyloidogenic conversion of T7 endonuclease I.
Amyloid fibrils are associated with a range of human disorders. Understanding the conversion of amyloidogenic proteins from their soluble forms to amyloid fibrils is critical for developing effective therapeutics. Previously we showed that T7 endonuclease I forms amyloid-like fibrils. Here we study the mechanism of the amyloidogenic conversion of T7 endonuclease I. We show that T7 endonuclease ...
متن کاملRefactoring bacteriophage T7
Natural biological systems are selected by evolution to continue to exist and evolve. Evolution likely gives rise to complicated systems that are difficult to understand and manipulate. Here, we redesign the genome of a natural biological system, bacteriophage T7, in order to specify an engineered surrogate that, if viable, would be easier to study and extend. Our initial design goals were to p...
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ژورنال
عنوان ژورنال: Journal of Biological Chemistry
سال: 1971
ISSN: 0021-9258
DOI: 10.1016/s0021-9258(18)62551-7